3900 & 5900 Series Base Station Cables(16)(PDF)-EN

3900 & 5900 Series Base Station Cables Issue 16 Date 2021-08-13 HUAWEI TECHNOLOGIES CO., LTD. Copyright © Huawei Technologies Co., Ltd. 2021. All rights reserved. No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd. Trademarks and Permissions and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd. All other trademarks and trade names mentioned in this document are the property of their respective holders. Notice The purchased products, services and features are stipulated by the contract made between Huawei and the customer. All or part of the products, services and features described in this document may not be within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information, and recommendations in this document are provided "AS IS" without warranties, guarantees or representations of any kind, either express or implied. The information in this document is subject to change without notice. Every effort has been made in the preparation of this document to ensure accuracy of the contents, but all statements, information, and recommendations in this document do not constitute a warranty of any kind, express or implied. Huawei Technologies Co., Ltd. Address: Huawei Industrial Base Bantian, Longgang Shenzhen 518129 People's Republic of China Website: https://www.huawei.com Email: support@huawei.com Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. i 3900 & 5900 Series Base Station Cables Contents Contents 1 3900 & 5900 Series Base Station Cables............................................................................ 1 1.1 Changes in 3900 & 5900 Series Base Station Cables.................................................................................................. 4 1.2 Cable List................................................................................................................................................................................. 23 1.2.1 BTS5900 Cable List............................................................................................................................................................ 23 1.2.2 BTS5900L Cable List..........................................................................................................................................................27 1.2.3 BTS5900A Cable List......................................................................................................................................................... 31 1.2.4 DBS5900 Cable List (BBU5900).................................................................................................................................... 47 1.2.5 BTS3900 Cable List............................................................................................................................................................ 51 1.2.5.1 BTS3900 (Ver.B) Cable List..........................................................................................................................................51 1.2.5.2 BTS3900 (Ver.C) Cable List..........................................................................................................................................59 1.2.5.3 BTS3900 (Ver.D) Cable List......................................................................................................................................... 66 1.2.6 BTS3900L Cable List..........................................................................................................................................................77 1.2.6.1 BTS3900L (Ver.B) Cable List....................................................................................................................................... 77 1.2.6.2 BTS3900L (Ver.C) Cable List....................................................................................................................................... 84 1.2.6.3 BTS3900L (Ver.D) Cable List....................................................................................................................................... 92 1.2.7 BTS3900A Cable List...................................................................................................................................................... 101 1.2.7.1 BTS3900A (Ver.B) Cable List.................................................................................................................................... 101 1.2.7.2 BTS3900A (Ver.C) Cable List.................................................................................................................................... 112 1.2.7.3 BTS3900A (Ver.D) Cable List.................................................................................................................................... 125 1.2.7.4 BTS3900A (Ver.E) Cable List.....................................................................................................................................139 1.2.7.5 BTS3900A (Ver.D_A2) Cable List.............................................................................................................................156 1.2.7.6 BTS3900A (Ver.D_A1) Cable List.............................................................................................................................162 1.2.7.7 BTS3900A (Ver.E_A2) Cable List............................................................................................................................. 168 1.2.7.8 BTS3900A (Ver.E_A1) Cable List............................................................................................................................. 176 1.2.8 BTS3900AL Cable List.................................................................................................................................................... 182 1.2.8.1 BTS3900AL (Ver.A) Cable List.................................................................................................................................. 183 1.2.9 DBS3900 Cable List........................................................................................................................................................ 200 1.2.10 BTS3900C Cable List.................................................................................................................................................... 205 1.2.10.1 BTS3900C WCDMA Cable List...............................................................................................................................205 1.2.10.2 BTS3900C (Ver.C) Cable List.................................................................................................................................. 212 1.3 Cable Connections.............................................................................................................................................................. 219 1.3.1 Power Cable Connections.............................................................................................................................................219 1.3.1.1 BTS5900 Power Cable Connections....................................................................................................................... 219 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. ii 3900 & 5900 Series Base Station Cables Contents 1.3.1.1.1 BTS3900 (Ver.E_A~D) Power Cable Connections...........................................................................................219 1.3.1.1.2 BTS5900 (Ver.A) Power Cable Connections.................................................................................................... 220 1.3.1.2 BTS5900L Power Cable Connections..................................................................................................................... 221 1.3.1.2.1 BTS3900L (Ver.E_B~D) Power Cable Connections.........................................................................................221 1.3.1.2.2 BTS5900L (Ver.A) Power Cable Connections.................................................................................................. 221 1.3.1.3 BTS5900A Power Cable Connections.................................................................................................................... 223 1.3.1.4 DBS5900 Power Cable Connections (BBU5900)............................................................................................... 233 1.3.1.4.1 Power Cable Connections in a DBS5900 Using the APM5930(AC)........................................................ 233 1.3.1.4.2 Power Cable Connections in a DBS5900 Using the APM5930(DC)........................................................245 1.3.1.4.3 Power Cable Connections in a DBS5900 Using the APM30H (Ver.E).................................................... 247 1.3.1.4.4 Power Cable Connections in a DBS5900 Using the TMC11H (Ver.E).....................................................255 1.3.1.4.5 Power Cable Connections in a DBS5900 Using the IBC10 (Ver.B).......................................................... 257 1.3.1.4.6 Power Cable Connections in a DBS5900 Using the IMB05........................................................................259 1.3.1.4.7 Power Cable Connections in a DBS5900 Using the ILC29 (Ver.E)........................................................... 260 1.3.1.5 DBS5900 Power Cable Connections (BBU5900A)............................................................................................ 262 1.3.1.6 BTS3900 Power Cable Connections....................................................................................................................... 263 1.3.1.6.1 BTS3900 (Ver.B) Power Cable Connections..................................................................................................... 264 1.3.1.6.2 BTS3900 (Ver.C) Power Cable Connections.....................................................................................................268 1.3.1.6.3 BTS3900 (Ver.D) Power Cable Connections.................................................................................................... 270 1.3.1.7 BTS3900L Power Cable Connections..................................................................................................................... 276 1.3.1.7.1 BTS3900L (Ver.B) Power Cable Connections...................................................................................................276 1.3.1.7.2 BTS3900L (Ver.C) Power Cable Connections...................................................................................................277 1.3.1.7.3 BTS3900L (Ver.D) Power Cable Connections.................................................................................................. 279 1.3.1.8 BTS3900A Power Cable Connections.................................................................................................................... 282 1.3.1.8.1 BTS3900A (Ver.B) Power Cable Connections.................................................................................................. 282 1.3.1.8.2 BTS3900A (Ver.C) Power Cable Connections.................................................................................................. 289 1.3.1.8.3 BTS3900A (Ver.D) Power Cable Connections..................................................................................................294 1.3.1.8.4 BTS3900A (Ver.E) Power Cable Connections.................................................................................................. 305 1.3.1.8.5 BTS3900A (Ver.D_A2) Power Cable Connections.......................................................................................... 317 1.3.1.8.6 BTS3900A (Ver.D_A1) Power Cable Connections.......................................................................................... 320 1.3.1.8.7 BTS3900A (Ver.E_A2) Power Cable Connections........................................................................................... 323 1.3.1.8.8 BTS3900A (Ver.E_A1) Power Cable Connections........................................................................................... 326 1.3.1.9 BTS3900AL Power Cable Connections.................................................................................................................. 328 1.3.1.9.1 BTS3900AL (Ver.A) Power Cable Connections............................................................................................... 329 1.3.1.10 DBS3900 Power Cable Connections (BBU3900 & BBU3910).....................................................................335 1.3.1.10.1 Power Cable Connections in a DBS3900 Using the MRE1000............................................................... 335 1.3.1.10.2 Power Cable Connections in a DBS3900 Using the APM30H (Ver.E).................................................. 339 1.3.1.10.3 Power Cable Connections in a DBS3900 Using the APM30H (Ver.D)................................................. 346 1.3.1.10.4 Power Cable Connections in a DBS3900 Using the APM30H (Ver.D_A2).......................................... 365 1.3.1.10.5 Power Cable Connections in a DBS3900 Using the APM30 (Ver.D_A1)............................................. 367 1.3.1.10.6 Power Cable Connections in a DBS3900 Using the APM30H (Ver.E_A2)...........................................369 1.3.1.10.7 Power Cable Connections in a DBS3900 Using the APM30 (Ver.E_A1).............................................. 372 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. iii 3900 & 5900 Series Base Station Cables Contents 1.3.1.10.8 Power Cable Connections in a DBS3900 Using the APM30H (Ver.B) or APM30H (Ver.C)...........374 1.3.1.10.9 Power Cable Connections in a DBS3900 Using the TMC11H (Ver.E).................................................. 388 1.3.1.10.10 Power Cable Connections in a DBS3900 Using the TMC11H (Ver.D)............................................... 390 1.3.1.10.11 Power Cable Connections in a DBS3900 Using the TMC11H (Ver.B) or TMC11H (Ver.C).........392 1.3.1.10.12 Power Cable Connections in a DBS3900 Using an OMB (Ver.C), OMB, or IMB03....................... 393 1.3.1.10.13 Power Cable Connections in a DBS3900 Using the IMB05...................................................................398 1.3.1.10.14 Power Cable Connections in a DBS3900 Using the TP48600A............................................................400 1.3.1.10.15 Power Cable Connections in a DBS3900 Using the IBC10.................................................................... 403 1.3.1.10.16 Power Cable Connections in a DBS3900 Using the ILC29 (Ver.E)...................................................... 406 1.3.1.11 Power Cable Connections in a DBS3900 Configured with a BBU3910A................................................407 1.3.1.12 BTS3900C Power Cable Connections.................................................................................................................. 410 1.3.1.12.1 BTS3900C WCDMA Power Cable Connections............................................................................................ 410 1.3.1.12.2 BTS3900C (Ver.C) Power Cable Connections................................................................................................412 1.3.2 Monitoring Signal Cable Connections..................................................................................................................... 415 1.3.2.1 BTS5900 Monitoring Signal Cable Connections................................................................................................ 415 1.3.2.1.1 BTS3900 (Ver.E_A~D) Monitoring Signal Cable Connections................................................................... 415 1.3.2.1.2 BTS5900 (Ver.A) Monitoring Signal Cable Connections............................................................................. 415 1.3.2.2 BTS5900L Monitoring Signal Cable Connections..............................................................................................416 1.3.2.2.1 BTS3900L (Ver.E_B~D) Monitoring Signal Cable Connections................................................................. 416 1.3.2.2.2 BTS5900L (Ver.A) Monitoring Signal Cable Connections........................................................................... 417 1.3.2.3 BTS5900A Monitoring Signal Cable Connections............................................................................................. 418 1.3.2.4 DBS5900 Monitoring Signal Cable Connections (BBU5900)........................................................................ 423 1.3.2.4.1 Monitoring Signal Cable Connections in a DBS5900 Using the APM5930(AC)................................. 423 1.3.2.4.2 Monitoring Signal Cable Connections in a DBS5900 Using the APM5930(DC).................................429 1.3.2.4.3 Monitoring Signal Cable Connections in a DBS5900 Using the APM30H (Ver.E)............................. 430 1.3.2.4.4 Monitoring Signal Cable Connections in a DBS5900 Using the TMC11H (Ver.E)............................. 437 1.3.2.4.5 Monitoring Signal Cable Connections in a DBS5900 Using the TMC11H (Ver.E)............................. 438 1.3.2.4.6 Monitoring Signal Cable Connections in a DBS5900 Using the IBC10 (Ver.B)................................... 439 1.3.2.4.7 Monitoring Signal Cable Connections in a DBS5900 Using the IMB05................................................ 441 1.3.2.4.8 Monitoring Signal Cable Connections in a DBS5900 Using the ILC29 (Ver.E).................................... 442 1.3.2.5 Monitoring Signal Cable Connections in a DBS5900 Using the BBU5900A............................................444 1.3.2.6 BTS3900 Monitoring Signal Cable Connections................................................................................................ 444 1.3.2.6.1 BTS3900 (Ver.B) Monitoring Signal Cable Connections..............................................................................445 1.3.2.6.2 BTS3900 (Ver.C) Monitoring Signal Cable Connections..............................................................................449 1.3.2.6.3 BTS3900 (Ver.D) Monitoring Signal Cable Connections............................................................................. 452 1.3.2.7 BTS3900L Monitoring Signal Cable Connections..............................................................................................457 1.3.2.7.1 BTS3900L (Ver.B) Monitoring Signal Cable Connections........................................................................... 457 1.3.2.7.2 BTS3900L (Ver.C) Monitoring Signal Cable Connections........................................................................... 459 1.3.2.7.3 BTS3900L (Ver.D) Monitoring Signal Cable Connections........................................................................... 460 1.3.2.8 BTS3900A Monitoring Signal Cable Connections............................................................................................. 463 1.3.2.8.1 BTS3900A (Ver.B) Monitoring Signal Cable Connections........................................................................... 463 1.3.2.8.2 BTS3900A (Ver.C) Monitoring Signal Cable Connections...........................................................................470 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. iv 3900 & 5900 Series Base Station Cables Contents 1.3.2.8.3 BTS3900A (Ver.D) Monitoring Signal Cable Connections.......................................................................... 478 1.3.2.8.4 BTS3900A (Ver.E) Monitoring Signal Cable Connections........................................................................... 484 1.3.2.8.5 BTS3900A (Ver.D_A2) Monitoring Signal Cable Connections................................................................... 489 1.3.2.8.6 BTS3900A (Ver.D_A1) Monitoring Signal Cable Connections................................................................... 492 1.3.2.8.7 BTS3900A (Ver.E_A2) Monitoring Signal Cable Connections.................................................................... 495 1.3.2.8.8 BTS3900A (Ver.E_A1) Monitoring Signal Cable Connections.................................................................... 499 1.3.2.9 BTS3900AL Monitoring Signal Cable Connections...........................................................................................503 1.3.2.9.1 BTS3900AL (Ver.A) Monitoring Signal Cable Connections........................................................................ 503 1.3.2.10 Monitoring Signal Cable Connections in the DBS3900 (Using a BBU3900 or BBU3910)................511 1.3.2.10.1 Monitoring Signal Cable Connections in a DBS3900 Using an MRE1000......................................... 511 1.3.2.10.2 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.E)...........................514 1.3.2.10.3 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.D).......................... 520 1.3.2.10.4 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.D_A2)...................534 1.3.2.10.5 Monitoring Signal Cable Connections in a DBS3900 Using the APM30 (Ver.D_A1)...................... 536 1.3.2.10.6 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.E_A2)....................539 1.3.2.10.7 Monitoring Signal Cable Connections in a DBS3900 Using the APM30 (Ver.E_A1).......................541 1.3.2.10.8 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.B) or APM30H (Ver.C)............................................................................................................................................................................................ 544 1.3.2.10.9 Monitoring Signal Cable Connections in a DBS3900 Using the TMC11H (Ver.E)........................... 550 1.3.2.10.10 Monitoring Cable Connections in a DBS3900 Using the TMC11H (Ver.D)..................................... 551 1.3.2.10.11 Monitoring Signal Cable Connections in a DBS3900 Using the TMC11H (Ver.B) or TMC11H (Ver.C)............................................................................................................................................................................................ 553 1.3.2.10.12 Monitoring Cable Connections in a DBS3900 Using an OMB (Ver.C), OMB, or IMB03............. 555 1.3.2.10.13 Monitoring Signal Cable Connections in a DBS5900 Using the IMB05............................................561 1.3.2.10.14 Monitoring Signal Cable Connections in a DBS3900 Using the TP48600A.................................... 562 1.3.2.10.15 Monitoring Signal Cable Connections in a DBS3900 Using the IBC10............................................. 564 1.3.2.10.16 Monitoring Signal Cable Connections in a DBS5900 Using the ILC29 (Ver.E)............................... 566 1.3.2.11 Monitoring Signal Cable Connections in a DBS3900 Using a BBU3910A............................................. 567 1.3.2.12 BTS3900C Monitoring Signal Cable Connections...........................................................................................569 1.3.2.12.1 BTS3900C WCDMA Monitoring Signal Cable Connections..................................................................... 569 1.3.2.12.2 BTS3900C (Ver.C) Monitoring Signal Cable Connections........................................................................ 571 1.3.3 BBU Interconnection Signal Cable Connections................................................................................................... 574 1.3.4 Transmission Cable Connections for 5900 Series Base Stations..................................................................... 576 1.3.4.1 Transmission Cable Connections in a Single-Mode Base Station............................................................... 576 1.3.4.2 Transmission Cable Connections in a Dual-Mode Base Station.................................................................. 577 1.3.4.3 Transmission Cable Connections in a Triple-Mode Base Station................................................................ 581 1.3.4.4 Transmission Cable Connections in a Quadruple-Mode Base Station...................................................... 583 1.3.5 Transmission Cable Connections for 3900 Series Base Stations..................................................................... 584 1.3.5.1 Transmission Cable Connections in a Single-Mode Base Station............................................................... 584 1.3.5.2 Transmission Cable Connections in a Dual-Mode Base Station Using Co-Transmission.................... 595 1.3.5.3 Transmission Cable Connections in a Dual-Mode Base Station Using Separate Transmission........ 612 1.3.5.4 Transmission Cable Connections in a Triple-Mode Base Station................................................................ 622 1.3.5.5 Transmission Cable Connections in a Quadruple-Mode Base Station...................................................... 627 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. v 3900 & 5900 Series Base Station Cables Contents 1.3.6 CPRI Cable Connections for 5900 Series Base Stations..................................................................................... 629 1.3.6.1 CPRI Cable Connections in a GSM Base Station............................................................................................... 629 1.3.6.2 CPRI Cable Connections in a UMTS Base Station.............................................................................................631 1.3.6.3 CPRI Cable Connections in LTE FDD and LTE TDD Base Stations............................................................... 634 1.3.6.4 CPRI/eCPRI Cable Connections in an NR Base Station................................................................................... 637 1.3.6.5 CPRI Cable Connections in GU and G*U Base Stations.................................................................................. 640 1.3.6.6 CPRI Cable Connections in GL and G*L Base Stations.................................................................................... 643 1.3.6.7 CPRI Cable Connections in UL and U*L Base Stations.................................................................................... 646 1.3.6.8 CPRI Cable Connections in a Triple-Mode Base Station.................................................................................649 1.3.6.9 CPRI Cable Connections in a Quadruple-Mode Base Station.......................................................................656 1.3.7 CPRI Cable Connections for 3900 Series Base Stations..................................................................................... 658 1.3.7.1 CPRI Cable Connections in a GSM Base Station............................................................................................... 658 1.3.7.2 CPRI Cable Connections in a UMTS Base Station.............................................................................................663 1.3.7.3 CPRI Cable Connections in an LTE FDD/LTE TDD Base Station................................................................... 667 1.3.7.4 CPRI Cable Connections in GU and G*U Base Stations.................................................................................. 671 1.3.7.5 CPRI Cable Connections in GL and G*L Base Stations.................................................................................... 678 1.3.7.6 CPRI Cable Connections in UL and U*L Base Stations.................................................................................... 686 1.3.7.7 CPRI Cable Connections in a Triple-Mode Base Station.................................................................................693 1.3.7.8 CPRI Cable Connections in a Quadruple-Mode Base Station.......................................................................709 1.3.8 RF Cable Connections.................................................................................................................................................... 712 1.3.8.1 RF Cable Connection Description........................................................................................................................... 712 1.3.8.2 RF Cable Connections for the DRFU..................................................................................................................... 716 1.3.8.3 RF Cable Connections for the GRFU..................................................................................................................... 717 1.3.8.4 RF Cable Connections for the WRFU.................................................................................................................... 718 1.3.8.5 RF Cable Connections for the WRFUa.................................................................................................................. 719 1.3.8.6 RF Cable Connections for the WRFUd..................................................................................................................720 1.3.8.7 RF Cable Connections for the WRFUe.................................................................................................................. 721 1.3.8.8 RF Cable Connections for the LRFU...................................................................................................................... 722 1.3.8.9 RF Cable Connections for the LRFUe.................................................................................................................... 722 1.3.8.10 RF Cable Connections for the MRFU.................................................................................................................. 723 1.3.8.11 RF Cable Connections for the MRFUd............................................................................................................... 724 1.3.8.12 RF Cable Connections for the MRFUe................................................................................................................725 1.3.8.13 RF Cable Connections for the CRFUd................................................................................................................. 726 1.3.8.14 RF Cable Connections for the CRFUe................................................................................................................. 727 1.3.8.15 RF Cable Connections for Mixed RFU Configuration.................................................................................... 728 1.4 PGND Cable.......................................................................................................................................................................... 730 1.5 Equipotential Cable............................................................................................................................................................735 1.6 Power Cables........................................................................................................................................................................ 737 1.6.1 Power Cables for Power Supply Devices................................................................................................................. 737 1.6.1.1 DCDU Power Cables................................................................................................................................................... 737 1.6.1.1.1 DCDU-01 Power Cable........................................................................................................................................... 737 1.6.1.1.2 DCDU-03B Power Cable.........................................................................................................................................739 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. vi 3900 & 5900 Series Base Station Cables Contents 1.6.1.1.3 DCDU-03C Power Cable.........................................................................................................................................740 1.6.1.1.4 DCDU-11A Power Cable........................................................................................................................................ 742 1.6.1.1.5 DCDU-11B Power Cable.........................................................................................................................................744 1.6.1.1.6 DCDU-11C Power Cable.........................................................................................................................................745 1.6.1.1.7 DCDU-12A Power Cable........................................................................................................................................ 747 1.6.1.1.8 DCDU-12B Power Cable.........................................................................................................................................749 1.6.1.1.9 DCDU-12C Power Cable.........................................................................................................................................752 1.6.1.1.10 DCDU-13A Power Cable...................................................................................................................................... 755 1.6.1.1.11 Power Cable Between Cascaded DCDU-13As.............................................................................................. 756 1.6.1.1.12 DCDU15D Power Cable....................................................................................................................................... 757 1.6.1.1.13 DCDU16D Power Cable....................................................................................................................................... 758 1.6.1.2 EPU/EPS/ETP Power Cables......................................................................................................................................760 1.6.1.2.1 EPS 01A or EPS 01C Power Cable....................................................................................................................... 760 1.6.1.2.2 EPS 01B or EPS 01D Power Cable.......................................................................................................................762 1.6.1.2.3 EPU03A-02 or EPU03A-04 Power Cable...........................................................................................................764 1.6.1.2.4 EPU03A-03 or EPU03A-05 Power Cable...........................................................................................................766 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable...........................................................................................................768 1.6.1.2.6 EPU05A-03 or EPU05A-05 Power Cable...........................................................................................................770 1.6.1.2.7 EPU05A-06 or EPU05A-08 Power Cable...........................................................................................................772 1.6.1.2.8 EPU05A-07 or EPU05A-09 Power Cable...........................................................................................................774 1.6.1.2.9 EPU05A-11 or EPU05A-12 Power Cable...........................................................................................................776 1.6.1.2.10 EPU02D/EPU02D-02/EPU02B/EPU02S/EPU02S-02 Power Cable..........................................................778 1.6.1.2.11 EPU03A-21 Power Cable..................................................................................................................................... 782 1.6.1.2.12 ETP48100-A1 Power Cable................................................................................................................................. 783 1.6.1.2.13 ETP48100-B1 Power Cable................................................................................................................................. 784 1.6.1.2.14 EPS30-4815AF Power Cable............................................................................................................................... 784 1.6.1.2.15 EPS4890 Power Cable...........................................................................................................................................785 1.6.1.2.16 EPS24S48100DC Power Cable........................................................................................................................... 787 1.6.1.2.17 ETP48400 Power Cable........................................................................................................................................ 788 1.6.1.2.18 ETP48150-A3 Power Cable................................................................................................................................. 788 1.6.1.3 PDU Power Cables....................................................................................................................................................... 790 1.6.1.3.1 PDU10D-01 Power Cable...................................................................................................................................... 790 1.6.1.3.2 PDU05A-01 Power Cable....................................................................................................................................... 791 1.6.1.3.3 PDU03D-01 Power Cable...................................................................................................................................... 793 1.6.1.3.4 PDU08H-01 Power Cable...................................................................................................................................... 795 1.6.1.3.5 HSMU Power Cable for the PDU08H-01..........................................................................................................796 1.6.1.4 Power Cables for Other Power Supply Devices................................................................................................. 796 1.6.1.4.1 Power Cable for a Junction Box.......................................................................................................................... 796 1.6.1.4.2 PMU 15A Power Cable........................................................................................................................................... 798 1.6.1.4.3 Power Cable for a Power Distribution Box...................................................................................................... 799 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC........................................................................................... 803 1.6.1.4.5 Power Cable for the DC Junction Box in a BTS3900AL............................................................................... 805 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. vii 3900 & 5900 Series Base Station Cables Contents 1.6.1.4.6 Power Cables Between Cascaded DC Junction Boxes in Different IBBS300Ds/IBBS300Ts/ BBC5300Ds/BBC5300Ts............................................................................................................................................................806 1.6.1.4.7 Power Cable Between Cascaded IBBS20Ds..................................................................................................... 808 1.6.1.4.8 IBBS20L Power Cable and Power Cable Between Cascaded IBBS20Ls.................................................. 808 1.6.1.4.9 IBBS20L-E Power Cable.......................................................................................................................................... 809 1.6.1.4.10 APM30 Input Power Cable..................................................................................................................................810 1.6.1.4.11 TMC Input Power Cable.......................................................................................................................................811 1.6.1.4.12 TMC11H Input Power Cable.............................................................................................................................. 813 1.6.1.4.13 Storage Battery Power Cable............................................................................................................................. 815 1.6.1.4.14 Lithium Battery Activation Cable..................................................................................................................... 821 1.6.2 Power Cables for Monitoring Devices...................................................................................................................... 822 1.6.2.1 CMUEA Power Cable.................................................................................................................................................. 822 1.6.2.2 CMUF Power Cable..................................................................................................................................................... 823 1.6.2.3 CMUG Power Cable.................................................................................................................................................... 824 1.6.2.4 CCU Power Cable......................................................................................................................................................... 825 1.6.2.5 CCU01D-03 Power Cable.......................................................................................................................................... 826 1.6.2.6 HEUA Power Cable...................................................................................................................................................... 826 1.6.2.7 HEUB Power Cable...................................................................................................................................................... 827 1.6.3 Power Cables for Temperature Control Devices................................................................................................... 828 1.6.3.1 Power Cables for Fan Assemblies.......................................................................................................................... 828 1.6.3.1.1 FAN Power Cable...................................................................................................................................................... 828 1.6.3.1.2 FAN 01A Power Cable.............................................................................................................................................829 1.6.3.1.3 FAN 01B Power Cable............................................................................................................................................. 829 1.6.3.1.4 FAN 01C Power Cable............................................................................................................................................. 830 1.6.3.1.5 FAN 01D Power Cable............................................................................................................................................ 831 1.6.3.1.6 FAN 02A Power Cable.............................................................................................................................................832 1.6.3.1.7 FAN 02B Power Cable............................................................................................................................................. 833 1.6.3.1.8 FAN 02D Power Cable............................................................................................................................................ 834 1.6.3.1.9 FAN 03B Power Cable............................................................................................................................................. 835 1.6.3.1.10 FAN 03C Power Cable.......................................................................................................................................... 836 1.6.3.1.11 FAN 02E Power Cable...........................................................................................................................................837 1.6.3.1.12 FAN02G Power Cable........................................................................................................................................... 838 1.6.3.1.13 FAN02H Power Cable........................................................................................................................................... 839 1.6.3.1.14 FAU03D-03 Power Cable..................................................................................................................................... 840 1.6.3.1.15 FAU03D-02 Power Cable..................................................................................................................................... 841 1.6.3.1.16 FAU03D-01 Power Cable..................................................................................................................................... 842 1.6.3.1.17 FAU02D-15 Power Cable..................................................................................................................................... 842 1.6.3.1.18 FAU01D-05 Power Cable..................................................................................................................................... 843 1.6.3.1.19 FAN 03D Power Cable.......................................................................................................................................... 844 1.6.3.2 Transfer Power Cable for the Fan Assembly.......................................................................................................845 1.6.3.3 Power Cable for an AC Heater................................................................................................................................ 845 1.6.3.4 Power Cable for a Heating Film............................................................................................................................. 847 1.6.3.5 Power Cables for the Temperature Control System.........................................................................................848 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. viii 3900 & 5900 Series Base Station Cables Contents 1.6.3.6 HAU01A-01 Power Cable.......................................................................................................................................... 849 1.6.3.7 HAU03A-02 Power Cable.......................................................................................................................................... 850 1.6.3.8 Fan Power Cables in an IBBS200D.........................................................................................................................851 1.6.3.9 BBC5200D Fan/BBC5200D-L Fan/BBC5200T TEC/BBC5200T-L Air Conditioner Power Cable.......... 854 1.6.3.10 Fan Power Cables in an IBBS300D...................................................................................................................... 856 1.6.3.11 BBC5300D Fan or BBC5300T TEC Power Cable.............................................................................................. 857 1.6.3.12 TEC Power Cables in an IBBS200T.......................................................................................................................858 1.6.3.13 TEC Power Cables in an IBBS300T.......................................................................................................................861 1.6.3.14 Power Cable for a Heat Exchanger in the Front Door................................................................................. 862 1.6.4 Power Cables for Other Devices................................................................................................................................ 863 1.6.4.1 EMUA or EMUB Power Cable.................................................................................................................................. 863 1.6.4.2 BBU Power Cable......................................................................................................................................................... 866 1.6.4.3 RFU Power Cable......................................................................................................................................................... 872 1.6.4.4 RRU Power Cable......................................................................................................................................................... 874 1.6.4.5 SOU Power Cable........................................................................................................................................................ 878 1.6.4.6 SPD Power Cable......................................................................................................................................................... 878 1.6.4.7 Power Cable for an AC Surge Protection Box.................................................................................................... 879 1.6.4.8 Power Cable for the AC Power Distribution Box in the MRE1000..............................................................880 1.6.4.9 GATM Power Cable..................................................................................................................................................... 881 1.6.4.10 ODM06D Power Cable............................................................................................................................................ 884 1.7 Transmission Cables........................................................................................................................................................... 885 1.7.1 E1/T1 Cable....................................................................................................................................................................... 885 1.7.2 E1/T1 Surge Protection Transfer Cable.................................................................................................................... 888 1.7.3 FE/GE Optical Fiber........................................................................................................................................................ 890 1.7.4 Interconnection Cable Between FE/GE Electrical Ports......................................................................................891 1.7.5 Interconnection Cable Between FE/GE Optical Ports......................................................................................... 891 1.7.6 FE/GE Ethernet Cable.................................................................................................................................................... 891 1.7.7 FE/GE Surge Protection Transfer Cable................................................................................................................... 892 1.8 Signal Cables........................................................................................................................................................................ 893 1.8.1 Signal Cables for Power Devices................................................................................................................................ 893 1.8.1.1 PMU-CCU Monitoring Signal Cable...................................................................................................................... 894 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable.......................................................................................................894 1.8.1.3 PMU 01B-BBU Monitoring Signal Cable............................................................................................................. 895 1.8.1.4 PMU 11A-BBU Monitoring Signal Cable............................................................................................................. 896 1.8.1.5 PMU 12A-BBU Monitoring Signal Cable............................................................................................................. 897 1.8.1.6 PMU 15A-BBU Monitoring Signal Cable............................................................................................................. 898 1.8.1.7 PMU-CMUA Monitoring Signal Cable.................................................................................................................. 899 1.8.1.8 PMU-CMUE Monitoring Signal Cable.................................................................................................................. 900 1.8.1.9 EPU02D or EPU02D-02 Monitoring Signal Cable.............................................................................................901 1.8.1.10 Monitoring Signal Cable for the AC Power Distribution Box in an MRE1000..................................... 903 1.8.1.11 HSMU Monitoring Signal Cable for the PDU08H-01................................................................................... 903 1.8.1.12 PMU 11A-HEUB Monitoring Signal Cable........................................................................................................ 904 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. ix 3900 & 5900 Series Base Station Cables Contents 1.8.1.13 PMIU-CCUB Monitoring Signal Cable................................................................................................................ 905 1.8.1.14 PMIU-CCUC Monitoring Signal Cable................................................................................................................ 906 1.8.1.15 PMID-CCUC Monitoring Signal Cable................................................................................................................ 907 1.8.1.16 Surge Protection Alarm Cable for the DCDU-13A......................................................................................... 908 1.8.1.17 Alarm Signal Cable for the DCDU-03B.............................................................................................................. 908 1.8.1.18 PSU (EPW25-24S48D) Monitoring Signal Cable............................................................................................ 909 1.8.1.19 PSU (EPW25-24S48D) In-Position Signal Cable............................................................................................. 910 1.8.1.20 Monitoring Signal Cable for the Power Distribution Box in an IBBS20D.............................................. 911 1.8.1.21 IBBS20L Monitoring Signal Cable........................................................................................................................ 912 1.8.1.22 Monitoring Signal Cable Between Cascaded IBBS20Ls................................................................................913 1.8.1.23 IBBS20L-E Monitoring Signal Cable.................................................................................................................... 914 1.8.1.24 Monitoring Signal Cable for the Lithium Battery.......................................................................................... 915 1.8.1.25 Temperature Monitoring Signal Cable for the Batteries............................................................................. 916 1.8.1.26 OPM50M-CMUG Monitoring Signal Cable...................................................................................................... 916 1.8.2 Signal Cables for Monitoring Devices...................................................................................................................... 917 1.8.2.1 PMU-HEUA Monitoring Signal Cable................................................................................................................... 917 1.8.2.2 APMI-BBU Monitoring Signal Cable..................................................................................................................... 918 1.8.2.3 CMUA-BBU Monitoring Signal Cable................................................................................................................... 919 1.8.2.4 CCUB-BBU Monitoring Signal Cable..................................................................................................................... 920 1.8.2.5 CCUC-BBU Monitoring Signal Cable..................................................................................................................... 921 1.8.2.6 CMUE-BBU Monitoring Signal Cable.................................................................................................................... 922 1.8.2.7 CMUEA-BBU Monitoring Signal Cable................................................................................................................. 923 1.8.2.8 Signal Cable for Connecting Cascaded CCUs..................................................................................................... 924 1.8.2.9 CCU-BBU Monitoring Signal Cable........................................................................................................................925 1.8.2.10 Monitoring Signal Cable Between Cascaded CMUAs................................................................................... 925 1.8.2.11 Monitoring Signal Cable Between Cascaded CMUEs................................................................................... 926 1.8.2.12 Monitoring Signal Cable Between Cascaded CMUGs...................................................................................927 1.8.2.13 Monitoring Signal Cable Between Cascaded CMUEAs................................................................................ 928 1.8.2.14 Monitoring Signal Cable Between Cascaded CCU01D-03s........................................................................ 929 1.8.2.15 Signal Cable Between Cascaded HAU01A-01s............................................................................................... 930 1.8.2.16 HEUB-BBU Monitoring Signal Cable.................................................................................................................. 931 1.8.2.17 HEUA-BBU Monitoring Signal Cable.................................................................................................................. 932 1.8.2.18 HPMI-PMU Monitoring Signal Cable................................................................................................................. 933 1.8.2.19 CMUEA-CCU Monitoring Signal Cable.............................................................................................................. 935 1.8.2.20 CMUF-CCU Monitoring Signal Cable................................................................................................................. 936 1.8.2.21 Monitoring Signal Cable for the CMUG............................................................................................................ 937 1.8.2.22 Monitoring Signal Cable Between Cascaded CMUHs.................................................................................. 939 1.8.2.23 CMUH-CCUB Monitoring Signal Cable.............................................................................................................. 940 1.8.2.24 CMUH-CCUC Monitoring Signal Cable..............................................................................................................941 1.8.2.25 CCUB-CMUH Monitoring Signal Cable..............................................................................................................942 1.8.2.26 CCUC-CMUH Monitoring Signal Cable.............................................................................................................. 942 1.8.2.27 Monitoring Signal Cable Between Cascaded CCUBs.................................................................................... 943 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. x 3900 & 5900 Series Base Station Cables Contents 1.8.2.28 Monitoring Signal Cable Between Cascaded CCUCs.................................................................................... 944 1.8.2.29 FMUC-BBU Monitoring Signal Cable..................................................................................................................945 1.8.2.30 FMUE-BBU Monitoring Signal Cable.................................................................................................................. 946 1.8.2.31 FMUEA-BBU Monitoring Signal Cable............................................................................................................... 947 1.8.2.32 WIUA Monitoring Signal Cable............................................................................................................................ 948 1.8.2.33 eBat Monitoring Signal Cable............................................................................................................................... 949 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet.............................................................................................. 950 1.8.2.35 BBU Alarm Cable....................................................................................................................................................... 951 1.8.3 Signal Cables for Temperature Control Devices................................................................................................... 955 1.8.3.1 Monitoring Signal Cable Between Cascaded Fan Assemblies......................................................................956 1.8.3.2 FAU02D-15 Monitoring Signal Cable................................................................................................................... 957 1.8.3.3 FAN 03D Monitoring Signal Cable.........................................................................................................................958 1.8.3.4 FAU03D-01 Monitoring Signal Cable................................................................................................................... 959 1.8.3.5 FAU03D-02 Monitoring Signal Cable................................................................................................................... 960 1.8.3.6 Monitoring Signal Cable Between Cascaded FANs.......................................................................................... 961 1.8.3.7 HEUB-FAU01D-01 Monitoring Signal Cable...................................................................................................... 962 1.8.3.8 Monitoring Signal Cable Between Cascaded FAN 03B Units....................................................................... 962 1.8.3.9 Monitoring Signal Cable Between Cascaded FAN 03C Units....................................................................... 963 1.8.3.10 Monitoring Signal Cable for the OMB Fan Assembly...................................................................................964 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor..................................................................................965 1.8.3.12 HAU01A-01 Monitoring Signal Cable................................................................................................................ 967 1.8.3.13 HAU03A-02 Monitoring Signal Cable................................................................................................................ 969 1.8.3.14 Monitoring Signal Transfer Cables for Fans in Front Doors....................................................................... 970 1.8.3.15 Monitoring Signal Cable for the Heat Exchanger.......................................................................................... 971 1.8.3.16 Monitoring Signal Transfer Cable for the Fan at the Top of a Cabinet..................................................972 1.8.3.17 TEC Alarm Transfer Cable for the IBBS2.2........................................................................................................ 973 1.8.3.18 Monitoring Signal Cable for the Temperature Sensor in the RFC............................................................ 974 1.8.4 Signal Cables for Other Devices.................................................................................................................................974 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor..........................................................................................975 1.8.4.2 Monitoring Signal Cable for the Door Status Sensor in the APM30......................................................... 981 1.8.4.3 ELU Signal Cable.......................................................................................................................................................... 981 1.8.4.4 Monitoring Signal Cables for the IBBS Door Control and Temperature Sensor.................................... 984 1.8.4.5 EMUA or EMUB Monitoring Signal Cable........................................................................................................... 985 1.8.4.6 EMU Monitoring Signal Cable.................................................................................................................................986 1.8.4.7 Monitoring Signal Cable for the AC Surge Protection Module....................................................................987 1.8.4.8 Alarm Signal Cable for the AC Surge Protection Box..................................................................................... 987 1.8.4.9 SPD Monitoring Signal Cable.................................................................................................................................. 988 1.8.4.10 RRU AISG Multi-Wire Cable...................................................................................................................................988 1.8.4.11 RRU AISG Extension Cable..................................................................................................................................... 989 1.8.4.12 GPS Clock Signal Cable........................................................................................................................................... 991 1.8.4.13 GPS Jumper................................................................................................................................................................. 991 1.8.4.14 BBU Interconnection Signal Cable.......................................................................................................................991 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. xi 3900 & 5900 Series Base Station Cables Contents 1.8.4.15 Cable Between Two Combined Base Stations................................................................................................. 993 1.8.4.16 Local Maintenance Adapter.................................................................................................................................. 995 1.8.4.17 GATM Monitoring Signal Cable........................................................................................................................... 996 1.8.4.18 CMUA-GATM Monitoring Signal Cable............................................................................................................. 997 1.8.4.19 CMUE-GATM Monitoring Signal Cable............................................................................................................. 998 1.8.4.20 CMUEA-GATM Monitoring Signal Cable.......................................................................................................... 999 1.8.4.21 CMUH-GATM Monitoring Signal Cable............................................................................................................ 999 1.8.4.22 FMUC-GATM Monitoring Signal Cable........................................................................................................... 1000 1.8.4.23 FMUE-GATM Monitoring Signal Cable........................................................................................................... 1001 1.8.4.24 RET Control Signal Cable..................................................................................................................................... 1002 1.8.4.25 ODM06D Surge Protection Alarm Signal Cable...........................................................................................1003 1.9 CPRI Cables........................................................................................................................................................................ 1003 1.9.1 CPRI Electrical Cables.................................................................................................................................................. 1003 1.9.2 CPRI Optical Fiber.........................................................................................................................................................1004 1.10 RF Cables.......................................................................................................................................................................... 1010 1.10.1 RF Jumpers................................................................................................................................................................... 1010 1.10.2 Inter-RFU RF Signal Cable....................................................................................................................................... 1012 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. xii 3900 & 5900 Series Base Station Cables 1 1 3900 & 5900 Series Base Station Cables 3900 & 5900 Series Base Station Cables Overview This document provides information about cables used in cabinets for 3900 & 5900 series base stations, which includes cable lists, cable connections, and descriptions of each cable. For information about cables for RRUs and AAUs, see the corresponding hardware description. The RF modules for distributed base stations in this document include RRUs and AAUs. The application scenarios, power distribution principles, cable connections, and cable installation of the RRUs and AAUs are the same. The following uses the RRUs as an example. The exteriors of components or cables in this document are for reference only. The actual exteriors may be different. NOTE ● Unless otherwise specified, in this document, LTE and eNodeB always include FDD, NB-IoT, and TDD. In scenarios where they need to be distinguished, LTE FDD, LTE NB-IoT, and LTE TDD are used. The same rules apply to eNodeB. ● Unless otherwise specified, in this document, NR and gNodeB always include FDD and TDD. In scenarios where they need to be distinguished, NR FDD and NR TDD are used. The same rules apply to gNodeB. ● In this document, "G" is short for GSM, "U" for UMTS, "L" for LTE FDD, "T" for LTE TDD, "M" for LTE NB-IoT, and "N" for NR. In addition, "N (FDD)" is short for NR FDD and "N (TDD)" is short for NR TDD. ● For details about the LampSite solution, see LampSite Base Station Hardware Description. Product Version The following table lists the product versions related to this document. Product Name Solution Version Product Version 3900 series base stations SRAN8.0 and later V100R008C00 and later 5900 series base stations Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 1 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Unless otherwise specified, cabinets, components, and RATs involved in this document are supported in V100R008C00 and later versions. The following table lists the special cases. Item Solution Version Product Version IBC10 SRAN8.1/GBSS15.1/ RAN15.1/eRAN6.1 and later V100R008C01 and later ● BBU3910 SRAN9.0/GBSS16.0/ RAN16.0/eRAN7.0/eRAN TDD 7.0 and later V100R009C00 and later SRAN10.0/GBSS17.0/ RAN17.0/eRAN8.0 and later V100R010C00 and later IBBS20L SRAN11.0/GBSS18.0/ RAN18.0/eRAN11.0/ eRAN TDD 11.0 and later V100R011C00 and later ● IBBS20L-E SRAN11.1/GBSS18.1/ RAN18.1/eRAN11.1/ eRAN TDD 11.1 and later V100R011C10 and later RMU3900A SRAN12.0/GBSS19.0/ RAN19.0/eRAN12.0/ eRAN TDD 12.0 and later V100R012C00 and later ● EPU02D SRAN12.1/GBSS19.1/ RAN19.1/eRAN12.1/ eRAN TDD 12.1 and later V100R012C10 and later SRAN12.1/GBSS19.1/ RAN19.1/eRAN12.1/ eRAN TDD 12.1 and later V100R012C10 and later SRAN12.1/GBSS19.1/ RAN19.1/eRAN12.1/ eRAN TDD 12.1 and later V100R012C10 and later ● APM30H (Ver.E) ● TMC11H (Ver.E) ● RFC (Ver.E) ● IBBS200D (Ver.E) ● IBBS200T (Ver.E) ● BBU3910A ● OPM50M ● OPM15M ● IBBS20D ● IBBS300D (Ver.A) ● IBBS300T (Ver.A) ● USU3910 ● OPM30M ● EPU02D-02 ● MRE1000 ● BTS3900 (Ver.E_A~D) ● BTS3900L (Ver.E_B~D) ● IMB05 ● ILC29 (Ver.E) ● BTS5900 (Ver.A) ● BTS5900L (Ver.A) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 2 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Item Solution Version Product Version ● APM5930 SRAN12.1/GBSS19.1/ RAN19.1/eRAN12.1/ eRAN TDD 12.1 and later V100R012C10 and later SRAN15.1/GBSS21.1/ RAN21.1/eRAN15.1/ eRAN TDD 15.1 and later V100R015C10 and later SRAN16.0/GBSS22.0/ RAN22.0/eRAN16.0/ eRAN TDD 16.0 and later V100R016C00 and later SRAN16.1/GBSS22.1/ RAN22.1/eRAN16.1/ eRAN TDD 16.1 and later V100R016C10 and later DCDU16D-02 SRAN17.0/GBSS23.0/ RAN23.0/eRAN17.0/ eRAN TDD 17.0 and later V100R017C00 and later BBC5200T-L SRAN15.1/GBSS21.1/ RAN21.1/eRAN15.1/ eRAN TDD 15.1 and later V100R015C10 and later ● BBC5200D/BBC5200T/ BBC5300D/BBC5300T ● IBC10 (Ver.B) ● BBC5200D-L ● DCDU16D ● FAN02H ● BBU5900A ● OPM200 ● IBBS50L ● RFC5906 ● INS05 ● IFS5906 ● IMS5906 ● EPU02S ● EPU02B ● EPU02S-02 Intended Audience This document is intended for: ● System engineers ● Base station installation engineers ● Site maintenance engineers Organization 1.1 Changes in 3900 & 5900 Series Base Station Cables This section describes the changes in 3900 & 5900 Series Base Station Cables. 1.2 Cable List This section describes cable lists for BTS5900, BTS5900L, BTS5900A, DBS5900, BTS3900, BTS3900L, BTS3900A, BTS3900AL, BTS3900C, and DBS3900 base stations. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 3 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3 Cable Connections This section describes cable connections for 3900 and 5900 series base stations, including power cable connections, transmission cable connections, monitoring signal cable connections, BBU interconnection signal cable connections, CPRI cable connections, and RF cable connections. 1.4 PGND Cable PGND cables include PGND cables for cabinets and PGND cables for modules, which ensure proper grounding of cabinets and modules in the cabinets as well as safe operation of a base station. 1.5 Equipotential Cable Equipotential cables connect the PGND terminals of two cabinets. They ensure equipotential bonding between cabinets and safe operation of base stations. 1.6 Power Cables This section describes the exteriors, functions, and pin assignment of power cables. 1.7 Transmission Cables This section describes the exteriors, functions, and pin assignment of transmission cables in a cabinet. 1.8 Signal Cables This section describes the exteriors, functions, and pin assignment of signal cables. 1.9 CPRI Cables This section describes CPRI cables, including CPRI electrical cables and CPRI optical fibers. 1.10 RF Cables This section describes the RF cables, including RF jumpers and inter-RFU RF signal cables. 1.1 Changes in 3900 & 5900 Series Base Station Cables This section describes the changes in 3900 & 5900 Series Base Station Cables. 16 (2021-08-13) This is the sixteenth commercial release. Compared with Issue 15 (2020-01-20), this issue does not include any new topics or exclude any topics. Compared with Issue 15 (2020-01-20), this issue includes the following changes. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 4 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Topic Change Description ● 1.2.4 DBS5900 Cable List (BBU5900) Added descriptions of cables related to the BBC5200T-L cabinet and its components. ● 1.2.9 DBS3900 Cable List ● 1.3.1.4.1 Power Cable Connections in a DBS5900 Using the APM5930(AC) ● 1.3.1.4.3 Power Cable Connections in a DBS5900 Using the APM30H (Ver.E) ● 1.3.1.10.2 Power Cable Connections in a DBS3900 Using the APM30H (Ver.E) ● 1.3.2.4.1 Monitoring Signal Cable Connections in a DBS5900 Using the APM5930(AC) ● 1.3.2.4.3 Monitoring Signal Cable Connections in a DBS5900 Using the APM30H (Ver.E) ● 1.3.2.10.2 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.E) ● 1.4 PGND Cable ● 1.6.3.9 BBC5200D Fan/BBC5200DL Fan/BBC5200T TEC/BBC5200T-L Air Conditioner Power Cable ● 1.3.1.10.3 Power Cable Connections in a DBS3900 Using the APM30H (Ver.D) ● 1.3.2.10.3 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.D) ● 1.6.1.4.3 Power Cable for a Power Distribution Box 15 (2020-01-20) This is the fifteenth commercial release. Compared with Issue 14 (2019-12-27), this issue does not include any new topics or exclude any topics. Compared with Issue 14 (2019-12-27), this issue includes the following changes. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 5 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Topic Change Description ● 1.2.5.3 BTS3900 (Ver.D) Cable List Added the description of power cables for the EPU02B. ● 1.2.6.3 BTS3900L (Ver.D) Cable List ● 1.2.7.3 BTS3900A (Ver.D) Cable List ● 1.2.7.4 BTS3900A (Ver.E) Cable List ● 1.2.8.1 BTS3900AL (Ver.A) Cable List ● 1.3.1.4.1 Power Cable Connections in a DBS5900 Using the APM5930(AC) ● 1.3.1.4.2 Power Cable Connections in a DBS5900 Using the APM5930(DC) ● 1.3.1.4.3 Power Cable Connections in a DBS5900 Using the APM30H (Ver.E) ● 1.6.1.2.10 EPU02D/ EPU02D-02/EPU02B/ EPU02S/EPU02S-02 Power Cable ● 1.2.5.3 BTS3900 (Ver.D) Cable List Added the description of power cables for the EPU02S-02. ● 1.2.6.3 BTS3900L (Ver.D) Cable List ● 1.2.7.3 BTS3900A (Ver.D) Cable List ● 1.2.8.1 BTS3900AL (Ver.A) Cable List ● 1.3.1.4.2 Power Cable Connections in a DBS5900 Using the APM5930(DC) ● 1.6.1.2.10 EPU02D/ EPU02D-02/EPU02B/ EPU02S/EPU02S-02 Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 6 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 14 (2019-12-27) This is the fourteenth commercial release. Compared with Issue 13 (2019-10-28), this issue does not include any new topics or exclude any topics. Compared with Issue 13 (2019-10-28), this issue includes the following changes. Topic Change Description ● 1.2.5.3 BTS3900 (Ver.D) Cable List Added the description of power cables for the EPU02S. ● 1.2.6.3 BTS3900L (Ver.D) Cable List ● 1.2.7.3 BTS3900A (Ver.D) Cable List ● 1.2.7.4 BTS3900A (Ver.E) Cable List ● 1.2.8.1 BTS3900AL (Ver.A) Cable List ● 1.3.1.4.1 Power Cable Connections in a DBS5900 Using the APM5930(AC) ● 1.3.1.4.2 Power Cable Connections in a DBS5900 Using the APM5930(DC) ● 1.3.1.4.3 Power Cable Connections in a DBS5900 Using the APM30H (Ver.E) ● 1.6.1.2.10 EPU02D/ EPU02D-02/EPU02B/ EPU02S/EPU02S-02 Power Cable 13 (2019-10-28) This is the thirteenth commercial release. Compared with Issue 12 (2019-09-10), this issue includes the following new topics: ● 1.6.3.1.13 FAN02H Power Cable ● 1.8.1.14 PMIU-CCUC Monitoring Signal Cable ● 1.8.2.5 CCUC-BBU Monitoring Signal Cable ● 1.8.2.24 CMUH-CCUC Monitoring Signal Cable ● 1.8.2.26 CCUC-CMUH Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 7 3900 & 5900 Series Base Station Cables ● 1 3900 & 5900 Series Base Station Cables 1.8.2.28 Monitoring Signal Cable Between Cascaded CCUCs Compared with Issue 12 (2019-09-10), this issue includes the following changes. Topic Change Description ● 1.2.3 BTS5900A Cable List Added the description of cables used for the FAN02H. ● 1.2.4 DBS5900 Cable List (BBU5900) ● 1.2.7.4 BTS3900A (Ver.E) Cable List ● 1.2.9 DBS3900 Cable List ● 1.3.1.3 BTS5900A Power Cable Connections ● 1.3.1.4.3 Power Cable Connections in a DBS5900 Using the APM30H (Ver.E) ● 1.3.1.4.4 Power Cable Connections in a DBS5900 Using the TMC11H (Ver.E) ● 1.3.1.10.2 Power Cable Connections in a DBS3900 Using the APM30H (Ver.E) ● 1.3.1.10.9 Power Cable Connections in a DBS3900 Using the TMC11H (Ver.E) ● 1.3.2.3 BTS5900A Monitoring Signal Cable Connections ● 1.3.2.8.4 BTS3900A (Ver.E) Monitoring Signal Cable Connections ● 1.3.2.10.2 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.E) Compared with Issue 12 (2019-09-10), this issue does not exclude any topics. 12 (2019-09-10) This is the twelfth commercial release. Compared with Issue 11 (2019-07-20), this issue does not include any new topics or exclude any topics. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 8 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Compared with Issue 11 (2019-07-20), this issue includes the following changes. Topic Change Description ● 1.6.4.2 BBU Power Cable Added the description of the BBU5900A power cable. 11 (2019-07-20) This is the eleventh commercial release. Compared with Issue 10 (2019-03-25), this issue includes the following new topics: ● 1.6.1.1.13 DCDU16D Power Cable Compared with Issue 10 (2019-03-25), this issue includes the following changes. Topic Change Description ● 1.6.4.4 RRU Power Cable Added the description of RRU power cables when a DCDU16D supplies power. ● 1.2.1 BTS5900 Cable List Added the description of DCDU16D power cables. ● 1.2.2 BTS5900L Cable List ● 1.2.3 BTS5900A Cable List ● 1.2.4 DBS5900 Cable List (BBU5900) ● 1.2.5.3 BTS3900 (Ver.D) Cable List ● 1.2.6.3 BTS3900L (Ver.D) Cable List ● 1.2.7.3 BTS3900A (Ver.D) Cable List ● 1.2.7.4 BTS3900A (Ver.E) Cable List ● 1.2.8.1 BTS3900AL (Ver.A) Cable List ● 1.2.9 DBS3900 Cable List ● 1.2.10.2 BTS3900C (Ver.C) Cable List ● 1.3.2.4.1 Monitoring Signal Cable Connections in a DBS5900 Using the APM5930(AC) Added the description of the monitoring signal cable for cascaded CMUHs. Compared with Issue 10 (2019-03-25), this issue does not exclude any topics. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 9 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 10 (2019-03-25) This is the tenth commercial release. Compared with Issue 09 (2018-12-31), this issue does not include any new topics or exclude any topics. Compared with Issue 09 (2018-12-31), this issue includes the following changes. Topic Change Description ● 1.3.1.4.1 Power Cable Connections in a DBS5900 Using the APM5930(AC) Deleted the connections of power cables for the EPU02S and EPU02B. ● 1.3.1.4.2 Power Cable Connections in a DBS5900 Using the APM5930(DC) ● 1.3.1.4.3 Power Cable Connections in a DBS5900 Using the APM30H (Ver.E) ● 1.6.1.2.10 EPU02D/ EPU02D-02/EPU02B/ EPU02S/EPU02S-02 Power Cable Deleted the description of power cables for the EPU02S and EPU02B. 09 (2018-12-31) This is the ninth commercial release. Compared with Issue 08 (2018-10-10), this issue includes the following new topics. ● 1.6.1.4.2 PMU 15A Power Cable ● 1.6.1.4.14 Lithium Battery Activation Cable ● 1.8.1.6 PMU 15A-BBU Monitoring Signal Cable ● 1.8.1.24 Monitoring Signal Cable for the Lithium Battery Compared with Issue 08 (2018-10-10), this issue includes the following changes. Topic Change Description 1.2.4 DBS5900 Cable List (BBU5900) Added the cable lists for the BBC5200D-L. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 10 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Topic Change Description ● 1.3.1.4.1 Power Cable Connections in a DBS5900 Using the APM5930(AC) Added the power cable connections for the BBC5200D-L, EPU02S, and EPU02B. ● 1.3.1.4.2 Power Cable Connections in a DBS5900 Using the APM5930(DC) ● 1.3.1.4.3 Power Cable Connections in a DBS5900 Using the APM30H (Ver.E) 1.6.1.2.10 EPU02D/ EPU02D-02/EPU02B/ EPU02S/EPU02S-02 Power Cable Added the description of power cables for the EPU02S and EPU02B. 1.9.2 CPRI Optical Fiber Added the LC single-fiber optical fiber. Compared with Issue 08 (2018-10-10), this issue does not exclude any topics. 08 (2018-10-10) This is the eighth commercial release. Compared with Issue 07 (2018-08-27), this issue includes the following new topics. ● 1.3.1.4.5 Power Cable Connections in a DBS5900 Using the IBC10 (Ver.B) ● 1.3.2.4.6 Monitoring Signal Cable Connections in a DBS5900 Using the IBC10 (Ver.B) Compared with Issue 07 (2018-08-27), this issue includes the following changes. Topic Change Description All sections Added the description of cables in an IBC10 (Ver.B). Compared with Issue 07 (2018-08-27), this issue does not exclude any topics. 07 (2018-08-27) This is the seventh commercial release. Compared with Issue 06 (2018-07-15), this issue includes the following new topics. ● APM5930 Cable List ● BBC5200D Cable List Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 11 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables ● BBC5200T Cable List ● BBC5300D Cable List ● BBC5300T Cable List ● 1.3.1.4.1 Power Cable Connections in a DBS5900 Using the APM5930(AC) ● 1.3.1.4.2 Power Cable Connections in a DBS5900 Using the APM5930(DC) ● 1.3.2.4.1 Monitoring Signal Cable Connections in a DBS5900 Using the APM5930(AC) ● 1.3.2.4.2 Monitoring Signal Cable Connections in a DBS5900 Using the APM5930(DC) ● 1.6.1.1.12 DCDU15D Power Cable ● 1.6.1.2.9 EPU05A-11 or EPU05A-12 Power Cable ● 1.6.3.1.12 FAN02G Power Cable ● 1.8.1.15 PMID-CCUC Monitoring Signal Cable Compared with Issue 06 (2018-07-15), this issue includes the following changes. Topic Change Description All sections Added the description of cables in an APM5930, BBC5200D, BBC5200T, BBC5300D, and BBC5300T. Compared with Issue 06 (2018-07-15), this issue does not exclude any topics. 06 (2018-07-15) This is the sixth commercial release. This issue combines 3900 Series Base Station Cables and 5900 Series Base Station Cables. Compared with Issue 05 (2018-01-22) of 3900 Series Base Station Cables and Issue 02 (2018-02-06) of 5900 Series Base Station Cables, this issue includes the following new topics. ● APM5930 Cable List ● BBC5200D Cable List ● BBC5200T Cable List ● BBC5300D Cable List ● BBC5300T Cable List ● 1.3.1.4.1 Power Cable Connections in a DBS5900 Using the APM5930(AC) ● 1.3.1.4.2 Power Cable Connections in a DBS5900 Using the APM5930(DC) ● 1.3.1.4.5 Power Cable Connections in a DBS5900 Using the IBC10 (Ver.B) ● 1.3.2.4.1 Monitoring Signal Cable Connections in a DBS5900 Using the APM5930(AC) ● 1.3.2.4.2 Monitoring Signal Cable Connections in a DBS5900 Using the APM5930(DC) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 12 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables ● 1.3.2.4.6 Monitoring Signal Cable Connections in a DBS5900 Using the IBC10 (Ver.B) ● 1.6.1.1.12 DCDU15D Power Cable ● 1.6.1.2.9 EPU05A-11 or EPU05A-12 Power Cable ● 1.6.3.1.12 FAN02G Power Cable ● 1.8.1.15 PMID-CCUC Monitoring Signal Cable Compared with Issue 05 (2018-01-22) of 3900 Series Base Station Cables and Issue 02 (2018-02-06) of 5900 Series Base Station Cables, this issue includes the following changes. Topic Change Description All sections Added the description of cables in an APM5930, BBC5200D, BBC5200T, BBC5300D, BBC5300T, and IBC10 (Ver.B). Before the combination, compared with Issue 01 (2017-12-28) of 5900 Series Base Station Cables, Issue 02 (2018-02-06) includes the following new topics. ● 1.2.3 BTS5900A Cable List ● 1.3.1.1.2 BTS5900 (Ver.A) Power Cable Connections ● 1.3.1.2.2 BTS5900L (Ver.A) Power Cable Connections ● 1.3.1.3 BTS5900A Power Cable Connections ● 1.3.1.10.2 Power Cable Connections in a DBS3900 Using the APM30H (Ver.E) ● 1.3.1.10.9 Power Cable Connections in a DBS3900 Using the TMC11H (Ver.E) ● 1.3.2.1.2 BTS5900 (Ver.A) Monitoring Signal Cable Connections ● 1.3.2.2.2 BTS5900L (Ver.A) Monitoring Signal Cable Connections ● 1.3.2.3 BTS5900A Monitoring Signal Cable Connections ● 1.3.2.10.2 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.E) ● 1.3.2.10.9 Monitoring Signal Cable Connections in a DBS3900 Using the TMC11H (Ver.E) ● 1.6.1.2.7 EPU05A-06 or EPU05A-08 Power Cable ● 1.6.1.2.8 EPU05A-07 or EPU05A-09 Power Cable ● 1.6.1.4 Power Cables for Other Power Supply Devices and its child topics ● 1.6.2.5 CCU01D-03 Power Cable ● 1.6.3.1.5 FAN 01D Power Cable ● 1.6.3.1.11 FAN 02E Power Cable ● 1.6.3.3 Power Cable for an AC Heater ● 1.6.3.4 Power Cable for a Heating Film ● 1.6.3.8 Fan Power Cables in an IBBS200D Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 13 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables ● 1.6.3.10 Fan Power Cables in an IBBS300D ● 1.6.3.12 TEC Power Cables in an IBBS200T ● 1.6.3.12 TEC Power Cables in an IBBS200T ● 1.6.3.13 TEC Power Cables in an IBBS300T ● 1.6.4.1 EMUA or EMUB Power Cable ● 1.6.4.5 SOU Power Cable ● 1.6.4.10 ODM06D Power Cable ● 1.7.2 E1/T1 Surge Protection Transfer Cable ● 1.7.7 FE/GE Surge Protection Transfer Cable ● 1.8.1.13 PMIU-CCUB Monitoring Signal Cable ● 1.8.2 Signal Cables for Monitoring Devices and its child topics ● 1.8.3.1 Monitoring Signal Cable Between Cascaded Fan Assemblies ● 1.8.4.5 EMUA or EMUB Monitoring Signal Cable ● 1.8.4.21 CMUH-GATM Monitoring Signal Cable ● 1.8.4.25 ODM06D Surge Protection Alarm Signal Cable Compared with Issue 01 (2017-12-28) of 5900 Series Base Station Cables, Issue 02 (2018-02-06) includes the following changes. Topic Change Description 1.2.4 DBS5900 Cable List (BBU5900) Added the cable lists for the APM30H, TMC11H, and IBBS series cabinets. Compared with Draft A (2017-09-30) of 5900 Series Base Station Cables, Issue 01 (2017-12-28) does not include any changes. 05 (2018-01-22) This is the fifth commercial release. Compared with Issue 04 (2017-10-27), this issue does not include any new topics or exclude any topics. Compared with Issue 04 (2017-10-27), this issue includes the following change. Topic Change Description 1.2.9 DBS3900 Cable List Added the cable list for the OMB and IMB03. 04 (2017-10-27) This is the fourth commercial release. Compared with Issue 03 (2017-05-31), this issue includes the following new topics: ● Issue 16 (2021-08-13) 1.3.1.10.13 Power Cable Connections in a DBS3900 Using the IMB05 Copyright © Huawei Technologies Co., Ltd. 14 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables ● 1.3.1.10.16 Power Cable Connections in a DBS3900 Using the ILC29 (Ver.E) ● 1.3.2.4.7 Monitoring Signal Cable Connections in a DBS5900 Using the IMB05 ● 1.3.2.4.8 Monitoring Signal Cable Connections in a DBS5900 Using the ILC29 (Ver.E) ● 1.6.3.1.19 FAN 03D Power Cable Compared with Issue 03 (2017-05-31), this issue includes the following change. Topic Change Description 1.2.9 DBS3900 Cable List Added the IMB05 and ILC29 (Ver.E) cable lists. Compared with Issue 03 (2017-05-31), this issue does not exclude any topics. 03 (2017-05-31) This is the third commercial release. Compared with Issue 02 (2017-04-20), this issue does not include any new topics or exclude any topics. Compared with Issue 02 (2017-04-20), this issue includes the following changes. Topic Change Description ● 1.2.5.3 BTS3900 (Ver.D) Cable List Added the EPU02D-02 power cable. ● 1.2.6.3 BTS3900L (Ver.D) Cable List ● BTS3900A (Ver.B) Cable List ● 1.2.7.2 BTS3900A (Ver.C) Cable List ● 1.2.7.3 BTS3900A (Ver.D) Cable List ● 1.2.7.4 BTS3900A (Ver.E) Cable List 02 (2017-04-20) This is the second commercial release. Compared with V100R012C10, WCDMA-NodeB V200R019C10, GSM-BTS V100R019C10, and eNodeB V100R012C10 01 (2017-03-10), this issue includes the following new topics. ● 1.3.1.10.1 Power Cable Connections in a DBS3900 Using the MRE1000 ● 1.3.2.10.1 Monitoring Signal Cable Connections in a DBS3900 Using an MRE1000 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 15 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables ● 1.6.1.2.11 EPU03A-21 Power Cable ● 1.6.3.1.18 FAU01D-05 Power Cable ● 1.6.4.8 Power Cable for the AC Power Distribution Box in the MRE1000 Compared with V100R012C10, WCDMA-NodeB V200R019C10, GSM-BTS V100R019C10, and eNodeB V100R012C10 01 (2017-03-10), this issue includes the following change. Topic Change Description 1.2.9 DBS3900 Cable List Added the MRE1000 cable list. This document combines 3900 Series Base Station Cables of all SRAN versions and presents differential information among these versions. Versions corresponding to original 3900 Series Base Station Cables are as follows: ● SRAN8.0: V100R008C00 ● SRAN8.1: V100R008C01 ● SRAN9.0: V100R009C00 ● SRAN10.0: V100R010C00 ● SRAN10.1: V100R010C10 ● SRAN11.1: V100R011C10 ● SRAN12.1: V100R012C10 The information added before the combination of all versions is as follows: ● 1.6.1.2.10 EPU02D/EPU02D-02/EPU02B/EPU02S/EPU02S-02 Power Cable ● 1.8.1.5 PMU 12A-BBU Monitoring Signal Cable ● IBBS20L-E Cable List ● 1.6.1.4.9 IBBS20L-E Power Cable ● 1.8.1.23 IBBS20L-E Monitoring Signal Cable ● 1.2.7.4 BTS3900A (Ver.E) Cable List ● 1.3.1.8.4 BTS3900A (Ver.E) Power Cable Connections ● 1.3.2.8.4 BTS3900A (Ver.E) Monitoring Signal Cable Connections ● 1.3.1.10.2 Power Cable Connections in a DBS3900 Using the APM30H (Ver.E) ● 1.3.1.10.9 Power Cable Connections in a DBS3900 Using the TMC11H (Ver.E) ● 1.3.2.10.2 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.E) ● 1.3.2.10.9 Monitoring Signal Cable Connections in a DBS3900 Using the TMC11H (Ver.E) ● 1.6.1.2.7 EPU05A-06 or EPU05A-08 Power Cable ● 1.6.1.2.8 EPU05A-07 or EPU05A-09 Power Cable ● 1.8.2.25 CCUB-CMUH Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 16 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables ● 1.8.2.27 Monitoring Signal Cable Between Cascaded CCUBs ● 1.8.4.21 CMUH-GATM Monitoring Signal Cable ● 1.6.3.1.5 FAN 01D Power Cable ● 1.6.3.1.11 FAN 02E Power Cable ● 1.8.1.13 PMIU-CCUB Monitoring Signal Cable ● 1.6.1.4.7 Power Cable Between Cascaded IBBS20Ds ● 1.6.2.3 CMUG Power Cable ● 1.8.1.20 Monitoring Signal Cable for the Power Distribution Box in an IBBS20D ● 1.8.2.21 Monitoring Signal Cable for the CMUG ● 1.8.2.12 Monitoring Signal Cable Between Cascaded CMUGs ● 1.6.1.4.6 Power Cables Between Cascaded DC Junction Boxes in Different IBBS300Ds/IBBS300Ts/BBC5300Ds/BBC5300Ts ● 1.6.1.4.7 Power Cable Between Cascaded IBBS20Ds ● 1.6.2.3 CMUG Power Cable ● 1.6.2.5 CCU01D-03 Power Cable ● 1.6.3.10 Fan Power Cables in an IBBS300D ● 1.6.3.13 TEC Power Cables in an IBBS300T ● 1.8.1.20 Monitoring Signal Cable for the Power Distribution Box in an IBBS20D ● 1.8.2.21 Monitoring Signal Cable for the CMUG ● 1.8.2.14 Monitoring Signal Cable Between Cascaded CCU01D-03s ● 1.8.2.12 Monitoring Signal Cable Between Cascaded CMUGs ● 1.3.1.10.15 Power Cable Connections in a DBS3900 Using the IBC10 ● 1.3.2.10.15 Monitoring Signal Cable Connections in a DBS3900 Using the IBC10 ● 1.6.3.1.15 FAU03D-02 Power Cable ● 1.8.3.5 FAU03D-02 Monitoring Signal Cable ● 1.2.9 DBS3900 Cable List ● 1.6.1.4.5 Power Cable for the DC Junction Box in a BTS3900AL ● 1.6.4.10 ODM06D Power Cable ● 1.8.4.25 ODM06D Surge Protection Alarm Signal Cable ● 1.3.5 Transmission Cable Connections for 3900 Series Base Stations ● 1.3.7 CPRI Cable Connections for 3900 Series Base Stations The modifications made before the combination of all versions are as follows. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 17 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Topic Change Description ● 1.2.5.3 BTS3900 (Ver.D) Cable List Added the EPU02D power cable. ● 1.2.6.3 BTS3900L (Ver.D) Cable List ● BTS3900A (Ver.B) Cable List ● 1.2.7.2 BTS3900A (Ver.C) Cable List ● 1.2.7.3 BTS3900A (Ver.D) Cable List ● 1.2.7.4 BTS3900A (Ver.E) Cable List ● 1.6.1.1.8 DCDU-12B Power Cable ● 1.6.4.2 BBU Power Cable Added the colors of cables used in China. ● 1.6.4.4 RRU Power Cable ● 1.3.7.2 CPRI Cable Connections in a UMTS Base Station ● 1.3.7.3 CPRI Cable Connections in an LTE FDD/LTE TDD Base Station Added CPRI cable connections in scenarios where the RMU is configured. ● 1.3.7.6 CPRI Cable Connections in UL and U*L Base Stations 1.3.5 Transmission Cable Connections for 3900 Series Base Stations and its child topics Added the transmission configuration principle when a UMPTe is configured. ● 1.3.5.1 Transmission Cable Connections in a Single-Mode Base Station Added scenarios where the GSM mode supports GTMUc boards. ● 1.3.5.2 Transmission Cable Connections in a Dual-Mode Base Station Using Co-Transmission ● 1.3.5.3 Transmission Cable Connections in a Dual-Mode Base Station Using Separate Transmission ● 1.3.5.4 Transmission Cable Connections in a Triple-Mode Base Station ● 1.2.9 DBS3900 Cable List ● 1.4 PGND Cable Added Ver.E cabinet-related information. ● 1.5 Equipotential Cable ● 1.6 Power Cables and its child topics Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 18 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Topic Change Description ● 1.2.7.3 BTS3900A (Ver.D) Cable List Modified connection positions of monitoring signal cables for fans on the front doors of cabinets. ● 1.2.7.5 BTS3900A (Ver.D_A2) Cable List ● 1.3.2.10.12 Monitoring Cable Connections in a DBS3900 Using an OMB (Ver.C), OMB, or IMB03 ● 1.3.1.10.12 Power Cable Connections in a DBS3900 Using an OMB (Ver.C), OMB, or IMB03 ● 1.2.9 DBS3900 Cable List ● 1.3.1.10.3 Power Cable Connections in a DBS3900 Using the APM30H (Ver.D) Added power cable connections and monitoring signal cable connections when an IBBS20D is used together with an OMB (Ver.C). Added the cable list, power cable connections, and monitoring signal cable connections for a BBU3910A3. ● 1.3.2.10.3 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.D) ● 1.3.1.11 Power Cable Connections in a DBS3900 Configured with a BBU3910A ● 1.3.2.11 Monitoring Signal Cable Connections in a DBS3900 Using a BBU3910A ● 1.6.4.2 BBU Power Cable ● 1.7.1 E1/T1 Cable Added information about cables used for a BBU3910A3. ● 1.8.2.35 BBU Alarm Cable ● 1.6.1.4.3 Power Cable for a Power Distribution Box Added information about cables used in an IBBS20D. ● 1.6.4.2 BBU Power Cable ● 1.6.4.4 RRU Power Cable ● 1.4 PGND Cable ● 1.5 Equipotential Cable ● 1.6.1.4.13 Storage Battery Power Cable ● 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor ● 1.8.4.3 ELU Signal Cable 1.3.7.3 CPRI Cable Connections in an LTE FDD/LTE TDD Base Station Issue 16 (2021-08-13) Added CPRI cable connections in scenarios where LPMP boards are configured. Copyright © Huawei Technologies Co., Ltd. 19 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Topic Change Description ● 1.2.9 DBS3900 Cable List Changed the BBU3910A to the BBU3910A3. ● 1.3.1.11 Power Cable Connections in a DBS3900 Configured with a BBU3910A ● 1.8.2.35 BBU Alarm Cable ● 1.3.2.11 Monitoring Signal Cable Connections in a DBS3900 Using a BBU3910A ● 1.6.4.2 BBU Power Cable ● 1.4 PGND Cable ● 1.7.1 E1/T1 Cable ● 1.2.7.3 BTS3900A (Ver.D) Cable List ● 1.3.1.8.3 BTS3900A (Ver.D) Power Cable Connections ● 1.3.2.8.3 BTS3900A (Ver.D) Monitoring Signal Cable Connections ● 1.2.8.1 BTS3900AL (Ver.A) Cable List ● 1.3.1.9.1 BTS3900AL (Ver.A) Power Cable Connections ● 1.3.2.9.1 BTS3900AL (Ver.A) Monitoring Signal Cable Connections ● 1.2.9 DBS3900 Cable List ● 1.3.1.10.3 Power Cable Connections in a DBS3900 Using the APM30H (Ver.D) ● 1.3.2.10.3 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.D) ● 1.3.1.11 Power Cable Connections in a DBS3900 Configured with a BBU3910A Added cable lists, power cable connections, and monitoring signal cable connections in a BTS3900A configured with an IBBS300D or IBBS300T. Added cable lists, power cable connections, and monitoring signal cable connections in a BTS3900AL configured with an IBBS300D or IBBS300T. ● Added cable list links, power cable connections, and monitoring signal cable connections in a DBS3900 configured with an IBBS300D or IBBS300T. ● Added the cable list, power cable connections, and monitoring signal cable connections for a BBU3910A3. ● 1.3.2.11 Monitoring Signal Cable Connections in a DBS3900 Using a BBU3910A ● 1.6.4.2 BBU Power Cable ● 1.7.1 E1/T1 Cable Added information about cables used for a BBU3910A3. ● 1.8.2.35 BBU Alarm Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 20 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Topic Change Description ● 1.6.1.4.1 Power Cable for a Junction Box Added information about cables used in an IBBS300D or IBBS300T. ● 1.6.3.6 HAU01A-01 Power Cable ● 1.8.3.12 HAU01A-01 Monitoring Signal Cable ● 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor ● 1.4 PGND Cable ● 1.5 Equipotential Cable Added information about cables used in an IBBS300D, IBBS300T, or IBBS20D. ● 1.6.1.4.13 Storage Battery Power Cable ● 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor ● 1.8.4.3 ELU Signal Cable ● 1.3.5.1 Transmission Cable Connections in a Single-Mode Base Station Added transmission cable connections when a BBU3910 is configured with a GTMUb. ● 1.3.5.2 Transmission Cable Connections in a Dual-Mode Base Station Using Co-Transmission ● 1.3.5.3 Transmission Cable Connections in a Dual-Mode Base Station Using Separate Transmission ● 1.3.7.1 CPRI Cable Connections in a GSM Base Station Added CPRI cable connections when a BBU3910 is configured with a GTMUb. ● 1.3.7.4 CPRI Cable Connections in GU and G*U Base Stations ● 1.3.7.7 CPRI Cable Connections in a Triple-Mode Base Station ● 1.6.1.1.9 DCDU-12C Power Cable Added the description of the IBC10. ● 1.4 PGND Cable ● 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor 1 3900 & 5900 Series Base Station Cables Added descriptions of the LampSite solution. ● Child topics of 1.3.5 Transmission Cable Connections for 3900 Series Base Stations Added cable connections when a BBU3910 is configured. ● Child topics of 1.3.7 CPRI Cable Connections for 3900 Series Base Stations Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 21 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Topic Change Description ● BTS3900A (Ver.B) Cable List Added the EMUB power cable and EMUB monitoring signal cable. ● 1.2.7.2 BTS3900A (Ver.C) Cable List ● 1.2.7.3 BTS3900A (Ver.D) Cable List ● 1.2.8.1 BTS3900AL (Ver.A) Cable List ● 1.6.4.1 EMUA or EMUB Power Cable ● 1.8.4.5 EMUA or EMUB Monitoring Signal Cable All sections Changed all EPC6 connectors to EPC4 connectors. ● 1.2.5.3 BTS3900 (Ver.D) Cable List Added cables for a BTS3900 (Ver.D) or BTS3900L (Ver.D) configured with an IMS06. ● 1.2.6.3 BTS3900L (Ver.D) Cable List ● 1.3.1.6.3 BTS3900 (Ver.D) Power Cable Connections ● 1.3.2.6.3 BTS3900 (Ver.D) Monitoring Signal Cable Connections Added cable connections in a BTS3900 (Ver.D) or BTS3900L (Ver.D) configured with an IMS06. ● 1.3.1.7.3 BTS3900L (Ver.D) Power Cable Connections ● 1.3.2.7.3 BTS3900L (Ver.D) Monitoring Signal Cable Connections ● 1.2.5.2 BTS3900 (Ver.C) Cable List Deleted the DCDU-12B power cable. ● 1.2.6.2 BTS3900L (Ver.C) Cable List 1.6.1.1.5 DCDU-11B Power Cable Deleted the scenario where a DCDU-11B is installed in a cabinet. 1.6.1.1.8 DCDU-12B Power Cable Deleted the scenario where a DCDU-12B is installed on a wall. ● 1.3.5.4 Transmission Cable Connections in a Triple-Mode Base Station Added cable connections in G[L*T], U[L*T], G[U*T], and G*L*T base stations. ● 1.3.7 CPRI Cable Connections for 3900 Series Base Stations Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 22 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Topic Change Description ● 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable Added cable connections in an IMS06. ● 1.6.1.1.7 DCDU-12A Power Cable ● 1.6.1.1.8 DCDU-12B Power Cable ● 1.6.1.4.13 Storage Battery Power Cable ● 1.5 Equipotential Cable ● 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor The information deleted before the combination of all versions is as follows: ● Busbar power cable ● EPU03A-20 power cable 1.2 Cable List This section describes cable lists for BTS5900, BTS5900L, BTS5900A, DBS5900, BTS3900, BTS3900L, BTS3900A, BTS3900AL, BTS3900C, and DBS3900 base stations. 1.2.1 BTS5900 Cable List The BTS5900 cables include power cables, transmission cables, signal cables, and RF cables. Power Cables The following table lists the power cables. Table 1-1 Power cables Cable One End DCDU-12A Power Cable Issue 16 (2021-08-13) The Other End Connector Installation Position Connector Installation Position OT terminal (M6) "NEG(-)" and "RTN(+)" terminals on the DCDU-12A OT terminal External power equipment Copyright © Huawei Technologies Co., Ltd. 23 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position DCDU-12B Power Cable OT terminal (M6) "NEG(-)" and "RTN(+)" terminals on the DCDU-12B OT terminal External power equipment EPU02D-02 Power Cable OT terminal (M6) "NEG(-)" and "RTN(+)" terminals on the EPU02D-02 OT terminal External power equipment DCDU16D Power Cable OT terminal (M6) "NEG(-)" and "RTN(+)" terminals on the DCDU16D OT terminal External power equipment BBU Power Cable (for the BBU3900 or BBU3910) 3V3 connector "-48V" port on the UPEU in a BBU EPC4 connector ● "LOAD6" port on the DCDU-12B BBU Power Cable (for the BBU5900 in DC scenarios) HDEPC connector ● "LOAD0" port on the EPU02D-0 2 "PWR" port on the UPEU in a BBU EPC4 connector ● "LOAD6" and "LOAD7" ports on the DCDU-12B ● "LOAD0" and "LOAD1" ports on the EPU02D-0 2 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 24 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End RRU Power Cable The Other End Connector Installation Position Connector Installation Position EPC4 or EPC5 connector DCDU-12B Depending on the port on the RRU RRU EPC4 connector "LOAD6" port on the DCDU-12A ● EPC4 connector: "LOAD6" to "LOAD8" ports on the DCDU-12B ● EPC5 connector: "LOAD0" to "LOAD5" ports on the DCDU-12B FAN 03D Power Cable EPC5 connector "LOAD0" and "LOAD1" ports on the BDU65-03 in an EPU02D-02 3V3 connector "-48V" port on the fan assembly Transmission Cables The following table lists transmission cables. Table 1-2 Transmission cables Cable One End The Other End Connector Installation Position Connector Installation Position E1/T1 Cable DB26 male connector "E1/T1" port on the UMPT Depending on the external equipment External transmission equipment FE/GE Ethernet Cable RJ45 connector "FE/GE0" port on the UMPT Depending on the external equipment External transmission equipment Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 25 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End FE/GE Optical Fiber The Other End Connector Installation Position Connector Installation Position LC connector "FE/GE1" port on the UMPT Depending on the external equipment External transmission equipment Signal Cables The following table lists signal cables. Table 1-3 Signal cables Cable One End The Other End Connector Installation Position Connector Installation Position ELU Monitoring Signal Cable RJ45 connector ELU RJ45 connector "SENSOR" port on the fan assembly Monitoring Signal Cable Between Cascaded Fan Assemblies RJ45 connector "COM_OUT" port on the upper-level fan assembly RJ45 connector "COM_IN" port on the lower-level fan assembly EPU02D-02 Monitoring Signal Cable Depending on the external equipment "COM_IN" port on the EPU02D-02 RJ45 connector "MON1" port on the UPEU or UEIU in a BBU Monitoring Signal Cable Between Cascaded EPU02D-02s RJ45 connector "COM_OUT" port on the upper-level EPU02D-02 RJ45 connector "COM_IN" port on the lower-level EPU02D-02 RF Cables The following table lists the RF cables. NOTE Determine whether to replace the RFU according to the site requirements during the cabinet upgrade. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 26 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-4 RF cables Cable One End The Other End Connector Installation Position Connector Installation Position RF jumper DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on the RFU DIN straight male connector Antenna system Inter-RFU RF signal cable QMA elbow male connector "RX OUTA" port on the RFU QMA elbow male connector "RX INB" port on the other RFU 1.2.2 BTS5900L Cable List The BTS5900L cables include power cables, transmission cables, signal cables, and RF cables. Power Cables The following table lists the power cables. Table 1-5 Power cables Cable One End The Other End Connector Installation Position Connector Installation Position DCDU-12A Power Cable OT terminal (M6) "NEG(-)" and "RTN(+)" terminals on the DCDU-12A OT terminal External power equipment DCDU-12B Power Cable OT terminal (M6) "NEG(-)" and "RTN(+)" terminals on the DCDU-12B OT terminal External power equipment EPU02D-02 Power Cable OT terminal (M6) "NEG(-)" and "RTN(+)" terminals on the EPU02D-02 OT terminal External power equipment Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 27 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position DCDU16D Power Cable OT terminal (M6) "NEG(-)" and "RTN(+)" terminals on the DCDU16D OT terminal External power equipment BBU Power Cable (for the BBU3900 or BBU3910) 3V3 connector "-48V" port on the UPEU in a BBU EPC4 connector ● "LOAD6" port on the DCDU-12B BBU Power Cable (for the BBU5900 in DC scenarios) HDEPC connector ● "LOAD0" port on the EPU02D-0 2 "PWR" port on the UPEU in a BBU EPC4 connector ● "LOAD6" and "LOAD7" ports on the DCDU-12B ● "LOAD0" and "LOAD1" ports on the EPU02D-0 2 RRU Power Cable EPC4 or EPC5 connector DCDU-12B ● EPC4 connector: "LOAD6" to "LOAD8" ports on the DCDU-12B Depending on the port on the RRU RRU ● EPC5 connector: "LOAD0" to "LOAD5" ports on the DCDU-12B Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 28 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End FAN 03D Power Cable The Other End Connector Installation Position EPC5 connector "LOAD0" and "LOAD1" ports on the BDU65-03 in an EPU02D-02 3V3 connector "-48V" port on the fan assembly Connector Installation Position EPC4 connector "LOAD6" port on the DCDU-12A Transmission Cables The following table lists transmission cables. Table 1-6 Transmission cables Cable One End The Other End Connector Installation Position Connector Installation Position E1/T1 Cable DB26 male connector "E1/T1" port on the UMPT Depending on the external equipment External transmission equipment FE/GE Ethernet Cable RJ45 connector "FE/GE0" port on the UMPT Depending on the external equipment External transmission equipment FE/GE Optical Fiber LC connector "FE/GE1" port on the UMPT Depending on the external equipment External transmission equipment Signal Cables The following table lists signal cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 29 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-7 Signal cables Cable One End The Other End Connector Installation Position Connector Installation Position ELU Monitoring Signal Cable RJ45 connector ELU RJ45 connector "SENSOR" port on the fan assembly Monitoring Signal Cable Between Cascaded Fan Assemblies RJ45 connector "COM_OUT" port on the upper-level fan assembly RJ45 connector "COM_IN" port on the lower-level fan assembly EPU02D-02 Monitoring Signal Cable Depending on the external equipment "COM_IN" port on the EPU02D-02 RJ45 connector "MON1" port on the UPEU or UEIU in a BBU Monitoring Signal Cable Between Cascaded EPU02D-02s RJ45 connector "COM_OUT" port on the upper-level EPU02D-02 RJ45 connector "COM_IN" port on the lower-level EPU02D-02 RF Cables The following table lists the RF cables. NOTE Determine whether to replace the RFU according to the site requirements during the cabinet upgrade. Table 1-8 RF cables Cable One End The Other End Connector Installation Position Connector Installation Position RF jumper DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on the RFU DIN straight male connector Antenna system Inter-RFU RF signal cable QMA elbow male connector "RX OUTA" port on the RFU QMA elbow male connector "RX INB" port on the other RFU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 30 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.2.3 BTS5900A Cable List The BTS5900A cables include the PGND cable, equipotential cables, power cables, transmission cables, signal cables, CPRI electrical cables, and RF cables. PGND Cable and Equipotential Cables The following table lists a PGND cable and equipotential cables. Table 1-9 PGND cable and equipotential cables Category Cable Cables to be installed onsite One End The Other End Connector Installatio n Position Connector Installatio n Position 1.4 PGND Cable OT terminal (M6) Ground bar in a cabinet OT terminal (M6) Ground bar for the site 1.5 Equipoten tial Cable OT terminal (M6) Ground bar in the upper cabineta OT terminal (M6) Ground bar in the lower cabineta OT terminal (M6) Ground bar in a TMC11H or battery cabinet OT terminal (M6) Ground bar in an RFC a: If an APM30H or TMC11H is stacked on an RFC, the equipotential cable between the cabinets has been installed before delivery. If an IBBS200D or IBBS200T is stacked on another IBBS200D or IBBS200T or a TMC11H, the equipotential cable must be installed onsite. Power Cables The following table lists the power cables to be installed onsite. Table 1-10 Power cables to be installed onsite Cable One End EPU05A-06 or EPU05A-08 Power Cable Issue 16 (2021-08-13) The Other End Connector Installation Position Connector Installation Position OT terminal (M6) "AC INPUT" terminal on the EPU in an APM30H Depending on the external power equipment External power equipment Copyright © Huawei Technologies Co., Ltd. 31 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position DCDU-12B Power Cable (in a DC Scenario) OT terminal (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-12B in an RFC Depending on the external power equipment External power equipment DCDU-12C Power Cable (in an AC Scenario) EPC4 connector "LOAD7" port on the EPU in an APM30H OT terminal (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-12C in a TMC11H BBU Power Cable (Optional, Used in an APM30H) EPC4 connector "LOAD5" and "LOAD6" ports on the EPU in an APM30H HDEPC connector "-48V" port on the UPEU in the BBU in an APM30H BBU Power Cable (Optional, Used in a TMC11H) EPC4 connector "LOAD4" and "LOAD5" ports on the DCDU-12C in a TMC11H Power Cable for a Power Distribution Box OT terminal (M8) "BAT" terminal on the EPU in an APM30H OT terminal (M8) "RTN(+)" and "NEG(-)" terminals near the "BAT" silkscreen on the power distribution box in a battery cabineta Power Cable for the DC Junction Box in an RFC (in a DC Scenario) OT terminal (M6) DC junction box in an RFC Depending on the external power equipment External power equipment Issue 16 (2021-08-13) "-48V" port on the UPEU in the BBU in a TMC11H Copyright © Huawei Technologies Co., Ltd. 32 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Power Cable for the Fan in an IBBS200D EPC4 connector "LOAD8" port on the EPU in an APM30H EPC4 connector "FAN/TEC INPUT" port on the power distribution box at the top of an IBBS200D Power Cable for the Fan in an IBBS300D EPC4 connector "LOAD8" port on the EPU in an APM30H OT terminal (M4) "NEG(-)" and "RTN(+)" wiring terminals in the DC junction box in an IBBS300D Power Cable for the TEC in an IBBS200T EPC4 connector "LOAD8" port on the EPU in an APM30H EPC4 connector "FAN/TEC INPUT" port on the power distribution box at the top of an IBBS200T Power Cable for the TEC in an IBBS300T EPC4 connector "LOAD8" port on the EPU in an APM30H OT terminal (M4) "NEG(-)" and "RTN(+)" wiring terminals in the DC junction box in an IBBS300T Power Cable for a Heating Film OT terminal (M4) "L1" and "N1" or "L2" and "N2" terminals on the junction box in an APM30H OT terminal (M4) "L" and "N" terminals on the junction box for the heating film in an IBBS200D Power Cable for a Junction Box (in a TMC11H) OT terminal (M4) "L3" and "N3" terminals on the junction box in an APM30H OT terminal (M4) "L" and "N" terminals on the junction box in a TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 33 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Power Cable for a Junction Box (in an IBBS300D or IBBS300T) OT terminal (M4) "L2" and "N2" terminals on the junction box in an APM30H OT terminal (M4) "L" and "N" terminals on the junction box in an IBBS300D or IBBS300T Storage Battery Power Cable (in an IBBS200D or IBBS200T) OT terminal (M8) Power distribution boxes on the top and inner right wall of a battery cabinet OT terminal (M6) Positive and negative poles of the battery packs in a battery cabinet Storage Battery Power Cable (in an IBBS300D or IBBS300T) OT terminal (M8) Circuit breakers in the lower side of the DC junction box on the right side of the battery cabinet and terminals on the DC junction box near the "NEG(-)" silkscreen on the left side of the battery cabinet OT terminal (M6) Positive and negative poles of the battery packs in a battery cabinet EMUA or EMUB Power Cable (in an APM30H) EPC4 connector "LOAD5" port on the EPU in an APM30H Cord end terminal EMUA or EMUB Power Cable (in a TMC11H) EPC4 connector "LOAD8" port on the DCDU-12C in a TMC11H Cord end terminal "PWR1" port on the EMUA or "PWR" port on the EMUB in an APM30H or TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 34 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End GATM Power Cable (in an APM30H) The Other End Connector Installation Position Connector Installation Position EPC4 connector "-48V" port on a GATM 3V3 connector ● GATM 0b: "LOAD7" port on the DCDU-12A in an RFC ● GATM 1c: "LOAD5" port on the EPU05A-06 or EPU05A-08 in an APM30H GATM Power Cable (in a TMC11H) EPC4 connector "-48V" port on a GATM 3V3 connector ● GATM 0: "LOAD8" port on the DCDU-12C in a TMC11H ● GATM 1: "LOAD7" port on the DCDU-12C in a TMC11H 1.6.1.2.10 EPU02D/ EPU02D-02/ EPU02B/ EPU02S/ EPU02S-02 Power Cable (in an APM30H) Issue 16 (2021-08-13) OT terminal "RTN(+)" and "NEG(-)" terminals on the EPU02D/ EPU02D-02 OT terminal Copyright © Huawei Technologies Co., Ltd. ● "RTN(+)" terminal on the PDU01D-0 1 in an EPU05A ● "NEG(-)" terminal on the PDU01D-0 1 in an EPU05A 35 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End DCDU16D Power Cable (in an APM30H) The Other End Connector Installation Position Connector Installation Position OT terminal "RTN(+)" and "NEG(-)" terminals on the DCDU16D OT terminal ● "RTN(+)" terminal on the PDU01D-0 1 in an EPU05A ● "NEG(-)" terminal on the PDU01D-0 1 in an EPU05A 1.6.1.2.10 EPU02D/ EPU02D-02/ EPU02B/ EPU02S/ EPU02S-02 Power Cable (in a TMC11H) OT terminal "RTN(+)" and "NEG(-)" terminals on the EPU02D/ EPU02D-02 Depending on the external equipment External power equipment DCDU16D Power Cable (in a TMC11H) OT terminal "RTN(+)" and "NEG(-)" terminals on the DCDU16D Depending on the external equipment External power equipment a: Battery cabinet: IBBS200D or IBBS200T b and c: If two GATMs are installed, they are installed below the BBU in sequence. GATM 0 is installed above GATM 1. The following table lists the power cables that have been installed before delivery. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 36 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-11 Power cables installed before delivery Cable One End The Other End Connector Installation Position Connector Installation Position DCDU-12C Power Cable (in a DC Scenario) OT terminal (M6) DC junction box in an RFC OT terminal (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-12C in a TMC Power Cable for the DC Junction Box in an RFC (in an AC Scenario) OT terminal (M6) "RFC1" or "RFC2" terminal on the EPU in an APM30H OT terminal (M6) DC junction box in an RFC DCDU-12A Power Cable OT terminal (M6) DC junction box in an RFC OT terminal (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-12A in an RFC BBU Power Cable (in an APM30H) EPC4 connector "LOAD0" or "LOAD1" port on the EPU in an APM30H HDEPC connector "-48V" port on the UPEU in the BBU in an APM30H BBU Power Cable (in a TMC11H) EPC4 connector "LOAD6" and "LOAD7" ports on the DCDU-12C in a TMC11H HDEPC connector "-48V" port on the UPEU in the BBU in a TMC11H FAN 02E Power Cable/ FAN02H Power Cable (in an APM30H) EPC4 connector "LOAD2" port on the EPU in an APM30H 3V3 connector (FAN 02E)/ EPC4 connector (FAN02H) "PWR" port on the FAN 02E in an APM30H FAN 02E Power Cable/ FAN02H Power Cable (in a TMC11H) EPC4 connector "LOAD9" port on the DCDU-12C in a TMC11H 3V3 connector (FAN 02E)/ EPC4 connector (FAN02H) "PWR" port on the FAN 02E/FAN02H in a TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 37 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position RFU Power Cable EPC4 connector "LOAD0" to "LOAD5" ports on the DCDU-12A in an RFC 3V3 connector "PWR" ports on RFU 0 to RFU 5 in an RFC FAN 01D Power Cable EPC4 connector "LOAD6" port on the DCDU-12A in an RFC 3V3 connector "PWR" port on the FAN 01D in an RFC Power Cable for an AC Heater (in an APM30H) OT terminal (M4) "L0", "N0", and "PE" terminals on the junction box in an APM30H C13 connector Power input port on the AC heater in an APM30H Power Cable for an AC Heater (in a TMC11H) OT terminal (M4) "L0", "N0", and "PE" terminals on the junction box in a TMC11H C13 connector Power input port on the AC heater in a TMC11H SOU Power Cable OT terminal (M4) M4 ground screw, "L2" terminal, and "N2" terminal near the AC OUTPUT silkscreen on the left side of the EPU in an APM30H C13 connector "AC INPUT" port on the SOU in an APM30H Power Cable for a Junction Box (in an APM30H) OT terminal (M4) M4 ground screw, "L1" terminal, and "N1" terminal near the AC OUTPUT silkscreen on the left side of the EPU in an APM30H OT terminal "L" and "N" terminals on the junction box and ground bar in an APM30H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 38 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Transmission Cables The following table lists transmission cables. Table 1-12 Transmission cables Categ ory Cable Cable s to be install ed onsite One End The Other End Connec tor Installation Position Connect or Installation Position E1/T1 Cable DB26 male connect or "OUTSIDE" port on the UELP in an SLPU Dependin g on the external power equipme nt External transmission equipment FE/GE Ethernet Cable RJ45 connect or "FE/GE" electrical port near the OUTSIDE silkscreen on the UFLP in the SLPU RJ45 connecto r External transmission equipment FE/GE Optical Fiber LC connect or "FE/GE" optical port on the UMPT in the BBU ● FC conne ctor External transmission equipment ● SC conne ctor ● LC conne ctor Cable s install ed befor e delive ry E1/T1 Surge Protection Transfer Cable DB25 connect or "INSIDE" port on the UELP in an SLPU DB26 connecto r "E1/T1" port on the UMPT in a BBU FE/GE Surge Protection Transfer Cable RJ45 connect or "FE/GE" electrical port on the UMPT in a BBU RJ45 connecto r "FE/GE" electrical port near the INSIDE silkscreen on the UFLP in the SLPU Signal Cables The following table lists the signal cables to be installed onsite. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 39 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-13 Signal cables to be installed onsite Cable One End The Other End Connector Installation Position Connector Installation Position RJ45 connector "COM_OUT" port on the upper-level FAN 01D RJ45 connector "COM_IN" port on the lower-level FAN 01D RJ45 connector "COM_OUT/ U_COM1" port on the upper-level FAN 02E/ FAN02H RJ45 connector "COM_IN" port on the lower-level FAN 01D RJ45 connector "COM_OUT" port on the upper-level FAN 01D RJ45 connector "COM_IN/ U_COM0" port on the lower-level FAN 02E RJ45 connector "COM_OUT/ U_COM1" port on the upper-level FAN 02E/ FAN02H RJ45 connector "COM_IN/ U_COM0" port on the lower-level FAN 02E Monitoring Signal Cable Between Cascaded CMUHs RJ45 connector "COM_OUT" port on the CMUH in the upper-level IBBS200D or IBBS200T RJ45 connector "COM_IN" port on the CMUH in the lower-level IBBS200D or IBBS200T CCUB-CMUH Monitoring Signal Cable/ CCUC-CMUH Monitoring Signal Cable RJ45 connector "COM_OUT/ U_COM1" port on the CCUB/CCUC in the upperlevel TMC11H RJ45 connector "COM_IN" port on the CMUH in the lower-level extension RFC CMUH-CCUB Monitoring Signal Cable/ CMUH-CCUC Monitoring Signal Cable RJ45 connector "COM_OUT" port on the CMUH in the upper-level RFC RJ45 connector "COM_IN/ U_COM0" port on the CCUB/CCUC in the lowerlevel TMC11H Monitoring Signal Cable Between Cascaded Fan Assemblies Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 40 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Monitoring Signal Cable Between Cascaded CCU01D-03 Modules RJ45 connector "COM_OUT" port on the upper-level CCU01D-03 RJ45 connector "COM_IN" port on the lower-level CCU01D-03 Monitoring Signal Cable for a Battery Cabinet RJ45 connector "COM_IN" port on the CMUH or CCU01D-03 in a battery cabinet RJ45 connector "COM_485" port on the FAN 02E/ FAN02H in an APM30H GPS Clock Signal Cable SMA male connector "GPS" port on the USCU in a BBU Type N female connector GPS surge protector EMUA or EMUB Monitoring Signal Cable (in an APM30H) DB9 male connector "RS485" port on the EMUA or "COM_485" port on the EMUB in an APM30H RJ45 connector "MON1-1/ D_COM1-1" port on the FAN 02E/ FAN02H in an APM30H EMUA or EMUB Monitoring Signal Cable (in a TMC11H) DB9 male connector "RS485" port on the EMUA or "COM_485" port on the EMUB in a TMC11H RJ45 connector "MON1-1/ D_COM1-1" port on the FAN 02E/ FAN02H in a TMC11H BBU Alarm Cable RJ45 connector "EXT_ALM0" or "EXT_ALM1" port on the UPEU or UEIU in a BBU RJ45 connector External alarm device RET Control Signal Cable SMA elbow male connector "ANT0" to "ANT5" ports on a GATM SMA straight male connector "DC/OOK" port on a Bias-Tee CMUH-GATM Monitoring Signal Cable RJ45 connector "COM2" port on GATM 0 RJ45 connector "COM_IN" port on the CMUH in an RFC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 41 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position GATM Monitoring Signal Cable RJ45 connector "COM1" port on a GATM RJ45 connector "COM_OUT/ U_COM1" or "MON1-1/ D_COM1-1" port on the FAN 02E/ FAN02H in an APM30H Local Maintenance Adapter USB connector "USB"a port on the UMPT in a BBU Network interface connector Ethernet cable WIUA Monitoring Signal Cable RJ45 connector "COM_IN" port on a WIUA RJ45 connector ● "D_COM1" port on the CMUH in an IBBS200D or IBBS200T ● "D_COM1" port on the CCU01D-0 3 in an IBBS300D or IBBS300T a: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. The following table lists the signal cables that have been installed before delivery. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 42 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-14 Signal cables installed before delivery Cable One End The Other End Connector Installation Position Connector Installation Position Monitoring Signal Cable for a Temperature Sensor (in an RFC) 4-pin connector "TEM" port on the FAN 01D in an RFC Temperature sensor Air intake vent at the bottom of an RFC CMUH-CCUB Monitoring Signal Cable/ 1.8.2.24 CMUH-CCUC Monitoring Signal Cable RJ45 connector "COM_IN" port on the FAN 01D in an RFC RJ45 connector "MON0-0/ D_COM0-0" port on the FAN 02E/ FAN02H in an APM30H CCUB-BBU Monitoring Signal Cable/ CCUC-BBU Monitoring Signal Cable RJ45 connector "COM_IN/ U_COM0" port on the FAN 02E/ FAN02H in an APM30H or TMC11H RJ45 connector "MON0" port on the UPEU in the BBU in an APM30H or TMC11H RJ45 connector "COM_OUT/ U_COM1" port on the FAN 02E/ FAN02H in an APM30H or TMC11H RJ45 connector "MON1" port on the UPEU in the BBU in an APM30H or TMC11H RJ45 connector "PMI" port on the PMIU in an APM30H RJ45 connector "PMI" port on the FAN 02E/ FAN02H in an APM30H PMIU-CCUB Monitoring Signal Cable/ PMIU-CCUC Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 43 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End ELU Signal Cable The Other End Connector Installation Position Connector Installation Position RJ45 connector ● "ELU" port on the FAN 02E/ FAN02H in an APM30H or TMC11H RJ45 connector RJ45 port on the ELU in each cabinet Bare wire or cord end terminal Door status sensor ● "ELU" port on the FAN 01D in an RFC ● "ELU" port on the CMUH in an IBBS200D or IBBS200T ● "ELU" port on the CCU01D-0 3 in an IBBS300D or IBBS300T Monitoring Signal Cable for the Door Status Sensor (in an APM30H) Issue 16 (2021-08-13) Bare wire "GATE" port on the FAN 02E/FAN02H in an APM30H Copyright © Huawei Technologies Co., Ltd. 44 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End Monitoring Signal Cable for the Door Status Sensor (in a TMC11H, RFC, IBBS200D, or IBBS200T) The Other End Connector Installation Position Connector Installation Position Bare wire ● "GATE" port on the FAN 02E/ FAN02H in a TMC11H Bare wire Door status sensor 4-pin connector "FAN_EXT" port on the FAN 02E/ FAN02H in an APM30H or TMC11H ● "GATE" port on the FAN 01D in an RFC ● "GATE" port on the CMUH in an IBBS200D or IBBS200T ● "GATE" port on the CCU01D-0 3 in an IBBS300D or IBBS300T Monitoring Signal Transfer Cable for the Fan in the Front Door Interconnectio n terminal Fan power cable routed out of the front door of an APM30H or TMC11H CPRI Electrical Cables and CPRI Optical Fibers The following table lists CPRI electrical cables and CPRI optical fibers. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 45 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-15 CPRI electrical cables and CPRI optical fibers Cate gory Cable Cable s instal led befor e delive ry Cable s to be instal led onsit e One End The Other End Connector Installation Position Connector Installation Position CPRI Electrical Cable SFP20 male connector CPRI port on the UBBP in a BBU SFP20 male connector "CPRI0" or "CPRI1" port on RFU 0 to RFU 5 CPRI Optical Fiber DLC connector CPRI port on the UBBP in a BBU DLC connector CPRI port on an RRU NOTE If boards have been installed in cabinets before delivery, CPRI electrical cables have also been installed in the APM30H+RFC or TMC11H+RFC cabinet combination. CPRI electrical cables must be installed onsite in the following cases: ● In initial configuration, fewer than six RFUs are installed in an RFC before delivery. If RFUs are added for capacity expansion, CPRI electrical cables must be installed onsite. ● If an RFC is added, CPRI electrical cables of RFUs must be installed in the RFC onsite. RF Cables The following table lists RF cables. Table 1-16 RF cables Cate gory Cable Cable s to be instal led onsit e RF Jumper Issue 16 (2021-08-13) One End The Other End Connector Installation Position Connector Installation Position DIN straight male connector Antenna feeder DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on an RFU Copyright © Huawei Technologies Co., Ltd. 46 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cate gory Cable One End Cable s instal led befor e delive ry Inter-RFU RF Signal Cable The Other End Connector Installation Position Connector Installation Position QMA elbow male connector "RX_OUTA" port on an RFU QMA elbow male connector "RX_INB" port on an RFU 1.2.4 DBS5900 Cable List (BBU5900) The DBS5900 cable lists include the BBU cable list, and RRU cable list as well as the cable lists for the cabinets used by DBS5900 base stations. Cable Lists for Supported Cabinets The following table lists the links to the cable lists for the cabinets used by the DBS5900. Table 1-17 Links to the cable lists for supported cabinets Supported Cabinet Cable List APM5930(AC )/ APM5930(DC ) APM5930 Cable List BBC5200D BBC5200D Cable List BBC5200T BBC5200T Cable List BBC5300D BBC5300D Cable List BBC5300T BBC5300T Cable List BBC5200D-L BBC5200D-L Cable List BBC5200T-L BBC5200T-L Cable List IBC10 (Ver.B) IBC10 (Ver.B) Cable List IMB05 IMB05 Cable List ILC29 (Ver.E) ILC29 (Ver.E) Cable List APM30H (Ver.E) APM30H (Ver.E) Cable List Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 47 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Supported Cabinet Cable List TMC11H (Ver.E) TMC11H (Ver.E) Cable List IBBS200D (Ver.E) IBBS200D (Ver.E) Cable List IBBS200T (Ver.E) IBBS200T (Ver.E) Cable List IBBS300D IBBS300D Cable List IBBS300T IBBS300T Cable List BBU5900 Cable List The following table lists BBU5900 cables. Table 1-18 BBU5900 cable list Cable One End The Other End Connector Installation Position Connector Installation Position BBU PGND Cable OT terminal (M4, 6 mm2 or 0.009 in.2) Ground terminal on a BBU OT terminal (M8, 6 mm2 or 0.009 in.2) External ground bar BBU Power Cable HDEPC connector "-48V" port on the UPEU in a BBU Depending on the power equipment Depending on the power equipment E1/T1 Cable DB26 male connector "E1/T1" port on the UMPT in a BBU Depending on site requirements External transmission equipment FE/GE Ethernet Cable RJ45 connector "FE/GE0" port on the UMPT in a BBU RJ45 connector External transmission equipment FE/GE Optical Fiber LC connector "FE/GE1" port on the UMPT in a BBU FC, SC, or LC connector External transmission equipment CPRI Optical Fiber DLC connector CPRI port on the UBBP in a BBU DLC connector CPRI port on an RRU or AAU MPO connector CPRI port on the UBBP in a BBU MPO connector CPRI port on an AAU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 48 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position BBU Interconnecti on Signal Cable DLC connector "CI" port on the UMPT in BBU 0 DLC connector "CI" port on the UMPT in BBU 1 Local Maintenance Adapter USBa connector "USB"a port on the UMPT in a BBU Network interface connector Ethernet cable BBU Alarm Cable RJ45 connector "EXT-ALM0" port on the UPEU or UEIU in a BBU RJ45 connector External alarm equipment a: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. BBU5900A Cable List The following table lists BBU5900A cables. Table 1-19 BBU5900A cable list Cable One End The Other End Connector Installation Position Connector Installation Position BBU PGND Cable OT terminal (M6, 16 mm2 or 0.025 in.2) Ground point on a BBU5900A OT terminal (depending on site requirements) External ground bar BBU5900A Power Cable (in an AC Scenario) AC-EPC1 connector Power input port on a BBU5900A Depending on site requirements External power equipment BBU5900A Power Cable (in a DC Scenario) EPC7 connector Power input port on a BBU5900A SPC1 connector "LOAD6" port on an OPM200 1.8.4.12 GPS Clock Signal Cable SMA connector "GPS" port on the UMPT in a BBU5900A Type N female connector GPS feeder Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 49 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position BBU5900A Alarm Cable RJ45 connector "EXT_ALM" port on the UEIUd in a BBU5900A Depending on site requirements External alarm equipment Monitoring Signal Cable for the OPM RJ45 connector "MON0" or "MON1" port on the UEIUd in a BBU5900A Depending on site requirements External alarm equipment BBU Interconnecti on Signal Cable (HEI Interconnectio n Signal Cable) DLC connector "HEI" port on the UBBP in a BBU5900A DLC connector "HEI" port on the UBBP in a BBU3900/ BBU3910/ BBU5900 BBU Interconnecti on Signal Cable (CI Interconnectio n Signal Cable) DLC connector "CI" port on the UMPT in a BBU5900A DLC connector "CI" port on the UMPT in a BBU3900/ BBU3910/ BBU5900 BBU Interconnecti on Signal Cable (CI Interconnectio n Signal Cable) DLC connector "CI" port on the UMPT in a BBU5900A DLC connector "M0" or "M1" port on the UCIU in a BBU3900/ BBU3910 FE/GE Ethernet Cable RJ45 connector "FE/GE0" port on the UMPT in a BBU5900A RJ45 connector "GE_IN" port on the UEIUd in a BBU5900A RJ45 connector "GE_OUT" port on the UEIUd in a BBU5900A Depending on site requirements External transmission equipment DLC connector "FE/GE1" port on the UMPT in a BBU5900A DLC connector External transmission equipment FE/GE Optical Fiber Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 50 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End CPRI Optical Fiber The Other End Connector Installation Position Connector Installation Position DLC connector "CPRI0" to "CPRI5" ports on the UBBP in a BBU5900A DLC connector "CPRI" port on an RRU/AAU RRU Cable List For the RRU cable list, see the related RRU hardware description. For example, for the RRU3926, see RRU3926 Hardware Description. 1.2.5 BTS3900 Cable List This section describes cable lists when the BTS3900 is configured with BTS3900 (Ver.C), BTS3900 (Ver.B), and BTS3900 (Ver.D) cabinets. 1.2.5.1 BTS3900 (Ver.B) Cable List The BTS3900 cables include PGND cables, equipotential cable, power cables, transmission cables, signal cables, CPRI electrical cables, and RF cables. PGND Cables and Equipotential Cable The following table describes the PGND cables and equipotential cable. Table 1-20 PGND cables and equipotential cable Category Cable Cables to be installed onsite Issue 16 (2021-08-13) One End The Other End Connector Installatio n Position Connector Installatio n Position PGND Cable for the Cabinet OT terminal Ground terminal on the cabinet OT terminal External ground bar 1.5 Equipotent ial Cable OT terminal Wiring terminal for the equipotenti al cable OT terminal Wiring terminal for the equipotenti al cable Copyright © Huawei Technologies Co., Ltd. 51 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable Cables installed before delivery PGND Cable for a Module One End The Other End Connector Installatio n Position Connector Installatio n Position OT terminal Ground terminal on a module OT terminal Ground terminal for the PGND cable in the cabinet Power Cables The following table describes the power cables. Table 1-21 Power cables Category Cable Cables to be installed onsite 1.6.1.1.1 DCDU-01 Power Cable One End The Other End Connector Installatio n Position Connector Installatio n Position OT terminal ● Black wire: "RTN(+) " terminal on the DCDU-0 1 Depending on the external power equipment External power equipment Depending on the external power equipment External power equipment ● Blue wire: "NEG(-) " terminal on the DCDU-0 1 1.6.1.2.16 EPS24S481 00DC Power Cable Issue 16 (2021-08-13) OT terminal Power input terminal for the EPS24S481 00DC subrack Copyright © Huawei Technologies Co., Ltd. 52 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position 1.6.1.2.15 EPS4890 Power Cable OT terminal Power input terminal for the EPS4890 subrack Depending on the external power equipment External power equipment 1.6.4.4 RRU Power Cable OT terminal One of the "LOAD0" to "LOAD5" ports on the DCDU-03B Depending on the RRU model Power port on an RRU GATM Power Cable 3V3 connector "-48V" port on the GATM Parallel terminal "SPARE1" or "SPARE2" port on the DCDU-01 1.6.1.1.2 DCDU-03B Power Cable OT terminal ● Black wire: "RTN(+) " terminal on the DCDU-0 3B Depending on the external power equipment External power equipment ● Blue wire: "NEG(-) " terminal on the DCDU-0 3B Cables installed before delivery Issue 16 (2021-08-13) 1.6.4.3 RFU Power Cable 3V3 connector "PWR" port on an RFU Parallel terminal One of the "RFU0" to "RFU5" ports on the DCDU-01 1.6.3.1.1 FAN Power Cable 3V3 connector "-48V" port on the FAN Parallel terminal "FAN" port on the DCDU-01 Copyright © Huawei Technologies Co., Ltd. 53 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position 1.6.4.2 BBU Power Cable 3V3 connector "-48V" port on the UPEU Parallel terminal "BBU" port on the DCDU-01 1.6.1.1.1 DCDU-01 Power Cable OT terminal "RTN(+)" and "NEG(-)" terminals on the DCDU-01 OT terminal "RTN(+)" and "LOAD(-)" terminals on the EPS24S481 00DC subrack OT terminal "RTN(+)" and "NEG(-)" terminals on the DCDU-01 OT terminal "LOAD1(-) " or "LOAD2(-) " and "RTN(+)" terminals on the EPS4890 subrack For the BTS3900 DC cabinet (+24 V) 1.6.1.1.1 DCDU-01 Power Cable For the BTS3900 AC cabinet Transmission Cables The following table describes the transmission cables. Table 1-22 Transmission cables Category Cable Cables to be installed onsite Issue 16 (2021-08-13) One End The Other End Connector Installatio n Position Connector Installatio n Position 1.7.1 E1/T1 Cable DB26 male connector "E1/T1" port on the GTMU, WMPT, or UTRP Depending on the external equipment External transmissio n equipment 1.7.6 FE/GE Ethernet Cable RJ45 connector "FE0" port on the GTMU, WMPT, UMPT, LMPT, or UTRP RJ45 connector Routing device Copyright © Huawei Technologies Co., Ltd. 54 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable 1.7.3 FE/GE Optical Fiber Cables installed before delivery One End The Other End Connector Installatio n Position Connector Installatio n Position LC connector "SFP0" or "SFP1" port on the GTMU, WMPT, UMPT, or UTRP ● FC connect or Routing device ● SC connect or ● LC connect or 1.7.4 Interconne ction Cable Between FE/GE Electrical Ports RJ45 connector "FE0" port on the GTMU RJ45 connector "FE0" port on the WMPT board 1.7.5 Interconne ction Cable Between FE/GE Optical Ports LC connector "FE1" port on the GTMU LC connector "FE1" port on the WMPT board Signal Cables The following table describes the signal cables. Table 1-23 Signal cables Category Cable Cables to be installed onsite Issue 16 (2021-08-13) 1.8.4.6 EMU Monitorin g Signal Cable One End The Other End Connector Installatio n Position Connector Installatio n Position DB9 male connector "RS485" port on the EMU RJ45 connector "MON1" port on the UPEU or UEIU Copyright © Huawei Technologies Co., Ltd. 55 3900 & 5900 Series Base Station Cables Category Cables installed before delivery Issue 16 (2021-08-13) 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position 1.8.2.35 BBU Alarm Cable RJ45 connector "EXTALM0" port on the UPEU or UEIU RJ45 connector External alarm device 1.8.4.12 GPS Clock Signal Cable SMA male connector "GPS" port on the USCU Type N female connector GPS surge protector RET Control Signal Cable SMA elbow male connector "ANT0" to "ANT5" ports on the GATM SMA straight male connector "DC/OOK" port on the DIN BiasTee GATM Monitorin g Signal Cable RJ45 connector "COM1" port on the GATM RJ45 connector "MON1" port on the UPEU or "MON0" port on the UEIU FMUCGATM Monitorin g Signal Cable RJ45 connector "COM2" port on the GATM RJ45 connector "COM_IN" port on the lower-level FAN 1.8.4.16 Local Maintena nce Adapter USB connector "USB"a port on the UMPT in a BBU Network connector Network cable 1.8.1.3 PMU 01BBBU Monitorin g Signal Cable RJ45 connector "COM_IN" port on the PMU 01B RJ45 connector "MON1" port on the UPEU 1.8.1.19 PSU (EPW25-2 4S48D) InPosition Signal Cable Cord end terminal "ALM" terminal on the EPS24S481 00DC subrack RJ45 connector "EXTALM0" port on the UPEU Copyright © Huawei Technologies Co., Ltd. 56 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position 1.8.1.18 PSU (EPW25-2 4S48D) Monitorin g Signal Cable RJ45 connector "PRESENT" port on the EPS24S481 00DC subrack RJ45 connector "EXTALM1" port on the UPEU 1.8.2.29 FMUCBBU Monitorin g Signal Cable RJ45 connector "COM_IN" port on the FAN RJ45 connector "MON0" port on the UPEU or UEIU 1.8.3.6 Monitorin g Signal Cable Between Cascaded FANs RJ45 connector "COM_OU T" port on the upperlevel FANb RJ45 connector "COM_IN" port on the lower-level FANc 1.8.4.3 ELU Signal Cable RJ45 connector ELU RJ45 connector "SENSOR" port on the FAN a: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. b: The upper-level FAN communicates with the BBU directly. c: The lower-level FAN communicates with the BBU through the upper-level FAN. CPRI Electrical Cables The following table describes the CPRI electrical cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 57 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-24 CPRI electrical cables Category Cable One End The Other End Connector Installatio n Position Connector Installatio n Position SFP20 male connector CPRI port on the GTMU, UBRI, WBBP, or LBBP SFP20 male connector CPRI port on an RFU Cables to be installed onsite 1.9.1 CPRI Electrical Cables Cables installed before delivery If boards and modules have been installed in a BTS3900 cabinet before delivery, CPRI electrical cables are also installed in the cabinet before delivery. In this case, only the CPRI electrical cables between BTS3900 cabinets must be installed onsite. RF Cables The following table describes the RF cables. Table 1-25 RF cables Category Cable Cables to be installed onsite 1.10.1 RF Jumpers One End The Other End Connector Installatio n Position Connector Installatio n Position DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on an RFU DIN straight male connector ● Feeder of the antenna system (no GATM configur ed) ● ANT port on the Bias-Tee (GATM configur ed) Cables installed before delivery Issue 16 (2021-08-13) 1.10.2 Inter-RFU RF Signal Cable QMA elbow male connector "RX OUTA" port on an RFU Copyright © Huawei Technologies Co., Ltd. QMA elbow male connector "RX INB" port on the other RFU 58 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.2.5.2 BTS3900 (Ver.C) Cable List The BTS3900 cables include PGND cables, equipotential cable, power cables, transmission cables, signal cables, CPRI electrical cables, and RF cables. PGND Cables and Equipotential Cable The following table describes the PGND cables and equipotential cable. Table 1-26 PGND cables and equipotential cable Category Cable Cables to be installed onsite Cables installed before delivery One End The Other End Connector Installatio n Position Connector Installatio n Position PGND Cable for the Cabinet OT terminal Ground terminal on the cabinet OT terminal External ground bar 1.5 Equipotent ial Cable OT terminal Wiring terminal for the equipotenti al cable OT terminal Wiring terminal for the equipotenti al cable PGND Cable for a Module OT terminal Ground terminal on a module OT terminal Ground terminal for the PGND cable in the cabinet Power Cables The following table describes the power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 59 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-27 Power cables Category Cable Cables to be installed onsite 1.6.1.1.4 DCDU-11A Power Cable One End The Other End Connector Installatio n Position Connector Installatio n Position OT terminal ● Black wire: "RTN(+) " terminal on the DCDU Depending on the external power equipment External power equipment ● Blue wire: "NEG(-) " terminal on the DCDU Issue 16 (2021-08-13) 1.6.1.2.18 ETP48150A3 Power Cable OT terminal Power input terminal for the ETP48150A3 subrack Depending on the external power equipment External power equipment 1.6.4.4 RRU Power Cable Female fast connector (pressfit type) One of the "LOAD0" to "LOAD5" ports on the DCDU-11B Depending on the RRU model Power port on an RRU GATM Power Cable 3V3 connector "-48V" port on the GATM Female fast connector (pressfit type) "LOAD8" or "LOAD9" port on the DCDU-11A Copyright © Huawei Technologies Co., Ltd. 60 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable 1.6.1.1.5 DCDU-11B Power Cable One End The Other End Connector Installatio n Position Connector Installatio n Position OT terminal ● Black wire: "RTN(+) " terminal on the DCDU-1 1B Depending on the external power equipment External power equipment ● Blue wire: "NEG(-) " terminal on the DCDU-1 1B Cables installed before delivery 1.6.4.3 RFU Power Cable 3V3 connector "PWR" port on the RFU Female fast connector (pressfit type) One of the "LOAD0" to "LOAD5" ports on the DCDU-11A 1.6.3.1.9 FAN 03B Power Cable 3V3 connector "-48V" port on the FAN 03B Female fast connector (pressfit type) "LOAD6" port on the DCDU-11A 1.6.4.2 BBU Power Cable 3V3 connector "-48V" port on the UPEU Female fast connector (pressfit type) "LOAD7" or "LOAD8" port on the DCDU-11A 1.6.1.2.18 ETP48150A3 Power Cable OT terminal "RTN(+)" terminal on the DCDU-11A OT terminal "RTN(+)" power output terminal for the ETP48150A3 subrack (Black) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 61 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable 1.6.1.2.18 ETP48150A3 Power Cable One End The Other End Connector Installatio n Position Connector Installatio n Position OT terminal "NEG(-)" terminal on the DCDU-11A OT terminal "NEG(-)" power output terminal for the ETP48150A3 subrack (Blue) Transmission Cables The following table describes the transmission cables. Table 1-28 Transmission cables Category Cable Cables to be installed onsite Issue 16 (2021-08-13) One End The Other End Connector Installatio n Position Connector Installatio n Position 1.7.1 E1/T1 Cable DB26 male connector "E1/T1" port on the GTMU, WMPT, or UTRP Depending on the external equipment External transmissio n equipment 1.7.6 FE/GE Ethernet Cable RJ45 connector "FE0" port on the WMPT, GTMU, LMPT, or UTRP RJ45 connector External transmissio n equipment 1.7.3 FE/GE Optical Fiber LC connector "SFP0" or "SFP1" port on the WMPT, GTMU, LMPT, or UTRP ● FC connect or External transmissio n equipment Copyright © Huawei Technologies Co., Ltd. ● SC connect or ● LC connect or 62 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable Cables installed before delivery One End The Other End Connector Installatio n Position Connector Installatio n Position 1.7.4 Interconne ction Cable Between FE/GE Electrical Ports RJ45 connector "FE0" port on the GTMU RJ45 connector "FE0" port on the WMPT board 1.7.5 Interconne ction Cable Between FE/GE Optical Ports LC connector "FE1" port on the GTMU LC connector "FE1" port on the WMPT board Signal Cables The following table describes the signal cables. Table 1-29 Signal cables Category Cable Cables to be installed onsite Issue 16 (2021-08-13) One End The Other End Connector Installatio n Position Connector Installatio n Position 1.8.4.6 EMU Monitorin g Signal Cable DB9 male connector "RS485" port on the EMU RJ45 connector "MON1" port on the UPEU or UEIU 1.8.2.35 BBU Alarm Cable RJ45 connector EXT-ALM0 port on the UPEU or UEIU RJ45 connector External alarm device 1.8.4.12 GPS Clock Signal Cable SMA male connector "GPS" port on the USCU Type N female connector GPS surge protector Copyright © Huawei Technologies Co., Ltd. 63 3900 & 5900 Series Base Station Cables Category Cables installed before delivery Issue 16 (2021-08-13) 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position RET Control Signal Cable SMA elbow male connector "ANT0" to "ANT5" ports on the GATM SMA straight male connector "DC/OOK" port on the DIN BiasTee GATM Monitorin g Signal Cable RJ45 connector "COM1" port on the GATM RJ45 connector "MON0" or "MON1" port on the UPEU FMUEGATM Monitorin g Signal Cable RJ45 connector "COM2" port on the GATM RJ45 connector "COM IN" port on the lower-level FAN 03B 1.8.3.8 Monitorin g Signal Cable Between Cascaded FAN 03B Units RJ45 connector "COM OUT" port on the upper-level FAN 03Ba RJ45 connector "COM IN" port on the lower-level FAN 03Bb 1.8.4.16 Local Maintena nce Adapter USB connector "USB"c port on the UMPT in a BBU Network connector Network cable 1.8.1.3 PMU 01BBBU Monitorin g Signal Cable RJ45 connector "COM_IN" port on the PMU 01B RJ45 connector "MON1" port on the UPEU 1.8.2.30 FMUE-BBU Monitorin g Signal Cabled RJ45 connector "COM IN" port on the FAN 03B RJ45 connector "MON0" port on the UPEU or UEIU 1.8.4.3 ELU Signal Cable RJ45 connector ELU RJ45 connector "SENSOR" port on the FAN 03B Copyright © Huawei Technologies Co., Ltd. 64 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable One End Connector The Other End Installatio n Position Connector Installatio n Position a: The upper-level FAN 03B communicates with the BBU directly. b: The lower-level FAN 03B communicates with the BBU through the upper-level FAN 03B. c: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. d: If no BBU is installed in the cabinet, this cable should be bound to the right side of the cabinet. CPRI Electrical Cables The following table describes the CPRI electrical cables. Table 1-30 CPRI electrical cables Category Cable One End The Other End Connector Installatio n Position Connector Installatio n Position SFP20 male connector CPRI port on the GTMU, WBBP, or LBBP SFP20 male connector CPRI port on an RFU Cables installed before delivery 1.9.1 CPRI Electrical Cables Cables to be installed onsite If boards and modules have been installed in a BTS3900 cabinet before delivery, CPRI electrical cables are also installed in the cabinet before delivery. In this case, only the CPRI electrical cables between BTS3900 cabinets must be installed onsite. RF Cables The following table describes the RF cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 65 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-31 RF cables Category Cable Cables to be installed onsite 1.10.1 RF Jumpers One End The Other End Connector Installatio n Position Connector Installatio n Position DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on an RFU DIN straight male connector ● Feeder of the antenna system (no GATM configur ed) ● ANT port on the Bias-Tee (GATM configur ed) Cables installed before delivery 1.10.2 Inter-RFU RF Signal Cable QMA elbow male connector "RX OUTA" port on an RFU QMA elbow male connector "RX INB" port on the other RFU 1.2.5.3 BTS3900 (Ver.D) Cable List The BTS3900 cables include PGND cables, equipotential cable, power cables, transmission cables, signal cables, CPRI electrical cables, and RF cables. PGND Cables and Equipotential Cables The following table lists the PGND cables and equipotential cables. Table 1-32 PGND cables and equipotential cables Category Cable Cables to be installed onsite Issue 16 (2021-08-13) 1.4 PGND Cable (For a Cabinet) One End The Other End Connector Installatio n Position Connector Installatio n Position OT terminal Ground terminal on the cabinet OT terminal External ground bar Copyright © Huawei Technologies Co., Ltd. 66 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable 1.5 Equipotent ial Cable One End Connector Installatio n Position Connector Installatio n Position OT terminal Wiring terminal for the equipotenti al cable OT terminal Wiring terminal for the equipotenti al cable OT terminal Ground terminal on a module OT terminal Ground terminal for the PGND cable in the cabinet (Between Cabinets) Cables installed before delivery 1.4 PGND Cable The Other End (For a Module) Power Cables The following table lists the power cables for an AC-powered BTS3900. Table 1-33 Power cables for an AC-powered BTS3900 Category Cable Cables to be installed onsite 1.6.1.1.7 DCDU-12A Power Cable One End The Other End Connector Installatio n Position Connector Installatio n Position OT terminal ● Black wire: "RTN(+) " terminal on the DCDU-1 2A OT terminal ● Black wire: "RTN(+) " terminal near the RFC2 silkscree n on the EPU05A -02 ● Blue wire: "NEG(-) " terminal on the DCDU-1 2A Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. ● Blue wire: "NEG(-) " terminal near the RFC2 silkscree n on the EPU05A -02 67 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position EPU05A-02 Power Cable OT terminal Power input terminal for the EPU05A-02 subrack Depending on the external equipment External power equipment 1.6.1.1.8 DCDU-12B Power Cable OT terminal ● Black wire: "RTN(+) " terminal on the DCDU-1 2B OT terminal ● Black wire: "RTN(+) " terminal near the RFC1 silkscree n on the EPU05A -02 ● Blue wire: "NEG(-) " terminal on the DCDU-1 2B Issue 16 (2021-08-13) ● Blue wire: "NEG(-) " terminal near the RFC1 silkscree n on the EPU05A -02 GATM Power Cable 3V3 connector "-48V" port on the GATM EPC4 connector "LOAD8" or "LOAD9" port on the DCDU-12A 1.6.4.4 RRU Power Cable EPC5 connector One of the "LOAD0" to "LOAD5" ports on the DCDU-12B Depending on the RRU model Power port on an RRU Copyright © Huawei Technologies Co., Ltd. 68 3900 & 5900 Series Base Station Cables Category Cables installed before delivery 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position EPC4 connector One of the "LOAD6" to "LOAD8" ports on the DCDU-12B Depending on the RRU model Power port on an RRU 1.6.4.3 RFU Power Cable 3V3 connector "PWR" port on an RFU EPC4 connector One of the "LOAD0" to "LOAD5" ports on the DCDU-12A 1.6.3.1.10 FAN 03C Power Cable 3V3 connector "-48V" port on the FAN 03C EPC4 connector "LOAD6" port on the DCDU-12A 1.6.4.2 BBU Power Cable 3V3 connector "-48V" port on the UPEU EPC4 connector "LOAD7" or "LOAD8" port on the DCDU-12A The following table lists the power cables for a DC-powered BTS3900. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 69 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-34 Power cables for a DC-powered BTS3900 Category Cable Cables to be installed onsite 1.6.1.1.7 DCDU-12A Power Cable One End The Other End Connector Installatio n Position Connector Installatio n Position OT terminal ● Black wire: "RTN(+) " terminal on the DCDU-1 2A Depending on the external equipment External power equipment ● Blue wire: "NEG(-) " terminal on the DCDU-1 2A 1.6.4.4 RRU Power Cable GATM Power Cable Issue 16 (2021-08-13) EPC5 connector One of the "LOAD0" to "LOAD5" ports on the DCDU-12B Depending on the RRU model Power port on an RRU EPC4 connector One of the "LOAD6" to "LOAD8" ports on the DCDU-12B Depending on the RRU model Power port on an RRU 3V3 connector "-48V" port on the GATM EPC4 connector "LOAD8" or "LOAD9" port on the DCDU-12A Copyright © Huawei Technologies Co., Ltd. 70 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable 1.6.1.1.8 DCDU-12B Power Cable One End The Other End Connector Installatio n Position Connector Installatio n Position OT terminal ● Black wire: "RTN(+) " terminal on the DCDU-1 2B Depending on the external equipment External power equipment Depending on the external equipment External power equipment ● Blue wire: "NEG(-) " terminal on the DCDU-1 2B 1.6.1.2.10 EPU02D/ EPU02D-0 2/EPU02B/ EPU02S/ EPU02S-02 Power Cable OT terminal ● Black wire: "RTN(+) " terminal on the EPU02D / EPU02D -02 ● Blue wire: "NEG(-) " terminal on the EPU02D / EPU02D -02 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 71 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable DCDU16D Power Cable One End The Other End Connector Installatio n Position Connector Installatio n Position OT terminal ● Black wire: "RTN(+) " terminal on the DCDU1 6D Depending on the external equipment External power equipment ● Blue wire: "NEG(-) " terminal on the DCDU1 6D Cables installed before delivery 1.4 PGND Cable OT terminal Ground terminal on a module OT terminal Ground terminal for the PGND cable in the cabinet 1.6.4.3 RFU Power Cable 3V3 connector "PWR" port on an RFU EPC4 connector One of the "LOAD0" to "LOAD5" ports on the DCDU-12A 1.6.3.1.10 FAN 03C Power Cable 3V3 connector "-48V" port on the FAN 03C EPC4 connector "LOAD6" port on the DCDU-12A 1.6.4.2 BBU Power Cable 3V3 connector "-48V" port on the UPEU EPC4 connector "LOAD7" or "LOAD8" port on the DCDU-12A (For a Module) Transmission Cables The following table lists the transmission cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 72 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-35 Transmission cables Category Cable Cables to be installed onsite Cables installed before delivery One End The Other End Connector Installatio n Position Connector Installatio n Position 1.7.1 E1/T1 Cable DB26 male connector "E1/T1" port on the GTMU, WMPT, or UTRP Depending on the external equipment External transmissio n equipment 1.7.6 FE/GE Ethernet Cable RJ45 connector "FE0" port on the WMPT, GTMU, LMPT, or UTRP RJ45 connector External transmissio n equipment 1.7.3 FE/GE Optical Fiber LC connector "SFP0" or "SFP1" port on the WMPT, GTMU, LMPT, or UTRP ● FC connect or External transmissio n equipment ● SC connect or ● LC connect or 1.7.4 Interconne ction Cable Between FE/GE Electrical Ports RJ45 connector "FE0" port on the GTMU RJ45 connector "FE0" port on the WMPT board 1.7.5 Interconne ction Cable Between FE/GE Optical Ports LC connector "FE1" port on the GTMU LC connector "FE1" port on the WMPT board Signal Cables The following table lists signal cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 73 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-36 Signal cables Category Cable Cables to be installed onsite Issue 16 (2021-08-13) One End The Other End Connector Installatio n Position Connector Installatio n Position 1.8.4.6 EMU Monitorin g Signal Cable DB9 male connector "RS485" port on the EMU RJ45 connector "MON1" port on the UPEU or UEIU 1.8.2.35 BBU Alarm Cable RJ45 connector "EXTALM0" port on the UPEU or UEIU RJ45 connector External alarm device 1.8.4.12 GPS Clock Signal Cable SMA male connector "GPS" port on the USCU Type N female connector GPS surge protector RET Control Signal Cable SMA elbow male connector "ANT0" to "ANT5" ports on the GATM SMA straight male connector "DC/OOK" port on the DIN BiasTee GATM Monitorin g Signal Cable RJ45 connector "COM1" port on the GATM RJ45 connector "MON0" or "MON1" port on the UPEU CMUEAGATM Monitorin g Signal Cable RJ45 connector "COM2" port on the GATM RJ45 connector "COM IN" port on the lower-level FAN 03C 1.8.3.9 Monitorin g Signal Cable Between Cascaded FAN 03C Units RJ45 connector "COM OUT" port on the upper-level FAN 03Ca RJ45 connector "COM IN" port on the lower-level FAN 03Cb Copyright © Huawei Technologies Co., Ltd. 74 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable 1.8.4.14 BBU Interconne ction Signal Cable One End The Other End Connector Installatio n Position Connector Installatio n Position DLC connector One of the "M0" to "M4" ports on the UCIU in the BBU DLC connector ● "CI" port on the UMPT in the BBU ● "S0" port on the UCIU in the BBU Cables installed before delivery Issue 16 (2021-08-13) 1.8.4.15 Cable Between Two Combined Base Stations DB15 male connector "GCK" port on the UCIU in a BBU MD36 male connector "CKB1" or "CKB2" port on the DCTB 1.8.4.16 Local Maintena nce Adapter USB connector "USB"c port on the UMPT in a BBU Network interface connector Ethernet cable 1.8.1.4 PMU 11ABBU Monitorin g Signal Cable RJ45 connector "COM_IN" port on the left side of the PMU 11A RJ45 connector "MON1" port on the UPEU 1.8.2.31 FMUEABBU Monitorin g Signal Cabled RJ45 connector "COM IN" port on the FAN 03C RJ45 connector "MON0" port on the UPEU or UEIU 1.8.4.3 ELU Signal Cable RJ45 connector ELU RJ45 connector "SENSOR" port on the FAN 03C Copyright © Huawei Technologies Co., Ltd. 75 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable One End Connector The Other End Installatio n Position Connector Installatio n Position a: The upper-level FAN 03C communicates with the BBU directly. b: The lower-level FAN 03C communicates with the BBU through the upper-level FAN 03C. c: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. d: If no BBU is installed in the cabinet, this cable should be bound to the right side of the cabinet. CPRI Electrical Cables The following table lists the CPRI electrical cables. Table 1-37 CPRI electrical cables Category Cable One End The Other End Connector Installatio n Position Connector Installatio n Position SFP20 male connector CPRI port on the GTMU, WBBP, or LBBP SFP20 male connector CPRI port on an RFU Cables installed before delivery 1.9.1 CPRI Electrical Cables Cables to be installed onsite If boards and modules have been installed in a BTS3900 cabinet before delivery, CPRI electrical cables are also installed in the cabinet before delivery. In this case, only the CPRI electrical cables between BTS3900 cabinets must be installed onsite. RF Cables The following table lists the RF cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 76 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-38 RF cables Category Cable Cables to be installed onsite 1.10.1 RF Jumpers One End The Other End Connector Installatio n Position Connector Installatio n Position DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on an RFU DIN straight male connector ● Feeder of the antenna system (no GATM configur ed) ● ANT port on the Bias-Tee (GATM configur ed) Cables installed before delivery 1.10.2 Inter-RFU RF Signal Cable QMA elbow male connector "RX OUTA" port on an RFU QMA elbow male connector "RX INB" port on the other RFU 1.2.6 BTS3900L Cable List This section describes cable lists when the BTS3900L is configured with BTS3900L (Ver.C), BTS3900L (Ver.B), and BTS3900L (Ver.D) cabinets. 1.2.6.1 BTS3900L (Ver.B) Cable List The BTS3900L cables include PGND cables, power cables, transmission cables, CPRI cables, signal cables, and RF cables. PGND Cables The following table describes the PGND cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 77 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-39 PGND cables Category Cable One End The Other End Connector Installatio n Position Connector Installatio n Position Cables to be installed onsite PGND Cable for a Cabinet OT terminal (M8) Ground terminal on the cabinet OT terminal (M8) External ground bar Cables installed before delivery PGND Cable for a Module OT terminal (M4) Ground terminal on a module OT terminal (M4) Ground terminal on the cabinet Power Cables The following table describes the power cables. Table 1-40 Power cables Category Cable Cables to be installed onsite DCDU-01 Power Cable One End The Other End Conne ctor Installation Position Connecto r Installati on Position OT termin al (M6) ● Black wire: "RTN(+)" terminal on the DCDU-01 Dependin g on the external power equipmen t External power equipmen t ● Blue wire: "NEG(-)" terminal on the DCDU-01 Issue 16 (2021-08-13) RRU Power Cable (Optional) OT termin al (M4) One of the "LOAD0" to "LOAD5" ports on the DCDU-03B Dependin g on the RRU model Power port on an RRU GATM Power Cable 3V3 connec tor "-48V" port on the GATM Parallel terminal "SPARE1" or "SPARE2" port on the DCDU-01 Copyright © Huawei Technologies Co., Ltd. 78 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable DCDU-03B Power Cable (Optional) One End The Other End Conne ctor Installation Position Connecto r Installati on Position OT termin al (M6) ● Black wire: "RTN(+)" terminal on the DCDU-03B Dependin g on the external power equipmen t External power equipmen t ● Blue wire: "NEG(-)" terminal on the DCDU-03B Cables installed before delivery RFU Power Cable 3V3 connec tor "PWR" port on the RFU Parallel terminal One of the "RFU0" to "RFU5" ports on the DCDU-01 FAN Power Cable 3V3 connec tor "-48V" port on the FAN Parallel terminal "FAN" port on the DCDU-01 BBU Power Cable 3V3 connec tor "PWR" port on the UPEU Parallel terminal "BBU" port on the DCDU-01 Transmission Cables The following table describes the transmission cables. Table 1-41 Transmission cables Category Cable Cables to be installed onsite Issue 16 (2021-08-13) E1/T1 Cable One End The Other End Connector Installatio n Position Connector Installatio n Position DB26 male connector "E1/T1" port on the GTMU, WMPT, UMPT, or UTRP Depending on the external transmissio n equipment External transmissio n equipment Copyright © Huawei Technologies Co., Ltd. 79 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position FE/GE Ethernet Cable RJ45 connector FE or FE/GE electrical port on the GTMU, WMPT, UMPT, LMPT, or UTRP RJ45 connector External transmissio n equipment FE/GE Optical Fiber LC connector ● FE or FE/GE optical port on the GTMU, WMPT, UMPT, or UTRP ● FC connect or External transmissio n equipment ● "SFP0" or "SFP1" port on the LMPT Cables installed before delivery ● SC connect or ● LC connect or Interconne ction Cable Between FE/GE Electrical Ports RJ45 connector FE electrical port on the GTMU, WMPT, UMPT, or LMPT RJ45 connector "FE0" port on the WMPT board Interconne ction Cable Between FE/GE Optical Ports LC connector FE optical port on the GTMU, WMPT, UMPT, or LMPT LC connector "FE1" port on the WMPT board Signal Cables The following table describes the signal cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 80 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-42 Signal cables Category Cable Cables to be installed onsite One End The Other End Connector Installatio n Position Connector Installatio n Position EMU Monitorin g Signal Cable DB9 male connector "RS485" port on the EMU RJ45 connector "MON1" port on the UPEU or UEIU BBU Alarm Cable RJ45 connector "EXTALM0" port on the UPEU or UEIU RJ45 connector External alarm device BBU Interconne ction Signal Cable DLC connector ● "M0" or "M1" port on the UCIU DLC connector "CI" port on the UMPT ● "CI" port on the UMPT Issue 16 (2021-08-13) DLC connector "HEI" port on the WBBPf DLC connector "HEI" port on the WBBPf GPS Clock Signal Cable SMA male connector "GPS" port on the USCU, LMPT, or UMPT Type N female connector GPS surge protector Monitorin g Signal Cables Between Cascaded FANs RJ45 connector "COM OUT" port on the upper-level FANa RJ45 connector "COM IN" port on the lower-level FANb RET Control Signal Cable SMA elbow male connector "ANT0" to "ANT5" ports on the GATM SMA straight male connector "DC/OOK" port on the DIN BiasTee Copyright © Huawei Technologies Co., Ltd. 81 3900 & 5900 Series Base Station Cables Category Cables installed before delivery 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position GATM Monitorin g Signal Cable RJ45 connector "COM1" port on the GATM RJ45 connector "MON1" port on the UPEU or "MON0" port on the UEIU FMUCGATM Monitorin g Signal Cable RJ45 connector "COM2" port on the GATM RJ45 connector "COM_IN" port on the lower-level FAN Local Maintena nce Adapter USB connector "USB"c port on the UMPT in a BBU Network connector Network cable Cable Between Two Combined Base Stations DB15 male connector "GCK" port on the UCIU in a BBU MD36 or DB15 male connector "DGLUb" port on the DCTB in the 3012 series base station FMUCBBU Monitorin g Signal Cable RJ45 connector "COM IN" port on the FAN RJ45 connector "MON0" port on the UPEU or UEIU ELU Monitorin g Cable RJ45 connector ELU RJ45 connector "SENSOR" port on the FAN a: The upper-level FAN communicates with the BBU directly. b: The lower-level FAN communicates with the BBU through the upper-level FAN. c: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. CPRI Electrical Cables and CPRI Optical Fibers The following table describes the CPRI electrical cables and CPRI optical fibers. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 82 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-43 CPRI electrical cables and CPRI optical fibers Category Cable One End The Other End Connector Installatio n Position Connector Installatio n Position Cables installed before delivery CPRI Electrical Cablea SFP20 male connector CPRI ports on the GTMU, WBBP, LBBP, UBRI, or UBBP SFP20 male connector "CPRI0" or "CPRI1" port on the RFU Cables to be installed onsite CPRI Optical Fiber (Optional) DLC connector CPRI ports on the GTMU, WBBP, LBBP, UBRI, or UBBP DLC connector CPRI port on the RRU a: If boards and modules have been installed in a BTS3900L cabinet before delivery, CPRI electrical cables are also installed in the cabinet before delivery. In this case, only the CPRI electrical cables between cabinets must be installed onsite. RF Cables The following table describes the RF cables. Table 1-44 RF cables Category Cable Cables to be installed onsite RF Jumper One End The Other End Connector Installatio n Position Connector Installatio n Position DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on an RFU DIN straight male connector ● Feeder of the antenna system (no GATM configur ed) ● ANT port on the Bias-Tee (GATM configur ed) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 83 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable Cables installed before delivery Inter-RFU RF Signal Cable One End The Other End Connector Installatio n Position Connector Installatio n Position QMA elbow male connector "RX OUT" port on the RFU QMA elbow male connector "RX IN" port on another RFU 1.2.6.2 BTS3900L (Ver.C) Cable List The BTS3900L cables include PGND cables, power cables, transmission cables, CPRI cables, signal cables, and RF cables. PGND Cables The following table describes the PGND cables. Table 1-45 PGND cables Category Cable One End The Other End Connecto r Installatio n Position Connector Installatio n Position Cables to be installed onsite PGND Cable for the Cabinet OT terminal (M8) Ground terminal on the cabinet OT terminal (M8) External ground bar Cables installed before delivery PGND Cable for a Module OT terminal (M4) Ground terminal on a module OT terminal (M4) Ground terminal on the cabinet Power Cables The following table describes the power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 84 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-46 Power cables Category Cable Cables to be installed onsite DCDU-11A Power Cable One End The Other End Connecto r Installatio n Position Connector Installatio n Position OT terminal (M6) Global: Depending on the external power equipment External power equipment Depending on the RRU model Power port on an RRU ● Black wire: "RTN(+) " terminal on the DCDU-1 1A ● Blue wire: "NEG(-) " terminal on the DCDU-1 1A UK: ● Blue wire: "RTN(+) " terminal on the DCDU-1 1A ● Gray wire: "NEG(-) " terminal on the DCDU-1 1A RRU Power Cable (Optional) Issue 16 (2021-08-13) Female fast connector (pressfit type) One of the "LOAD0" to "LOAD5" ports on the DCDU-11B Copyright © Huawei Technologies Co., Ltd. 85 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connecto r Installatio n Position Connector Installatio n Position GATM Power Cable 3V3 connector "-48V" port on the GATM Parallel terminal "LOAD8" or "LOAD9" port on the DCDU-11A DCDU-11B Power Cable (Optional) OT terminal (M6) Global: Depending on the external power equipment External power equipment Parallel terminal One of the "LOAD0" to "LOAD5" ports on the DCDU-11A ● Black wire: "RTN(+) " terminal on the DCDU-1 1B ● Blue wire: "NEG(-) " terminal on the DCDU-1 1B UK: ● Blue wire: "RTN(+) " terminal on the DCDU-1 1B ● Gray wire: "NEG(-) " terminal on the DCDU-1 1B Cables installed before delivery Issue 16 (2021-08-13) RFU Power Cable 3V3 connector "PWR" port on the RFU Copyright © Huawei Technologies Co., Ltd. 86 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connecto r Installatio n Position Connector Installatio n Position FAN 03B Power Cable 3V3 connector "-48V" port on the FAN 03B Parallel terminal "LOAD6" port on the DCDU-11A BBU Power Cable 3V3 connector "-48V" port on the UPEU Parallel terminal "LOAD7" or "LOAD8" port on the DCDU-11A Transmission Cables The following table describes the transmission cables. Table 1-47 Transmission cables Category Cable Cables to be installed onsite Issue 16 (2021-08-13) One End The Other End Connector Installatio n Position Connector Installatio n Position E1/T1 Cable DB26 male connector "E1/T1" port on the GTMU, WMPT, UMPT, or UTRP Depending on the external transmissio n equipment External transmissio n equipment GE/GE Ethernet Cable RJ45 connector FE or FE/GE electrical port on the GTMU, WMPT, UMPT, LMPT, or UTRP RJ45 connector External transmissio n equipment Copyright © Huawei Technologies Co., Ltd. 87 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable FE/GE Optical Fiber One End The Other End Connector Installatio n Position Connector Installatio n Position LC connector ● FE or FE/GE optical port on the GTMU, WMPT, UMPT, or UTRP ● FC connect or External transmissio n equipment ● "SFP0" or "SFP1" port on the LMPT Cables installed before delivery ● SC connect or ● LC connect or Interconne ction Cable Between FE/GE Electrical Ports RJ45 connector FE electrical port on the WMPT, GTMU, LMPT, or UMPT RJ45 connector "FE0" port on the WMPT board Interconne ction Cable Between FE/GE Optical Ports LC connector FE optical port on the WMPT, GTMU, LMPT, or UMPT LC connector "FE1" port on the WMPT board Signal Cables The following table describes the signal cables. Table 1-48 Signal cables Category Cable Cables to be installed onsite Issue 16 (2021-08-13) EMU Monitorin g Signal Cable One End The Other End Connector Installatio n Position Connector Installatio n Position DB9 male connector "RS485" port on the EMU RJ45 connector "MON1" port on the UPEU or UEIU Copyright © Huawei Technologies Co., Ltd. 88 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position BBU Alarm Cable RJ45 connector "EXTALM0" port on the UPEU or UEIU RJ45 connector External alarm device BBU Interconne ction Signal Cable DLC connector ● "M0" or "M1" port on the UCIU DLC connector "CI" port on the UMPT ● "CI" port on the UMPT Issue 16 (2021-08-13) DLC connector "HEI" port on the WBBPf DLC connector "HEI" port on the WBBPf GPS Clock Signal Cable SMA male connector "GPS" port on the USCU, LMPT, or UMPT Type N female connector GPS surge protector Monitorin g Signal Cable Between Cascaded FAN 03Bs RJ45 connector "COM OUT" port on the upper-level FAN 03Ba RJ45 connector "COM IN" port on the lower-level FAN 03Bb RET Control Signal Cable SMA elbow male connector "ANT0" to "ANT5" ports on the GATM SMA straight male connector "DC/OOK" port on the DIN BiasTee GATM Monitorin g Signal Cable RJ45 connector "COM1" port on the GATM RJ45 connector "MON0" or "MON1" port on the UPEU FMUEGATM Monitorin g Signal Cable RJ45 connector "COM2" port on the GATM RJ45 connector "COM IN" port on the lower-level FAN 03B Copyright © Huawei Technologies Co., Ltd. 89 3900 & 5900 Series Base Station Cables Category Cables installed before delivery 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position Local Maintena nce Adapter USB connector "USB"c port on the UMPT in a BBU Network connector Network cable Cable Between Two Combined Base Stations DB15 male connector "GCK" port on the UCIU in a BBU MD36 or DB15 male connector "DGLUb" port on the DCTB in the 3012 series base station FMUE-BBU Monitorin g Signal Cable RJ45 connector "COM IN" port on the FAN 03B RJ45 connector "MON0" port on the UPEU or UEIU ELU Monitorin g Signal Cable RJ45 connector ELU RJ45 connector "SENSOR" port on the FAN 03B a: The upper-level FAN 03B communicates with the BBU directly. b: The lower-level FAN 03B communicates with the BBU through the upper-level FAN 03B. c: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. CPRI Electrical Cables and CPRI Optical Fibers The following table describes the CPRI electrical cables and CPRI optical fibers. Table 1-49 CPRI electrical cables and CPRI optical fibers Category Cables installed before delivery Issue 16 (2021-08-13) Cable CPRI Electrical Cablea One End The Other End Connector Installatio n Position Connector Installatio n Position SFP20 male connector CPRI ports on the GTMU, WBBP, LBBP, UBRI, or UBBP SFP20 male connector "CPRI0" or "CPRI1" port on the RFU Copyright © Huawei Technologies Co., Ltd. 90 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable Cables to be installed onsite CPRI Optical Fiber (Optional) One End The Other End Connector Installatio n Position Connector Installatio n Position DLC connector CPRI ports on the GTMU, WBBP, LBBP, UBRI, or UBBP DLC connector CPRI port on the RRU a: If boards and modules have been installed in a BTS3900L cabinet before delivery, CPRI electrical cables are also installed in the cabinet before delivery. In this case, only the CPRI electrical cables between cabinets must be installed onsite. RF Cables The following table describes the RF cables. Table 1-50 RF cables Category Cable Cables to be installed onsite RF Jumper One End The Other End Connector Installatio n Position Connector Installatio n Position DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on an RFU DIN straight male connector ● Feeder of the antenna system (no GATM configur ed) ● ANT port on the Bias-Tee (GATM configur ed) Cables installed before delivery Issue 16 (2021-08-13) Inter-RFU RF Signal Cable QMA elbow male connector "RX OUT" port on the RFU Copyright © Huawei Technologies Co., Ltd. QMA elbow male connector "RX IN" port on another RFU 91 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.2.6.3 BTS3900L (Ver.D) Cable List The BTS3900L cables are classified into PGND cables, equipotential cables, power cables, transmission cables, CPRI cables, signal cables, and RF cables. PGND Cables and Equipotential Cables The following table lists PGND cables and equipotential cables. Table 1-51 PGND cables and equipotential cables Category Cable Cables to be installed onsite Cables installed before delivery One End The Other End Connector Installatio n Position Connector Installatio n Position PGND Cable for a Cabinet OT terminal (M8) Ground terminal on the cabinet OT terminal (M8) External ground bar Equipotent ial Cable (Between the BTS3900L Cabinet and IMS06) OT terminal (M6) Wiring terminal for the equipotenti al cable on the cabinet OT terminal (M6) Wiring terminal for the equipotenti al cable on the subrack Equipotent ial Cable (Between the IMS06 and Door of the Subrack) OT terminal (M6) Wiring terminal for the equipotenti al cable on the subrack OT terminal (M6) Wiring terminal for the equipotenti al cable on the door of the subrack PGND Cable for a Module OT terminal (M4) Ground terminal for the PGND cable on a module OT terminal (M4) Ground terminal for the PGND cable in the cabinet Power Cables The following table lists the power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 92 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-52 Power cables Category Cable Cables to be installed onsite One End The Other End Conne ctor Installation Position Connecto r Installatio n Position EPU05A-02 Power Cable (in an AC Scenario) OT termin al (M6) "AC INPUT" port on the EPU05A-02 in the IMS06 Dependin g on the external power equipmen t External power equipment DCDU-12A Power Cable OT termin al (M6) Global: ● Depend ing on the externa l power equipm ent in DC scenari os ● Externa l equipm ent in DC scenari os ● Black wire: "RTN(+)" terminal on the DCDU-12A ● Blue wire: "NEG(-)" terminal on the DCDU-12A UK: ● Blue wire: "RTN(+)" terminal on the DCDU-12A ● Gray wire: "NEG(-)" terminal on the DCDU-12A Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. ● OT termin al (M6) in AC scenari os ● "RTN(+ )" and "NEG(-) " termina ls near the "RFC_1" and "RFC_2" silkscre ens on the EPU05A -02 in AC scenari os 93 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable DCDU-12B Power Cable (Optional) One End The Other End Conne ctor Installation Position Connecto r Installatio n Position OT termin al (M6) Global: Dependin g on the external power equipmen t External power equipment Dependin g on the external equipmen t External power equipment Dependin g on the external equipmen t External power equipment ● Black wire: "RTN(+)" terminal on the DCDU-12B ● Blue wire: "NEG(-)" terminal on the DCDU-12B UK: ● Blue wire: "RTN(+)" terminal on the DCDU-12B ● Gray wire: "NEG(-)" terminal on the DCDU-12B 1.6.1.2.10 EPU02D/ EPU02D-0 2/EPU02B/ EPU02S/ EPU02S-02 Power Cable (in a DC Scenario) OT termin al DCDU16D Power Cable OT termin al ● Black wire: "RTN(+)" terminal on the EPU02D/ EPU02D-02 ● Blue wire: "NEG(-)" terminal on the EPU02D/ EPU02D-02 ● Black wire: "RTN(+)" terminal on the DCDU16D ● Blue wire: "NEG(-)" terminal on the DCDU16D Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 94 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Conne ctor Installation Position Connecto r Installatio n Position GATM Power Cable 3V3 connec tor "-48V" port on the GATM EPC4 connector "LOAD8" or "LOAD9" port on the DCDU-12A RRU Power Cable (Optional) EPC4 or EPC5 connec tor ● EPC4 connector: one of the "LOAD6" to "LOAD8" ports on the DCDU-12B Dependin g on the RRU model "PWR" port on the RRU ● EPC5 connector: one of the "LOAD0" to "LOAD5" ports on the DCDU-12B Cables installed before delivery RFU Power Cable 3V3 connec tor "PWR" port on an RFU EPC4 connector One of the "LOAD0" to "LOAD5" ports on the DCDU-12A FAN 03C Power Cable 3V3 connec tor "-48V" port on the FAN 03C EPC4 connector "LOAD6" port on the DCDU-12A BBU Power Cable 3V3 connec tor "-48V" port on the UPEU EPC4 connector "LOAD7" or "LOAD8" port on the DCDU-12A Transmission Cables The following table lists transmission cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 95 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-53 Transmission cables Category Cable Cables to be installed onsite One End The Other End Connector Installatio n Position Connector Installatio n Position E1/T1 Cable DB26 male connector "E1/T1" port on the GTMU, WMPT, UMPT, or UTRP Depending on the external transmissio n equipment External transmissio n equipment FE/GE Ethernet Cable RJ45 connector FE or FE/GE electrical port on the GTMU, WMPT, UMPT, LMPT, or UTRP RJ45 connector External transmissio n equipment FE/GE Optical Fiber LC connector ● FE or FE/GE optical port on the GTMU, WMPT, UMPT, or UTRP ● FC connect or External transmissio n equipment ● "SFP0" or "SFP1" port on the LMPT Cables installed before delivery Issue 16 (2021-08-13) Interconne ction Cable Between FE/GE Electrical Ports RJ45 connector FE electrical port on the WMPT, GTMU, LMPT, or UMPT Copyright © Huawei Technologies Co., Ltd. ● SC connect or ● LC connect or RJ45 connector "FE0" port on the WMPT board 96 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable Interconne ction Cable Between FE/GE Optical Ports One End The Other End Connector Installatio n Position Connector Installatio n Position LC connector FE optical port on the WMPT, GTMU, LMPT, or UMPT LC connector "FE1" port on the WMPT board Signal Cables The following table lists signal cables. Table 1-54 Signal cables Category Cable Cables to be installed onsite One End The Other End Connector Installatio n Position Connector Installatio n Position EMU Monitorin g Signal Cable DB9 male connector "RS485" port on the EMU RJ45 connector "MON1" port on the UPEU or UEIU BBU Alarm Cable RJ45 connector "EXTALM0" port on the UPEU or UEIU RJ45 connector External alarm device BBU Interconne ction Signal Cable DLC connector ● "M0" or "M1" port on the UCIU DLC connector "CI" port on the UMPT DLC connector "HEI" port on the WBBPf ● "CI" port on the UMPT DLC connector Issue 16 (2021-08-13) "HEI" port on the WBBPf Copyright © Huawei Technologies Co., Ltd. 97 3900 & 5900 Series Base Station Cables Category Issue 16 (2021-08-13) 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position GPS Clock Signal Cable SMA male connector "GPS" port on the USCU, LMPT, or UMPT Type N female connector GPS surge protector Monitorin g Signal Cable Between Cascaded FAN 03C Units RJ45 connector "COM OUT" port on the upper-level FAN 03Ca RJ45 connector "COM IN" port on the lower-level FAN 03Cb RET Control Signal Cable SMA elbow male connector "ANT0" to "ANT5" ports on a GATM SMA straight male connector "DC/OOK" port on the DIN BiasTee GATM Monitorin g Signal Cable (in a DC Scenario) RJ45 connector "COM1" port on the GATM RJ45 connector "MON0" or "MON1" port on the UPEU CMUEAGATM Monitorin g Signal Cable RJ45 connector "COM2" port on the GATM RJ45 connector "COM IN" port on the lower-level FAN 03C Local Maintena nce Adapter USB connector "USB"c port on the UMPT in a BBU Network interface connector Ethernet cable Cable Between Two Combined Base Stations DB15 male connector "GCK" port on the UCIU in a BBU MD36 or DB15 male connector "DGLUb" port on the DCTB in the 3012 series base station Copyright © Huawei Technologies Co., Ltd. 98 3900 & 5900 Series Base Station Cables Category Cables installed before delivery 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position PMU 11ABBU Monitorin g Signal Cable (in an AC Scenario) RJ45 connector "COM_IN" port on the PMU 11A in the EPU05A-02 in the IMS06 RJ45 connector "MON1" port on the UPEU or UEIU FMUEABBU Monitorin g Signal Cable RJ45 connector "COM IN" port on the FAN 03C RJ45 connector "MON0" port on the UPEU or UEIU ELU Signal Cable RJ45 connector ELU RJ45 connector "SENSOR" port on the FAN 03C a: The upper-level FAN 03C communicates with the BBU directly. b: The lower-level FAN 03C communicates with the BBU through the upper-level FAN 03C. c: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. CPRI Electrical Cables and CPRI Optical Fibers The following table lists CPRI electrical cables and CPRI optical fibers. Table 1-55 CPRI electrical cables and CPRI optical fibers Category Cables installed before delivery Issue 16 (2021-08-13) Cable CPRI Electrical Cablea One End The Other End Connector Installatio n Position Connector Installatio n Position SFP20 male connector CPRI ports on the GTMU, WBBP, LBBP, UBRI, or UBBP SFP20 male connector "CPRI0" or "CPRI1" port on the RFU Copyright © Huawei Technologies Co., Ltd. 99 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable Cables to be installed onsite CPRI Optical Fiber (Optional) One End The Other End Connector Installatio n Position Connector Installatio n Position DLC connector CPRI ports on the GTMU, WBBP, LBBP, UBRI, or UBBP DLC connector CPRI port on the RRU a: If boards and modules have been installed in a BTS3900L cabinet before delivery, CPRI electrical cables are also installed in the cabinet before delivery. In this case, only the CPRI electrical cables between cabinets must be installed onsite. RF Cables The following table lists the RF cables. Table 1-56 RF cables Category Cable Cables to be installed onsite RF Jumper One End The Other End Connector Installatio n Position Connector Installatio n Position DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on an RFU DIN straight male connector ● Feeder of the antenna system (no GATM configur ed) ● ANT port on the Bias-Tee (GATM configur ed) Cables installed before delivery Issue 16 (2021-08-13) Inter-RFU RF Signal Cable QMA elbow male connector "RX OUT" port on the RFU Copyright © Huawei Technologies Co., Ltd. QMA elbow male connector "RX IN" port on another RFU 100 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.2.7 BTS3900A Cable List This section describes cable lists for BTS3900A (Ver.B), BTS3900A (Ver.C), BTS3900A (Ver.D), BTS3900A (Ver.E), and reused cabinets. 1.2.7.1 BTS3900A (Ver.B) Cable List The BTS3900A cables include PGND cables, equipotential cables, power cables, transmission cables, signal cables, CPRI electrical cables, and RF cables. PGND Cables and Equipotential Cables The following table lists the PGND cables and equipotential cables. Table 1-57 PGND cables and equipotential cables Cate gory Cable Cable s to be instal led onsit e One End The Other End Connector Installation Position Connector Installation Position PGND Cable OT terminal (M6) Ground bar in a cabinet OT terminal (M6) Ground busbar outside the cabinet Equipotentia l Cable OT terminal (M6) Ground bar in the upper cabineta OT terminal (M6) Ground bar in the lower cabineta OT terminal (M6) Ground bar in a TMC11H, IBBS200D, or IBBS200T OT terminal (M6) Ground bar in an RFC a: If an APM30H or TMC11H is stacked on an RFC, the equipotential cable between the cabinets has been installed before delivery. If an IBBS200D or IBBS200T is stacked on another IBBS200D or IBBS200T or a TMC11H, the equipotential cable must be installed onsite. Power Cables The following table lists the power cables to be installed onsite. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 101 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-58 Power cables to be installed onsite Cable One End The Other End Conne ctor Installation Position Conne ctor Installation Position EPS 01A or EPS 01C Power Cable OT termin al (M6) "AC INPUT" terminal on the EPS in an APM30H Depen ding on the extern al power equip ment External power equipment DCDU-01 Power Cable (in a DC Scenario) Depen ding on the extern al power equip ment External power equipment OT termin al (M6) "RTN(+)" and "NEG(-)" ports near the "INPUT" silkscreen on the DCDU-01 in an RFC DCDU-03C Power Cable (in an AC Scenario) Femal e fast connec tor (pressf it type) "TMC" terminal on the EPS in an APM30H OT termin al (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-03C in a TMC11H Power Cable for a Power Distribution Box Power series 120 connec tor (gray) "BAT" terminal on the EPS in an APM30H OT termin al (M8) "RTN(+)" and "NEG(-)" terminals near the "BAT" silkscreen on the power distribution box in an IBBS200D or IBBS200T Power Cable for the Fan in an IBBS200D Femal e fast connec tor (pressf it type) "LOAD3" port on the EPS in an APM30H OT termin al (M4) "RTN(+)" and "NEG(-)" terminals near the "FAN/ TEC" silkscreen on the power distribution box in an IBBS200D TEC Power Cable Femal e fast connec tor (pressf it type) "LOAD2" or "LOAD3" port on the EPS in an APM30H OT termin al (M4) "RTN(+)" and "NEG(-)" terminals near the "FAN/ TEC" silkscreen on the power distribution box in an IBBS200T Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 102 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Conne ctor Installation Position Conne ctor Installation Position Power Cable for a Heating Film OT termin al (M4) "L1" and "N1" terminals or "L2" and "N2" terminals on the junction box in an APM30H OT termin al (M4) "L" and "N" terminals on the junction terminal for the heating-film power cable in an IBBS200D Power Cable for a Junction Box (in an AC Scenario) OT termin al (M4) "L3" and "N3" terminals on the junction box in an APM30H OT termin al (M4) "L" and "N" terminals on the junction box in a TMC11H 1.6.4.1 EMUA or EMUB Power Cable (in an APM30H) Femal e fast connec tor (pressf it type) "LOAD4" port on the EPS in an APM30H Cord end termin al "PWR1" port on the EMUA or "PWR" port on the EMUB in an APM30H or TMC11H 1.6.4.1 EMUA or EMUB Power Cable (in a TMC11H) Femal e fast connec tor (pressf it type) "LOAD8" port on the DCDU-03C in a TMC11H 1.6.4.9 GATM Power Cable (in an APM30H) Paralle l termin al "-48V" port on a GATM 3V3 conne ctor ● GATM 0a: "SPARE1" port on the DCDU-01 in an RFC 1.6.4.9 GATM Power Cable (in a TMC11H) OT termin al (M4) "-48V" port on a GATM ● GATM 1b: "BBU" port on the DCDU-01 in an RFC 3V3 conne ctor ● GATM 0: "LOAD8" port on the DCDU-03C in a TMC11H ● GATM 1: "LOAD7" port on the DCDU-03C in a TMC11H a and b: If two GATMs are installed, they are installed below the BBU in sequence. GATM 0 is installed above GATM 1. GATM 1 is installed under GATM 0. The following table lists the power cables that have been installed before delivery. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 103 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-59 Power cables installed before delivery Cable One End The Other End Conne ctor Installation Position Connec tor Installation Position DCDU-03C Power Cable (in a DC Scenario) Paralle l termin al "SPARE2" port on the DCDU-01 in an RFC OT termina l (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-03C in a TMC11H DCDU-01 Power Cable (in an AC Scenario) PP120 connec ter (blue) "RFC1" terminal on the EPS in an APM30H OT termina l (M6) "RTN(+)" and "NEG(-)" ports near the "INPUT" silkscreen on the DCDU-01 in an RFC BBU Power Cable (in an APM30H) Femal e fast connec tor (pressf it type) "LOAD1" port on the EPS in an APM30H 3V3 connect or "-48V" port on the UPEU in the BBU in an APM30H BBU Power Cable (in a TMC11H) OT termin al "LOAD6" port on the DCDU-03C in a TMC11H 3V3 connect or "-48V" port on the UPEU in the BBU in a TMC11H FAN 02A Power Cable (in an APM30H) Femal e fast connec tor (pressf it type) "LOAD0" port on the EPS in an APM30H 3V3 connect or "PWR" port on the FAN 02A in an APM30H FAN 02A Power Cable (in a TMC11H) OT termin al (M4) "LOAD8" port on the DCDU-03C in a TMC11H 3V3 connect or "PWR" port on the FAN 02A in a TMC11H RFU Power Cable Paralle l termin al "RFU0" to "RFU5" ports on the DCDU-01 in an RFC 3V3 connect or "PWR" ports on RFUs 0 to 5 in an RFC FAN 01A Power Cable Paralle l termin al "FAN" port on the DCDU-01 in an RFC 3V3 connect or "PWR" port on the FAN 01A in an RFC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 104 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Conne ctor Installation Position Connec tor Installation Position Power Cable for an AC Heater (in an APM30H) OT termin al (M4) "L0", "N0", and "PE" terminals on the junction box in an APM30H C13 connect or Power input port on the AC heater in an APM30H Power Cable for an AC Heater (in a TMC11H) OT termin al (M4) "L0", "N0", and "PE" terminals on the junction box in a TMC11H C13 connect or Power input port on the AC heater in a TMC11H SOU Power Cable OT termin al (M4) M4 ground screw, "L2" terminal, and "N2" terminal near the "AC OUTPUT" silkscreen on the left side of the EPS in an APM30H C13 connect or "AC INPUT" port on the service outlet unit (SOU) in an APM30H Power Cable for a Junction Box (in an APM30H) OT termin al (M4) M4 ground screw, "L1" terminal, and "N1" terminal near the "AC OUTPUT" silkscreen on the left side of the EPS in an APM30H OT termina l "L" and "N" terminals on the junction box and ground bar in an APM30H Transmission Cables The following table lists transmission cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 105 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-60 Transmission cables Categ ory Cable Cable s to be install ed onsite Cable s install ed befor e delive ry One End The Other End Connec tor Installation Position Connect or Installation Position E1/T1 Cable DB26 male connect or "OUTSIDE" port on the UELP in an SLPU Dependin g on the external equipme nt External transmission equipment FE/GE Ethernet Cable RJ45 connect or FE/GE electrical port near the OUTSIDE port on the UFLP in an SLPU RJ45 connecto r External transmission equipment FE/GE Optical Fiber LC connect or ● FE/GE optical port on the GTMU, WMPT, UMPT, or UTRP in the BBU ● FC conne ctor External transmission equipment ● FE/GE optical port on the LMPT or UMPT in a BBU ● LC conne ctor ● SC conne ctor E1/T1 Surge Protection Transfer Cable DB25 connect or "INSIDE" port on the UELP in an SLPU DB26 connecto r E1/T1 port on the GTMU, WMPT, UMPT, or UTRP in the BBU FE/GE Surge Protection Transfer Cable RJ45 connect or ● FE/GE electrical port on the GTMU, WMPT, or UMPT in a BBU RJ45 connecto r FE/GE electrical port near the INSIDE silkscreen on the UFLP in the SLPU ● FE/GE electrical port on the LMPT or UMPT in a BBU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 106 3900 & 5900 Series Base Station Cables Categ ory 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connec tor Installation Position Connect or Installation Position Interconn ection Cable Between FE/GE Electrical Ports RJ45 connect or FE/GE electrical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 RJ45 connecto r FE/GE electrical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 Interconn ection Cable Between FE/GE Optical Ports LC connect or FE/GE optical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 LC connecto r FE/GE optical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 Signal Cables The following table lists the signal cables to be installed onsite. Table 1-61 Signal cables to be installed onsite Cable One End The Other End Connector Installation Position Connecto r Installation Position Monitoring Signal Cable Between Cascaded CMUAs RJ45 connector "COM_OUT" port on the upper-level CMUA RJ45 connector "COM_IN" port on the lower-level CMUA Monitoring Signal Cable Between Cascaded Fan Assemblies RJ45 connector "COM_OUT" port on the upper-level fan assembly RJ45 connector "COM_IN" port on the lower-level fan assembly Monitoring Signal Cable for a Battery Cabinet RJ45 connector "COM_IN" port on the CMUA in an IBBS200D or IBBS200T RJ45 connector "COM_485" port on the PMU in an APM30H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 107 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connecto r Installation Position GPS Clock Signal Cable SMA male connector "GPS" port on the USCU in a BBU Type N female connector GPS surge protector 1.8.4.5 EMUA or EMUB Monitoring Signal Cable (in an APM30H) DB9 male connector "RS485" port on the EMUA or "COM_485" port on the EMUB in an APM30H RJ45 connector "COM_OUT" port on the PMU in an APM30H 1.8.4.5 EMUA or EMUB Monitoring Signal Cable (in a TMC11H) DB9 male connector "RS485" port on the EMUA or "COM_485" port on the EMUB in a TMC11H RJ45 connector "COM_OUT" port on the FAN 02A in a TMC11H BBU Alarm Cable RJ45 connector "EXT_ALM0" or "EXT_ALM1" port on the UPEU or UEIU in a BBU RJ45 connector External alarm device 1.8.4.24 RET Control Signal Cable SMA elbow male connector "ANT0" to "ANT5" ports on a GATM SMA straight male connector "DC/OOK" port on a Bias-Tee 1.8.4.20 CMUEAGATM Monitoring Signal Cable RJ45 connector "COM2" port on a GATM RJ45 connector "COM_IN" port the FAN 02A in APM30H or "COM_IN" port the FAN 01A in RFC 1.8.4.17 GATM Monitoring Signal Cable RJ45 connector "COM1" port on a GATM RJ45 connector "MON0" or "MON1" port in the BBU in an APM30H Local Maintenan ce Adapter USB connector "USB"a port on the UMPT in a BBU Network interface connector Ethernet cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. on an on an 108 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End Cable Between Two Combined Base Stations The Other End Connector Installation Position Connecto r Installation Position DB15 male connector "GCK" port on the UCIU in a BBU MD36 or DB15 male connector "DGLUb" port on a DCTB a: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. The following table lists the signal cables that have been installed before delivery. Table 1-62 Signal cables installed before delivery Cable One End The Other End Connec tor Installation Position Connect or Installation Position Monitoring Signal Cable for the Temperatur e Sensor (in an RFC) 4-pin connect or "TEM" port on the FAN 01A in an RFC Tempera ture sensor Air intake vent at the bottom of an RFC CMUA-BBU Monitoring Signal Cable RJ45 connect or "COM_IN" port on the FAN 01A in an RFC RJ45 connecto r "MON0" port on the UPEU in the BBU in an APM30H HPMI-PMU Monitoring Signal Cable DB50 male connect or "COM" port on the PMU in an APM30H DB50 male connecto r "PMU_DB50" port on the FAN 02A in an APM30H PMUCMUA Monitoring Signal Cable RJ45 connect or "COM_IN" port on the PMU in an APM30H RJ45 connecto r "COM_OUT" port on the FAN 02A in an APM30H Issue 16 (2021-08-13) "COM_IN" port on the FAN 02A in an APM30H "MON1" port on the UPEU in the BBU in an APM30H Copyright © Huawei Technologies Co., Ltd. 109 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End ELU Signal Cable The Other End Connec tor Installation Position Connect or Installation Position RJ45 connect or RJ45 port on the ELU in each cabinet RJ45 connecto r ● "ELU" port on the FAN 02A in an APM30H or TMC11H ● "ELU" port on the FAN 01A in an RFC ● "ELU" port on the CMUA in an IBBS200D or IBBS200T Monitoring Signal Cable for the Door Status Sensor (in an APM30H) 2-pin connect or "GATE" port on the FAN 02A in an APM30H Bare wire Door status sensor Monitoring Signal Cable for the Door Status Sensor (in a TMC11H, RFC, IBBS200D, or IBBS200T) Bare wire ● "GATE" port on the FAN 02A in a TMC11H Bare wire Door status sensor Monitoring Signal Transfer Cable for the Fans in a Front Door 4-pin connect or 4-pin connecto r "FAN_EXT" port on the FAN 02A in an APM30H ● "GATE" port on the FAN 01A in an RFC ● "GATE" port on the CMUA in an IBBS200D or IBBS200T DC junction box in the front door of an APM30H CPRI Electrical Cables and CPRI Optical Fibers The following table lists CPRI electrical cables and CPRI optical fibers. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 110 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-63 CPRI electrical cables and CPRI optical fibers Cate gory Cable Cable s instal led befor e delive ry Cable s to be instal led onsit e One End The Other End Connector Installation Position Connector Installation Position CPRI Electrical Cablea SFP20 male connector "CPRI0" to "CPRI5" ports on the GTMU, UBRI, LBBP, WBBP, or UBBP in a BBU SFP20 male connector "CPRI0" or "CPRI1" ports on RFUs 0 to 5 CPRI Optical Fiber DLC connector "CPRI0" to "CPRI5" ports on the GTMU, UBRI, LBBP, WBBP, or UBBP in a BBU DLC connector ● "CPRI_W" port on an RRU ● "CPRI_0" port on an RRU a: If boards have been installed in cabinets before delivery, CPRI electrical cables have also been installed in the APM30H+RFC or TMC11H+RFC cabinet combination. CPRI electrical cables must be installed onsite in the following cases: ● In initial configuration, fewer than six RFUs are installed in an RFC before delivery. If RFUs are added for capacity expansion, CPRI electrical cables must be installed onsite. ● If an RFC is added, CPRI electrical cables of RFUs must be installed in the RFC onsite. RF Cable The following table lists RF cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 111 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-64 RF cables Cate gory Cable Cable s to be instal led onsit e Cable s instal led befor e delive ry One End The Other End Connector Installation Position Connector Installation Position RF Jumper DIN straight male connector Antenna feeder DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on an RFU Inter-RFU RF Signal Cable QMA elbow male connector "RX_OUTA" port on an RFU QMA elbow male connector "RX_INB" port on an RFU 1.2.7.2 BTS3900A (Ver.C) Cable List The BTS3900A cables include PGND cables, equipotential cables, power cables, transmission cables, signal cables, CPRI electrical cables, and RF cables. PGND Cables and Equipotential Cables The following table lists the PGND cables and equipotential cables. Table 1-65 PGND cables and equipotential cables Cate gory Cable Cable s to be instal led onsit e Issue 16 (2021-08-13) One End The Other End Connector Installation Position Connector Installation Position PGND Cable OT terminal (M6) Ground bar in a cabinet OT terminal (M6) Ground busbar outside the cabinet Equipotentia l Cable OT terminal (M6) Ground bar in the upper cabinet(1) OT terminal (M6) Ground bar in the lower cabinet(1) Copyright © Huawei Technologies Co., Ltd. 112 3900 & 5900 Series Base Station Cables Cate gory Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position OT terminal (M6) Ground bar in a TMC11H, IBBS200D, or IBBS200T OT terminal (M6) Ground bar in an RFC NOTE (1) If an APM30H or TMC11H is stacked on an RFC, the equipotential cable between the cabinets has been installed before delivery. If an IBBS200D or IBBS200T is stacked on another IBBS200D or IBBS200T or a TMC11H, the equipotential cable must be installed onsite. Power Cables The following table lists the power cables to be installed onsite. Table 1-66 Power cables to be installed onsite Cable One End The Other End Conne ctor Installation Position Conne ctor Installation Position EPU03A-02 or EPU03A-04 Power Cable OT termin al (M6) "AC INPUT" terminal on the EPU in an APM30H Depen ding on the extern al power equip ment External power equipment DCDU-11C Power Cable (in an AC Scenario) Femal e fast connec tor (pressf it type) "TMC" terminal on the EPU in an APM30H OT termin al (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-11C in a TMC11H Power Cable for a Power Distribution Box PP175 connec tor (gray) PP175 connector (gray) of the EPU in an APM30H OT termin al (M8) "RTN(+)" and "NEG(-)" terminals near the "BAT" silkscreen on the power distribution box in an IBBS200D or IBBS200T Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 113 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Conne ctor Installation Position Conne ctor Installation Position Power Cable for the DC Junction Box in an RFC (in a DC Scenario) OT termin al (M6) "RTN(+)" and "NEG(-)" terminals on the DC junction box in an RFC Depen ding on the extern al power equip ment External power equipment Power Cable for the Fan in an IBBS200D Femal e fast connec tor (pressf it type) "LOAD3" port on the EPU in an APM30H OT termin al (M4) "RTN(+)" and "NEG(-)" terminals near the "FAN/ TEC" silkscreen on the power distribution box in an IBBS200D TEC Power Cable Femal e fast connec tor (pressf it type) "LOAD2" or "LOAD3" port on the EPU in an APM30H OT termin al (M4) "RTN(+)" and "NEG(-)" terminals near the "FAN/ TEC" silkscreen on the power distribution box in an IBBS200T Power Cable for a Heating Film OT termin al (M4) "L1" and "N1" terminals or "L2" and "N2" terminals on the junction box in an APM30H OT termin al (M4) "L" and "N" terminals on the junction terminal for the heating-film power cable in an IBBS200D Power Cable for a Junction Box (in an AC Scenario) OT termin al (M4) "L3" and "N3" terminals on the junction box in an APM30H OT termin al (M4) "L" and "N" terminals on the junction box in a TMC11H 1.6.4.1 EMUA or EMUB Power Cable (in an APM30H) Femal e fast connec tor (pressf it type) "LOAD4" port on the EPU in an APM30H Cord end termin al "PWR1" port on the EMUA or "PWR" port on the EMUB in an APM30H or TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 114 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Conne ctor Installation Position 1.6.4.1 EMUA or EMUB Power Cable (in a TMC11H) Femal e fast connec tor (pressf it type) "LOAD8" port on the DCDU-11C in a TMC11H 1.6.4.9 GATM Power Cable (in an APM30H) Femal e fast connec tor (pressf it type) "-48V" port on a GATM 1.6.4.9 GATM Power Cable (in a TMC11H) Femal e fast connec tor (pressf it type) "-48V" port on a GATM Conne ctor Installation Position 3V3 conne ctor ● GATM 0(1): "LOAD7" port on the DCDU-11A in an RFC ● GATM 1(2): "BBU_1" port on the EPU03A-02 or EPU03A-04 in an APM30H 3V3 conne ctor ● GATM 0: "LOAD8" port on the DCDU-11C in a TMC11H ● GATM 1: "LOAD6" port on the DCDU-11C in a TMC11H NOTE (1) and (2): If two GATMs are installed, they are installed below the BBU in sequence. GATM 0 is installed above GATM 1. GATM 1 is installed under GATM 0. The following table lists the power cables that have been installed before delivery. Table 1-67 Power cables installed before delivery Cable One End Power Cable for the DC Junction Box in an RFC (in an AC Scenario) Issue 16 (2021-08-13) The Other End Conne ctor Installation Position Connec tor Installation Position OT termin al (M6) PP120 connector (blue) of the EPU in an APM30H OT termina l (M6) "RTN(+)" and "NEG(-)" terminals on the DC junction box in an RFC Copyright © Huawei Technologies Co., Ltd. 115 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Conne ctor Installation Position Connec tor Installation Position DCDU-11A Power Cable OT termin al (M6) "RTN(+)" and "NEG(-)" terminals on the DC junction box in an RFC OT termina l (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-11A in an RFC DCDU-11C Power Cable (in a DC Scenario) OT termin al "RTN(+)" and "NEG(-)" terminals on the DC junction box in an RFC OT termina l "RTN(+)" and "NEG(-)" terminals on the DCDU-11C in a TMC11H BBU Power Cable (in an APM30H) Femal e fast connec tor (pressf it type) "BBU_0" or "BBU_1" port on the EPU in an APM30H 3V3 connect or "-48V" port on the UPEU in the BBU in an APM30H BBU Power Cable (in a TMC11H) Femal e fast connec tor (pressf it type) "LOAD6" or "LOAD7" port on the DCDU-11C in a TMC11H FAN 02B Power Cable (in an APM30H) Femal e fast connec tor (pressf it type) "LOAD5" port on the EPU in an APM30H 3V3 connect or "PWR" port on the FAN 02B in an APM30H FAN 02B Power Cable (in a TMC11H) Femal e fast connec tor (pressf it type) "LOAD9" port on the DCDU-11C in a TMC11H 3V3 connect or "PWR" port on the FAN 02B in a TMC11H Issue 16 (2021-08-13) "-48V" port on the UPEU in the BBU in a TMC11H Copyright © Huawei Technologies Co., Ltd. 116 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Conne ctor Installation Position Connec tor Installation Position RFU Power Cable Femal e fast connec tor (pressf it type) "LOAD0" to "LOAD5" ports on the DCDU-11A in an RFC 3V3 connect or "PWR" ports on RFUs 0 to 5 in an RFC FAN 01B Power Cable Femal e fast connec tor (pressf it type) "LOAD6" port on the DCDU-11A in an RFC 3V3 connect or "PWR" port on the FAN 01B in an RFC Power Cable for an AC Heater (in an APM30H) OT termin al (M4) "L0", "N0", and "PE" terminals on the junction box in an APM30H C13 connect or Power input port on the AC heater in an APM30H Power Cable for an AC Heater (in a TMC11H) OT termin al (M4) "L0", "N0", and "PE" terminals on the junction box in a TMC11H C13 connect or Power input port on the AC heater in a TMC11H SOU Power Cable OT termin al (M4) M4 ground screw, "L2" terminal, and "N2" terminal near the "AC OUTPUT" silkscreen on the left side of the EPU in an APM30H C13 connect or "AC INPUT" port on the SOU in an APM30H Power Cable for a Junction Box (in an APM30H) OT termin al (M4) M4 ground screw, "L1" terminal, and "N1" terminal near the "AC OUTPUT" silkscreen on the left side of the EPU in an APM30H OT termina l "L" and "N" terminals on the junction box and ground bar in an APM30H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 117 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Transmission Cables The following table lists transmission cables. Table 1-68 Transmission cables Categ ory Cable Cable s to be install ed onsite Cable s install ed befor e delive ry Issue 16 (2021-08-13) One End The Other End Connec tor Installation Position Connect or Installation Position E1/T1 Cable DB26 male connect or "OUTSIDE" port on the UELP in an SLPU Dependin g on the external equipme nt External transmission equipment FE/GE Ethernet Cable RJ45 connect or FE/GE electrical port near the OUTSIDE port on the UFLP in an SLPU RJ45 connecto r External transmission equipment FE/GE Optical Fiber LC connect or ● FE/GE optical port on the GTMU, WMPT, UMPT, or UTRP in the BBU ● FC conne ctor External transmission equipment ● FE/GE optical port on the LMPT or UMPT in a BBU ● LC conne ctor E1/T1 Surge Protection Transfer Cable DB25 connect or "INSIDE" port on the UELP in an SLPU ● SC conne ctor DB26 connecto r Copyright © Huawei Technologies Co., Ltd. E1/T1 port on the GTMU, WMPT, UMPT, or UTRP in the BBU 118 3900 & 5900 Series Base Station Cables Categ ory 1 3900 & 5900 Series Base Station Cables Cable One End FE/GE Surge Protection Transfer Cable The Other End Connec tor Installation Position Connect or Installation Position RJ45 connect or ● FE/GE electrical port on the GTMU, WMPT, or UMPT in a BBU RJ45 connecto r FE/GE electrical port near the INSIDE silkscreen on the UFLP in the SLPU ● FE/GE electrical port on the LMPT or UMPT in a BBU Interconn ection Cable Between FE/GE Electrical Ports RJ45 connect or FE/GE electrical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 RJ45 connecto r FE/GE electrical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 Interconn ection Cable Between FE/GE Optical Ports LC connect or FE/GE optical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 LC connecto r FE/GE optical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 Signal Cables The following table lists the signal cables to be installed onsite. Table 1-69 Signal cables to be installed onsite Cable One End Monitoring Signal Cable Between Cascaded CMUEs Issue 16 (2021-08-13) The Other End Connector Installation Position Connecto r Installation Position RJ45 connector "COM_OUT" port on the upper-level CMUE RJ45 connector "COM_IN" port on the lower-level CMUE Copyright © Huawei Technologies Co., Ltd. 119 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connecto r Installation Position Monitoring Signal Cable Between Cascaded Fan Assemblies RJ45 connector "COM_OUT" port on the upper-level fan assembly RJ45 connector "COM_IN" port on the lower-level fan assembly Monitoring Signal Cable for a Battery Cabinet RJ45 connector "COM_IN" port on the CMUE in an IBBS200D or IBBS200T RJ45 connector "COM_485" port on the PMU in an APM30H GPS Clock Signal Cable SMA male connector "GPS" port on the USCU in a BBU Type N female connector GPS surge protector 1.8.4.5 EMUA or EMUB Monitoring Signal Cable (in an APM30H) DB9 male connector "RS485" port on the EMUA or "COM_485" port on the EMUB in an APM30H RJ45 connector "COM_OUT" port on the PMU in an APM30H 1.8.4.5 EMUA or EMUB Monitoring Signal Cable (in a TMC11H) DB9 male connector "RS485" port on the EMUA or "COM_485" port on the EMUB in a TMC11H RJ45 connector "COM_OUT" port on the FAN 02B in a TMC11H BBU Alarm Cable RJ45 connector "EXT_ALM0" or "EXT_ALM1" port on the UPEU or UEIU in a BBU RJ45 connector External alarm device 1.8.4.24 RET Control Signal Cable SMA elbow male connector "ANT0" to "ANT5" ports on a GATM SMA straight male connector "DC/OOK" port on a Bias-Tee Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 120 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connecto r Installation Position 1.8.4.20 CMUEAGATM Monitoring Signal Cable RJ45 connector "COM2" port on a GATM RJ45 connector "COM_IN" port on the FAN 02B in an APM30H or "COM_IN" port on the FAN 01B in an RFC 1.8.4.17 GATM Monitoring Signal Cable RJ45 connector "COM1" port on a GATM RJ45 connector "MON0" or "MON1" port in the BBU in an APM30H Local Maintenan ce Adapter USB connector "USB"a port on the UMPT in a BBU Network interface connector Ethernet cable Cable Between Two Combined Base Stations DB15 male connector "GCK" port on the UCIU in a BBU MD36 or DB15 male connector "DGLUb" port on a DCTB NOTE (1): The security of USB loading ports is ensured by encryption, and USB loading ports can be shut down using commands. USB commissioning ports are used only for commissioning a base station, and cannot be used for configuring and exporting information of the base station. The following table lists the signal cables that have been installed before delivery. Table 1-70 Signal cables installed before delivery Cable One End Monitoring Signal Cable for the Temperatur e Sensor (in an RFC) Issue 16 (2021-08-13) The Other End Connec tor Installation Position Connect or Installation Position 4-pin connect or "TEM" port on the FAN 01B in an RFC Tempera ture sensor Air intake vent at the bottom of an RFC Copyright © Huawei Technologies Co., Ltd. 121 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connec tor Installation Position Connect or Installation Position CMUE-BBU Monitoring Signal Cable RJ45 connect or "COM_IN" port on the FAN 01B in an RFC RJ45 connecto r "MON0" port on the UPEU in the BBU in an APM30H RJ45 connect or "COM_IN" port on the FAN 02B in an APM30H RJ45 connecto r "MON1" port on the UPEU in the BBU in an APM30H HPMI-PMU Monitoring Signal Cable DB50 male connect or "COM" port on the PMU in an APM30H DB50 male connecto r "PMU_DB50" port on the FAN 02B in an APM30H PMU-CMUE Monitoring Signal Cable RJ45 connect or "COM_IN" port on the PMU in an APM30H RJ45 connecto r "COM_OUT" port on the FAN 02B in an APM30H ELU Signal Cable RJ45 connect or RJ45 port on the ELU in each cabinet RJ45 connecto r ● "ELU" port on the FAN 02B in an APM30H or TMC11H ● "ELU" port on the FAN 01B in an RFC ● "ELU" port on the CMUE in an IBBS200D or IBBS200T Monitoring Signal Cable for the Door Status Sensor (in an APM30H) Issue 16 (2021-08-13) 2-pin connect or "GATE" port on the FAN 02B in an APM30H Bare wire Copyright © Huawei Technologies Co., Ltd. Door status sensor 122 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connec tor Installation Position Connect or Installation Position Monitoring Signal Cable for the Door Status Sensor (in a TMC11H, RFC, IBBS200D, or IBBS200T) Bare wire ● "GATE" port on the FAN 02B in a TMC11H Bare wire Door status sensor Monitoring Signal Transfer Cable for Fans in Front Doors 4-pin connect or 4-pin connecto r "FAN_EXT" port on the FAN 02B in an APM30H ● "GATE" port on the FAN 01B in an RFC ● "GATE" port on the CMUE in an IBBS200D or IBBS200T DC junction box in the front door of an APM30H CPRI Electrical Cables and CPRI Optical Fibers The following table lists CPRI electrical cables and CPRI optical fibers. Table 1-71 CPRI electrical cables and CPRI optical fibers Cate gory Cable Cable s instal led befor e delive ry CPRI Electrical Cablea Issue 16 (2021-08-13) One End The Other End Connector Installation Position Connector Installation Position SFP20 male connector "CPRI0" to "CPRI5" ports on the GTMU, UBRI, LBBP, WBBP, or UBBP in a BBU SFP20 male connector "CPRI0" or "CPRI1" ports on RFUs 0 to 5 Copyright © Huawei Technologies Co., Ltd. 123 3900 & 5900 Series Base Station Cables Cate gory Cable Cable s to be instal led onsit e CPRI Optical Fiber 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position DLC connector "CPRI0" to "CPRI5" ports on the GTMU, UBRI, LBBP, WBBP, or UBBP in a BBU DLC connector ● "CPRI_W" port on an RRU ● "CPRI_0" port on an RRU a: If boards have been installed in cabinets before delivery, CPRI electrical cables have also been installed in the APM30H+RFC or TMC11H+RFC cabinet combination. CPRI electrical cables must be installed onsite in the following cases: ● In initial configuration, fewer than six RFUs are installed in an RFC before delivery. If RFUs are added for capacity expansion, CPRI electrical cables must be installed onsite. ● If an RFC is added, CPRI electrical cables of RFUs must be installed in the RFC onsite. RF Cable The following table lists RF cables. Table 1-72 RF cables Cate gory Cable Cable s to be instal led onsit e Cable s instal led befor e delive ry Issue 16 (2021-08-13) One End The Other End Connector Installation Position Connector Installation Position RF Jumper DIN straight male connector Antenna feeder DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on an RFU Inter-RFU RF Signal Cable QMA elbow male connector "RX_OUTA" port on an RFU QMA elbow male connector "RX_INB" port on an RFU Copyright © Huawei Technologies Co., Ltd. 124 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.2.7.3 BTS3900A (Ver.D) Cable List BTS3900A cables include a PGND cable, equipotential cables, power cables, transmission cables, signal cables, CPRI cables, and RF cables. PGND Cable and Equipotential Cable The following table lists a PGND cable and equipotential cables. Table 1-73 PGND cable and equipotential cables Cate gory Cable Cable s to be instal led onsit e One End The Other End Connector Installation Position Connector Installation Position PGND Cable OT terminal (M6) Ground bar in a cabinet OT terminal (M6) Ground busbar outside the cabinet Equipotentia l Cable OT terminal (M6) Ground bar in the upper cabinet(1) OT terminal (M6) Ground bar in the lower cabinet(1) OT terminal (M6) Ground bar in a TMC11H or battery cabinet OT terminal (M6) Ground bar in an RFC NOTE (1) If an APM30H or TMC11H is stacked on an RFC, the equipotential cable between the cabinets has been installed before delivery. If an IBBS200D or IBBS200T is stacked on another IBBS200D or IBBS200T or a TMC11H, the equipotential cable must be installed onsite. Power Cables The following table lists the power cables to be installed onsite. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 125 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-74 Power cables to be installed onsite Cable One End The Other End Conne ctor Installation Position Conne ctor Installation Position EPU05A-02 or EPU05A-04 Power Cable OT termin al (M6) "AC INPUT" terminal on the EPU in an APM30H Depen ding on the extern al power equip ment External power equipment DCDU-12B Power Cable OT termin al "RTN(+)" and "NEG(-)" terminals on the DCDU-12B in an RFC Depen ding on the extern al power equip ment External power equipment DCDU-12C Power Cable (in an AC Scenario) EPC4 connec tor "LOAD7" port on the EPU in an APM30H OT termin al (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-12C in a TMC11H Power Cable for a Power Distribution Box OT termin al (M8) "BAT" terminal on the EPU in an APM30H OT termin al (M8) "RTN(+)" and "NEG(-)" terminals near the "BAT" silkscreen on the power distribution box in a battery cabinet(1) Power Cable for the DC Junction Box in an RFC (in a DC Scenario) OT termin al (M6) DC junction box in an RFC Depen ding on the extern al power equip ment External power equipment Power Cable for the Fan in an IBBS200D EPC4 connec tor "LOAD8" port on the EPU in an APM30H EPC4 connec tor "FAN/TEC_INPUT" port on the power distribution box in an IBBS200D Power Cable for the Fan in an IBBS300D EPC4 connec tor "LOAD8" port on the EPU in an APM30H OT termin al (M4) "NEG(-)" and "RTN(+)" wiring terminals in the DC junction box in an IBBS300D Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 126 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Conne ctor Installation Position Conne ctor Installation Position Power Cable for the TEC in an IBBS200T EPC4 connec tor "LOAD8" port on the EPU in an APM30H EPC4 connec tor "FAN/TEC_INPUT" port on the power distribution box in an IBBS200T Power Cable for the TEC in an IBBS300T EPC4 connec tor "LOAD8" port on the EPU in an APM30H OT termin al (M4) "NEG(-)" and "RTN(+)" wiring terminals in the DC junction box in an IBBS300T Power Cable for a Heating Film OT termin al (M4) "L1" and "N1" or "L2" and "N2" terminals on the junction box in an APM30H OT termin al (M4) "L" and "N" terminals on the junction terminal for the heating-film power cable in an IBBS200D Power Cable for a Junction Box (in a TMC11H) OT termin al (M4) "L3" and "N3" terminals on the junction box in an APM30H OT termin al (M4) "L" and "N" terminals on the junction box in a TMC11H Power Cable for a Junction Box (in an IBBS300D or IBBS300T) OT termin al (M4) "L2" and "N2" terminals on the junction box in an APM30H OT termin al (M4) "L" and "N" terminals on the junction box in an IBBS300D or IBBS300T Power Cable for the Temperature Control System EPC4 connec tor "LOAD8" port on the EPU in an APM30H EPC4 connec tor "DC INPUT" port on the power distribution box in an IBBS700D or IBBS700T Power Cable for a Junction Box (in an IBBS700D/ IBBS700T) OT termin al (M4) "L2" and "N2" terminals on the junction box in an APM30H OT termin al (M4) "L" and "N" terminals on the junction box in an IBBS700D or IBBS700T Storage Battery Power Cable OT termin al (M8) "BAT(+)" and "BAT(-)" terminals on the power distribution box in a battery cabinet OT termin al (M6) Positive and negative poles of storage batteries in a battery cabinet Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 127 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Conne ctor Installation Position Conne ctor Installation Position Storage Battery Power Cable (in an IBBS300D or IBBS300T) OT termin al (M8) Circuit breaker on the lower part of the DC junction box on the inner right wall of a battery cabinet and terminal labeled "NEG(-)" on the DC junction box on the inner left wall of the battery cabinet OT termin al (M6) Positive and negative poles of storage batteries in a battery cabinet 1.6.4.1 EMUA or EMUB Power Cable (in an APM30H) EPC4 connec tor "LOAD5" port on the EPU in an APM30H Cord end termin al "PWR1" port on the EMUA or "PWR" port on the EMUB in an APM30H or TMC11H 1.6.4.1 EMUA or EMUB Power Cable (in a TMC11H) EPC4 connec tor "LOAD8" port on the DCDU-12C in a TMC11H Cord end termin al 1.6.4.9 GATM Power Cable (in an APM30H) EPC4 connec tor "-48V" port on the GATM 3V3 connec tor 1.6.4.9 GATM Power Cable (in a TMC11H) EPC4 connec tor Issue 16 (2021-08-13) ● GATM 0(2): "LOAD7" port on the DCDU-12A in an RFC ● GATM 1(3): "LOAD5" port on the EPU05A-02/04 in an APM30H "-48V" port on the GATM 3V3 connec tor Copyright © Huawei Technologies Co., Ltd. ● GATM 0: "LOAD8" port on the DCDU-12C in a TMC11H ● GATM 1: "LOAD7" port on the DCDU-12C in a TMC11H 128 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Conne ctor Installation Position Conne ctor Installation Position 1.6.1.2.10 EPU02D/ EPU02D-02/ EPU02B/ EPU02S/ EPU02S-02 Power Cable (in an APM30H) OT termin al ● Black wire: "RTN(+)" terminal on the EPU02D or EPU02D-02 OT termin al ● Black wire: "RTN(+)" terminal near the RFC1 or RFC2 silkscreen on the EPU05A DCDU16D Power Cable OT termin al (in an APM30H) ● Blue wire: "NEG(-)" terminal near the RFC1 or RFC2 silkscreen on the EPU05A ● Blue wire: "NEG(-)" terminal on the EPU02D/ EPU02D-02 ● Black wire: "RTN(+)" terminal on the DCDU16D OT termin al ● Blue wire: "NEG(-)" terminal near the RFC1 or RFC2 silkscreen on the EPU05A ● Blue wire: "NEG(-)" terminal on the DCDU16D 1.6.1.2.10 EPU02D/ EPU02D-02/ EPU02B/ EPU02S/ EPU02S-02 Power Cable (in a TMC11H) OT termin al DCDU16D Power Cable (in a TMC11H) OT termin al ● Black wire: "RTN(+)" terminal on the EPU02D/ EPU02D-02 ● Blue wire: "NEG(-)" terminal on the EPU02D/ EPU02D-02 ● Black wire: "RTN(+)" terminal on the DCDU16D ● Blue wire: "NEG(-)" terminal on the DCDU16D Issue 16 (2021-08-13) ● Black wire: "RTN(+)" terminal near the RFC1 or RFC2 silkscreen on the EPU05A Depen ding on the extern al equip ment External power equipment Depen ding on the extern al equip ment External power equipment Copyright © Huawei Technologies Co., Ltd. 129 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE (1) Battery cabinet: IBBS200D, IBBS200T, IBBS700D, or IBBS700T (2) and (3): If two GATMs are installed, they are installed below the BBU in sequence. GATM 0 is installed above GATM 1. The following table lists the power cables that have been installed before delivery. Table 1-75 Power cables installed before delivery Cable One End The Other End Conne ctor Installation Position Connec tor Installation Position 1.6.1.1.9 DCDU-12C Power Cable (in a DC scenario) OT termin al (M6) DC junction box in an RFC OT termina l (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-12C in a TMC Power Cable for the DC Junction Box in an RFC (in an AC Scenario) OT termin al (M6) "RFC1" or "RFC2" terminal on the EPU in an APM30H OT termina l (M6) DC junction box in an RFC DCDU-12A Power Cable OT termin al (M6) DC junction box in an RFC OT termina l (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-12A in an RFC BBU Power Cable (in an APM30H) EPC4 connec tor "LOAD0" or "LOAD1" port on the EPU in an APM30H 3V3 connect or "-48V" port on the UPEU in the BBU in an APM30H BBU Power Cable (in a TMC11H) EPC4 connec tor "LOAD6" or "LOAD7" port on the DCDU-12C in a TMC11H 3V3 connect or "-48V" port on the UPEU in the BBU in a TMC11H FAN 02D Power Cable (in an APM30H) EPC4 connec tor "LOAD2" port on the EPU in an APM30H 3V3 connect or "PWR" port on the FAN 02D in an APM30H FAN 02D Power Cable (in a TMC11H) EPC4 connec tor "LOAD9" port on the DCDU-12C in a TMC11H 3V3 connect or "PWR" port on the FAN 02D in a TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 130 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Conne ctor Installation Position Connec tor Installation Position RFU Power Cable EPC4 connec tor "LOAD0" to "LOAD5" ports on the DCDU-12A in an RFC 3V3 connect or "PWR" ports on RFUs 0 to 5 in an RFC FAN 01C Power Cable EPC4 connec tor "LOAD6" port on the DCDU-12A in an RFC 3V3 connect or "PWR" port on the FAN 01C in an RFC Power Cable for an AC Heater (in an APM30H) OT termin al (M4) "L0", "N0", and "PE" terminals on the junction box in an APM30H C13 connect or Power input port on the AC heater in an APM30H Power Cable for an AC Heater (in a TMC11H) OT termin al (M4) "L0", "N0", and "PE" terminals on the junction box in a TMC11H C13 connect or Power input port on the AC heater in a TMC11H SOU Power Cable OT termin al (M4) M4 ground screw, "L2" terminal, and "N2" terminal near the AC OUTPUT silkscreen on the left side of the EPU in an APM30H C13 connect or "AC INPUT" port on the SOU in an APM30H Power Cable for a Junction Box (in an APM30H) OT termin al (M4) M4 ground screw, "L1" terminal, and "N1" terminal near the AC OUTPUT silkscreen on the left side of the EPU in an APM30H OT termina l "L" and "N" terminals on the junction box and ground bar in an APM30H CMUEA Power Cable 3V3 connec tor "PWR" port on the CMUEA in an IBBS700D Bare wire "FAN/TEC" port on the power distribution box in an IBBS700D Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 131 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End CMUF Power Cable The Other End Conne ctor Installation Position Connec tor Installation Position 3V3 connec tor "PWR" port on the CMUF in an IBBS700T Bare wire "FAN/TEC" port on the power distribution box in an IBBS700D Transmission Cables The following table lists transmission cables. Table 1-76 Transmission cables Categ ory Cable Cable s to be install ed onsite Cable s install ed befor e delive ry Issue 16 (2021-08-13) One End The Other End Connec tor Installation Position Connect or Installation Position E1/T1 Cable DB26 male connect or "OUTSIDE" port on the UELP in an SLPU Dependin g on the external equipme nt External transmission equipment FE/GE Ethernet Cable RJ45 connect or FE/GE electrical port near the OUTSIDE port on the UFLP in an SLPU RJ45 connecto r External transmission equipment FE/GE Optical Fiber LC connect or ● FE/GE optical port on the GTMU, WMPT, UMPT, or UTRP in the BBU ● FC conne ctor External transmission equipment ● FE/GE optical port on the LMPT or UMPT in a BBU ● LC conne ctor E1/T1 Surge Protection Transfer Cable DB25 connect or "INSIDE" port on the UELP in an SLPU ● SC conne ctor DB26 connecto r Copyright © Huawei Technologies Co., Ltd. E1/T1 port on the GTMU, WMPT, UMPT, or UTRP in the BBU 132 3900 & 5900 Series Base Station Cables Categ ory 1 3900 & 5900 Series Base Station Cables Cable One End FE/GE Surge Protection Transfer Cable The Other End Connec tor Installation Position Connect or Installation Position RJ45 connect or ● FE/GE electrical port on the GTMU, WMPT, or UMPT in a BBU RJ45 connecto r FE/GE electrical port near the INSIDE silkscreen on the UFLP in the SLPU ● FE/GE electrical port on the LMPT or UMPT in a BBU Interconn ection Cable Between FE/GE Electrical Ports RJ45 connect or FE/GE electrical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 RJ45 connecto r FE/GE electrical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 Interconn ection Cable Between FE/GE Optical Ports LC connect or FE/GE optical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 LC connecto r FE/GE optical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 Signal Cables The following table lists the signal cables to be installed onsite. Table 1-77 Signal cables to be installed onsite Cable One End Monitoring Signal Cable Between Cascaded CMUEAs Issue 16 (2021-08-13) The Other End Connector Installation Position Connecto r Installation Position RJ45 connector "COM_OUT" port on the upper-level CMUEA RJ45 connector "COM_IN" port on the lower-level CMUEA Copyright © Huawei Technologies Co., Ltd. 133 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connecto r Installation Position Monitoring Signal Cable Between Cascaded CCU01D-03 Modules RJ45 connector "COM_OUT" port on the upper-level CCU01D-03 RJ45 connector "COM_IN" port on the lower-level CCU01D-03 Monitoring signal cable between cascaded fan assemblies RJ45 connector "COM_OUT" port on the upper-level fan assembly RJ45 connector "COM_IN" port on the lower-level fan assembly Monitoring Signal Cable for a Battery Cabinet RJ45 connector "COM_IN" port on the CMUEA or CCU01D-03 in a battery cabinet RJ45 connector "COM_485" port on the PMU in an APM30H GPS Clock Signal Cable SMA male connector "GPS" port on the USCU in a BBU Type N female connector GPS surge protector 1.8.4.5 EMUA or EMUB Monitoring Signal Cable (in an APM30H) DB9 male connector "RS485" port on the EMUA or "COM_485" port on the EMUB in an APM30H RJ45 connector "COM_OUT" port on the PMU in an APM30H 1.8.4.5 EMUA or EMUB Monitoring Signal Cable (in a TMC11H) DB9 male connector "RS485" port on the EMUA or "COM_485" port on the EMUB in a TMC11H RJ45 connector "COM_OUT" port on the FAN 02D in a TMC11H BBU Alarm Cable RJ45 connector "EXT_ALM0" or "EXT_ALM1" port on the UPEU or UEIU in a BBU RJ45 connector External alarm device Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 134 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connecto r Installation Position 1.8.4.24 RET Control Signal Cable SMA elbow male connector "ANT0" to "ANT5" ports on the GATM SMA straight male connector "DC/OOK" port on the Bias-Tee 1.8.4.20 CMUEAGATM Monitoring Signal Cable RJ45 connector "COM2" port on the GATM RJ45 connector "COM_IN" port on the FAN 02D in an APM30H or "COM_IN" port on the FAN 01C in an RFC 1.8.4.17 GATM Monitoring Signal Cable RJ45 connector "COM1" port on the GATM RJ45 connector "MON0" or "MON1" port in the BBU in an APM30H Local Maintenan ce Adapter USB connector "USB"a port on the UMPT in a BBU Network interface connector Ethernet cable Cable Between Two Combined Base Stations DB15 male connector "GCK" port on the UCIU in a BBU MD36 or DB15 male connector "DGLUb" port on the DCTB NOTE (1): The security of USB loading ports is ensured by encryption, and USB loading ports can be shut down using commands. USB commissioning ports are used only for commissioning a base station, and cannot be used for configuring and exporting information of the base station. The following table lists the signal cables that have been installed before delivery. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 135 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-78 Signal cables installed before delivery Cable One End The Other End Connec tor Installation Position Connect or Installation Position Monitoring Signal Cable for a Temperatur e Sensor (in an RFC) 4-pin connect or "TEM" port on the FAN 01C in an RFC Tempera ture sensor Air intake vent at the bottom of an RFC CMUEABBU Monitoring Signal Cable RJ45 connect or "COM_IN" port on the FAN 01C in an RFC RJ45 connecto r "MON0" port on the UPEU in the BBU in an APM30H PMUCMUEA Monitoring Signal Cable RJ45 connect or "COM_IN" port on the PMU in an APM30H RJ45 connecto r "COM_OUT" port on the FAN 02D in an APM30H ELU Signal Cable RJ45 connect or ● "ELU" port on the FAN 02D in an APM30H or TMC11H RJ45 connecto r RJ45 port on the ELU in each cabinet "COM_IN" port on the FAN 02D in an APM30H "MON1" port on the UPEU in the BBU in an APM30H ● "ELU" port on the FAN 01C in an RFC ● "ELU" port on the CMUEA in an IBBS200D or IBBS200T ● "ELU" port on the CCU01D-03 in an IBBS300D or IBBS300T ● "ELU" port on the CMUEA in an IBBS700D ● "ELU" port on the CMUF in an IBBS700T Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 136 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connec tor Installation Position Connect or Installation Position Monitoring Signal Cable for the Door Status Sensor (in an APM30H) 2-pin connect or "GATE" port on the PMU in an APM30H Bare wire Door status sensor Monitoring Signal Cable for the Door Status Sensor (in the TMC11H, RFC, IBBS200D, IBBS200T, IBBS700D, or IBBS700T) Bare wire ● "GATE" port on the FAN 02D in a TMC11H Bare wire Door status sensor 4-pin connecto r "FAN_EXT" port on the FAN 02D in an APM30H ● "GATE" port on the FAN 01C in an RFC ● "GATE" port on the CMUEA in an IBBS200D or IBBS200T ● "GATE" port on the CCU01D-03 in an IBBS300D or IBBS300T ● "GATE" port on the CMUEA in an IBBS700D ● "GATE" port on the CMUF in an IBBS700T Monitoring Signal Transfer Cable for the Fan in the Front Door Interco nnectio n termina l Fan power cable routed out of the front door of an APM30H CPRI Electrical Cables and CPRI Optical Fibers The following table lists CPRI electrical cables and CPRI optical fibers. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 137 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-79 CPRI electrical cables and CPRI optical fibers Cate gory Cable Cable s instal led befor e delive ry Cable s to be instal led onsit e One End The Other End Connector Installation Position Connector Installation Position CPRI Electrical Cablea SFP20 male connector "CPRI0" to "CPRI5" ports on the GTMU, UBRI, LBBP, WBBP, or UBBP in a BBU SFP20 male connector "CPRI0" or "CPRI1" ports on RFUs 0 to 5 CPRI Optical Fiber DLC connector "CPRI0" to "CPRI5" ports on the GTMU, UBRI, LBBP, WBBP, or UBBP in a BBU DLC connector ● "CPRI_W" port on an RRU ● "CPRI_0" port on an RRU a: If boards have been installed in cabinets before delivery, CPRI electrical cables have also been installed in the APM30H+RFC or TMC11H+RFC cabinet combination. CPRI electrical cables must be installed onsite in the following cases: ● In initial configuration, fewer than six RFUs are installed in an RFC before delivery. If RFUs are added for capacity expansion, CPRI electrical cables must be installed onsite. ● If an RFC is added, CPRI electrical cables of RFUs must be installed in the RFC onsite. RF Cable The following table lists RF cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 138 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-80 RF cables Cate gory Cable Cable s to be instal led onsit e Cable s instal led befor e delive ry One End The Other End Connector Installation Position Connector Installation Position RF Jumper DIN straight male connector Antenna feeder DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on an RFU Inter-RFU RF Signal Cable QMA elbow male connector "RX_OUTA" port on an RFU QMA elbow male connector "RX_INB" port on an RFU 1.2.7.4 BTS3900A (Ver.E) Cable List The BTS3900A cables include PGND cables, equipotential cables, power cables, transmission cables, signal cables, CPRI electrical cables, and RF cables. PGND Cable and Equipotential Cables The following table lists a PGND cable and equipotential cables. Table 1-81 PGND cable and equipotential cables Category Cable Cables to be installed onsite Issue 16 (2021-08-13) One End The Other End Connector Installatio n Position Connector Installatio n Position 1.4 PGND Cable OT terminal (M6) Ground bar in a cabinet OT terminal (M6) Ground bar for the site 1.5 Equipoten tial Cable OT terminal (M6) Ground bar in the upper cabineta OT terminal (M6) Ground bar in the lower cabinetb Copyright © Huawei Technologies Co., Ltd. 139 3900 & 5900 Series Base Station Cables Category 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connector Installatio n Position Connector Installatio n Position OT terminal (M6) Ground bar in a TMC11H or battery cabinet OT terminal (M6) Ground bar in an RFC a and b: If an APM30H or TMC11H is stacked on an RFC, the equipotential cable between the cabinets has been installed before delivery. If an IBBS200D or IBBS200T is stacked on another IBBS200D or IBBS200T or a TMC11H, the equipotential cable must be installed onsite. Power Cables The following table lists the power cables to be installed onsite. Table 1-82 Power cables to be installed onsite Cable One End The Other End Connector Installation Position Connector Installation Position EPU05A-06 or EPU05A-08 Power Cable OT terminal (M6) "AC INPUT" terminal on the EPU in an APM30H Depending on the external power equipment External power equipment DCDU-12B Power Cable (in a DC Scenario) OT terminal (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-12B in an RFC Depending on the external power equipment External power equipment DCDU-12C Power Cable (in an AC Scenario) EPC4 connector "LOAD7" port on the EPU in an APM30H OT terminal (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-12C in a TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 140 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Power Cable for a Power Distribution Box OT terminal (M8) "BAT" terminal on the EPU in an APM30H OT terminal (M8) "RTN(+)" and "NEG(-)" terminals near the "BAT" silkscreen on the power distribution box in a battery cabineta Power Cable for the DC Junction Box in an RFC (in a DC Scenario) OT terminal (M6) DC junction box in an RFC Depending on the external power equipment External power equipment Power Cable for the Fan in an IBBS200D EPC4 connector "LOAD8" port on the EPU in an APM30H EPC4 connector "FAN/TEC INPUT" port on the power distribution box at the top of an IBBS200D Power Cable for the Fan in an IBBS300D EPC4 connector "LOAD8" port on the EPU in an APM30H OT terminal (M4) "NEG(-)" and "RTN(+)" wiring terminals in the DC junction box in an IBBS300D Power Cable for the TEC in an IBBS200T EPC4 connector "LOAD8" port on the EPU in an APM30H EPC4 connector "FAN/TEC INPUT" port on the power distribution box at the top of an IBBS200T Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 141 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Power Cable for the TEC in an IBBS300T EPC4 connector "LOAD8" port on the EPU in an APM30H OT terminal (M4) "NEG(-)" and "RTN(+)" wiring terminals in the DC junction box in an IBBS300T Power Cable for a Heating Film OT terminal (M4) "L1" and "N1" terminals or "L2" and "N2" terminals on the junction box in an APM30H OT terminal (M4) "L" and "N" terminals on the junction box for the heating film in an IBBS200D Power Cable for a Junction Box (in a TMC11H) OT terminal (M4) "L3" and "N3" terminals on the junction box in an APM30H OT terminal (M4) "L" and "N" terminals on the junction box in a TMC11H Power Cable for a Junction Box (in an IBBS300D or IBBS300T) OT terminal (M4) "L2" and "N2" terminals on the junction box in an APM30H OT terminal (M4) "L" and "N" terminals on the junction box in an IBBS300D or IBBS300T Storage Battery Power Cable (in an IBBS200D or IBBS200T) OT terminal (M8) Power distribution boxes on the top and inner right wall of a battery cabinet OT terminal (M6) Positive and negative poles of the battery packs in a battery cabinet Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 142 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Storage Battery Power Cable (in an IBBS300D or IBBS300T) OT terminal (M8) Circuit breaker on the lower part of the DC junction box on the inner right wall of a battery cabinet and terminal labeled "NEG(-)" on the DC junction box on the inner left wall of the battery cabinet OT terminal (M6) Positive and negative poles of the battery packs in a battery cabinet EMUA or EMUB Power Cable (in an APM30H) EPC4 connector "LOAD5" port on the EPU in an APM30H Cord end terminal EMUA or EMUB Power Cable (in a TMC11H) EPC4 connector "LOAD8" port on the DCDU-12C in a TMC11H Cord end terminal "PWR1" port on the EMUA or "PWR" port on the EMUB in an APM30H or TMC11H GATM Power Cable (in an APM30H) EPC4 connector "-48V" port on the GATM 3V3 connector ● GATM 0b: "LOAD7" port on the DCDU-12A in an RFC ● GATM 1c: "LOAD5" port on the EPU05A-06 or EPU05A-08 in an APM30H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 143 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End GATM Power Cable (in a TMC11H) The Other End Connector Installation Position Connector Installation Position EPC4 connector "-48V" port on the GATM 3V3 connector ● GATM 0: "LOAD8" port on the DCDU-12C in a TMC11H ● GATM 1: "LOAD7" port on the DCDU-12C in a TMC11H 1.6.1.2.10 EPU02D/ EPU02D-02/ EPU02B/ EPU02S/ EPU02S-02 Power Cable (in an APM30H) OT terminal DCDU16D Power Cable OT terminal (in an APM30H) ● "RTN(+)" terminal on the EPU02D/ EPU02D-0 2 OT terminal ● "NEG(-)" terminal on the EPU02D/ EPU02D-0 2 ● Black wire: "RTN(+)" terminal on the DCDU16D ● "NEG(-)" terminal on the PDU01D-0 1 in an EPU05A OT terminal ● Blue wire: "NEG(-)" terminal on the DCDU16D Issue 16 (2021-08-13) ● "RTN(+)" terminal on the PDU01D-0 1 in an EPU05A Copyright © Huawei Technologies Co., Ltd. ● "RTN(+)" terminal on the PDU01D-0 1 in an EPU05A ● "NEG(-)" terminal on the PDU01D-0 1 in an EPU05A 144 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position 1.6.1.2.10 EPU02D/ EPU02D-02/ EPU02B/ EPU02S/ EPU02S-02 Power Cable (in a TMC11H) OT terminal ● "RTN(+)" terminal on the EPU02D/ EPU02D-0 2 Depending on the external equipment External power equipment DCDU16D Power Cable (in a TMC11H) OT terminal Depending on the external equipment External power equipment ● "NEG(-)" terminal on the EPU02D/ EPU02D-0 2 ● "RTN(+)" terminal on the DCDU16D ● "NEG(-)" terminal on the DCDU16D a: Battery cabinet: IBBS200D or IBBS200T b and c: If two GATMs are installed, they are installed below the BBU in sequence. GATM 0 is installed above GATM 1. The following table lists the power cables that have been installed before delivery. Table 1-83 Power cables installed before delivery Cable One End DCDU-12C Power Cable (in a DC Scenario) Issue 16 (2021-08-13) The Other End Connector Installation Position Connector Installation Position OT terminal (M6) DC junction box in an RFC OT terminal (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-12C in a TMC Copyright © Huawei Technologies Co., Ltd. 145 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Power Cable for the DC Junction Box in an RFC (in an AC Scenario) OT terminal (M6) "RFC1" or "RFC2" terminal on the EPU in an APM30H OT terminal (M6) DC junction box in an RFC DCDU-12A Power Cable OT terminal (M6) DC junction box in an RFC OT terminal (M6) "RTN(+)" and "NEG(-)" terminals on the DCDU-12A in an RFC BBU Power Cable (in an APM30H) EPC4 connector "LOAD0" or "LOAD1" port on the EPU in an APM30H 3V3 connector "-48V" port on the UPEU in the BBU in an APM30H BBU Power Cable (in a TMC11H) EPC4 connector "LOAD6" or "LOAD7" port on the DCDU-12C in a TMC11H 3V3 connector "-48V" port on the UPEU in the BBU in a TMC11H FAN 02E Power Cable/ FAN02H Power Cable (in an APM30H) EPC4 connector "LOAD2" port on the EPU in an APM30H 3V3 connector (FAN 02E)/ EPC4 connector (FAN02H) "PWR" port on the FAN 02E/FAN02H in an APM30H FAN 02E Power Cable/ FAN02H Power Cable (in a TMC11H) EPC4 connector "LOAD9" port on the DCDU-12C in a TMC11H 3V3 connector (FAN 02E)/ EPC4 connector (FAN02H) "PWR" port on the FAN 02E/FAN02H in a TMC11H RFU Power Cable EPC4 connector "LOAD0" to "LOAD5" ports on the DCDU-12A in an RFC 3V3 connector "PWR" ports on RFUs 0 to 5 in an RFC FAN 01D Power Cable EPC4 connector "LOAD6" port on the DCDU-12A in an RFC 3V3 connector "PWR" port on the FAN 01D in an RFC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 146 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Power Cable for an AC Heater (in an APM30H) OT terminal (M4) "L0", "N0", and "PE" terminals on the junction box in an APM30H C13 connector Power input port on the AC heater in an APM30H Power Cable for an AC Heater (in a TMC11H) OT terminal (M4) "L0", "N0", and "PE" terminals on the junction box in a TMC11H C13 connector Power input port on the AC heater in a TMC11H SOU Power Cable OT terminal (M4) M4 ground screw, "L2" terminal, and "N2" terminal near the AC OUTPUT silkscreen on the left side of the EPU in an APM30H C13 connector "AC INPUT" port on the SOU in an APM30H Power Cable for a Junction Box (in an APM30H) OT terminal (M4) M4 ground screw, "L1" terminal, and "N1" terminal near the AC OUTPUT silkscreen on the left side of the EPU in an APM30H OT terminal "L" and "N" terminals on the junction box and ground bar in an APM30H Transmission Cables The following table lists the transmission cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 147 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-84 Transmission cables Categ ory Cable Cable s to be install ed onsite Cable s install ed befor e delive ry One End The Other End Connec tor Installation Position Connect or Installation Position E1/T1 Cable DB26 male connect or "OUTSIDE" port on the UELP in an SLPU Dependin g on the external equipme nt External transmission equipment FE/GE Ethernet Cable RJ45 connect or FE/GE electrical port near the OUTSIDE port on the UFLP in an SLPU RJ45 connecto r External transmission equipment FE/GE Optical Fiber LC connect or ● FE/GE optical port on the GTMU, WMPT, UMPT, or UTRP in the BBU ● FC conne ctor External transmission equipment ● FE/GE optical port on the LMPT or UMPT in a BBU ● LC conne ctor ● SC conne ctor E1/T1 Surge Protection Transfer Cable DB25 connect or "INSIDE" port on the UELP in an SLPU DB26 connecto r E1/T1 port on the GTMU, WMPT, UMPT, or UTRP in the BBU FE/GE Surge Protection Transfer Cable RJ45 connect or ● FE/GE electrical port on the GTMU, WMPT, or UMPT in a BBU RJ45 connecto r FE/GE electrical port near the INSIDE silkscreen on the UFLP in the SLPU ● FE/GE electrical port on the LMPT or UMPT in a BBU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 148 3900 & 5900 Series Base Station Cables Categ ory 1 3900 & 5900 Series Base Station Cables Cable One End The Other End Connec tor Installation Position Connect or Installation Position Interconn ection Cable Between FE/GE Electrical Ports RJ45 connect or FE/GE electrical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 RJ45 connecto r FE/GE electrical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 Interconn ection Cable Between FE/GE Optical Ports LC connect or FE/GE optical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 LC connecto r FE/GE optical port on the WMPT, GTMU, LMPT, or UMPT in a BBU3900 Signal Cables The following table lists the signal cables to be installed onsite. Table 1-85 Signal cables to be installed onsite Cable One End Monitoring Signal Cable Between Cascaded Fan Assemblies Issue 16 (2021-08-13) The Other End Connector Installation Position Connector Installation Position RJ45 connector "COM_OUT" port on the upper-level FAN 01D RJ45 connector "COM_IN" port on the lower-level FAN 01D RJ45 connector "COM_OUT/ U_COM1" port on the upper-level FAN 02E/ FAN02H RJ45 connector "COM_IN" port on the lower-level FAN 01D RJ45 connector "COM_OUT" port on the upper-level FAN 01D RJ45 connector "COM_IN/ U_COM0" port on the lower-level FAN 02E/ FAN02H Copyright © Huawei Technologies Co., Ltd. 149 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position RJ45 connector "COM_OUT/ U_COM1" port on the upper-level FAN 02E/ FAN02H RJ45 connector "COM_IN/ U_COM0" port on the lower-level FAN 02E/ FAN02H Monitoring Signal Cable Between Cascaded CMUHs RJ45 connector "COM_OUT" port on the CMUH in the upper-level IBBS200D or IBBS200T RJ45 connector "COM_IN" port on the CMUH in the lower-level IBBS200D or IBBS200T CCUB-CMUH Monitoring Signal Cable/ CCUC-CMUH Monitoring Signal Cable RJ45 connector "COM_OUT/ U_COM1" port on the CCUB/CCUC in the upperlevel TMC11H RJ45 connector "COM_IN" port on the CMUH in the lower-level extension RFC CMUH-CCUB Monitoring Signal Cable/ 1.8.2.24 CMUH-CCUC Monitoring Signal Cable RJ45 connector "COM_OUT" port on the CMUH in the upper-level RFC RJ45 connector "COM_IN/ U_COM0" port on the CCUB/CCUC in the lowerlevel TMC11H Monitoring Signal Cable Between Cascaded CCU01D-03 Modules RJ45 connector "COM_OUT" port on the upper-level CCU01D-03 RJ45 connector "COM_IN" port on the lower-level CCU01D-03 Monitoring Signal Cable for a Battery Cabinet RJ45 connector "COM_IN" port on the CMUH or CCU01D-03 in a battery cabinet RJ45 connector "COM_485" port on the FAN 02E in an APM30H 1.8.4.12 GPS Clock Signal Cable SMA male connector "GPS" port on the USCU in a BBU Type N female connector GPS surge protector Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 150 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position EMUA or EMUB Monitoring Signal Cable (in an APM30H) DB9 male connector "RS485" port on the EMUA or "COM_485" port on the EMUB in an APM30H RJ45 connector "MON1-1/ D_COM1-1" port on the FAN 02E/ FAN02H in an APM30H EMUA or EMUB Monitoring Signal Cable (in a TMC11H) DB9 male connector "RS485" port on the EMUA or "COM_485" port on the EMUB in a TMC11H RJ45 connector "MON1-1/ D_COM1-1" port on the FAN 02E/ FAN02H in a TMC11H BBU Alarm Cable RJ45 connector "EXT_ALM0" or "EXT_ALM1" port on the UPEU or UEIU in a BBU RJ45 connector External alarm device RET Control Signal Cable SMA elbow male connector "ANT0" to "ANT5" ports on the GATM SMA straight male connector "DC/OOK" port on the Bias-Tee CMUH-GATM Monitoring Signal Cable RJ45 connector "COM2" port on GATM 0 RJ45 connector "COM_IN" port on the CMUH in an RFC GATM Monitoring Signal Cable RJ45 connector "COM1" port on the GATM RJ45 connector "COM_OUT/ U_COM1" or "MON1-1/ D_COM1-1" port on the FAN 02E/ FAN02H in an APM30H Local Maintenance Adapter USB connector "USB"a port on the UMPT in a BBU Network interface connector Ethernet cable Cable Between Two Combined Base Stations DB15 male connector "GCK" port on the UCIU in a BBU MD36 or DB15 male connector "DGLUb" port on the DCTB Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 151 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End WIUA Monitoring Signal Cable The Other End Connector Installation Position Connector Installation Position RJ45 connector "COM_IN" port on the WIUA RJ45 connector ● "D_COM1" port on the CMUH in an IBBS200D or IBBS200T ● "D_COM1" port on the CCU01D-0 3 in an IBBS300D or IBBS300T a: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. The following table lists the signal cables that have been installed before delivery. Table 1-86 Signal cables installed before delivery Cable One End The Other End Connector Installation Position Connector Installation Position Monitoring Signal Cable for the Temperature Sensor (in an RFC) 4-pin connector "TEM" port on the FAN 01D in an RFC Temperature sensor Air intake vent at the bottom of an RFC CMUH-CCUB Monitoring Signal Cable/ CMUH-CCUC Monitoring Signal Cable RJ45 connector "COM_IN" port on the FAN 01D in an RFC RJ45 connector "MON0-0/ D_COM0-0" port on the FAN 02E/ FAN02H in an APM30H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 152 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position RJ45 connector "COM_IN/ U_COM0" port on the FAN 02E/ FAN02H in an APM30H or TMC11H RJ45 connector "MON0" port on the UPEU in the BBU in an APM30H or TMC11H RJ45 connector "COM_OUT/ U_COM1" port on the FAN 02E/ FAN02H in an APM30H or TMC11H RJ45 connector "MON1" port on the UPEU in the BBU in an APM30H or TMC11H PMIU-CCUB Monitoring Signal Cable/ PMIU-CCUC Monitoring Signal Cable RJ45 connector "PMI" port on the PMIU in an APM30H RJ45 connector "PMI" port on the FAN 02E/ FAN02H in an APM30H ELU Signal Cable RJ45 connector ● "ELU" port on the FAN 02E in an APM30H or TMC11H RJ45 connector RJ45 port on the ELU in each cabinet CCUB-BBU Monitoring Signal Cable/ CCUC-BBU Monitoring Signal Cable ● "ELU" port on the FAN 01D in an RFC ● "ELU" port on the CMUH in an IBBS200D or IBBS200T ● "ELU" port on the CCU01D-0 3 in an IBBS300D or IBBS300T Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 153 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Monitoring Signal Cable for the Door Status Sensor (in an APM30H) Bare wire "GATE" port on the FAN 02E/FAN02H in an APM30H Bare wire or cord end terminal Door status sensor Monitoring Signal Cable for the Door Status Sensor (in a TMC11H, RFC, IBBS200D, or IBBS200T) Bare wire ● "GATE" port on the FAN 02E/ FAN02H in a TMC11H Bare wire Door status sensor 4-pin connector "FAN_EXT" port on the FAN 02E/ FAN02H in an APM30H or TMC11H ● "GATE" port on the FAN 01D in an RFC ● "GATE" port on the CMUH in an IBBS200D or IBBS200T ● "GATE" port on the CCU01D-0 3 in an IBBS300D or IBBS300T Monitoring Signal Transfer Cable for the Fan in the Front Door Interconnectio n terminal Fan power cable routed out of the front door of an APM30H or TMC11H CPRI Electrical Cables and CPRI Optical Fibers The following table lists the CPRI electrical cables and CPRI optical fibers. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 154 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-87 CPRI electrical cables and CPRI optical fibers Cate gory Cable Cable s instal led befor e delive ry Cable s to be instal led onsit e One End The Other End Connector Installation Position Connector Installation Position CPRI Electrical Cablea SFP20 male connector "CPRI0" to "CPRI5" ports on the GTMU, UBRI, LBBP, WBBP, or UBBP in a BBU SFP20 male connector "CPRI0" or "CPRI1" ports on RFUs 0 to 5 CPRI Optical Fiber DLC connector "CPRI0" to "CPRI5" ports on the GTMU, UBRI, LBBP, WBBP, or UBBP in a BBU DLC connector ● "CPRI_W" port on an RRU ● "CPRI_0" port on an RRU a: If boards have been installed in cabinets before delivery, CPRI electrical cables have also been installed in the APM30H+RFC or TMC11H+RFC cabinet combination. CPRI electrical cables must be installed onsite in the following cases: ● In initial configuration, fewer than six RFUs are installed in an RFC before delivery. If RFUs are added for capacity expansion, CPRI electrical cables must be installed onsite. ● If an RFC is added, CPRI electrical cables of RFUs must be installed in the RFC onsite. RF Cables The following table lists the RF cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 155 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-88 RF cables Cate gory Cable Cable s to be instal led onsit e Cable s instal led befor e delive ry One End The Other End Connector Installation Position Connector Installation Position RF Jumper DIN straight male connector Antenna feeder DIN elbow male connector "ANT_TX/ RXA" and "ANT_RXB" ports on an RFU Inter-RFU RF Signal Cable QMA elbow male connector "RX_OUTA" port on an RFU QMA elbow male connector "RX_INB" port on an RFU 1.2.7.5 BTS3900A (Ver.D_A2) Cable List BTS3900A cables consist of the PGND cables, power cables, signal cables, and RF cables. Power Cables and PGND Cables NOTE Transmission cables in the BTS3900A need to be reused and the reused transmission cables are connected to the original positions. For details about transmission cables in the BTS3900A, see BTS3900A (Ver.A) GSM Hardware Description (with a Heat Exchanger). The following table describes the power cables and PGND cables after the hardware upgrade. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 156 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End Equipotential Cable for the Front Door The Other End Connector Installation Position Connector Installation Position OT terminal ● Ground point on an inner wall of the APM30H OT terminal ● Front door of the APM30H ● Front door of the TMC11H ● Ground point on an inner wall of the TMC11H Input Power Cable for the APM30H OT terminal "AC INPUT" terminal on the EPU in an APM30H" Depending on the external power equipment External power equipment Input Power Cable for the TMC11H (in an AC Scenario) EPC4 connector "LOAD7" port on the EPU in an APM30H OT terminal "RTN(+)" and "NEG(-)" terminals on the DCDU-12C in a TMC11H Input Power Cable for the TMC11H (in a DC Scenario) Depending on the external power equipment External power equipment OT terminal RTN(+) and NEG(-) terminals on the DCDU-12C in a TMC11H Input Power Cable for the RFC (in an AC Scenario) OT terminal "RFC1" terminal on the EPU in an APM30H OT terminal "RTN(+)" and "NEG(-)" terminals on the left DCDU-13A in the RFC Input Power Cable for the RFC (in a DC Scenario) OT terminal "RTN(+)" and "NEG(-)" terminals on the left DCDU-13A in the RFC Depending on the external power equipment External power equipment Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 157 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End RFU Power Cable Power Cable Between Cascaded DCDU-13As The Other End Connector Installation Position Connector Installation Position EPC4 connector "LOAD0" to "LOAD2" ports on the left DCDU-13A in the RFC 3V3 connector "PWR" port on any of RFU0 to RFU2 in the RFC EPC4 connector "LOAD0" to "LOAD2" ports on the right DCDU-13A in the RFC 3V3 connector "PWR" port on any of RFU3 to RFU5 in the RFC OT terminal ● NEG(-) terminal on the left DCDU-13A in the RFC OT terminal ● NEG(-) terminal on the right DCDU-13A in the RFC ● RTN(+) terminal on the left DCDU-13A in the RFC ● RTN(+) terminal on the right DCDU-13A in the RFC Power Cable for the Storage Battery Cabinet OT terminal "BAT" terminal on the EPU in an APM30H OT terminal (M8) "RTN(+)" and "NEG(-)" terminals near the "BAT" silkscreen on the power distribution box in the IBBS200T TEC Power Cable EPC4 connector "LOAD8" port on the EPU in an APM30H EPC4 connector "FAN/ TEC_INPUT" port on the power distribution box in an IBBS200T Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 158 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position BBU Power Cable (in an AC Scenario) EPC4 connector "LOAD0" and "LOAD1" ports on the EPU in an APM30H 3V3 connector "-48V" port on the UPEU in the BBU in an APM30H or TMC11H BBU Power Cable (in a DC Scenario) EPC4 connector "LOAD6" and "LOAD7" ports on the DCDU-12C in a TMC11H 3V3 connector "-48V" port on the UPEU in the BBU in a TMC11H CMUEA Power Cable EPC4 connector "LOAD2" port on the EPU in an APM30H 3V3 connector "PWR" port on the CMUEA in an APM30H EPC4 connector "LOAD9" port on the DCDU-12C in a TMC11H 3V3 connector "PWR" port on the CMUEA in a TMC11H EPC4 connector "LOAD3" port on the left DCDU-13A in an RFC 3V3 connector "PWR" port on the CMUEA in an RFC EPC4 connector "LOAD5" port on the EPU in an APM30H Cord end terminal EPC4 connector "LOAD8" port on the DCDU-12C in a TMC11H Cord end terminal "PWR1" port on the EMUA or "PWR" port on the EMUB EMUA/EMUB Power Cable (Optional) Signal Cables The following table describes the signal cables used for cabinet upgrade. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 159 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position RJ45 connector COM_IN port on the CMUEA in an APM30H RJ45 connector "MON1" port on the UPEU in the BBU in an APM30H RJ45 connector COM_IN port on the CMUEA in an RFC RJ45 connector "MON0" port on the UPEU in the BBU in an APM30H Monitoring Signal Cable for the Door Status Sensor in an APM30H Bare wire Door status sensor 2-pin connector GATE port on the PMU in an APM30H Monitoring Signal Cable for the IBBS200T OT terminal Signal cable transfer terminal in the IBBS200T RJ45 connector COM_485 port on the CMUEA or PMU ELU Signal Cable RJ45 connector ELU port on the CMUEA RJ45 connector ELU Monitoring Signal Cable for the Door Status Sensor Bare wire ● "GATE" port on the CMUEA in the TMC11H Bare wire Door status sensor 4-pin connector ● "FAN_EXT" port on the fan assembly in an APM30H CMUEA-BBU Monitoring Signal Cable ● "GATE" port on the CMUEA in the RFC Monitoring Signal Transfer Cable for the Fan in the Front Door Interconnectio n terminal ● Power cable for the fan in the front door of an APM30H ● Power cable for the fan in the front door in the TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. ● "FAN_EXT" port on the fan assembly in the TMC11H 160 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End Surge Protection Alarm Cable for the DCDU-13A The Other End Connector Installation Position Connector Installation Position Bare wire ● "DC_SPD" port on the left DCDU-13A in the RFC Bare wire ● "IN0" port on the CMUEA in the RFC ● "IN1" port on the CMUEA in the RFC ● "DC_SPD" port on the right DCDU-13A in the RFC Monitoring Signal Cable for the Temperature Sensor 4-pin connector "TEMP1" port on the CMUEA in an RFC 5-pin connector Port on the environmenta l temperature sensor in an RFC PMU-CMUEA Monitoring Signal Cable RJ45 connector "COM_IN" port on the PMU RJ45 connector "COM_OUT" port on the CMUEA Monitoring Signal Cable Between Cascaded CMUEAs RJ45 connector "COM_OUT" port on the upper-level CMUEA RJ45 connector "COM_IN" port on the lower-level CMUEA EMUA/EMUB Monitoring Signal Cable (Optional) DB9 male connector RS485 port on the EMUA/ EMUB in an APM30H RJ45 connector COM_OUT port on the PMU in an APM30H DB9 male connector RS485 port on the EMUA/ EMUB in a TMC11H RJ45 connector COM_OUT port on the CMUEA in a TMC11H RF Cables The following table describes the RF cables used for cabinet upgrade. NOTE ● When a Bias Tee is configured, the jumpers use DIN straight male connectors. After the cabinet is upgraded, the Bias Tee needs to be removed, and therefore the DIN straight male connectors need to be replaced by DIN elbow male connectors. ● When a Bias Tee is not configured before the upgrade, the original jumpers can be reused during the upgrade. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 161 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End RF Jumper The Other End Connector Installation Position Connector Installation Position DIN straight male connector Antenna feeder DIN elbow male connector ANT_TX/RXA and ANT_RXB ports on RFUs 1.2.7.6 BTS3900A (Ver.D_A1) Cable List BTS3900A cables consist of the PGND cables, power cables, signal cables, and RF cables. Power Cables and PGND Cables NOTE Transmission cables in the BTS3900A need to be reused and connected to the original positions. For details about transmission cable connections, see BTS3900A Installation Guide for Enhancing Existing Cabinets (Ver.D Series). The following table describes the power cables and PGND cables after the hardware upgrade. Cable One End Equipotential cable for the front door The Other End Connector Installation Position Connector Installation Position OT terminal ● Ground point on an inner wall of the APM30 OT terminal ● Front door of the APM30 ● Front door of the TMC ● Ground point on an inner wall of the TMC Input power cable for the APM30 OT terminal "AC INPUT" terminal on the EPU in an APM30 Depending on the external power equipment External power equipment Input power cable for a TMC (in an AC scenario) EPC4 connector "LOAD7" port on the EPU in an APM30 OT terminal "RTN(+)" and "NEG(-)" terminals on the DCDU-12C in a TMC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 162 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Input power cable for the TMC (in a DC scenario) Depending on the external power equipment External power equipment OT terminal "RTN(+)" and "NEG(-)" terminals on the DCDU-12C in a TMC Input power cable for the RFC (in an AC scenario) OT terminal "RFC1" terminal on the EPU in the APM30 OT terminal "RTN(+)" and "NEG(-)" terminals on the left DCDU-13A in the RFC Input power cable for the RFC (in a DC scenario) OT terminal "RTN(+)" and "NEG(-)" terminals on the left DCDU-13A in the RFC Depending on the external power equipment External power equipment RFU power cable EPC4 connector "LOAD0" to "LOAD2" ports on the left DCDU-13A in the RFC 3V3 connector "PWR" port on any of RFU0 to RFU2 in the RFC EPC4 connector "LOAD0" to "LOAD2" ports on the right DCDU-13A in the RFC OT terminal ● NEG(-) terminal on the left DCDU-13A in the RFC Power cables between cascaded DCDU-13As "PWR" port on any of RFU3 to RFU5 in the RFC OT terminal ● RTN(+) terminal on the left DCDU-13A in the RFC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. ● NEG(-) terminal on the right DCDU-13A in the RFC ● RTN(+) terminal on the right DCDU-13A in the RFC 163 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Storage battery power cable OT terminal "BAT" terminal on the EPU in an APM30 OT terminal Wiring copper bar for the positive and negative poles of storage batteries BBU power cable (in an AC scenario) EPC4 connector "LOAD0" and "LOAD1" ports on the EPU in an APM30 3V3 connector "-48V" port on the UPEU in the BBU in an APM30 or TMC BBU power cable (in a DC scenario) EPC4 connector "LOAD6" and "LOAD7" ports on the DCDU-12C in a TMC 3V3 connector "-48V" port on the UPEU in the BBU in a TMC Input power cable for the heater OT terminal 8-pin transfer terminal on the EPU in an APM30 Cord end terminal Transfer terminal on the heater Power cable for a heating film OT terminal 8-pin transfer terminal on the EPU in an APM30 OT terminal Wiring terminal for the input power cable for the heating film in a BBC CMUEA power cable EPC4 connector "LOAD2" port on the EPU in an APM30 3V3 connector "PWR" port on the CMUEA in an APM30 EPC4 connector "LOAD9" port on the DCDU-12C in a TMC 3V3 connector "PWR" port on the CMUEA in a TMC EPC4 connector "LOAD3" port on the left DCDU-13A in an RFC 3V3 connector "PWR" port on the CMUEA in an RFC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 164 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End EMUA/EMUB power cable (optional) The Other End Connector Installation Position Connector Installation Position EPC4 connector "LOAD5" port on the EPU in an APM30 Cord end terminal EPC4 connector "LOAD8" port on the DCDU-12C in a TMC Cord end terminal "PWR1" port on the EMUA or "PWR" port on the EMUB Signal Cables The following table describes the signal cables used for cabinet upgrade. Cable One End CMUEA-BBU monitoring signal cable Monitoring signal cable for the door status sensor in an APM30 Issue 16 (2021-08-13) The Other End Connector Installation Position Connector Installation Position RJ45 connector COM_IN port on the CMUEA in an APM30 RJ45 connector "MON1" port on the UPEU in the BBU in an APM30 RJ45 connector COM_IN port on the CMUEA in an RFC RJ45 connector "MON0" port on the UPEU in the BBU in an APM30 Bare wire Door status sensor 2-pin connector GATE port on the PMU in an APM30 Copyright © Huawei Technologies Co., Ltd. 165 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Temperature monitoring signal cable for the batteries OT terminal When an external battery cabinet is used, this cable is bound to the cable bridge on the left side of the upper compartment in the battery cabinet. 2-pin connector TEM_BAT port on the PMU in an APM30 Monitoring signal cable for the temperature sensor 4-pin connector ● TEMP1 port on the CMUEA in an APM30 5-pin connector ● Port on the environme ntal temperatur e sensor in an APM30 ● TEMP2 port on the CMUEA in an APM30 ● Port on the temperatur e sensor near the air exhaust vent in an APM30 ● TEMP1 port on the CMUEA in an RFC ● Port on the environme ntal temperatur e sensor in an RFC Monitoring signal transfer cable for the fan on the top of the cabinet interior 4-pin connector IFAN1 and IFAN2 ports on the CMUEA 4-pin connector J01 and J02 ports on the fan interface board ELU signal cable RJ45 connector ELU on the CMUEA RJ45 connector ELU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 166 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End Monitoring signal cable for the door status sensor The Other End Connector Installation Position Connector Installation Position Bare wire ● GATE port on the CMUEA in a TMC Bare wire Door status sensor 4-pin connector ● EFAN1 and EFAN2 ports on the CMUEA in an APM30 ● GATE port on the CMUEA in an RFC Monitoring signal transfer cable for the fan in the front door Interconnectio n terminal ● Power cable for the fan in the front door of an APM30 ● Power cable for the fan in the front door of a TMC DCDU-13A surge protection alarm cable Bare wire ● DC_SPD port on the left DCDU-13A in an RFC ● EFAN1 and EFAN2 ports on the CMUEA in a TMC Bare wire ● IN0 port on the CMUEA in an RFC ● IN1 port on the CMUEA in an RFC ● DC_SPD port on the right DCDU-13A in an RFC PMU-CMUEA monitoring signal cable RJ45 connector COM_IN port on the PMU RJ45 connector COM_OUT port on the CMUEA Monitoring signal cable between cascaded CMUEAs RJ45 connector COM_OUT port on the upper-level CMUEA RJ45 connector COM_IN port on the lowerlevel CMUEA EMUA/EMUB monitoring signal cable (optional) DB9 male connector RS485 port on the EMUA/ EMUB in an APM30 RJ45 connector COM_OUT port on the PMU in an APM30 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 167 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position DB9 male connector RS485 port on the EMUA/ EMUB in a TMC RJ45 connector COM_OUT port on the CMUEA in a TMC RF Cables The following table describes the RF cables after the hardware upgrade. NOTE ● When a Bias Tee is configured, the jumpers use DIN straight male connectors. After the cabinet is upgraded, the Bias Tee needs to be removed, and therefore the DIN straight male connectors need to be replaced by DIN elbow male connectors. ● When a Bias Tee is not configured before the upgrade, the original jumpers can be reused during the upgrade. Cable RF jumper One End The Other End Connector Installation Position Connector Installation Position DIN straight male connector Antenna feeder DIN elbow male connector ANT_TX/RXA and ANT_RXB ports on an RFU 1.2.7.7 BTS3900A (Ver.E_A2) Cable List BTS3900A (Ver.E_A2) cables include PGND cables, power cables, signal cables, and RF cables. Power Cables and PGND Cables NOTE Transmission cables in the BTS3900A need to be reused and the reused transmission cables are connected to the original positions. For details about transmission cables in the BTS3900A, see BTS3900A (Ver.A) GSM Hardware Description (with a Heat Exchanger). The following table describes the power cables and PGND cables used for cabinet upgrade. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 168 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Input power cable for the APM30H (in AC scenarios) OT terminal (M6) "AC INPUT" port on the EPU Depending on the power equipment External power equipment Input power cable for the TMC11H (in AC scenarios) EPC4 connector "LOAD7" port on the EPU OT terminal (M6, 4 mm2 or 0.006 in.2) RTN(+) and NEG(-) terminals near the "INPUT" silkscreen on the DCDU-12C Input power cable for the TMC11H (in DC scenarios) OT terminal (M6, 25 mm2 or 0.039 in.2) RTN(+) and NEG(-) terminals near the "INPUT" silkscreen on the DCDU-12C Depending on the power equipment External power equipment Input power cable for the RFC (in DC scenarios) OT terminal (M6, 35 mm2 [0.054 in.2] for one group of power cables or 16 mm2 [0.025 in.2] for two groups of power cables) "RTN(+)" and "NEG(-)" terminals near the "INPUT" silkscreen on the DCDU-13A in the RFC Depending on the power equipment External power equipment Input power cable for the RFC (in AC scenarios) OT terminal (M6) "RFC1" terminal on the EPU in an APM30H OT terminal "RTN(+)" and "NEG(-)" terminals near the "INPUT" silkscreen on the DCDU-13A in the RFC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 169 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End Main power cables The Other End Connector Installation Position Connector Installation Position Cord end terminal Cord end terminal bar on the ODM Depending on the power equipment ● In AC scenarios: PDU01D in the EPU in the APM30H ● In DC scenarios: external power equipment Power cables for a battery cabinet OT terminal (M8, 35 mm2 or 0.054 in.2) "BAT" terminal on the EPU in an APM30H OT terminal (M8, 35 mm2 or 0.054 in.2) "RTN(+)" and "NEG(-)" terminals near the "BAT" silkscreen on the power distribution box in the IBBS200T TEC power cable in the IBBS200T EPC4 connector "LOAD8" port on the EPU EPC4 connector "FAN/ TEC_INPUT" port on the power distribution box in an IBBS200T RRU power cable EPC5 or EPC4 connector Cable hole for the RRU power cable on the ODM Depending on the RRU model "PWR" port on the RRU PGND cable for the front door OT terminal Ground point on the inner wall of the cabinet OT terminal Front door Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 170 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End EMUA/EMUB power cable The Other End Connector Installation Position Connector Installation Position EPC4 connector ● In the APM30H: "LOAD5" port on the EPU Cord end terminal "PWR1" port on the EMUA "PWR" port on the EMUB ● In the TMC11H: "LOAD8" port on the DCDU-12C Power cable for the fan assembly EPC4 connector ● "LOAD2" port on the EPU 3V3 connector "PWR" port on the FAN 02E 3V3 connector "-48V" port on the UPEU in the BBU EPC4 connector ● "LOAD0" to "LOAD2" ports on the left DCDU-13A ● In the TMC11H: "LOAD9" port on the DCDU-12C BBU power cable EPC4 connector ● In the APM30H: "LOAD0" or "LOAD1" port on the EPU ● In the TMC11H: "LOAD6" or "LOAD7" port on the DCDU-12C RFU power cable 3V3 connector ● "PWR" ports on RFU0 to RFU2 ● "PWR" ports on RFU3 to RFU5 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. ● "LOAD0" to "LOAD2" ports on the right DCDU-13A 171 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position CMUH power cable EPC4 connector "LOAD3" port on the left DCDU-13A 3V3 connector "PWR" port on the fan assembly Power cable between cascaded DCDU-13As OT terminal "RTN(+)" and "NEG(-)" terminals on the left DCDU-13A OT terminal "RTN(+)" and "NEG(-)" terminals on the right DCDU-13A Power cable for storage batteries OT terminal Storage battery OT terminal Power distribution box Power transfer cable for the TEC OT terminal Transfer terminal for the input power cable for the TEC OT terminal Power distribution box TEC power cable - TEC OT terminal Transfer terminal for the input power cable for the TEC Signal Cables The following table describes the signal cables used for a cabinet upgrade. Cable One End Monitoring signal cable for a battery cabinet Issue 16 (2021-08-13) The Other End Connector Installation Position Connector Installation Position Bare wire Signal cable transfer terminal on the front door of the IBBS200T 2-pin connector and bare wire "TEM_BAT", "IN2", "SMOKE", and green terminals on the fan assembly of the APM30H Copyright © Huawei Technologies Co., Ltd. 172 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position RJ45 connector "COM_IN/ D_COM0" port on the fan assembly of the APM30H RJ45 connector "MON0" port on the UPEU in the BBU in the APM30H RJ45 connector "COM_OUT/ D_COM1" port on the fan assembly of the APM30H RJ45 connector "MON1" port on the UPEU in the BBU in the APM30H Monitoring signal cable for the transmission cabinet RJ45 connector "COM_IN/ U_COM0" port on the fan assembly of the TMC11H RJ45 connector "COM_OUT" port on the CMUH in the RFC CMUH-CCUB monitoring signal cable RJ45 connector "COM_IN" port on the CMUH in the RFC RJ45 connector "MON0-0/ D_COM0-0" port on the fan assembly of the APM30H BBU interconnectio n cable DLC connector One of the "M0" to "M4" ports on the UCIU in the BBU DLC connector ● "CI" port on the UMPT in the BBU CCUB-BBU monitoring signal cable ● "S0" port on the UCIU in the BBU BBU alarm cable RJ45 connector "EXT_ALM0" or "EXT_ALM1" port on the UPEU or UEIU in the BBU RJ45 connector External alarm device Cable between two combined base stations DB15 male connector "GCK" port on the UCIU in the BBU MD36 or DB15 male connector DGLUb or DCTB Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 173 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position External dry contact monitoring signal cable Bare wire "IN0", "IN1", "IN2", and "IN3" terminals on the USLP in the SLPU Bare wire External monitoring device EMUA/EMUB monitoring signal cable DB9 male connector "RS485" port on the EMUA or "RS485" port on the EMUB RJ45 connector "MON1-1/ D_COM1-1" port on the FAN 02E or FAN02H GPS clock signal cable Type N female connector GPS surge protector SMA male connector GPS port on the USCU in the BBU Monitoring signal cable for the door status sensor Bare wire ● In the APM30H or TMC11H: "GATE" terminal on the FAN 02E Bare wire Door status sensor N50 straight male connector GPS antenna ● In the RFC: "GATE" terminal on the CMUH ● In the IBBS200T: signal cable transfer terminal GPS jumper Issue 16 (2021-08-13) N50 straight male connector GPS surge protector Copyright © Huawei Technologies Co., Ltd. 174 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End ELU signal cable The Other End Connector Installation Position Connector Installation Position RJ45 connector ELU RJ45 connector ● In the APM30H or TMC11H: "ELU" port on the FAN 02E ● In the RFC: "ELU" port on the CMUH Monitoring signal transfer cable for the fans in a front door Interconnectio n terminal Power cable for the fan in the front door of the cabinet 4-pin connector "FAN_EXT" port on the FAN 02E Monitoring signal cable for the fans in the front door 4-pin connector Power cable for the fan assembly in the front door of the cabinet 4-pin connector "FAN_EXT" port on the FAN 02E CCUB-PMIU monitoring signal transfer cable RJ45 connector "PMI" port on the FAN 02E RJ45 connector "PMI" port on the PMIU in the EPU CCUB-BBU monitoring signal cable RJ45 connector "MON0" port on the UPEU in the BBU RJ45 connector "COM_IN/ U_COM0" port on the FAN 02E RJ45 connector "MON1" port on the UPEU in the BBU RJ45 connector "COM_OUT/ U_COM1" port on the FAN 02E Monitoring signal cable for the door status sensor Bare wire "GATE" terminal on the FAN 02E Bare wire Door status sensor DCDU-FMUA monitoring signal cable Bare wire "IN0" and "IN1" terminals on the CMUH Bare wire "DC_SPD" terminal on the DCDU-13A Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 175 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Monitoring signal cable for the temperature sensor in the RFC 4-pin connector "TEM" port on the fan assembly RJ45 connector Air intake vent at the bottom of an RFC Monitoring signal cable for the left fans Interconnectio n terminal Cable configured for the fan assembly 4-pin connector IFAN0 and IFAN1 cables configured for the CMUH Monitoring signal cable for the right fans Interconnectio n terminal Cable configured for the fan assembly 4-pin connector IFAN2 and IFAN3 cables configured for the CMUH Temperature monitoring signal cable for the batteries Bare wire Transfer terminal for the signal cable OT terminal Negative pole on the storage battery 1.2.7.8 BTS3900A (Ver.E_A1) Cable List BTS3900A (Ver.E_A1) cables include PGND cables, power cables, signal cables, and RF cables. Power Cables and PGND Cables NOTE Transmission cables in the BTS3900A need to be reused and connected to the original positions. For details about transmission cable connections, see BTS3900A Installation Guide for Enhancing Existing Cabinets (Ver.E Series). The following table describes the power cables and PGND cables used for a cabinet upgrade. Cable One End Input power cable for the APM30 (in AC scenarios) Issue 16 (2021-08-13) The Other End Connector Installation Position Connector Installation Position OT terminal (M6) AC INPUT port on the EPU Depending on the power equipment External power equipment Copyright © Huawei Technologies Co., Ltd. 176 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Input power cable for the TMC (in AC scenarios) EPC4 connector LOAD7 port on the EPU OT terminal (M6, 4 mm2 or 0.006 in.2) RTN(+) and NEG(-) terminals near the INPUT silkscreen on the DCDU-12C Input power cable for the TMC (in DC scenarios) OT terminal (M6) External power equipment OT terminal (M6, 25 mm2 or 0.039 in.2) RTN(+) and NEG(-) terminals near the INPUT silkscreen on the DCDU-12C Input power cable for the RFC (in DC scenarios) OT terminal (M6, 35 mm2 [0.054 in.2] for one group of power cables or 16 mm2 [0.025 in.2] for two groups of power cables) RTN(+) and NEG(-) terminals near the INPUT silkscreen on the DCDU-13A in the RFC Depending on the power equipment External power equipment Input power cable for the RFC (in AC scenarios) OT terminal (M6) RFC1 terminal on the EPU in the APM30 OT terminal RTN(+) and NEG(-) terminals near the INPUT silkscreen on the DCDU-13A in the RFC RRU power cable EPC5 or EPC4 connector One of LOAD0 to LOAD8 ports on the DCDU-12B Depending on the RRU model PWR port on the RRU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 177 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Power cables for a battery cabinet OT terminal (M8, 35 mm2 or 0.054 in.2) BAT terminal on the EPU in the APM30 OT terminal (M8, 35 mm2 or 0.054 in.2) Wiring terminals for power cables for storage batteries in the BBC Power cables for the heating film of a battery cabinet - 8-pin wiring terminal in the APM30 - Junction terminal for the power cable of a heating film in the BBC PGND cable for the front door OT terminal Ground point on the inner wall of the cabinet OT terminal Front door EMUA or EMUB power cable EPC4 connector ● In the APM30: LOAD5 port on the EPU Cord end terminal PWR1 port on the EMUA or EMUB 3V3 connector -48V port on the UPEU in the BBU OT terminal AC OUTPUT terminal on the EPU ● In the TMC: LOAD8 port on the DCDU-12C BBU power cables EPC4 connector ● In the APM30: LOAD0 or LOAD1 port on the EPU ● In the TMC: LOAD6 or LOAD7 port on the DCDU-12C Power cable for the transfer terminal Issue 16 (2021-08-13) Bare wire Transfer terminal Copyright © Huawei Technologies Co., Ltd. 178 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Power cable for an AC heater Bare wire Transfer terminal Bare wire AC heater RFU power cables 3V3 connector ● PWR ports on RFU0 to RFU2 EPC4 connector ● LOAD0 to LOAD2 ports on the left DCDU-13A ● PWR ports on RFU3 to RFU5 CMUH power cable EPC4 connector ● In the APM30: LOAD2 port on the EPU ● LOAD0 to LOAD2 ports on the right DCDU-13A 3V3 connector ● In the TMC: LOAD3 port on the left DCDU-13A ● In the APM30: PWR port on the CMUH ● In the TMC: PWR port on the fan assembly Power cable between cascaded DCDU-13As OT terminal RTN(+) and NEG(-) terminals on the left DCDU-13A OT terminal RTN(+) and NEG(-) terminals on the right DCDU-13A Power cable for storage batteries OT terminal Storage battery OT terminal Wiring terminal for storage batteries Power cable for a heating film - Heating film OT terminal Transfer terminal Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 179 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End Power cable between the wiring terminal on the storage batteries and the circuit breaker The Other End Connector Installation Position Connector Installation Position OT terminal Wiring terminal for storage batteries OT terminal Circuit breaker Signal Cables The following table describes the signal cables used for a cabinet upgrade. Cable One End CMUH-BBU monitoring signal cable BBU interconnectio n cable EMUA monitoring signal cable The Other End Connector Installation Position Connector Installation Position RJ45 connector COM_IN port on the CMUH in the APM30 RJ45 connector MON1 port on the UPEU in the BBU in the APM30 RJ45 connector COM_IN port on the CMUH in the RFC RJ45 connector MON0 port on the UPEU in the BBU in the APM30 DLC connector One of the M0 to M4 ports on the UCIU in the BBU DLC connector ● CI port on the UMPT in the BBU RS485 port on the EMUA RJ45 connector DB9 male connector ● S0 port on the UCIU in the BBU ● In the APM30: COM_OUT port on the PMU ● In the TMC: COM_OUT port on the CMUH Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 180 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position GPS clock signal cable Type N female connector GPS surge protector SMA male connector GPS port on the USCU in the BBU Monitoring signal cable for the door status sensor in the APM30 2-pin connector GATE port on the PMU Bare wire Door status sensor and green terminal Monitoring signal cable for the door status sensor in the TMC Bare wire GATE port on the CMUH Bare wire Door status sensor Monitoring signal cable for the door status sensor in the BBC Bare wire Transfer terminal for the signal cable Cord end terminal Door status sensor GPS jumper N50 straight male connector GPS surge protector N50 straight male connector GPS antenna ELU signal cable RJ45 connector ELU RJ45 connector ELU port in the CMUH Monitoring signal transfer cable for the fans in a front door 4-pin connector Transfer terminal on the front door 4-pin connector IFAN2 and IFAN3 terminals on the CMUH Monitoring signal cable for the fan assembly 4-pin connector Transfer board for the fan assembly 4-pin connector IFAN0 and IFAN1 terminals on the CMUH PMU-CMUH monitoring signal cable RJ45 connector COM_IN port on the PMU 11B RJ45 connector COM_OUT port on the CMUH CMUH-BBU monitoring signal cable RJ45 connector MON1 port on the UPEU in the BBU RJ45 connector COM_IN port on the CMUH Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 181 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Environmenta l temperature monitoring signal cable 5-pin connector Environmenta l temperature sensor on the front door 4-pin connector TEM port on the CMUH Temperature monitoring signal cable for the air exhaust vent 5-pin connector Environmenta l temperature sensor at the air exhaust vent on the right of the fan assembly at the top of the cabinet 4-pin connector TEMP1 port on the CMUH DCDU-FMUA monitoring signal cable Bare wire IN0 and IN1 terminals on the CMUH Bare wire DC_SPD terminal on the DCDU-13A Monitoring signal cable for the temperature sensor in the RFC 4-pin connector TEM port on the fan assembly RJ45 connector Air intake vent at the bottom of an RFC Monitoring signal cable for the left fans Interconnectio n terminal Cable configured for the fan assembly 4-pin connector IFAN0 and IFAN1 cables configured for the CMUH Monitoring signal cable for the right fans Interconnectio n terminal Cable configured for the fan assembly 4-pin connector IFAN2 and IFAN3 cables configured for the CMUH Temperature monitoring signal cable for the batteries 2-pin connector TEM_BAT port on the PMU 11B in the APM30 OT terminal Cable bridge on the left side of the upper storage battery compartment 1.2.8 BTS3900AL Cable List This section describes the list of BTS3900AL cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 182 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.2.8.1 BTS3900AL (Ver.A) Cable List The BTS3900AL cables include the PGND cable, equipotential cable, power cables, transmission cables, signal cables, CPRI electrical cables, and RF cables. PGND Cable and Equipotential Cable The PGND cable and equipotential cable need to be installed onsite. The following table lists the cable connections. Table 1-89 PGND cable and equipotential cable No. Cable One End The Other End Connect or Installation Position Connect or Installation Position 1 1.4 PGND Cable OT terminal (M6) Ground bar in a cabinet OT terminal Ground busbar outside the cabinet 2 1.5 Equipotenti al Cable OT terminal (M6) Ground bar in a cabinet OT terminal (M6) Ground bar in a cabinet Power Cables Table 1-90 lists the power cables to be installed onsite. Table 1-91 lists the power cables that have been installed before delivery. Table 1-90 Power cables to be installed onsite No. Cable One End The Other End Connecto r Installation Position Connecto r Installation Position 1 1.6.1.3.2 PDU05A-01 Power Cable Cord end terminal "L1", "L2", "L3", "N", and "PE" terminals on the PDU05A-01 Dependin g on the external equipmen t External power equipment 2 1.6.4.2 BBU Power Cable EPC4 connector "LOAD7" or "LOAD8" port on the DCDU-12C in the device compartmen t 3V3 connector "-48V" port on the UPEU or UEIU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 183 3900 & 5900 Series Base Station Cables No. Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connecto r Installation Position 3 1.6.1.1.9 DCDU-12C Power Cable EPC4 connector "LOAD1" port on the DCDU-12C in the device compartmen t OT terminal (M6) "RTN(+)" and "NEG(-)" terminals near the INPUT silkscreen on the DCDU-12C in the TMC11H (Ver.D) 4 1.6.1.3.3 PDU03D-01 Power Cable Power series 120 connector "LOAD1" port for connecting the ETP48400 that provides power supply for the BTS3900AL DC cabinet OT terminal (M6) "RTN(+)_2" and "NEG(-)_2" terminals near the Input2 silkscreen on the PDU03D-01 in the BTS3900AL DC cabinet OT terminal (M8) "DCDU:RTN +" and "DCDU0:NE G-" terminals on the Busbar in the BTS3900AL AC cabinet OT terminal (M6) "RTN(+)_0" and "NEG(-)_0" terminals near the Input0 silkscreen on the PDU03D-01 in the BTS3900AL DC cabinet (Obtaining Power from the BTS3900AL AC) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 184 3900 & 5900 Series Base Station Cables No. Cable 1.6.1.3.3 PDU03D-01 Power Cable (Obtaining Power from External Power Equipment) 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connecto r Installation Position Dependin g on the external equipmen t External power equipment OT terminal (M6) ● "RTN(+)_2" and "NEG(-)_2" terminals near the Input2 silkscreen on the PDU03D-01 in the BTS3900AL DC cabinet ● "RTN(+)_0" and "NEG(-)_0" terminals near the Input0 silkscreen on the PDU03D-01 in the BTS3900AL DC cabinet 5 Issue 16 (2021-08-13) 1.6.1.4.13 Storage Battery Power Cable (in the IBBS700D/ IBBS700T) OT terminal (M8) "RTN0+", "BAT0-", "RTN1+", and "BAT1-" terminals on the Busbar in the BTS3900AL AC cabinet OT terminal (M8) "RTN(+)_0", "NEG(-)_0", "RTN(+)_1", and "NEG(-)_1" terminals near the INPUT silkscreen on the power distribution box in the IBBS700D or IBBS700T OT terminal (M8) "RTN1+" and "BAT1-" terminals on the Busbar in the BTS3900AL AC cabinet OT terminal (M6) Battery pack in the BTS3900AL AC cabinet Copyright © Huawei Technologies Co., Ltd. 185 3900 & 5900 Series Base Station Cables No. Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connecto r Installation Position 6 1.6.4.1 EMUA or EMUB Power Cable EPC4 connector "LOAD1" port on the DCDU-12C in the device compartmen t Cord end terminal "PWR1" port on the EMUA or EMUB 7 1.6.1.4.1 Power Cable for a Junction Box OT terminal (M4) "L2" and "N2" terminals on the AC junction box OT terminal (M4) "L" and "N" terminals on the AC junction box OT terminal (M4) "L3" and "N3" terminals on the AC junction box OT terminal (M4) "L" and "N" terminals on the AC junction box EPC4 connector "DC INPUT" port on the power distribution box in the battery cabinet EPC4 connector "LOAD4" port on the DCDU-12C (in the BTS3900AL DC Cabinet) 1.6.1.4.1 Power Cable for a Junction Box (in the IBBS700D, IBBS700T, or TMC11H [Ver.D]) 8 Issue 16 (2021-08-13) 1.6.3.5 Power Cables for the Temperature Control System Copyright © Huawei Technologies Co., Ltd. 186 3900 & 5900 Series Base Station Cables No. 9 Cable 1.6.4.4 RRU Power Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connecto r Installation Position ● OT termin al ● One of the "LOAD0" to "LOAD5" ports on the DCDU-03 B Dependin g on the RRU model Power port on the RRU OT terminal (M8) Wiring terminal labeled "NEG(-)" on the junction box on the inner left wall of an IBBS300D or IBBS300T and wiring terminal labeled "RTN(+)" on the junction box on the inner right wall of the IBBS300D or IBBS300T ● Female fast connec tor (pressfi t type) ● EPC5 or EPC4 connec tor ● One of the "LOAD0" to "LOAD5" ports on the DCDU-11 B ● One of the "LOAD0" to "LOAD8" ports on the DCDU-12 B 10 Issue 16 (2021-08-13) Power Cable for the Storage Battery Cabinet (in the IBBS300D or IBBS300T) OT terminal (M8) "RTN0+", "BAT0-", "RTN1+", and "BAT1-" terminals on the Busbar in the BTS3900AL AC cabinet Copyright © Huawei Technologies Co., Ltd. 187 3900 & 5900 Series Base Station Cables No. Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connecto r Installation Position 11 Power Cable for the Fans in an IBBS300D EPC4 connector "LOAD4" port on the DCDU-12C in a BTS3900AL AC cabinet OT terminal (M4) Copper bars labeled "NEG-" and "RTN+" on the inner left and right walls of the IBBS300D 12 Power Cable for the TEC in an IBBS300T EPC4 connector "LOAD4" port on the DCDU-12C in a BTS3900AL AC cabinet OT terminal (M4) Copper bars labeled "NEG-" and "RTN+" on the inner left and right walls of the IBBS300T 13 1.6.1.4.13 Storage Battery Power Cable NEG(-) OT terminal (M6) Storage battery OT terminal (M8) Junction box on the inner left wall of the cabinet 14 1.6.1.4.13 Storage Battery Power Cable RTN(+) OT terminal (M6) Storage battery OT terminal (M8) Junction box on the inner right wall of the cabinet 15 HAU01A-01 Power Cable (Between Cabinets) (Optional) OT terminal (M4) "L3" and "N3" terminals on the AC junction box of the BTS3900AL AC cabinet OT terminal (M4) "L" and "N" terminals on the heater's junction box on the inner left wall of an IBBS300D Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 188 3900 & 5900 Series Base Station Cables No. 16 17 Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connecto r Installation Position 1.6.1.2.10 EPU02D/ EPU02D-02/ EPU02B/ EPU02S/ EPU02S-02 Power Cable (in the BTS3900AL DC Cabinet) OT terminal ● Black wire: "RTN(+)" terminal on an EPU02D/ EPU02D02 Dependin g on the external equipmen t External power equipment DCDU16D Power Cable (in the BTS3900AL DC Cabinet) OT terminal Dependin g on the external equipmen t External power equipment OT terminal "LOAD3" and "LOAD5" ports on the ETP48400 ● Blue wire: "NEG(-)" terminal on an EPU02D/ EPU02D02 ● Black wire: "RTN(+)" terminal on the DCDU16 D ● Blue wire: "NEG(-)" terminal on the DCDU16 D 18 Issue 16 (2021-08-13) 1.6.1.2.10 EPU02D/ EPU02D-02/ EPU02B/ EPU02S/ EPU02S-02 Power Cable (in the BTS3900AL AC Cabinet) OT terminal ● Black wire: "RTN(+)" terminal on an EPU02D/ EPU02D02 ● Blue wire: "NEG(-)" terminal on an EPU02D/ EPU02D02 Copyright © Huawei Technologies Co., Ltd. 189 3900 & 5900 Series Base Station Cables No. 19 Cable DCDU16D Power Cable (in the BTS3900AL AC Cabinet) 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connecto r Installation Position OT terminal ● Black wire: "RTN(+)" terminal on the DCDU16 D OT terminal "LOAD3" and "LOAD5" ports on the ETP48400 ● Blue wire: "NEG(-)" terminal on the DCDU16 D Table 1-91 Power cables installed before delivery No. Cable One End The Other End Connecto r Installation Position Connector Installation Position 1 1.6.1.2.17 ETP48400 Power Cable Cord end terminal "L11", "N11", "L12", "N12", "L13", and "N13" terminals on the PDU05A-01 OT terminal (M6) "L1", "N1", "L2", "N2", "L3", and "N3" terminals on the ETP48400 2 1.6.1.1.9 DCDU-12C Power Cable OT terminal (M6) "LOAD0" terminal on the ETP48400, which provides power supply for the DCDU-12C OT terminal (M6) "RTN(+)" and "NEG(-)" terminals near the INPUT silkscreen on the DCDU-12C (in the BTS3900AL AC Cabinet) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 190 3900 & 5900 Series Base Station Cables No. 3 Cable 1.6.1.1.9 DCDU-12C Power Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connector Installation Position OT terminal (M8) "RTN(+)_2" and "NEG(-)_2" terminals near the Output2 silkscreen on the PDU03D-01 in the BTS3900AL DC cabinet OT terminal (M6) "RTN(+)" and "NEG(-)" terminals near the INPUT silkscreen on the DCDU-12C in the device compartmen t OT terminal (M8) "RTN(+)_0" and "NEG(-)_0" terminals near the Output0 silkscreen on the PDU03D-01 in the BTS3900AL DC cabinet OT terminal (M6) "RTN(+)" and "NEG(-)" terminals near the INPUT silkscreen on the DCDU-12C in the RF compartmen t (in the BTS3900AL DC Cabinet) 4 1.6.2.2 CMUF Power Cable EPC4 connector "LOAD9" port on the DCDU-12C in the device compartmen t 3V3 connector "PWR" port on the CMUF 5 1.6.2.4 CCU Power Cable EPC4 connector "LOAD0" port on the DCDU-12C in the device compartmen t EPC4 connector "RTN(+)" and "NEG(-)" ports near the INPUT silkscreen on the CCU 6 1.6.3.1.16 FAU03D-01 Power Cable EPC4 connector "LOAD9" port on the DCDU-12C in the RF compartmen t 3V3 connector "PWR" port on the FAU03D-01 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 191 3900 & 5900 Series Base Station Cables No. Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connector Installation Position 7 1.6.4.3 RFU Power Cable EPC4 connector One of the "LOAD0" to "LOAD8" ports on the DCDU-12C in the RF compartmen t 3V3 connector "PWR" port on an RFU 8 1.6.3.6 HAU01A-01 Power Cable OT terminal (M4) "L1", "N1", and "PE" terminals on the AC junction box C13 straight female connector "AC-IN" port on the HAU01A-01 9 1.6.1.4.1 Power Cable for a Junction Box Cord end terminal "L21" and "N21" terminals on the PDU05A-01 OT terminal (M4) "L" and "N" terminals on the AC junction box (in the BTS3900AL AC Cabinet) 10 1.8.3.14 Monitoring Signal Transfer Cables for Fans in Front Doors 4-pin male connector "FAN_IN0" and "FAN_IN1" ports on the CMUF 4-pin female connector Signal cable delivered with an inner air circulation fan 11 1.6.4.2 BBU Power Cable EPC4 connector "LOAD5" or "LOAD6" port on the DCDU-12C in the device compartmen t 3V3 connector "-48V" port on the UPEU or UEIU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 192 3900 & 5900 Series Base Station Cables No. Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connector Installation Position 12 1.6.1.4.5 Power Cable for the DC Junction Box in a BTS3900AL OT terminal Two "NEG(-)_1" terminals and one "RTN(+)_1" terminal near the Output1 silkscreen on the PDU03D-01 OT terminal Two "NEG(-)" terminals and one "RTN(+)" terminal on the DC junction box 13 1.6.2.5 CCU01D-03 Power Cable OT terminal (M4) Junction boxes on the inner left and right walls of the cabinet 3V3 connector "PWR" port on the CCU01D-03 14 HAU01A-01 Power Cable (in a Cabinet) (Optional) OT terminal (M4) AC junction box on the inner left wall of the cabinet C13 connector "AC_IN" port on the heater Transmission Cables Table 1-92 lists the transmission cables to be installed onsite. Table 1-93 lists the transmission cables that have been installed before delivery. Table 1-92 Transmission cables to be installed onsite No. 1 Issue 16 (2021-08-13) Cable 1.7.1 E1/T1 Cable One End The Other End Connecto r Installation Position Connector Installation Position DB26 male connector "OUTSIDE" port on the UELP in the surge protection subrack for transmission signals Depending on the external equipment External transmission equipment Copyright © Huawei Technologies Co., Ltd. 193 3900 & 5900 Series Base Station Cables No. Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connector Installation Position 2 1.7.6 FE/GE Ethernet Cable RJ45 connector "FE0" and "FE1" ports near the OUTSIDE silkscreen on the UFLP in the surge protection subrack for transmission signals RJ45 connector Routing device 3 1.7.3 FE/GE Optical Fiber LC connector ● "FE1" port on the GTMU, WMPT, or UTRP ● FC connector Routing device ● "SFP0" or "SFP1" port on the LMPT ● SC connector ● LC connector Table 1-93 Transmission cables installed before delivery No. 1 Issue 16 (2021-08-13) Cable 1.7.2 E1/T1 Surge Protection Transfer Cable One End The Other End Connecto r Installation Position Connector Installation Position DB25 connector "INSIDE" port on the UELP in the surge protection subrack for transmission signals DB26 connector "E1/T1" port on the GTMU, WMPT, or UTRP Copyright © Huawei Technologies Co., Ltd. 194 3900 & 5900 Series Base Station Cables No. 2 Cable 1.7.7 FE/GE Surge Protection Transfer Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connector Installation Position RJ45 connector ● "FE0" port on the GTMU or WMPT RJ45 connector "FE0" port near the INSIDE silkscreen on the UFLP in the surge protection subrack for transmission signals ● "FE0" or "FE1" port on the LMPT 3 1.7.4 Interconnecti on Cable Between FE/GE Electrical Ports RJ45 connector "FE0" port on the GTMU RJ45 connector "FE0" port on the WMPT board 4 1.7.5 Interconnecti on Cable Between FE/GE Optical Ports LC connector "FE1" port on the GTMU LC connector "FE1" port on the WMPT board Signal Cables Table 1-94 lists the signal cables to be installed onsite. Table 1-95 lists the signal cables that have been installed before delivery. Table 1-94 Signal cables to be installed onsite No. 1 Issue 16 (2021-08-13) Cable 1.8.4.14 BBU Interconnecti on Signal Cable One End The Other End Connecto r Installation Position Connector Installation Position DLC connector "M0" or "M1" port on the UCIU DLC connector "CI" port on the UMPT Copyright © Huawei Technologies Co., Ltd. 195 3900 & 5900 Series Base Station Cables No. Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connector Installation Position 2 1.8.2.35 BBU Alarm Cable RJ45 connector "EXT_ALM0" or "EXT_ALM1" port on the UPEU or UEIU RJ45 connector External alarm device 3 1.8.2.8 Signal Cable for Connecting Cascaded CCUs RJ45 connector "FE_L" port on the CCU RJ45 connector "FE_R" port on the CCU 4 1.8.2.19 CMUEA-CCU Monitoring Signal Cable RJ45 connector "D_COM7" port on the CCU RJ45 connector "COM_IN" port on the CMUEA in the TMC11H (Ver.D) 5 1.8.2.9 CCUBBU Monitoring Signal Cable RJ45 connector U_COM1 port on the CCU RJ45 connector "MON0" port on the UPEU or UEIU 6 1.8.4.5 EMUA or EMUB Monitoring Signal Cable RJ45 connector RJ45 connector COM "RS-485" port on the EMUA or "COM_485" port on the EMUB "COM_OUT" port on the HAU01A-01 7 1.8.4.12 GPS Clock Signal Cable SMA male connector "GPS" port on the USCU Type N female connector "Protect" port on the GPS surge protector 8 1.8.4.13 GPS Jumper Type N male connector "Surge" port on the GPS surge protector Type N male connector GPS antenna 9 Local Maintenance Adapter USB connector "USB"a port on the UMPT in a BBU Network interface connector Ethernet cable a: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 196 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-95 Signal cables installed before delivery No. Cable One End The Other End Connecto r Installation Position Connector Installation Position 1 1.8.1.1 PMUCCU Monitoring Signal Cable RJ45 connector "COM_IN" port on the PMU RJ45 connector "D_COM2" port on the CCU 2 1.8.2.20 CMUF-CCU Monitoring Signal Cable RJ45 connector "COM_IN" port on the CMUF RJ45 connector "D_COM0" port on the CCU 3 1.8.2.15 Signal Cable Between Cascaded HAU01A-01s RJ45 connector "COM_IN" port on the HAU01A-01 RJ45 connector "COM_OUT" port on the HAU01A-01 4 1.8.3.12 HAU01A-01 Monitoring Signal Cable RJ45 connector "COM_IN" port on the HAU01A-01 RJ45 connector "D_COM3" port on the CCU 5 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor Bare wire Door status sensor Bare wire "GATE" port on the CCU 6 1.8.3.4 FAU03D-01 Monitoring Signal Cable RJ45 connector "COM_IN" port on the FAU03D-01 RJ45 connector "D_COM1" port on the CCU 7 1.8.4.3 ELU Signal Cable RJ45 connector ELU RJ45 connector "ELU" port on the CCU 8 1.8.4.7 Monitoring Signal Cable for the AC Surge Protection Module 2-pin wire terminal block AC surge protection port on the PDU05A-01 Cord end terminal "IN1" port on the CCU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 197 3900 & 5900 Series Base Station Cables No. Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connector Installation Position Monitoring Signal Cable for the Temperature Sensor in the Device Compartment 4-pin connector Temperature sensor in the device compartmen t: "TEM0" port on the CMUF Temperature sensor Temperature sensor in the device compartmen t Monitoring Signal Cable for the Temperature Sensor in the RF Compartment 4-pin connector Temperature sensor in the RF compartmen t: "TEM0" port on the FAU03D-01 Temperature sensor Temperature sensor in the RF compartmen t Monitoring Signal Cable for the Temperature Sensor in the Front Door 4-pin connector Temperature sensor on the front door: "TEM1" port on the CMUF Temperature sensor Temperature sensor in the front door 10 1.8.2.9 CCUBBU Monitoring Signal Cable RJ45 connector "U_COM0" port on the CCU RJ45 connector "MON0" port on the UPEU or UEIU 10 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor (in the IBBS300D or IBBS300T) Bare wire Door status sensor Bare wire "GATE" port on the CCU01D-03 11 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor (in the IBBS300D or IBBS300T) Temperat ure sensor Temperature sensor on the inner left wall of the cabinet 4-pin connector "TEM" port on the CCU01D-03 9 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 198 3900 & 5900 Series Base Station Cables No. Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connecto r Installation Position Connector Installation Position 12 1.8.4.3 ELU Signal Cable (in the IBBS300D or IBBS300T) RJ45 connector ELU on the inner left wall of the cabinet RJ45 connector "ELU" port on the CCU01D-03 13 1.8.3.12 HAU01A-01 Monitoring Signal Cable (Optional) RJ45 connector "COM_IN" port on the heater RJ45 connector "D_COM0" port on the CCU01D-03 CPRI Electrical Cables Inter-cabinet CPRI electrical cables need to be installed onsite. CPRI electrical cables in the cabinets have been installed before delivery. The following table describes their connections. Table 1-96 CPRI electrical cables No. 1 Cable 1.9.1 CPRI Electrical Cables One End Connecto r Installation Position Connector Installation Position SFP20 male connector CPRI port on the GTMU, WBBP, UBRI, or LBBP SFP20 male connector "CPRI" port on an RFU SFP20 male connector CPRI port on the GTMU, WBBP, or LBBP SFP20 male connector "CPRI" port on an RFU (Inter-cabinet CPRI Electrical Cables) 2 1.9.1 CPRI Electrical Cables (CPRI Electrical Cables in a Cabinet) The Other End RF Cables All RF cables need to be installed onsite. The following table describes the RF cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 199 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-97 RF cables No. Cable One End The Other End Connecto r Installation Position Connector Installation Position 1 1.10.1 RF Jumpers DIN elbow male connector Antenna feeder DIN straight male connector "ANT_TX/ RXA" or "ANT_RXB" port on an RFU 2 1.10.2 InterRFU RF Signal Cable QMA elbow male connector "RX OUTA" port on an RFU QMA elbow male connector "RX INB" port on another RFU 1.2.9 DBS3900 Cable List The DBS3900 cable lists include the lists of cables for the cabinets used by the DBS3900, BBU cable list, and RRU cable list. Cable Lists for Supported Cabinets The following table lists the links to the lists of cables for the cabinets used by the DBS3900. Table 1-98 Links to the cable lists for supported cabinets Supported Cabinet Cable List APM30H (Ver.B) APM30H (Ver.B) Cable List TMC11H (Ver.B) TMC11H (Ver.B) Cable List IBBS200D (Ver.B) IBBS200D (Ver.B) Cable List IBBS200T (Ver.B) IBBS200T (Ver.B) Cable List APM30H (Ver.C) APM30H (Ver.C) Cable List TMC11H (Ver.C) TMC11H (Ver.C) Cable List IBBS200D (Ver.C) IBBS200D (Ver.C) Cable List IBBS200T (Ver.C) IBBS200T (Ver.C) Cable List APM30H (Ver.D) APM30H (Ver.D) Cable List TMC11H (Ver.D) TMC11H (Ver.D) Cable List IBBS200D (Ver.D) IBBS200D (Ver.D) Cable List IBBS200T (Ver.D) IBBS200T (Ver.D) Cable List Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 200 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Supported Cabinet Cable List APM30H (Ver.E) APM30H (Ver.E) Cable List TMC11H (Ver.E) TMC11H (Ver.E) Cable List BBC5200T-L BBC5200T-L Cable List IBBS200D (Ver.E) IBBS200D (Ver.E) Cable List IBBS200T (Ver.E) IBBS200T (Ver.E) Cable List IBBS700D IBBS700D Cable List IBBS700T IBBS700T Cable List IBBS300D IBBS300D Cable List IBBS300T IBBS300T Cable List IBBS20D IBBS20D Cable List IBBS20L IBBS20L Cable List IBBS20L-E IBBS20L-E Cable List OMB OMB Cable List OMB (Ver.C) OMB (Ver.C) Cable List IBC10 IBC10 Cable List MRE1000 MRE1000 Cable List IMB03 IMB03 Cable List IMB05 IMB05 Cable List ILC29 (Ver.E) ILC29 (Ver.E) Cable List BBU Cable List The following table lists BBU3900 & BBU3910 cables. Table 1-99 BBU3900 & BBU3910 cable list Cable 1.4 PGND Cable Issue 16 (2021-08-13) One End The Other End Connector Installation Position Connector Installation Position OT terminal (M4, 6 mm2 or 0.009 in.2) Ground terminal on a BBU OT terminal (M8, 6 mm2 or 0.009 in.2) External ground bar Copyright © Huawei Technologies Co., Ltd. 201 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position 1.6.4.2 BBU Power Cable 3V3 connector "-48V" port on the UPEU in a BBU Depending on the power equipment Depending on the power equipment 1.7.1 E1/T1 Cable DB26 male connector "E1/T1" port on the UMPT, GTMU, UELP, WMPT, or UTRP in a BBU Depending on site requirements External transmission equipment 1.7.2 E1/T1 Surge Protection Transfer Cable DB26 male connector "E1/T1" port on the UMPT, GTMU, WMPT, or UTRP in a BBU DB25 connector "INSIDE" port on the UELP in an SLPU 1.7.6 FE/GE Ethernet Cable RJ45 connector ● "FE0" port near the OUTSIDE silkscreen on the UFLP in a BBU RJ45 connector External transmission equipment RJ45 connector "FE0" port near the INSIDE silkscreen on the UFLP in the SLPU ● "FE0" port on the UMPT, WMPT, or GTMU in a BBU ● "FE/GE" port on the UTRP in a BBU ● "FE/GE" port on the LMPT in a BBU 1.7.7 FE/GE Surge Protection Transfer Cable RJ45 connector "FE0" port on the UMPT, WMPT, or GTMU in a BBU "FE/GE" port on the UTRP in a BBU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 202 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position 1.7.4 Interconnectio n Cable Between FE/GE Electrical Ports RJ45 connector "FE0" port on the WMPT in a BBU RJ45 connector "FE0" port on the GTMU in a BBU 1.7.5 Interconnectio n Cable Between FE/GE Optical Ports LC connector "FE1" port on the WMPT in a BBU LC connector "FE1" port on the GTMU in a BBU 1.7.3 FE/GE Optical Fiber LC connector "FE1" port on the WMPT, GTMU, LMPT, or UMPT in a BBU FC, SC, or LC connector External transmission equipment 1.9.2 CPRI Optical Fiber DLC connector CPRI port on the GTMU, WBBP, LBBP, UBBP, or UBRI in a BBU DLC connector "CPRI" port on an RRU/AAU MPO connector CPRI port on the UBBP in a BBU MPO connector "CPRI" port on an AAU 1.8.2.2 APMIBBU Monitoring Signal Cable RJ45 connector "MON1" port on the UPEU or UEIU in a BBU Twisted pair "TX+", "TX-", "RX+", or "RX-" port on an APMI 1.8.2.17 HEUABBU Monitoring Signal Cable RJ45 connector "MON1" port on the UPEU or UEIU in a BBU RJ45 connector "COM_IN" port on an HEUA 1.8.2.3 CMUABBU Monitoring Signal Cable RJ45 connector "MON1" port on the UPEU or UEIU in a BBU RJ45 connector "COM_IN" port on a CMUA 1.8.2.6 CMUEBBU Monitoring Signal Cable RJ45 connector "MON1" port on the UPEU or UEIU in a BBU RJ45 connector "COM_IN" port on a CMUE Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 203 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position 1.8.2.7 CMUEABBU Monitoring Signal Cable RJ45 connector "MON1" port on the UPEU or UEIU in a BBU RJ45 connector "COM_IN" port on a CMUEA 1.8.4.5 EMUA or EMUB Monitoring Signal Cable RJ45 connector "MON1" port on the UPEU or UEIU in a BBU DB9 male connector "RS-485" port on an EMUA 1.8.1.18 PSU (EPW25-24S48 D) Monitoring Signal Cable RJ45 connector "EXT-ALM0" port on the UPEU or UEIU in a BBU Cord end terminal ALM terminal on the PSU (DC/DC) 1.8.1.19 PSU (EPW25-24S48 D) In-Position Signal Cable RJ45 connector "EXT-ALM0" port on the UPEU or UEIU in a BBU RJ45 connector "RESENT" port on a PSU (DC/DC) 1.8.2.35 BBU Alarm Cable RJ45 connector "EXT-ALM0" port on the UPEU or UEIU in a BBU RJ45 connector External alarm equipment 1.8.4.12 GPS Clock Signal Cable SMA male connector "GPS" port on the USCU, LMPT, or UMPTa6 in a BBU Type N female connector GPS surge protector 1.8.4.14 BBU Interconnectio n Signal Cable DLC connector M0 to M4 ports on the UCIU in a BBU DLC connector "CI" port on the UMPT in a BBU 1.8.4.15 Cable Between Two Combined Base Stations DB15 male connector "GCK" port on the UCIU in a BBU MD36 or DB15 male connector DCTB or DGLUb 1.8.4.16 Local Maintenance Adapter USBa connector "USB"a port on the UMPT in a BBU Network interface connector Ethernet cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 204 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End Connector The Other End Installation Position Connector Installation Position a: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. For the BBU3910A cable list and BBU3910C cable list, see BBU3910A Installation Guide and BBU3910C Installation Guide. RRU Cable List For the RRU cable list, see the related RRU hardware description. For example, for the RRU3926, see RRU3926 Hardware Description. 1.2.10 BTS3900C Cable List This section describes cable lists when the BTS3900C is configured with different types of cabinets. 1.2.10.1 BTS3900C WCDMA Cable List This section describes the connector types and installation positions of cables, such as PGND cables, power cables, transmission cables and signal cables. Some cables need to be installed onsite, and some cables have been installed before delivery. The cable list provides reference for onsite cable installation. PGND Cable PGND cables need to be installed onsite. The following table lists the PGND cable connections. Table 1-100 PGND cable Cable One End The Other End Connecto r Installation Position Connecto r Installation Position OMB PGND Cable OT terminal Ground bar at the bottom of the OMB OT terminal Ground busbar outside the cabinet RRU PGND Cable OT terminal Ground bar at the bottom of the OMB OT terminal Ground terminal on the RRU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 205 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Power Cables Table 1-101 and Table 1-102 list the power cables for AC cabinets. Table 1-103 and Table 1-104 list the power cables for DC cabinets. Table 1-101 Power cables installed before delivery (in an AC cabinet) Cable One End The Other End Connector Installation Position Connector Installation Position EPS30-4815AF Power Cable 3-pin male connector AC power input port on the EPS30-4815AF Cord end terminal SPD ALM terminals on the AC surge protection box HEUA Power Cable H4 connector DC output port LOAD1 on the EPS30-4815AF 3V3 connector DC INPUT port on the HEUA Table 1-102 Power cables to be installed onsite (in an AC cabinet) Cable One End The Other End Connector Installation Position Connector Installation Position Power Cable for the AC Surge Protection Box OT terminal L, N, and PE terminals on the AC surge protection box Depending on the external power equipment External power equipment BBU Power Cable H4 connector DC output port LOAD1 on the EPS30-4815AF 3V3 connector "-48V" port on the UPEU RRU Power Cable OT terminal RRU wiring terminal on the EPS30-4815AF Depending on the RRU model RTN(+) and NEG(-) terminals on the RRU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 206 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-103 Power cables installed before delivery (in a DC cabinet) Cable One End HEUA Power Cable The Other End Connector Installation Position Connector Installation Position OT terminal "LOAD7" terminal on the DCDU-03B 3V3 connector DC INPUT port on the HEUA Table 1-104 Power cables to be installed onsite (in a DC cabinet) Cable One End The Other End Connector Installation Position Connector Installation Position BBU Power Cable OT terminal "LOAD6" terminal on the DCDU-03B 3V3 connector "-48V" port on the UPEU DCDU-03B Power Cable OT terminal RTN(+) and NEG(-) terminals on the DCDU-03B Depending on the external power equipment External power equipment RRU Power Cable OT terminal "LOAD0" terminal on the DCDU-03B Depending on the RRU model RTN(+) and NEG(-) terminals on the RRU Transmission Cables Table 1-105 lists the transmission cables that have been installed before delivery. Table 1-106 lists the transmission cables and CPRI optical fibers to be installed onsite. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 207 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-105 Transmission cables installed before delivery Cable One End The Other End Connector Installation Position Connector Installation Position 1.7.2 E1/T1 Surge Protection Transfer Cable DB25 connector "INSIDE" port on the UELP in the BBU DB26 connector "E1/T1" port on the GTMU, WMPT, or UTRP in the BBU 1.7.7 FE/GE Surge Protection Transfer Cable RJ45 connector ● "FE0" port on the GTMU or WMPT in the BBU RJ45 connector "FE0" port at the INSIDE silkscreen on the UFLP in the BBU ● FE0 or FE1 port on the LMPT in the BBU Table 1-106 Transmission cables to be installed onsite Cable One End The Other End Connector Installation Position Connector Installation Position 1.7.1 E1/T1 Cable DB26 male connector "OUTSIDE" port on the UELP in the BBU Depending on the external transmission equipment External transmission equipment 1.7.6 FE/GE Ethernet Cable RJ45 connector "FE0" port at the OUTSIDE silkscreen on the UFLP in the BBU RJ45 connector Routing device 1.7.3 FE/GE Optical Fiber LC connector ● "FE1" port on the GTMU, WMPT, or UTRP in the BBU ● FC connector Routing device ● "SFP0" or "SFP1" port on the LMPT in the BBU Issue 16 (2021-08-13) ● SC connector ● LC connector Copyright © Huawei Technologies Co., Ltd. 208 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Signal Cables Table 1-107 and Table 1-108 list the signal cables that have been installed before delivery. Table 1-109 lists the signal cables to be installed onsite. Table 1-107 Signal cables installed before delivery (in an AC cabinet) Cable One End The Other End Connector Installation Position Connector Installation Position 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor Bare wire Door status sensor Bare wire "GATE" port on the HEUA Monitoring Signal Cable for the Inner Air Circulation Fan 4-pin connector "IntFAN" port on the HEUA 5-pin connector Power and monitoring port for the inner air circulation fan Monitoring Signal Cable for the Outer Air Circulation Fan 4-pin connector "ExtFAN" port on the HEUA Round waterproof connector Power and monitoring port for the outer air circulation fan 1.8.2.1 PMUHEUA Monitoring Signal Cable RJ45 connector "COM_OUT" port on the HEUA RJ45 connector "COM_IN" port on the PMU in the EPS30-4815AF 1.8.4.16 Local Maintenance Adapter USB 3.0 connector "USB"a port on the UMPT in a BBU Ethernet connector Network cable Table 1-108 Signal cables installed before delivery (in a DC cabinet) Cable One End 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor Issue 16 (2021-08-13) The Other End Connector Installation Position Connector Installation Position Bare wire Door status sensor Bare wire "GATE" port on the HEUA Copyright © Huawei Technologies Co., Ltd. 209 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position Monitoring Signal Cable for the Inner Air Circulation Fan 4-pin connector "IntFAN" port on the HEUA 5-pin connector Power and monitoring port for the inner air circulation fan Monitoring Signal Cable for the Inner Air Circulation Fan 4-pin connector "ExtFAN" port on the HEUA Round waterproof connector Power and monitoring port for the outer air circulation fan 1.8.4.16 Local Maintenance Adapter USB 3.0 connector "USB"a port on the UMPT in a BBU Ethernet connector Network cable a: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. Table 1-109 Signal cables to be installed onsite Cable One End The Other End Connector Installation Position Connector Installation Position 1.8.4.12 GPS Clock Signal Cable SMA male connector "GPS" port on the USCU in a BBU Type N female connector "Protect" port on the GPS surge protector HEUA-BBU Monitoring Signal Cable RJ45 connector "COM_IN" port on the HEUA RJ45 connector "MON1" port on the UPEU in the BBU 1.8.2.35 BBU Alarm Cable RJ45 connector EXT_ALM0 port on the UPEU or UEIU RJ45 connector External alarm device CPRI Optical Fibers The following table lists the CPRI optical fibers. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 210 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-110 CPRI optical fibers to be installed onsite Cable One End 1.9.2 CPRI Optical Fiber The Other End Connector Installation Position Connector Installation Position DLC connector ● CPRI port on the GTMU or UBRI in the BBU DLC connector "CPRI_W" or "CPRI0" port on the RRU ● CPRI port on the WBBP in the BBU ● CPRI port on the LBBP in the BBU RF Cables All RF cables need to be installed onsite. The following table lists the RF cable connections. Table 1-111 RF cables to be installed onsite Cable One End The Other End Connector Installation Position Connector Installation Position 1.10.1 RF Jumpers DIN male connector "ANT_TX/ RXA" or "ANT_TX/ RXB" port on the RRU DIN male connector Antenna system 1.8.4.10 RRU AISG MultiWire Cable Waterproof ed DB9 male connector "RET" port on the RRU Standard AISG female connector Standard AISG male connector on the RCU or on the AISG multi-wire cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 211 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End 1.8.4.11 RRU AISG Extension Cable The Other End Connector Installation Position Connector Installation Position Standard AISG male connector Standard AISG female connector on the AISG extension cable Standard AISG female connector Standard AISG male connector on the RCU 1.2.10.2 BTS3900C (Ver.C) Cable List This section describes the connector types and installation positions of cables, such as PGND cables, power cables, transmission cables and signal cables. Some cables need to be installed onsite, and some cables have been installed before delivery. The cable list provides reference for onsite cable installation. PGND Cables PGND cables need to be installed onsite. The following table lists the PGND cable connections. Table 1-112 PGND cables Cable One End The Other End Connecto r Installation Position Connecto r Installation Position OMB PGND Cable OT terminal Ground bar at the bottom of the OMB OT terminal Ground bar outside the cabinet RRU PGND Cable OT terminal Ground terminal on the RRU OT terminal Ground bar outside the cabinet Power Cables Table 1-113 and Table 1-114 list the power cables for AC cabinets. Table 1-115 and Table 1-116 list the power cables for DC cabinets. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 212 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-113 Power cables installed before delivery (in an AC cabinet) Cable One End The Other End Connector Installation Position Connector Installation Position OT terminal "L/L1" and "N/L2" terminals on the INPUT side of the ETP48100-A1 Cord end terminal "L/N", "N/L", and "PE" ports on the AC surge protection box OT terminal PDU10D-01 Cord end terminal 1.6.2.7 HEUB Power Cable EPC4 connector "LOAD9" port on the PDU10D-01 3V3 connector "DC INPUT" port on the HEUB 1.6.1.3.1 PDU10D-01 Power Cable OT terminal "RTN0(+)" and "NEG0(-)" terminals near the OUTPUT silkscreen on the ETP48100-A1 OT terminal "RTN(+)" and "NEG(-)" terminals near the INTPUT: -48V silkscreen on the PDU10D-01 1.6.1.2.12 ETP48100-A1 Power Cable Table 1-114 Power cables to be installed onsite (in an AC cabinet) Cable One End The Other End Connector Installation Position Connector Installation Position 1.6.1.3.1 PDU10D-01 Power Cable OT terminal INPUT: "AC" silkscreen on the PDU10D-01 Depending on the external power equipment External power equipment 1.6.4.2 BBU Power Cable EPC4 connector "LOAD6" port on the PDU10D-01 3V3 connector "-48V" port on the UPEU 1.6.4.4 RRU Power Cable EPC4 connector "LOAD0" port on the PDU10D-01 Depending on the RRU model "RTN(+)" and "NEG(-)" terminals on the RRU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 213 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-115 Power cables installed before delivery (in a DC cabinet) Cable One End 1.6.2.7 HEUB Power Cable The Other End Connector Installation Position Connector Installation Position EPC4 connector "LOAD9" port on the PDU10D-01 3V3 connector "DC INPUT" port on the HEUB Table 1-116 Power cables to be installed onsite (in a DC cabinet) Cable One End The Other End Connector Installation Position Connector Installation Position 1.6.1.3.1 PDU10D-01 Power Cable OT terminal "RTN(+)" and "NEG(-)" terminals near the INTPUT: -48V silkscreen on the PDU10D-01 Depending on the external power equipment External power equipment 1.6.4.2 BBU Power Cable EPC4 connector "LOAD6" port on the PDU10D-01 3V3 connector "-48V" port on the UPEU 1.6.4.4 RRU Power Cable EPC4 connector "LOAD0" port on the PDU10D-01 Depending on the RRU model "RTN(+)" and "NEG(-)" terminals on the RRU DCDU16D Power Cable OT terminal "NEG(-)" and "RTN(+)" terminals on the DCDU16D Depending on the external equipment External power equipment Transmission Cables Table 1-117 lists the transmission cables that have been installed before delivery. Table 1-118 lists the transmission cables and CPRI optical fibers to be installed onsite. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 214 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-117 Transmission cables installed before delivery Cable One End The Other End Connector Installation Position Connector Installation Position 1.7.2 E1/T1 Surge Protection Transfer Cable DB25 male connector "INSIDE" port on the UELP in the BBU DB26 male connector "E1/T1" port on the GTMU, WMPT, or UTRP in the BBU 1.7.7 FE/GE Surge Protection Transfer Cable RJ45 connector ● "FE0" port on the GTMU or WMPT in the BBU RJ45 connector "FE0" port near the INSIDE silkscreen on the UFLP in the BBU ● "FE0" or "FE1" port on the LMPT in the BBU 1.7.4 Interconnection Cable Between FE/GE Electrical Ports RJ45 connector "FE0" port on the GTMU in the BBU RJ45 connector "FE0" port on the WMPT in the BBU 1.7.5 Interconnection Cable Between FE/GE Optical Ports LC connector "FE1" port on the GTMU in the BBU LC connector "FE1" port on the WMPT in the BBU Table 1-118 Transmission cables to be installed onsite Cable One End The Other End Connector Installation Position Connector Installation Position 1.7.1 E1/T1 Cable DB26 male connector "OUTSIDE" port on the UELP in the BBU Depending on the external transmission equipment External transmission equipment 1.7.6 FE/GE Ethernet Cable RJ45 connector "OUTSIDE" or "FE0" port on the UFLP in the BBU RJ45 connector Routing device Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 215 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End 1.7.3 FE/GE Optical Fiber The Other End Connector Installation Position Connector Installation Position LC connector ● "FE1" port on the GTMU, WMPT, or UTRP in the BBU ● FC connector Routing device ● "SFP0" or "SFP1" port on the LMPT in the BBU ● SC connector ● LC connector Signal Cables Table 1-119 and Table 1-120 list the signal cables that have been installed before delivery. Table 1-121 lists the signal cables to be installed onsite. Table 1-119 Signal cables installed before delivery (in an AC cabinet) Cable One End The Other End Connector Installation Position Connector Installation Position 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor Bare wire Door status sensor Bare wire "GATE" port on the HEUB Monitoring Signal Cable for the Inner Air Circulation Fan 4-pin connector "IntFAN" port on the HEUB 4-pin connector Power and monitoring port for the inner air circulation fan Monitoring Signal Cable for the Outer Air Circulation Fan 4-pin connector "ExtFAN" port on the HEUB 4-pin connector Power and monitoring port for the outer air circulation fan 1.8.1.12 PMU 11A-HEUB Monitoring Signal Cable RJ45 connector "COM_OUT" port on the HEUB RJ45 connector "COM_IN" port on the PMU 11A in the ETP48100-A1 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 216 3900 & 5900 Series Base Station Cables Cable 1 3900 & 5900 Series Base Station Cables One End The Other End Connector Installation Position Connector Installation Position 1.8.4.3 ELU Signal Cable RJ45 connector "RJ45" port on the ELU RJ45 connector "ELU" port on the HEUB 1.8.4.16 Local Maintenance Adapter USB 3.0 connector "USB"a port on the UMPT in a BBU Network interface connector Ethernet cable a: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. Table 1-120 Signal cables installed before delivery (in a DC cabinet) Cable One End The Other End Connector Installation Position Connector Installation Position 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor Bare wire Door status sensor Bare wire "GATE" port on the HEUB Monitoring Signal Cable for the Inner Air Circulation Fan 4-pin connector "IntFAN" port on the HEUB 4-pin connector Power and monitoring port for the inner air circulation fan Monitoring Signal Cable for the Outer Air Circulation Fan 4-pin connector "ExtFAN" port on the HEUB 4-pin connector Power and monitoring port for the outer air circulation fan 1.8.4.3 ELU Signal Cable RJ45 connector "RJ45" port on the ELU RJ45 connector "ELU" port on the HEUB 1.8.4.16 Local Maintenance Adapter USB 3.0 connector "USB"a port on the UMPT in a BBU Network interface connector Ethernet cable a: The security of the USB loading port is ensured by encryption, and the USB loading port can be shut down using commands. The USB commissioning port is used only for commissioning a base station and cannot be used for configuring and exporting information of the base station. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 217 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-121 Signal cables to be installed onsite Cable One End The Other End Connector Installation Position Connector Installation Position 1.8.4.12 GPS Clock Signal Cable SMA male connector "GPS" port on the USCU in a BBU Type N female connector "Protect" port on the GPS surge protector 1.8.2.16 HEUBBBU Monitoring Signal Cable RJ45 connector "COM_IN" port on the HEUB RJ45 connector "MON1" port on the UPEU in the BBU 1.8.2.35 BBU Alarm Cable RJ45 connector "EXT_ALM0" port on the UPEU or UEIU RJ45 connector External alarm device CPRI Cables The following table lists the CPRI optical fibers to be installed onsite. Table 1-122 CPRI optical fibers to be installed onsite Cable One End 1.9.2 CPRI Optical Fiber The Other End Connector Installation Position Connector Installation Position DLC connector ● "CPRI" port on the GTMU or UBRI in the BBU DLC connector "CPRI_W" or "CPRI0" port on the RRU ● CPRI port on the WBBP in the BBU ● CPRI port on the LBBP in the BBU RF Cables All RF cables need to be installed onsite. The following table lists the RF cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 218 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-123 RF cables to be installed onsite Cable One End The Other End Connector Installation Position Connector Installation Position 1.10.1 RF Jumpers DIN male connector "ANT_TX/ RXA" or "ANT_TX/ RXB" port on the RRU DIN male connector Antenna system 1.8.4.11 RRU AISG Extension Cable Waterproof ed DB9 male connector "RET" port on the RRU Standard AISG female connector Standard AISG male connector on the RCU or on the AISG multi-wire cable 1.8.4.10 RRU AISG MultiWire Cable Standard AISG male connector Standard AISG female connector on the AISG extension cable Standard AISG female connector Standard AISG male connector on the RCU 1.3 Cable Connections This section describes cable connections for 3900 and 5900 series base stations, including power cable connections, transmission cable connections, monitoring signal cable connections, BBU interconnection signal cable connections, CPRI cable connections, and RF cable connections. 1.3.1 Power Cable Connections This section describes power cable connections for BTS5900, BTS5900L, BTS5900A, DBS5900, BTS3900, BTS3900L, BTS3900A, BTS3900AL, BTS3900C, and DBS3900 base stations. 1.3.1.1 BTS5900 Power Cable Connections This section describes power cable connections in the BTS5900 configured with different types of cabinets. 1.3.1.1.1 BTS3900 (Ver.E_A~D) Power Cable Connections BTS3900 (Ver.E_A~D) power cable connections include power cable connections in the BTS3900 (Ver.A), BTS3900 (Ver.B), BTS3900 (Ver.C), and BTS3900 (Ver.D) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 219 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables cabinets, and power cable connections in the BTS3900 (Ver.E_A~D) that are restructured from these cabinets. The power cable connections vary depending on the type of cabinet, for example, the BTS3900 (Ver.A), BTS3900 (Ver.B), BTS3900 (Ver.C), or BTS3900 (Ver.D) cabinet, which is to be restructured into the BTS3900 (Ver.E_A~D) cabinet, as listed in the following table. Table 1-124 Power cable connections Reuse Scenario Power Cable Connections Upgrade from BTS3900 (Ver.A) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.A/Ver.B) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.B) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.A/Ver.B) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.C) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.C) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.D) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.D) to BTS3900 (Ver.E_A~D) 1.3.1.1.2 BTS5900 (Ver.A) Power Cable Connections This section describes the power cable connections for BTS5900 (Ver.A) cabinets. The following figure shows the BTS5900 (Ver.A) power cable connections in -48 V DC input scenarios. Figure 1-1 BTS5900 (Ver.A) power cable connections Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 220 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cable connections. Table 1-125 BTS5900 (Ver.A) power cable connections No. Cable Description P0 to P5 1.6.4.3 RFU Power Cable P6 1.6.3.1.19 FAN 03D Power Cable P7 and P12 1.6.4.2 BBU Power Cable P8 and P9 1.6.1.1.7 DCDU-12A Power Cable P10 and P11 1.6.1.1.8 DCDU-12B Power Cable P13 to P18 1.6.4.4 RRU Power Cable 1.3.1.2 BTS5900L Power Cable Connections This section describes power cable connections in the BTS5900L configured with different types of cabinets. 1.3.1.2.1 BTS3900L (Ver.E_B~D) Power Cable Connections BTS3900L (Ver.E_B~D) power cable connections include the power cable connections in the BTS3900L (Ver.B), BTS3900L (Ver.C), and BTS3900L (Ver.D) cabinets, and power cable connections in the BTS3900L (Ver.E_B~D) cabinets that are restructured from these cabinets. The power cable connections vary depending on the type of cabinet, for example, the BTS3900L (Ver.B), BTS3900L (Ver.C), or BTS3900L (Ver.D) cabinet, which is to be restructured into the BTS3900L (Ver.E_B~D) cabinet, as listed in the following table. Table 1-126 Power cable connections Reuse Scenario Power Cable Connections Upgrade from BTS3900L (Ver.B) to BTS3900L (Ver.E_B~D) Upgrade from BTS3900L (Ver.B) to BTS3900L (Ver.E_B~D) Upgrade from BTS3900L (Ver.C) to BTS3900L (Ver.E_B~D) Upgrade from BTS3900L (Ver.C) to BTS3900L (Ver.E_B~D) Upgrade from BTS3900L (Ver.D) to BTS3900L (Ver.E_B~D) Upgrade from BTS3900L (Ver.D) to BTS3900L (Ver.E_B~D) 1.3.1.2.2 BTS5900L (Ver.A) Power Cable Connections This section describes the power cable connections for a BTS5900L (Ver.A) cabinet. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 221 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following figure shows the BTS5900L (Ver.A) power cable connections in -48 V DC input scenarios. Figure 1-2 BTS5900L (Ver.A) power cable connections The following table describes the power cable connections. Table 1-127 BTS5900L (Ver.A) power cable connections No. Cable Description P0 to P5, P10 to P15 1.6.4.3 RFU Power Cable P6 and P16 1.6.3.1.19 FAN 03D Power Cable P7 and P8 1.6.4.2 BBU Power Cable P9 1.6.4.9 GATM Power Cable P17 to P20 1.6.1.1.7 DCDU-12A Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 222 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Cable Description P21 to P26 1.6.4.4 RRU Power Cable P27 and P28 1.6.1.1.8 DCDU-12B Power Cable 1.3.1.3 BTS5900A Power Cable Connections This section describes the BTS5900A power cable connections in 110 V AC, 220 V AC, and -48 V DC input scenarios. Click the cable numbers in the following figures to view the connections on both ends of each cable. Power Cable Connections in a 110 V AC or 220 V AC Scenario NOTE ● This section describes the power cable connections in a scenario where BBU 1 is installed in an APM30H. When BBU 1 is installed in the TMC11H, the power cable connections are the same. ● If a device is not configured at a site, you can ignore the related power cable connections in the figures. ● IBBS200D and IBBS200T power cable connections are similar. The following uses the IBBS200D as an example. ● IBBS300D and IBBS300T power cable connections are similar. The following uses the IBBS300D as an example. 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H The following figure shows the power cable connections for a BTS5900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 223 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-3 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H The following table describes the power cable connections. Table 1-128 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H No. Description P0 1.6.1.2.7 EPU05A-06 or EPU05A-08 Power Cable P1 1.6.4.2 BBU Power Cable P2 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC P3 to P8 1.6.4.3 RFU Power Cable P9 1.6.3.1.11 FAN 02E Power Cable/ 1.6.3.1.13 FAN02H Power Cable P10 1.6.3.1.5 FAN 01D Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 224 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P11 1.6.1.4.3 Power Cable for a Power Distribution Box P15 to P17 1.6.1.4.13 Storage Battery Power Cable P12 1.6.3.8 Fan Power Cables in an IBBS200D P13 1.6.1.1.9 DCDU-12C Power Cable P14 1.6.1.4.1 Power Cable for a Junction Box P18 1.6.1.1.7 DCDU-12A Power Cable P19 Power Cable Between Cascaded Power Distribution Boxes. 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H The following figure shows the power cable connections for a BTS5900A configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H. Figure 1-4 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 225 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cable connections. Table 1-129 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H No. Description P0 1.6.1.2.7 EPU05A-06 or EPU05A-08 Power Cable P1 1.6.4.2 BBU Power Cable P2 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC P3 to P8 1.6.4.3 RFU Power Cable P9 1.6.3.1.11 FAN 02E Power Cable/ 1.6.3.1.13 FAN02H Power Cable P10 1.6.3.1.5 FAN 01D Power Cable P11 and P15 1.6.1.4.13 Storage Battery Power Cable P12 1.6.3.10 Fan Power Cables in an IBBS300D P13 1.6.1.1.9 DCDU-12C Power Cable P14 1.6.1.4.1 Power Cable for a Junction Box P16 and P17 1.6.1.4.6 Power Cables Between Cascaded DC Junction Boxes in Different IBBS300Ds/IBBS300Ts/ BBC5300Ds/BBC5300Ts P18 1.6.1.1.7 DCDU-12A Power Cable 1 RFC+1 APM30H+2 IBBS200Ds+1 TMC11H+15 RRUs The following figure shows the power cable connections for a BTS5900A configured with 1 RFC+1 APM30H+2 IBBS200Ds+1 TMC11H+15 RRUs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 226 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-5 Power cable connections for a base station configured with 1 RFC+1 APM30H+2 IBBS200Ds+1 TMC11H+15 RRUs The following table describes the power cable connections. Table 1-130 Power cable connections for a base station configured with 1 RFC+1 APM30H+2 IBBS200Ds+1 TMC11H+15 RRUs No. Description P0 1.6.1.2.7 EPU05A-06 or EPU05A-08 Power Cable P1 1.6.4.2 BBU Power Cable P2 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC P3 to P8 1.6.4.3 RFU Power Cable P9 1.6.3.1.11 FAN 02E Power Cable/ 1.6.3.1.13 FAN02H Power Cable P10 1.6.3.1.5 FAN 01D Power Cable P11 1.6.1.4.3 Power Cable for a Power Distribution Box P15 to P17 1.6.1.4.13 Storage Battery Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 227 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P12 1.6.3.8 Fan Power Cables in an IBBS200D P13 1.6.1.1.9 DCDU-12C Power Cable P14 1.6.1.4.1 Power Cable for a Junction Box P18 1.6.1.1.7 DCDU-12A Power Cable P19 1.6.4.4 RRU Power Cable P20 1.6.4.10 ODM06D Power Cable P21 Power Cable Between Cascaded Power Distribution Boxes 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H+9 RRUs The following figure shows the power cable connections for a BTS5900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H+9 RRUs. Figure 1-6 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H+9 RRUs The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 228 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-131 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H+9 RRUs No. Description P0 1.6.1.2.7 EPU05A-06 or EPU05A-08 Power Cable P1 1.6.4.2 BBU Power Cable P2 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC P3 to P8 1.6.4.3 RFU Power Cable P9 1.6.3.1.11 FAN 02E Power Cable/ 1.6.3.1.13 FAN02H Power Cable P10 1.6.3.1.5 FAN 01D Power Cable P11 1.6.1.4.3 Power Cable for a Power Distribution Box P15 to P17 1.6.1.4.13 Storage Battery Power Cable P12 1.6.3.8 Fan Power Cables in an IBBS200D P13 1.6.1.1.9 DCDU-12C Power Cable P14 1.6.1.4.1 Power Cable for a Junction Box P18 1.6.1.1.7 DCDU-12A Power Cable P19 1.6.4.4 RRU Power Cable P20 Power Cable Between Cascaded Power Distribution Boxes Power Cable Connections in a -48 V DC Input Scenario 2 RFCs+1 TMC11H The following figure shows the power cable connections for a BTS5900A configured with 2 RFCs+1 TMC11H in -48 V DC input scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 229 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-7 Power cable connections for a base station configured with 2 RFCs+1 TMC11H The following table describes the power cable connections. Table 1-132 Power cable connections for a base station configured with 2 RFCs+1 TMC11H No. Description P0 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC P1 1.6.4.2 BBU Power Cable P2 1.6.1.1.9 DCDU-12C Power Cable P3 to P8 1.6.4.3 RFU Power Cable P9 FAN 02E Power Cable/1.6.3.1.13 FAN02H Power Cable P10 FAN 01D Power Cable P11 1.6.1.1.7 DCDU-12A Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 230 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following figure shows the power cable connections for a BTS5900A configured with 1 RFC+1 TMC11H+15 RRUs in -48 V DC input scenarios. Figure 1-8 Power cable connections for a base station configured with 1 RFC+1 TMC11H+15 RRUs The following table describes the power cable connections. Table 1-133 Power cable connections for a base station configured with 1 RFC+1 TMC11H+15 RRUs No. Description P0 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC P1 1.6.4.2 BBU Power Cable P2 1.6.1.1.9 DCDU-12C Power Cable P3 to P8 1.6.4.3 RFU Power Cable P9 FAN 02E Power Cable/1.6.3.1.13 FAN02H Power Cable P10 FAN 01D Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 231 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P11 1.6.1.1.7 DCDU-12A Power Cable P12 1.6.4.4 RRU Power Cable P13 1.6.1.1.8 DCDU-12B Power Cable The following figure shows the power cable connections for a BTS5900A configured with 2 RFCs+1 TMC11H+9 RRUs in -48 V DC input scenarios. Figure 1-9 Power cable connections for a base station configured with 2 RFCs+1 TMC11H+9 RRUs The following table describes the power cable connections. Table 1-134 Power cable connections for a base station configured with 2 RFCs+1 TMC11H+9 RRUs No. Description P0 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 232 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P1 1.6.4.2 BBU Power Cable P2 1.6.1.1.9 DCDU-12C Power Cable P3 to P8 1.6.4.3 RFU Power Cable P9 FAN 02E Power Cable/1.6.3.1.13 FAN02H Power Cable P10 FAN 01D Power Cable P11 1.6.1.1.7 DCDU-12A Power Cable P12 1.6.4.4 RRU Power Cable P13 1.6.1.1.8 DCDU-12B Power Cable 1.3.1.4 DBS5900 Power Cable Connections (BBU5900) This section describes power cable connections in the DBS5900 configured with different types of cabinets. 1.3.1.4.1 Power Cable Connections in a DBS5900 Using the APM5930(AC) This section describes the power cable connections in a DBS5900 using the APM5930(AC). NOTE ● This section uses the DBS5900 as an example to describe how to configure power cables for 21 RRUs. ● When a base station is configured with 1 to 6 RRUs, the EPU provides power for all RRUs. ● The seventh to twenty-first RRUs (power consumption per RRU ≤ 800 W) are powered by three PDU06D-01s. Each PDU06D-01 provides power for a maximum of 6 RRUs (power consumption per RRU ≤ 800 W). ● The seventh to fifteenth RRUs (power consumption per RRU ≤ 800 W) are powered by two PDU06D-01s. The sixteenth to twenty-first RRUs (800 W < power consumption per RRU ≤ 1200 W) are powered by two EPU02D-02s or one BDU70-03. Each EPU02D-02 provides power for a maximum of three RRUs (800 W < power consumption per RRU ≤ 1200 W). Each BDU70-03 provides power for a maximum of six RRUs (800 W< power consumption per RRU ≤ 1200 W). The sixteenth to twenty-first RRUs (1200 W < power consumption per RRU ≤ 1400 W) are powered by three SDU60–02s. Each SDU60–02 provides power for a maximum of two RRUs (1200 W < power consumption per RRU ≤ 1400 W). ● If a device is not configured at a site, you can ignore the related power cable connections in the figures. ● BBC5200D and BBC5200T power cable connections are similar. The following uses the BBC5200D as an example. ● BBC5300D and BBC5300T power cable connections are similar. The following uses the BBC5300D as an example. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 233 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200Ds 21 RRUs (power consumption per RRU ≤ 800 W) The following figure shows the power cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200Ds when the power consumption per RRU is less than or equal to 800 W. Figure 1-10 Power cable connections (1) in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200Ds The following table describes the power cable connections. Table 1-135 Power cable connections (1) in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200Ds No. Description P0 EPU05A-11 or EPU05A-12 power cable P1 Power cable for a junction box P2 FAN02G power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 234 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P3, P4, and P5 BBU5900 power cable P6 RRU power cable P7 DCDU15D power cable P8 -48 V input power cable P9 1.6.1.4.3 Power Cable for a Power Distribution Box P10 Power cable for a heating film P11 Power cable between cascaded storage battery cabinets P12 -48 V input cascading power cable 15 RRUs (power consumption per RRU ≤ 800 W)+6 RRUs (800 W < power consumption per RRU ≤ 1200 W) The following figure shows the power cable connections in a base station configured with 15 RRUs (power consumption per RRU ≤ 800 W) and 6 RRUs (800 W < power consumption per RRU ≤ 1200 W) when the EPU02D-02 is used. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 235 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-11 Power cable connections (2) in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200Ds The following table describes the power cable connections. Table 1-136 Power cable connections (2) in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200Ds No. Description P0 EPU05A-11/12 power cable P1 Power cable for a junction box P2 FAN02G power cable P3, P4, and P5 BBU5900 power cable P6 RRU power cable P7 DCDU15D power cable P8 -48 V input power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 236 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P9 Power cable for a power distribution box P10 Power cable for a heating film P11 Power cable between cascaded storage battery cabinets P12 -48 V input cascading power cable P13 EPU02D-02 power cable/ The following figure shows the power cable connections in a base station configured with 15 RRUs (power consumption per RRU ≤ 800 W) and 6 RRUs (800 W < power consumption per RRU ≤ 1200 W) when the BDU70-03 is used. Figure 1-12 Power cable connections (3) in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200Ds The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 237 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-137 Power cable connections No. Description P0 EPU05A-11/12 power cable P1 Power cable for a junction box P2 FAN02G power cable P3, P4, and P5 BBU5900 power cable P6 RRU power cable P7 DCDU15D power cable P8 -48 V input power cable P9 Power cable for a power distribution box P10 Power cable for a heating film P11 Power cable between cascaded storage battery cabinets P12 -48 V input cascading power cable P13 EPU02D-02 power cable 15 RRUs (power consumption per RRU ≤ 800 W)+6 RRUs (1200 W < power consumption per RRU ≤ 1400 W) The following figure shows the power cable connections in a base station configured with 15 RRUs (power consumption per RRU ≤ 800 W) and 6 RRUs (1200 W < power consumption per RRU ≤ 1400 W) when the SDU60-02 is used. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 238 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-13 Power cable connections (4) in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200Ds Table 1-137 describes the power cables. 1 APM5930(AC)+1 APM5930(DC)+2 BBC5300Ds 21 RRUs (power consumption per RRU ≤ 800 W) The following figure shows the power cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5300Ds when the power consumption per RRU is less than or equal to 800 W. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 239 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-14 Power cable connections (1) in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5300Ds The following table describes the power cable connections. Table 1-138 Power cable connections (1) in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5300Ds No. Description P0 EPU05A-11/12 power cable P1 Power cable for a junction box P2 FAN02G power cable P3, P4, and P5 BBU5900 power cable P6 RRU power cable P7 DCDU15D power cable P8 -48 V input power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 240 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P9 Power cable for a power distribution box P10 Power cable for a heating film P11 Power cable between cascaded storage battery cabinets P12 -48 V input cascading power cable P13 EPU02D-02 power cable/ 15 RRUs (power consumption per RRU ≤ 800 W)+6 RRUs (800 W < power consumption per RRU ≤ 1200 W) The following figure shows the power cable connections in a base station configured with 15 RRUs (power consumption per RRU ≤ 800 W) and 6 RRUs (800 W < power consumption per RRU ≤ 1200 W) when the EPU02D-02 is used. Figure 1-15 Power cable connections (2) in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5300Ds Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 241 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-12 shows the power cable connections in a base station configured with 15 RRUs (power consumption per RRU ≤ 800 W) and 6 RRUs (800 W < power consumption per RRU ≤ 1200 W) when the BDU70-03 is used. The following table describes the power cable connections. Table 1-139 Power cable connections (2) in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5300Ds No. Description P0 EPU05A-11/12 power cable P1 Power cable for a junction box P2 FAN02G power cable P3, P4, and P5a BBU5900 power cable P6 RRU power cable P7 DCDU15D power cable P8 -48 V input power cable P9 Power cable for a power distribution box P10 Power cable for a heating film P11 Power cable between cascaded storage battery cabinets P12 -48 V input cascading power cable P14 EPU02D-02 power cable/ NOTE a: When a second BBU is installed in the APM5930(DC) on the left side, the BBU power cable is connected to the EPU in the APM5930(AC) on the right side rather than the DCDU in the APM5930(DC). 15 RRUs (power consumption per RRU ≤ 800 W)+6 RRUs (1200 W < power consumption per RRU ≤ 1400 W) Figure 1-13 shows the power cable connections in a base station configured with 15 RRUs (power consumption per RRU ≤ 800 W) and 6 RRUs (1200 W < power consumption per RRU ≤ 1400 W) when the SDU60-02 is used. Table 1-139 describes the power cable connections. 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200D-Ls The following figure shows the power cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200D-Ls. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 242 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-16 Power cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200D-Ls The following table describes the power cable connections. Table 1-140 Power cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200D-Ls No. Description P0 EPU05A-11/12 power cable P1 Power cable for a junction box P2 FAN02G power cable P3, P4, and P5 BBU5900 power cable P6 RRU power cable P7 DCDU15D power cable P8 -48 V input power cable P9 Power cable for the power distribution box in the lithium battery P10 Heater power cable P11 Power cable between cascaded power distribution boxes Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 243 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P12 -48 V input cascading power cable P13 CMUH power cable P14 Lithium battery power cable P15 Lithium battery activation cable 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200T-Ls The following figure shows the power cable connections for the BBC5200T-L in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200T-Ls. Figure 1-17 Power cable connections for the BBC5200T-L in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200T-Ls The following table describes the power cable connections. Table 1-141 Power cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200T-Ls No. Description P0 EPU05A-11/12 power cable P1 FAN02G power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 244 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P2 BBU5900 power cable P3, P4, and P5 RRU power cable P6 DCDU15D power cable P7 Power cable for the power distribution box in the lithium battery P8 -48 V input power cable P9 CMUH power cable P10 Power cable between cascaded power distribution boxes P11 -48 V input cascading power cable P12 Air conditioner power cable P13 Lithium battery power cable P14 Lithium battery activation cable 1.3.1.4.2 Power Cable Connections in a DBS5900 Using the APM5930(DC) This section describes the power cable connections in a DBS5900 using the APM5930(DC). 21 RRUs (power consumption per RRU ≤ 800 W) The following figure shows the power cable connections when the DBS5900 uses two APM5930(DC) cabinets and the power consumption per RRU is less than or equal to 800 W. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 245 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-18 Power cable connections (1) in a base station configured with two APM5930(DC) cabinets The following table describes the power cable connections. Table 1-142 Power cable connections (1) in a base station configured with two APM5930(DC) cabinets No. Description P0 DCDU15D power cable/1.6.1.1.8 DCDU-12B Power Cable P1 and P4 FAN02G power cable P2, P3, P5, and P7 BBU5900 power cable P6 RRU power cable 15 RRUs (power consumption per RRU ≤ 800 W)+6 RRUs (800 W < power consumption per RRU ≤ 1200 W) The following figure shows the power cable connections in a base station configured with 15 RRUs (power consumption per RRU ≤ 800 W) and 6 RRUs (800 W < power consumption per RRU ≤ 1200 W). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 246 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-19 Power cable connections (2) in a base station configured with two APM5930(DC) cabinets The following table describes the power cable connections. Table 1-143 Power cable connections (2) in a base station configured with two APM5930(DC) cabinets No. Description P0 DCDU15D power cable/1.6.1.1.8 DCDU-12B Power Cable P1 and P4 FAN02G power cable P2, P3, P7, and P8 BBU5900 power cable P5 1.6.1.2.10 EPU02D/EPU02D-02/ EPU02B/EPU02S/EPU02S-02 Power Cable/DCDU16D power cable P6 RRU power cable 1.3.1.4.3 Power Cable Connections in a DBS5900 Using the APM30H (Ver.E) This section describes the power cable connections in a DBS5900 using the APM30H (Ver.E). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 247 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE ● This section uses the distributed base station configured with 21 RRUs as an example to describe how to configure power cables. ● When a base station is configured with 1 to 6 RRUs, the EPU provides power for all RRUs. ● When a base station is configured with 7 to 15 RRUs, three PDU03D-02 modules need to be installed in the EPU to provide power for the seventh to fifteenth RRUs. ● When a base station is configured with 16 to 21 RRUs, one PDU01D-01 needs to be installed in the EPU to provide power for an ODM, and the ODM then provides power to the sixteenth to twenty-first RRUs. ● If a device is not configured at a site, you can ignore the related power cable connections in the figures. ● IBBS200D and IBBS200T power cable connections are similar. The following uses the IBBS200D as an example. ● IBBS300D and IBBS300T power cable connections are similar. The following uses the IBBS300D as an example. 1 APM30H+1 TMC11H+2 IBBS200Ds The following figure shows the power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS200Ds. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 248 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-20 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS200Ds The following table describes the power cable connections. Table 1-144 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS200Ds No. Description P0 EPU05A-07/09 power cable P1 Power cable for a junction box P2 FAN 02E Power Cable/1.6.3.1.13 FAN02H Power Cable P3 BBU power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 249 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P4 Power cable for a power distribution box P5 Fan power cables in an IBBS200D P6 RRU power cable P7 DCDU-12C power cable P8 Power cable for a heating film P9 ODM power cable P10 Power cable between cascaded power distribution boxes 1 APM30H+1 TMC11H+2 IBBS300Ds The following figure shows the power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS300Ds. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 250 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-21 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS300Ds The following table describes the power cable connections. Table 1-145 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS300Ds No. Description P0 EPU05A-07/09 power cable P1 Power cable for a junction box P2 FAN 02E Power Cable/1.6.3.1.13 FAN02H Power Cable P3 BBU power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 251 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P4 Power cable for a power distribution box P5 Fan power cable in an IBBS300D P6 RRU power cable P7 DCDU-12C power cable P8 Power cable for a heating film P9 ODM power cable P10 and P11 Power cable between cascaded DC junction boxes in different IBBS300Ds 1 APM30H+1 TMC11H+2 BBC5200D-Ls The following figure shows the power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200D-Ls. Figure 1-22 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200D-Ls The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 252 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-146 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200D-Ls No. Description P0 EPU05A-07/09 power cable P1 Power cable for a junction box P2 FAN 02E power cable/1.6.3.1.13 FAN02H Power Cable P3 BBU power cable P4 Power cable for a power distribution box P5 1.6.3.9 BBC5200D Fan/BBC5200D-L Fan/BBC5200T TEC/BBC5200T-L Air Conditioner Power Cable P6 RRU power cable P7 DCDU-12C power cable P8 1.6.3.7 HAU03A-02 Power Cable P9 ODM power cable P10 Power cable between cascaded power distribution boxes P11 -48 V cascading power cable P12 CMUH power cable P13 Lithium battery power cable P14 Lithium battery activation cable P15 1.6.1.4.2 PMU 15A Power Cable 1 APM30H+1 TMC11H+2 BBC5200T-Ls The following figure shows the power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200T-Ls. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 253 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-23 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200T-Ls The following table describes the power cable connections. Table 1-147 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200T-Ls No. Description P0 EPU05A-07/09 power cable P1 1.6.1.4.2 PMU 15A Power Cable P2 FAN 02E power cable/1.6.3.1.13 FAN02H Power Cable P3 BBU power cable P4 Power cable for a power distribution box P5 1.6.3.9 BBC5200D Fan/BBC5200D-L Fan/BBC5200T TEC/BBC5200T-L Air Conditioner Power Cable P6 RRU power cable P7 DCDU-12C power cable P8 CMUH power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 254 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P9 ODM power cable P10 Power cable between cascaded power distribution boxes P11 -48 V cascading power cable P12 Air conditioner power cable P13 Lithium battery power cable P14 Lithium battery activation cable 1.3.1.4.4 Power Cable Connections in a DBS5900 Using the TMC11H (Ver.E) This section describes the power cable connections in a DBS5900 using the TMC11H (Ver.E). The following figure shows the power cable connections in a base station configured with one or two TMC11Hs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 255 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-24 Power cables in a base station configured with one or two TMC11Hs The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 256 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-148 Power cable connections in a base station configured with one or two TMC11Hs No. Description P1 DCDU-12B power cable P2 BBU power cable P3 FAN 02E power cable/1.6.3.1.13 FAN02H Power Cable P4 RRU power cable P5 ODM power cable 1.3.1.4.5 Power Cable Connections in a DBS5900 Using the IBC10 (Ver.B) This section describes the power cable connections in an IBC10 (Ver.B) used by the DBS5900. Power Cable Connections in a DC IBC10 The following figure shows the power cable connections in an IBC10 (Ver.B) when -48 V DC power is supplied. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 257 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-25 Power cable connections in a DC IBC10 (Ver.B) The following table describes the power cables for a DC IBC10 (Ver.B). Table 1-149 Power cable connections in a DC IBC10 (Ver.B) No. Description P0 DCDU-12C power cable P1 to P20 BBU5900 power cable P21 to P24, P27, and P28 USU3910 power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 258 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P25 and P26 FAU03D-03 power cable 1.3.1.4.6 Power Cable Connections in a DBS5900 Using the IMB05 This section describes the power cable connections in an IMB05 used by the DBS5900. Power Cable Connections in a 220 V AC Scenario This following figure shows the power cable connections when an AC IMB05 is used. Figure 1-26 Power cable connections in an AC IMB05 The following table describes the power cable connections. Table 1-150 Power cable connections in an AC IMB05 No. Description P1 ETP48100-B1 power cable P2 RRU power cable P3 BBU power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 259 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Power Cable Connections in a -48 V DC Scenario This following figure shows the power cable connections when a DC IMB05 is used. Figure 1-27 Power cable connections in a DC IMB05 The following table describes the power cable connections. Table 1-151 Power cable connections in a DC IMB05 No. Description P0 EPU02D-02 power cable P1 DCDU-12B power cable P2 BBU power cable P3 to P14 RRU power cable 1.3.1.4.7 Power Cable Connections in a DBS5900 Using the ILC29 (Ver.E) This section describes the power cable connections in an ILC29 (Ver.E) used by the DBS5900. This following figure shows the power cable connections in an ILC29 (Ver.E) used by the DBS5900. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 260 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-28 ILC29 (Ver.E) power cable connections The following table describes the power cable connections. Table 1-152 ILC29 (Ver.E) power cable connections No. Description P1 DCDU-12B power cable P2 EPU02D-02 power cable P3 FAU02D-15 power cable P4 BBU power cable P5 RRU power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 261 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.1.5 DBS5900 Power Cable Connections (BBU5900A) This section describes power cable connections in a DBS5900 using a BBU5900A. Power Cable Connections in a 110 V AC or 220 V AC Scenario The following figure shows the power cable connections in a base station that is supplied with AC power and configured with 1 OPM200+1 BBU5900A+6 RRUs. Figure 1-29 Power cable connections in an AC scenario where 1 OPM200+1 BBU5900A+6 RRUs are configured The following table describes the power cable connections. Table 1-153 Power cable connections in a scenario where 1 OPM200+1 BBU5900A +6 RRUs are configured No. Description P1 1.6.4.2 BBU Power Cable P2 1.6.4.4 RRU Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 262 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Power Cable Connections in a -48 V DC Scenario The following figure shows the power cable connections in a base station that is supplied with DC power and configured with 1 BBU5900A+6 RRUs. Figure 1-30 Power cable connections in a DC scenario where 1 BBU5900A+6 RRUs are configured The following table describes the power cable connections. Table 1-154 Power cable connections in a scenario where 1 BBU5900A+6 RRUs are configured No. Description P1 1.6.4.2 BBU Power Cable P2 1.6.4.4 RRU Power Cable 1.3.1.6 BTS3900 Power Cable Connections This section describes power cable connections for the BTS3900 when it is configured with different types of cabinets. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 263 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.1.6.1 BTS3900 (Ver.B) Power Cable Connections This section describes the power cable connections in a BTS3900 cabinet supplied with 110 V AC or 220 V AC, -48 V DC, and +24 V DC power. Power Cable Connections in 110 V AC or 220 V AC Scenarios The power supply to the BTS3900 cabinet (AC) can be 110 V AC three-phase, 220 V AC three-phase, and 220 V AC single-phase power. This section uses a cabinet powered by 220 V AC three-phase power as an example. The following figure shows the power cable connections in a BTS3900 AC cabinet (110 V/220 V). Figure 1-31 Power cable connections in a BTS3900 AC cabinet The following table describes the power cable connections in a BTS3900 AC cabinet. Table 1-155 Power cable connections in a BTS3900 AC cabinet No. Description P1 to P6 For details, see 1.6.4.3 RFU Power Cable. P7 For details, see 1.6.3.1.1 FAN Power Cable. P8 For details, see 1.6.4.2 BBU Power Cable. P11 and P12 For details, see 1.6.1.1.1 DCDU-01 Power Cable. P13 For details, see 1.6.1.2.15 EPS4890 Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 264 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections in a BTS3900 DC cabinet (-48 V). Figure 1-32 Power cable connections in a BTS3900 DC cabinet (-48 V) The following table describes the power cable connections in a BTS3900 DC cabinet (-48 V). Table 1-156 Power cable connections in a BTS3900 DC cabinet (-48 V) No. Description P1 to P6 For details, see 1.6.4.3 RFU Power Cable. P7 For details, see 1.6.3.1.1 FAN Power Cable. P8 For details, see 1.6.4.2 BBU Power Cable. P11 and P12 For details, see 1.6.1.1.1 DCDU-01 Power Cable. Power Cable Connections in a +24 V DC Input Scenario The following figure shows the power cable connections in a BTS3900 DC cabinet (+24 V). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 265 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-33 Power cable connections in a BTS3900 DC cabinet (+24 V) The following table describes the power cables in a BTS3900 DC cabinet (+24 V). Table 1-157 Power cable connections in a BTS3900 DC cabinet (+24 V) No. Description P1 to P6 For details, see 1.6.4.3 RFU Power Cable. P7 For details, see 1.6.3.1.1 FAN Power Cable. P8 For details, see 1.6.4.2 BBU Power Cable. P11 and P12 For details, see 1.6.1.1.1 DCDU-01 Power Cable. P25 to P28 For details, see 1.6.1.2.16 EPS24S48100DC Power Cable. Power Cable Connections Between a BTS3900 Cabinet and a PS4890 The following figure shows the power cable connections in a scenario where a BTS3900 cabinet is stacked on a PS4890. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 266 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-34 Power cable connections in a scenario where a BTS3900 cabinet is stacked on a PS4890 The following figure shows the power cable connections in a scenario where a BTS3900 cabinet and a PS4890 are installed side by side. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 267 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-35 Power cable connections in a scenario where a BTS3900 cabinet and a PS4890 are installed side by side The following table describes the power cables between a BTS3900 cabinet and a PS4890. Table 1-158 Power cable connections between a BTS3900 cabinet and a PS4890 No. Description P1 and P2 For details, see 1.6.1.1.1 DCDU-01 Power Cable. 1.3.1.6.2 BTS3900 (Ver.C) Power Cable Connections This section describes the BTS3900 power cable connections in 110 V AC, 220 V AC, and -48 V DC input scenarios. Power Cable Connections in a 110 V AC or 220 V AC Scenario The power supply to the BTS3900 cabinet (AC) can be 220 V AC three-phase, 220 V AC single-phase, and 110 V dual-live-wire power. This section uses a cabinet powered by 220 V AC three-phase power as an example. The following figure shows the power cable connections in a BTS3900 AC cabinet. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 268 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-36 Power cable connections in a BTS3900 AC cabinet The following table describes the power cable connections in a BTS3900 AC cabinet. Table 1-159 Power cable connections in a BTS3900 AC cabinet No. Description P1 to P6 For details, see 1.6.4.3 RFU Power Cable. P7 For details, see 1.6.3.1.9 FAN 03B Power Cable. P8 and P9 For details, see 1.6.4.2 BBU Power Cable. P10 and P11 For details, see 1.6.1.1.4 DCDU-11A Power Cable. P12 and P13 For details, see 1.6.1.2.18 ETP48150-A3 Power Cable. Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections in a BTS3900 DC cabinet (-48 V). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 269 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-37 Power cable connections in a BTS3900 DC cabinet (-48 V) The following table describes the power cable connections in a BTS3900 DC cabinet (-48 V). Table 1-160 Power cable connections in a BTS3900 DC cabinet (-48 V) No. Description P1 to P6 For details, see 1.6.4.3 RFU Power Cable. P7 For details, see 1.6.3.1.9 FAN 03B Power Cable. P8 and P9 For details, see 1.6.4.2 BBU Power Cable. P10 and P11 For details, see 1.6.1.1.4 DCDU-11A Power Cable. 1.3.1.6.3 BTS3900 (Ver.D) Power Cable Connections This section describes the power cable connections in a BTS3900 cabinet supplied with 220 V AC and -48 V DC power. Power Cable Connections in a 220 V AC Scenario The following figure shows the power cable connections in a BTS3900 configured with one BTS3900 AC cabinet and supplied with 220 V AC power. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 270 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-38 Power cable connections in a BTS3900 configured with one BTS3900 AC cabinet The following table describes the power cable connections in a BTS3900 configured with one BTS3900 AC cabinet. Table 1-161 Power cable connections in a BTS3900 configured with one BTS3900 AC cabinet No. Description P1 For details, see EPU05A-02 or EPU05A-04 Power Cable. P2 to P7 For details, see 1.6.4.3 RFU Power Cable. P8 For details, see 1.6.3.1.10 FAN 03C Power Cable. P9 and P10 For details, see 1.6.4.2 BBU Power Cable. P11 For details, see DCDU-12A Power Cable. P12 For details, see DCDU-12B Power Cable. P13 to P21 For details, see RRU Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 271 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following figure shows the power cable connections in a BTS3900 configured with one BTS3900 AC cabinet and one IMS06 (for power backup) and supplied with 220 V AC power. Figure 1-39 Power cable connections in a BTS3900 configured with 1 BTS3900 AC cabinet+1 IMS06 (for power backup) The following table describes the power cable connections in a BTS3900 configured with one BTS3900 AC cabinet and one IMS06 (for power backup). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 272 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-162 Power cable connections in a BTS3900 configured with 1 BTS3900 AC cabinet+1 IMS06 (for power backup) No. Description P1 For details, see EPU05A-02 or EPU05A-04 Power Cable. P2 to P7 For details, see 1.6.4.3 RFU Power Cable. P8 For details, see 1.6.3.1.10 FAN 03C Power Cable. P9 and P10 For details, see 1.6.4.2 BBU Power Cable. P11 For details, see DCDU-12A Power Cable. P12 For details, see DCDU-12B Power Cable. P13 to P21 For details, see RRU Power Cable. P22 to P24 For details, see Storage Battery Power Cable. The following figure shows the power cable connections in a BTS3900 configured with one BTS3900 AC cabinet and one IMS06 (for transmission) and supplied with 220 V AC power. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 273 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-40 Power cable connections in a BTS3900 configured with 1 BTS3900 AC cabinet+1 IMS06 (for transmission) The following table describes the power cable connections in a BTS3900 configured with one BTS3900 AC cabinet and one IMS06 (for transmission). Table 1-163 Power cable connections in a BTS3900 configured with 1 BTS3900 AC cabinet+1 IMS06 (for transmission) No. Description P1 For details, see EPU05A-02 or EPU05A-04 Power Cable. P2 to P7 For details, see 1.6.4.3 RFU Power Cable. P8 For details, see 1.6.3.1.10 FAN 03C Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 274 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P9 and P10 For details, see 1.6.4.2 BBU Power Cable. P11 For details, see DCDU-12A Power Cable. P12 For details, see DCDU-12B Power Cable. P13 to P21 For details, see RRU Power Cable. Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections in a BTS3900 configured with one BTS3900 DC cabinet and supplied with -48 V DC power. Figure 1-41 Power cable connections in a BTS3900 configured with one BTS3900 DC cabinet The following table describes the power cable connections in a BTS3900 configured with one BTS3900 DC cabinet and supplied with -48 V DC power. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 275 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-164 Power cable connections in a BTS3900 configured with one BTS3900 DC cabinet No. Description P1 to P6 For details, see 1.6.4.3 RFU Power Cable. P7 For details, see 1.6.3.1.10 FAN 03C Power Cable. P8 and P9 For details, see 1.6.4.2 BBU Power Cable. P10 and P11 For details, see 1.6.1.1.7 DCDU-12A Power Cable. P12 and P13 For details, see DCDU-12B Power Cable. P14 to P22 For details, see RRU Power Cable. 1.3.1.7 BTS3900L Power Cable Connections This section describes power cable connections for the BTS3900L when it is configured with BTS3900L (Ver.C), BTS3900L (Ver.B), and BTS3900L (Ver.D) cabinets. 1.3.1.7.1 BTS3900L (Ver.B) Power Cable Connections This section describes power cable connections for a BTS3900L cabinet. The BTS3900L can work only in -48 V DC power supply scenario. The following figure shows the power cable connections in a fully configured BTS3900L. Figure 1-42 BTS3900L power cable connections Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 276 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cables. Table 1-165 Power cables No. Description P1 to P4 For details, see 1.6.1.1.1 DCDU-01 Power Cable. P5 to P10 For details, see 1.6.4.3 RFU Power Cable. P11 For details, see 1.6.3.1.1 FAN Power Cable. P12 For details, see 1.6.4.2 BBU Power Cable. P13 and P14 For details, see 1.6.4.9 GATM Power Cable. 1.3.1.7.2 BTS3900L (Ver.C) Power Cable Connections This section describes power cable connections for a BTS3900L cabinet. The BTS3900L can work only in -48 V DC power supply scenario. The following figure shows the power cable connections in a fully configured BTS3900L. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 277 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-43 BTS3900L power cable connections The following table describes the power cables. Table 1-166 Power cables No. Description P0 to P5, P10 to P15 For details, see 1.6.4.3 RFU Power Cable. P6 to P16 For details, see 1.6.3.1.9 FAN 03B Power Cable. P7 and P8 For details, see 1.6.4.2 BBU Power Cable. P9 For details, see 1.6.4.9 GATM Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 278 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P17 to P20 For details, see 1.6.1.1.4 DCDU-11A Power Cable. 1.3.1.7.3 BTS3900L (Ver.D) Power Cable Connections This section describes power cable connections for a BTS3900L cabinet. Power Cable Connections in a 220 V AC Scenario The following figure shows the power cable connections in the 220 V AC scenario, using the BTS3900L cabinet in full configuration as an example. Figure 1-44 Power cable connections in a 220 V AC scenario Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 279 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cable connections. Table 1-167 Power cable connections No. Description P0 to P5, P10 to P15 For details, see 1.6.4.3 RFU Power Cable. P6 and P16 For details, see 1.6.3.1.10 FAN 03C Power Cable. P7 and P8 For details, see 1.6.4.2 BBU Power Cable. P9 For details, see EPU05A-02 Power Cable. P17 For details, see 1.6.4.9 GATM Power Cable. P18 to P21 For details, see 1.6.1.1.7 DCDU-12A Power Cable. Power Cable Connections in a -48 V DC Scenario The following figure shows the power cable connections in the -48 V DC scenario, using the BTS3900L cabinet in full configuration as an example. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 280 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-45 Power cable connections in a -48 V DC scenario The following table describes the power cable connections. Table 1-168 Power cable connections No. Description P0 to P5, P10 to P15 For details, see 1.6.4.3 RFU Power Cable. P6 and P16 For details, see 1.6.3.1.10 FAN 03C Power Cable. P7 and P8 For details, see 1.6.4.2 BBU Power Cable. P9 For details, see 1.6.4.9 GATM Power Cable. P17 to P20 For details, see 1.6.1.1.7 DCDU-12A Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 281 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE When the BTS3900L cabinet is configured with RFUs and RRUs, the BBU is installed below the lower DCDU-12A, the DCDU-12B is installed below the BBU, and LOAD0 to LOAD8 ports on the DCDU-12B supply power to nine RRUs. 1.3.1.8 BTS3900A Power Cable Connections This section describes power cable connections for BTS3900A (Ver.C), BTS3900A (Ver.B), BTS3900A (Ver.D), BTS3900A (Ver.E), and reused cabinets. 1.3.1.8.1 BTS3900A (Ver.B) Power Cable Connections This section describes the BTS3900A power cable connections in 110 V AC, 220 V AC, and -48 V DC input scenarios. Power Cable Connections in a 110 V AC or 220 V AC Scenario The following figure shows the power cable connections for a single- or dualmode BTS3900A configured with 1 RFC+1 APM30H+1 IBBS200D+1 TMC11H. Figure 1-46 Power cable connections for a single- or dual-mode BTS3900A configured with 1 RFC+1 APM30H+1 IBBS200D+1 TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 282 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cables. Table 1-169 Power cable connections for a single- or dual-mode BTS3900A configured with 1 RFC+1 APM30H+1 IBBS200D+1 TMC11H No. Description P0 For details, see 1.6.1.2.1 EPS 01A or EPS 01C Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.1.1 DCDU-01 Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.6 FAN 02A Power Cable. P10 For details, see 1.6.3.1.2 FAN 01A Power Cable. P11 For details, see 1.6.1.4.3 Power Cable for a Power Distribution Box. P15 to P17 For details, see 1.6.1.4.13 Storage Battery Power Cable. P12 and P14 For details, see 1.6.3.8 Fan Power Cables in an IBBS200D. P13 For details, see 1.6.1.1.3 DCDU-03C Power Cable. P18 For details, see 1.6.3.1.6 FAN 02A Power Cable. The following figure shows the power cable connections for a single- or dualmode BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 283 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-47 Power cable connections for a single- or dual-mode BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds The following table describes the power cables. Table 1-170 Power cable connections for a single- or dual-mode BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds No. Description P0 For details, see 1.6.1.2.1 EPS 01A or EPS 01C Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.1.1 DCDU-01 Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.6 FAN 02A Power Cable. P10 For details, see 1.6.3.1.2 FAN 01A Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 284 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P11, P13 For details, see 1.6.1.4.3 Power Cable for a Power Distribution Box. P15 to P18 For details, see 1.6.1.4.13 Storage Battery Power Cable. P12 and P14 For details, see 1.6.3.8 Fan Power Cables in an IBBS200D. The following figure shows the power cable connections for a triple-mode BTS3900A configured with two BBUs and 2 RFCs+2 APM30Hs+2 IBBS200Ds. Figure 1-48 Power cable connections for a triple-mode BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds The following table describes the power cables. Table 1-171 Power cable connections for a triple-mode BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds No. Description P0 For details, see 1.6.1.2.1 EPS 01A or EPS 01C Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 285 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.1.1 DCDU-01 Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.6 FAN 02A Power Cable. P10 For details, see 1.6.3.1.2 FAN 01A Power Cable. P11, P13 For details, see 1.6.1.4.3 Power Cable for a Power Distribution Box. P15 to P18 For details, see 1.6.1.4.13 Storage Battery Power Cable. P12 and P14 For details, see 1.6.3.8 Fan Power Cables in an IBBS200D. Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections for a single- or dualmode BTS3900A configured with 1 RFC+1 TMC11H in a -48 V DC input scenario. NOTE When the BTS3900A is expanded to 2 RFCs+1 TMC11H, the power cable connections in the second RFC are the same as those in the first RFC. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 286 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-49 Power cable connections for a single- or dual-mode BTS3900A configured with 1 RFC+1 TMC11H The following table describes the power cables. Table 1-172 Power cable connections for a single- or dual-mode BTS3900A configured with 1 RFC+1 TMC11H No. Description P0 For details, see 1.6.1.1.1 DCDU-01 Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.1.3 DCDU-03C Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.6 FAN 02A Power Cable. P10 For details, see 1.6.3.1.2 FAN 01A Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 287 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following figure shows the power cable connections for a triple-mode BTS3900A configured with two BBUs 2 RFCs+2 TMC11Hs. Figure 1-50 Power cable connections for a triple-mode BTS3900A configured with 2 RFCs+2 TMC11Hs The following table describes the power cables. Table 1-173 Power cable connections for a triple-mode BTS3900A configured with 2 RFCs+2 TMC11Hs No. Description P0 For details, see 1.6.1.1.1 DCDU-01 Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.1.3 DCDU-03C Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.6 FAN 02A Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 288 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P10 For details, see 1.6.3.1.2 FAN 01A Power Cable. 1.3.1.8.2 BTS3900A (Ver.C) Power Cable Connections This section describes the BTS3900A power cable connections in 110 V AC, 220 V AC, and -48 V DC input scenarios. Power Cable Connections in 110 V AC or 220 V AC Scenarios The following figure shows the power cable connections in a BTS3900A configured with 1 RFC+1 APM30H+1 IBBS200D+1 TMC11H in 110 V AC or 220 V AC input scenarios. Figure 1-51 Power cable connections for a base station configured with 1 RFC+1 APM30H+1 IBBS200D+1 TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 289 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cable connections. Table 1-174 Power cable connections for a base station configured with 1 RFC+1 APM30H+1 IBBS200D+1 TMC11H No. Description P0 For details, see 1.6.1.2.3 EPU03A-02 or EPU03A-04 Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 and P19 For details, see 1.6.1.1.4 DCDU-11A Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.7 FAN 02B Power Cable. P10 For details, see 1.6.3.1.3 FAN 01B Power Cable. P11 For details, see 1.6.1.4.3 Power Cable for a Power Distribution Box. P15 to P17 For details, see 1.6.1.4.13 Storage Battery Power Cable. P12 and P14 For details, see 1.6.3.8 Fan Power Cables in an IBBS200D. P13 For details, see 1.6.1.1.6 DCDU-11C Power Cable. P18 For details, see 1.6.3.1.3 FAN 01B Power Cable. P20 For details, see 1.6.1.4.1 Power Cable for a Junction Box. The following figure shows the power cable connections for a BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 290 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-52 Power cable connections for a base station configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds The following table describes the power cable connections. Table 1-175 Power cable connections for a base station configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds No. Description P0 For details, see 1.6.1.2.3 EPU03A-02 or EPU03A-04 Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 and P19 For details, see 1.6.1.1.4 DCDU-11A Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.7 FAN 02B Power Cable. P10 For details, see 1.6.3.1.3 FAN 01B Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 291 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P11 and P13 For details, see 1.6.1.4.3 Power Cable for a Power Distribution Box. P12 and P14 For details, see 1.6.3.8 Fan Power Cables in an IBBS200D. P15 to P17 For details, see 1.6.1.4.13 Storage Battery Power Cable. P18 It is a power cable between the cascaded fans in a battery cabinet. P20 For details, see 1.6.1.4.1 Power Cable for a Junction Box. Power Cable Connections in a -48 V DC Scenario The following figure shows the power cable connections for a BTS3900A configured with 1 RFC+1 TMC11H in -48 V DC input scenarios. NOTE When the BTS3900A is expanded to 2 RFCs+1 TMC11H, the power cable connections in the second RFC are the same as those in the first RFC. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 292 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-53 Power cable connections for a base station configured with 1 RFC+1 TMC11H The following table describes the power cable connections. Table 1-176 Power cable connections for a base station configured with 1 RFC+1 TMC11H No. Description P0 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.1.6 DCDU-11C Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 293 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P9 For details, see 1.6.3.1.3 FAN 01B Power Cable. P10 For details, see 1.6.3.1.3 FAN 01B Power Cable. P11 For details, see 1.6.1.1.4 DCDU-11A Power Cable. 1.3.1.8.3 BTS3900A (Ver.D) Power Cable Connections This section describes the BTS3900A power cable connections in 110 V AC, 220 V AC, and -48 V DC input scenarios. Click the cable numbers in the following figures to view the connections on both ends of each cable. Power Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. The following figure shows the power cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H. NOTE The following figure shows the power cable connections for a base station with the preceding configurations when BBU 1 is installed in the APM30H. When BBU 1 is installed in the TMC11H, the power cable connections are the same. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 294 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-54 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H The following table describes the power cable connections. Table 1-177 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H No. Description P0 For details, see 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.8 FAN 02D Power Cable. P10 For details, see 1.6.3.1.4 FAN 01C Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 295 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P11 For details, see 1.6.1.4.3 Power Cable for a Power Distribution Box. P15 to P17 For details, see 1.6.1.4.13 Storage Battery Power Cable. P12 For details, see 1.6.3.8 Fan Power Cables in an IBBS200D. P13 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P14 For details, see 1.6.1.4.1 Power Cable for a Junction Box. P18 For details, see 1.6.3.8 Fan Power Cables in an IBBS200D. P19 For details, see 1.6.1.1.7 DCDU-12A Power Cable. P20 For details, see 1.6.1.4.13 Storage Battery Power Cable. The following figure shows the power cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H. NOTE The following figure shows the power cable connections for a base station with the preceding configurations when BBU 1 is installed in the APM30H. When BBU 1 is installed in the TMC11H, the power cable connections are the same. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 296 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-55 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H The following table describes the power cable connections. Table 1-178 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H No. Description P0 For details, see 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.8 FAN 02D Power Cable. P10 For details, see 1.6.3.1.4 FAN 01C Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 297 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P11, P15 For details, see 1.6.1.4.13 Storage Battery Power Cable. P12 For details, see 1.6.3.10 Fan Power Cables in an IBBS300D. P13 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P14 For details, see 1.6.1.4.1 Power Cable for a Junction Box. P16, P17 For details, see 1.6.1.4.6 Power Cables Between Cascaded DC Junction Boxes in Different IBBS300Ds/ IBBS300Ts/BBC5300Ds/BBC5300Ts. P18 For details, see 1.6.1.1.7 DCDU-12A Power Cable. The following figure shows the power cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+1 IBBS700D+1 TMC11H. NOTE The following figure shows the power cable connections for a base station with the preceding configurations when BBU 1 is installed in the APM30H. When BBU 1 is installed in the TMC11H, the power cable connections are the same. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 298 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-56 Power cable connections for a base station configured with 2 RFCs+1 APM30H+1 IBBS700D+1 TMC11H The following table describes the power cable connections. Table 1-179 Power cable connections in a base station configured with 2 RFCs+1 APM30H+1 IBBS700D+1 TMC11H No. Description P0 For details, see 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P1 For details, see 1.6.4.2 BBU Power Cable P2 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC P3 to P8 For details, see 1.6.4.3 RFU Power Cable P9 For details, see 1.6.3.1.8 FAN 02D Power Cable P10 For details, see 1.6.3.1.4 FAN 01C Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 299 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P11 For details, see 1.6.1.4.3 Power Cable for a Power Distribution Box. P15 to P17 For details, see 1.6.1.4.13 Storage Battery Power Cable P12 Power Cable for the Fan in the IBBS700D P13 For details, see 1.6.1.1.9 DCDU-12C Power Cable P14 For details, see 1.6.1.4.1 Power Cable for a Junction Box P18 For details, see 1.6.3.5 Power Cables for the Temperature Control System P19 For details, see 1.6.1.1.7 DCDU-12A Power Cable P20 For details, see 1.6.2.1 CMUEA Power Cable P21 For details, see 1.6.3.6 HAU01A-01 Power Cable The following figure shows the power cable connections for a BTS3900A configured with 1 RFC+1 APM30H+2 IBBS200Ds+1 TMC11H+9 RRUs. NOTE The following figure shows the power cable connections for a base station with the preceding configurations when BBU 1 is installed in the APM30H. When BBU 1 is installed in the TMC11H, the power cable connections are the same. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 300 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-57 Power cable connections for a base station configured with 1 RFC+1 APM30H+2 IBBS200Ds+1 TMC11H+9 RRUs The following table describes the power cable connections. Table 1-180 Power cable connections for a base station configured with 1 RFC+1 APM30H+2 IBBS200Ds+1 TMC11H+9 RRUs No. Description P0 For details, see 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.8 FAN 02D Power Cable. P10 For details, see 1.6.3.1.4 FAN 01C Power Cable. P11 For details, see 1.6.1.4.3 Power Cable for a Power Distribution Box. P15 to P17 For details, see 1.6.1.4.13 Storage Battery Power Cable. P12 For details, see 1.6.3.8 Fan Power Cables in an IBBS200D. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 301 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P13 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P14 For details, see 1.6.1.4.1 Power Cable for a Junction Box. P18 For details, see 1.6.1.1.7 DCDU-12A Power Cable. P19 For details, see 1.6.1.4.13 Storage Battery Power Cable. P20 For details, see 1.6.3.8 Fan Power Cables in an IBBS200D. P21 to P29 For details, see 1.6.4.4 RRU Power Cable. P30 For details, see 1.6.1.1.8 DCDU-12B Power Cable. Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections for a BTS3900A configured with 2 RFCs+1 TMC11H in a -48 V DC input scenario. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 302 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-58 Power cable connections for a base station configured with 2 RFCs+1 TMC11H The following table describes the power cable connections. Table 1-181 Power cable connections for a base station configured with 2 RFCs+1 TMC11H No. Description P0 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.8 FAN 02D Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 303 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P10 For details, see 1.6.3.1.4 FAN 01C Power Cable. P11 For details, see 1.6.1.1.7 DCDU-12A Power Cable. The following figure shows the power cable connections for a BTS3900A configured with 1 RFC+1 TMC11H+9 RRUs in a -48 V DC input scenario. Figure 1-59 Power cable connections for a base station configured with 1 RFC+1 TMC11H+9 RRUs The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 304 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-182 Power cable connections in a base station configured with 1 RFC+1 TMC11H+9 RRUs No. Description P0 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.8 FAN 02D Power Cable. P10 For details, see 1.6.3.1.4 FAN 01C Power Cable. P11 For details, see 1.6.1.1.7 DCDU-12A Power Cable. P12 to P20 For details, see 1.6.4.4 RRU Power Cable. P21 For details, see 1.6.1.1.8 DCDU-12B Power Cable. 1.3.1.8.4 BTS3900A (Ver.E) Power Cable Connections This section describes the BTS3900A power cable connections in 110 V AC, 220 V AC, and -48 V DC input scenarios. Click the cable numbers in the following figures to view the connections on both ends of each cable. Power Cable Connections in a 110 V AC or 220 V AC Scenario NOTE ● This section describes the power cable connections in a scenario where BBU 1 is installed in an APM30H. When BBU 1 is installed in the TMC11H, the power cable connections are the same. ● If a device is not configured at a site, you can ignore the related power cable connections in the figures. ● The power cable connections of an IBBS200D are the same as those of an IBBS200T. This section uses the IBBS200D as an example. ● The power cable connections of an IBBS300D are the same as those of an IBBS300T. This section uses an IBBS300D as an example. 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H The following figure shows the power cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 305 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-60 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H The following table describes the power cable connections. Table 1-183 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H No. Description P0 For details, see 1.6.1.2.7 EPU05A-06 or EPU05A-08 Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.11 FAN 02E Power Cable/1.6.3.1.13 FAN02H Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 306 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P10 For details, see 1.6.3.1.5 FAN 01D Power Cable. P11 For details, see 1.6.1.4.3 Power Cable for a Power Distribution Box. P15 to P17 For details, see 1.6.1.4.13 Storage Battery Power Cable. P12 For details, see 1.6.3.8 Fan Power Cables in an IBBS200D. P13 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P14 For details, see 1.6.1.4.1 Power Cable for a Junction Box. P18 For details, see 1.6.1.1.7 DCDU-12A Power Cable. P19 For details, see Power Cable Between Cascaded Power Distribution Boxes. 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H The following figure shows the power cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 307 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-61 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H The following table describes the power cable connections. Table 1-184 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H No. Description P0 For details, see 1.6.1.2.7 EPU05A-06 or EPU05A-08 Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.11 FAN 02E Power Cable/1.6.3.1.13 FAN02H Power Cable. P10 For details, see 1.6.3.1.5 FAN 01D Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 308 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P11 and P15 For details, see 1.6.1.4.13 Storage Battery Power Cable. P12 For details, see 1.6.3.10 Fan Power Cables in an IBBS300D. P13 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P14 For details, see 1.6.1.4.1 Power Cable for a Junction Box. P16, P17 For details, see 1.6.1.4.6 Power Cables Between Cascaded DC Junction Boxes in Different IBBS300Ds/ IBBS300Ts/BBC5300Ds/BBC5300Ts. P18 For details, see 1.6.1.1.7 DCDU-12A Power Cable. 1 RFC+1 APM30H+2 IBBS200Ds+1 TMC11H+15 RRUs The following figure shows the power cable connections for a BTS3900A configured with 1 RFC+1 APM30H+2 IBBS200Ds+1 TMC11H+15 RRUs. Figure 1-62 Power cable connections for a base station configured with 1 RFC+1 APM30H+2 IBBS200Ds+1 TMC11H+15 RRUs Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 309 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cable connections. Table 1-185 Power cable connections for a base station configured with 1 RFC+1 APM30H+2 IBBS200Ds+1 TMC11H+15 RRUs No. Description P0 For details, see 1.6.1.2.7 EPU05A-06 or EPU05A-08 Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.11 FAN 02E Power Cable/1.6.3.1.13 FAN02H Power Cable. P10 For details, see 1.6.3.1.5 FAN 01D Power Cable. P11 For details, see 1.6.1.4.3 Power Cable for a Power Distribution Box. P15 to P17 For details, see 1.6.1.4.13 Storage Battery Power Cable. P12 For details, see 1.6.3.8 Fan Power Cables in an IBBS200D. P13 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P14 For details, see 1.6.1.4.1 Power Cable for a Junction Box. P18 For details, see 1.6.1.1.7 DCDU-12A Power Cable. P19 For details, see 1.6.4.4 RRU Power Cable. P20 For details, see 1.6.4.10 ODM06D Power Cable. P21 For details, see Power Cable Between Cascaded Power Distribution Boxes. 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H+9 RRUs The following figure shows the power cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H+9 RRUs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 310 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-63 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H+9 RRUs The following table describes the power cable connections. Table 1-186 Power cable connections for a base station configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H+9 RRUs No. Description P0 For details, see 1.6.1.2.7 EPU05A-06 or EPU05A-08 Power Cable. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see 1.6.3.1.11 FAN 02E Power Cable/1.6.3.1.13 FAN02H Power Cable. P10 For details, see 1.6.3.1.5 FAN 01D Power Cable. P11 For details, see 1.6.1.4.3 Power Cable for a Power Distribution Box. P15 to P17 For details, see 1.6.1.4.13 Storage Battery Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 311 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P12 For details, see 1.6.3.8 Fan Power Cables in an IBBS200D. P13 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P14 For details, see 1.6.1.4.1 Power Cable for a Junction Box. P18 For details, see 1.6.1.1.7 DCDU-12A Power Cable. P19 For details, see 1.6.4.4 RRU Power Cable. P20 For details, see Power Cable Between Cascaded Power Distribution Boxes. Power Cable Connections in a -48 V DC Input Scenario 2 RFCs+1 TMC11H The following figure shows the power cable connections for a BTS3900A configured with 2 RFCs+1 TMC11H in a -48 V DC input scenario. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 312 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-64 Power cable connections for a base station configured with 2 RFCs+1 TMC11H The following table describes the power cable connections. Table 1-187 Power cable connections for a base station configured with 2 RFCs+1 TMC11H No. Description P0 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see FAN 02E Power Cable/ 1.6.3.1.13 FAN02H Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 313 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P10 For details, see FAN 01D Power Cable. P11 For details, see 1.6.1.1.7 DCDU-12A Power Cable. The following figure shows the power cable connections for a BTS3900A configured with 1 RFC+1 TMC11H+15 RRUs in a -48 V DC input scenario. Figure 1-65 Power cable connections for a base station configured with 1 RFC+1 TMC11H+15 RRUs The following table describes the power cable connections. Table 1-188 Power cable connections for a base station configured with 1 RFC+1 TMC11H+15 RRUs No. Description P0 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 314 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see FAN 02E Power Cable/ 1.6.3.1.13 FAN02H Power Cable. P10 For details, see FAN 01D Power Cable. P11 For details, see 1.6.1.1.7 DCDU-12A Power Cable. P12 For details, see 1.6.4.4 RRU Power Cable. P13 For details, see 1.6.1.1.8 DCDU-12B Power Cable. The following figure shows the power cable connections for a BTS3900A configured with 2 RFCs+1 TMC11H+9 RRUs in a -48 V DC input scenario. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 315 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-66 Power cable connections for a base station configured with 2 RFCs+1 TMC11H+9 RRUs The following table describes the power cable connections. Table 1-189 Power cable connections for a base station configured with 2 RFCs+1 TMC11H+9 RRUs No. Description P0 For details, see 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC. P1 For details, see 1.6.4.2 BBU Power Cable. P2 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P3 to P8 For details, see 1.6.4.3 RFU Power Cable. P9 For details, see FAN 02E Power Cable/ 1.6.3.1.13 FAN02H Power Cable. P10 For details, see FAN 01D Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 316 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P11 For details, see 1.6.1.1.7 DCDU-12A Power Cable. P12 For details, see 1.6.4.4 RRU Power Cable. P13 For details, see 1.6.1.1.8 DCDU-12B Power Cable. 1.3.1.8.5 BTS3900A (Ver.D_A2) Power Cable Connections This section describes the power cable connections in a BTS3900A supplied with 110 V AC, 220 V AC, and -48 V DC power to facilitate power cable installation and maintenance. Power Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. When a BTS3900A is supplied with 110 V AC or 220 V AC power, 1 APM30H+1 TMC11H+1 IBBS200T+2 RFCs are configured. The following figure shows the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 317 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-67 Power cable connections in a base station configured with 1 APM30H +1 TMC11H+1 IBBS200T+2 RFCs The following table describes the power cable connections. Table 1-190 Power cable connections in a base station configured with 1 APM30H +1 TMC11H+1 IBBS200T+2 RFCs No. Description P0 Input power cable for the transfer terminal P1 Input power cable for the APM30H P2 and P9 CMUEA power cable P3 and P16 to P18 Power cable for the storage battery cabinet P4 Input power cable for the RFC P5 BBU power cable P6 EMUA or EMUB power cable P7 Input power cable for the TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 318 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P8 Power cable between cascaded DCDU-13As P10 to P15 RFU power cable Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections in a BTS3900A configured with 1 TMC11H+2 RFCs in a -48 V DC input scenario. Figure 1-68 Power cable connections in a base station configured with 1 TMC11H +2 RFCs The following table describes the power cable connections. Table 1-191 Power cable connections in a base station configured with 1 TMC11H +2 RFCs No. Description P0 Input power cable for the TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 319 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P1 and P5 CMUEA power cable P2 BBU power cable P3 EMUA or EMUB power cable P4 Input power cable for the RFC P6 to P11 RFU power cable 1.3.1.8.6 BTS3900A (Ver.D_A1) Power Cable Connections This section describes the power cable connections in a BTS3900A supplied with 110 V AC, 220 V AC, and -48 V DC power to facilitate power cable installation and maintenance. Power Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. When a BTS3900A is supplied with 110 V AC or 220 V AC power, 1 APM30+1 TMC +1 BBC+2 RFCs are configured. The following figure shows the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 320 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-69 Power cable connections in a base station configured with 1 APM30+1 TMC+1 BBC+2 RFCs The following table describes the power cable connections. Table 1-192 Power cable connections in a base station configured with 1 APM30+1 TMC+1 BBC+2 RFCs No. Description P1 Input power cables for the APM30 P2 and P9 CMUEA power cable P3 and P16 to P18 Power cable for the storage battery cabinet P4 Input power cable for the RFC P5 BBU power cable P6 EMUA or EMUB power cable P7 Input power cable for the TMC P8 Power cable between cascaded DCDU-13As P10 to P15 RFU power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 321 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections in a BTS3900A configured with 1 TMC+2 RFCs in a -48 V DC input scenario. Figure 1-70 Power cable connections in a base station configured with 1 TMC+2 RFCs The following table describes the power cable connections. Table 1-193 Power cable connections in a base station configured with 1 TMC+2 RFCs No. Description P0 Input power cable for the TMC P1 and P5 CMUEA power cable P2 BBU power cable P3 EMUA or EMUB power cable P4 Input power cable for the RFC P6 to P11 RFU power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 322 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.1.8.7 BTS3900A (Ver.E_A2) Power Cable Connections This section describes the power cable connections in a BTS3900A (Ver.E_A2) that is supplied with 110 V AC, 220 V AC, or -48 V DC power to facilitate power cable installation and maintenance. Power Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. When being supplied with 110 V AC or 220 V AC power, a BTS3900A can be optionally configured with 1 APM30H+1 TMC11H+1 IBBS200T+2 RFCs. The power cable connections in this scenario are shown in the following figure. Figure 1-71 Power cable connections in a base station configured with 1 APM30H +1 TMC11H+1 IBBS200T+2 RFCs The following table lists the power cable connections in a base station configured with 1 APM30H+1 TMC11H+1 IBBS200T+2 RFCs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 323 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-194 Power cable connections in a base station configured with 1 APM30H +1 TMC11H+1 IBBS200T+2 RFCs No. Description P1 Input power cable for the APM30H P2 Power cable for the fan assembly in the APM30H P3 and P17 BBU power cable P4 Input power cable for the TMC11H P5 Power cable for the IBBS200T P6 TEC power cable in the IBBS200T P7 Input power cable for the RFC P8 EMUA or EMUB power cable P9 to P14 RFU power cable P15 Power cable between cascaded DCDU-13As P16 Power cable for the fan assembly in the TMC11H P19 and P20 Power cable for storage batteries P21 Power transfer cable for the TEC in the front door Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections in a BTS3900A configured with 1 TMC11H+2 RFCs in a -48 V DC input scenario. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 324 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-72 Power cable connections in a base station configured with 1 TMC11H +2 RFCs The following table lists the power cable connections in a base station configured with 1 TMC11H+2 RFCs. Table 1-195 Power cable connections in a base station configured with 1 TMC11H +2 RFCs No. Description P1 Input power cable for the TMC11H P2 RFC power cable P3 Power cable for the fan assembly in the TMC11H P4 EMUA or EMUB power cable P5 BBU power cable P6 to P11 RFU power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 325 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.1.8.8 BTS3900A (Ver.E_A1) Power Cable Connections This section describes the power cable connections in a BTS3900A (Ver.E_A1) that is supplied with 110 V AC, 220 V AC, or -48 V DC power to facilitate power cable installation and maintenance. Power Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. When being supplied with 110 V AC or 220 V AC power, a BTS3900A can be optionally configured with 1 APM30+1 TMC+1 BBC+2 RFCs. The power cable connections in this scenario are shown in the following figure. Figure 1-73 Power cable connections in a base station configured with 1 APM30+1 TMC+1 BBC+2 RFCs The following figure shows the power cable connections in a base station configured with 1 APM30+1 TMC+1 BBC+2 RFCs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 326 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-196 Power cable connections in a base station configured with 1 APM30+1 TMC+1 BBC+2 RFCs No. Description P1 Input power cable for the APM30 P2 Power cable with an 8-pin transfer terminal P3 Power cable for an AC heater P4 EMUA or EMUB power cable P5 Input power cable for the TMC P6 and P23 BBU power cable P7 and P22 CMUH power cable P8 Power cable for the storage battery cabinet P9 Input power cable for the RFC P10 Power cable between cascaded DCDU-13As P11 to P16 RFU power cable P17 to P20 Power cable for storage batteries P21 Power cable for the heating film of storage batteries Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections in a BTS3900A configured with 1 TMC+2 RFCs in a -48 V DC input scenario. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 327 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-74 Power cable connections in a base station configured with 1 TMC+2 RFCs The following table lists the power cable connections in a base station configured with 1 TMC+2 RFCs. Table 1-197 Power cable connections in a base station configured with 1 TMC+2 RFCs No. Description P1 Input power cable for the TMC P2 Input power cable for the RFC P3 CMUH power cable P4 BBU power cable P5 EMUA or EMUB power cable P6 to P11 RFU power cable 1.3.1.9 BTS3900AL Power Cable Connections This section describes power cable connections for a BTS3900AL cabinet. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 328 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.1.9.1 BTS3900AL (Ver.A) Power Cable Connections This section describes the power cable connections in a BTS3900AL supplied with -48 V DC power and 110 V AC or 220 V AC power. The following figure shows the power cable connections for a BTS3900AL configured with one BTS3900AL DC cabinet and supplied with -48 V DC power. Figure 1-75 Power cable connections (1) The following table describes the power cable connections. Table 1-198 Power cable connections (1) No. Description P0 For details, see 1.6.2.2 CMUF Power Cable. P1 to P4 For details, see 1.6.4.2 BBU Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 329 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P5 For details, see 1.6.2.4 CCU Power Cable. P6 and P7 For details, see 1.6.3.6 HAU01A-01 Power Cable. P8 and P9 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P10 For details, see 1.6.1.4.5 Power Cable for the DC Junction Box in a BTS3900AL. P11, P12, and P13(1) For details, see 1.6.1.3.3 PDU03D-01 Power Cable. P14 to P22 For details, see 1.6.4.3 RFU Power Cable. P23 For details, see 1.6.3.1.16 FAU03D-01 Power Cable. NOTE (1) If a base station is configured with RFUs but without RRUs, two input power cables are used in the BTS3900AL DC cabinet. If a base station is configured with RFUs and RRUs, three input power cables are used in the BTS3900AL DC cabinet. The following figure shows the power cable connections for a BTS3900AL site configured with 1 BTS3900AL AC+1 BTS3900AL DC+1 TMC11H (Ver.D) and supplied with 110 V AC or 220 V AC power. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 330 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-76 Power cable connections (2) The following table describes the power cable connections. Table 1-199 Power cable connections (2) No. Description P0 For details, see 1.6.1.3.2 PDU05A-01 Power Cable. P1 to P4 For details, see 1.6.4.2 BBU Power Cable. P5 For details, see 1.6.2.4 CCU Power Cable. P6 For details, see 1.6.2.2 CMUF Power Cable. P7, P16, and P17 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P8 For details, see 1.6.1.2.17 ETP48400 Power Cable. P9 and P11 For details, see 1.6.1.3.3 PDU03D-01 Power Cable. P10 For details, see 1.6.1.1.6 DCDU-11C Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 331 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P12 and P15 For details, see 1.6.1.4.1 Power Cable for a Junction Box. P13 and P14 For details, see 1.6.3.6 HAU01A-01 Power Cable. P18 to P26 For details, see 1.6.4.3 RFU Power Cable. P27 For details, see 1.6.3.1.16 FAU03D-01 Power Cable. P28 to P30 For details, see 1.6.1.4.13 Storage Battery Power Cable. P31 For details, see 1.6.1.4.5 Power Cable for the DC Junction Box in a BTS3900AL. The following figure shows the power cable connections for a BTS3900AL site configured with 1 BTS3900AL AC+1 BTS3900AL DC+1 IBBS700D and supplied with 110 V AC or 220 V AC power. When an IBBS700T instead of an IBBS700D is used, the power cable connections are the same. Figure 1-77 Power cable connections (3) The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 332 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-200 Power cable connections (3) No. Description P0 For details, see 1.6.1.3.2 PDU05A-01 Power Cable. P1 to P4 For details, see 1.6.4.2 BBU Power Cable. P5 For details, see 1.6.2.4 CCU Power Cable. P6 For details, see 1.6.2.2 CMUF Power Cable. P7, P9, and P10 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P8 For details, see 1.6.1.2.17 ETP48400 Power Cable. P35 and P11 For details, see 1.6.1.3.3 PDU03D-01 Power Cable. P12, P13, and P16 For details, see 1.6.1.4.1 Power Cable for a Junction Box. P14 and P15 For details, see 1.6.3.6 HAU01A-01 Power Cable. P17 to P25 For details, see 1.6.4.3 RFU Power Cable. P26 For details, see 1.6.3.1.16 FAU03D-01 Power Cable. P27 to P30 For details, see 1.6.1.4.3 Power Cable for a Power Distribution Box. P31 to P33 For details, see 1.6.1.4.13 Storage Battery Power Cable. P34 For details, see 1.6.3.5 Power Cables for the Temperature Control System. P36 For details, see 1.6.1.4.5 Power Cable for the DC Junction Box in a BTS3900AL. The following figure shows the power cable connections for a BTS3900AL site configured with 1 BTS3900AL AC+1 BTS3900AL DC+2 IBBS300Ds and supplied with 110 V AC or 220 V AC power. When an IBBS300T instead of an IBBS300D is used, the power cable connections are the same. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 333 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-78 Power cable connections (3) The following table describes the power cable connections. Table 1-201 Power cable connections (3) No. Description P0 For details, see 1.6.1.3.2 PDU05A-01 Power Cable. P1 to P4 For details, see 1.6.4.2 BBU Power Cable. P5 For details, see 1.6.2.4 CCU Power Cable. P6 For details, see 1.6.2.2 CMUF Power Cable. P7, P9, and P10 For details, see 1.6.1.1.9 DCDU-12C Power Cable. P8 For details, see 1.6.1.2.17 ETP48400 Power Cable. P35 and P11 For details, see 1.6.1.3.3 PDU03D-01 Power Cable. P12, P13, and P16 For details, see 1.6.1.4.1 Power Cable for a Junction Box. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 334 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P14 and P15 For details, see 1.6.3.6 HAU01A-01 Power Cable. P17 to P25 For details, see 1.6.4.3 RFU Power Cable. P26 For details, see 1.6.3.1.16 FAU03D-01 Power Cable. P27 to P30 For details, see Power cables for the battery cabinet. P31 and P32 For details, see 1.6.1.4.13 Storage Battery Power Cable. P33 For details, see 1.6.1.4.6 Power Cables Between Cascaded DC Junction Boxes in Different IBBS300Ds/ IBBS300Ts/BBC5300Ds/BBC5300Ts. P34 For details, see 1.6.3.10 Fan Power Cables in an IBBS300D. P36 For details, see 1.6.1.4.5 Power Cable for the DC Junction Box in a BTS3900AL. 1.3.1.10 DBS3900 Power Cable Connections (BBU3900 & BBU3910) This section describes power cable connections in the DBS3900 configured with different types of cabinets in which a BBU3900 or BBU3910 is used. 1.3.1.10.1 Power Cable Connections in a DBS3900 Using the MRE1000 This section describes the power cable connections in an MRE1000 used by a DBS3900. Power Cable Connections in an MRE1000 BVDC Cabinet When an MRE1000 is configured with a BDU65-03, the power cables are used to provide power for Book RRUs. The power cable connections in this scenario are shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 335 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-79 Power cable connections in an MRE1000 configured with a BDU65-03 The following table describes the power cable connections. Table 1-202 Power cable connections in an MRE1000 configured with a BDU65-03 No. Description P1 1.6.3.1.18 FAU01D-05 Power Cable P2 1.6.3.2 Transfer Power Cable for the Fan Assembly P3 and P4 1.6.4.2 BBU Power Cable P5 and P6 EPU03A-21 Input Power Cable (Input from Batteries). P7 1.6.3.3 Power Cable for an AC Heater Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 336 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P8 1.6.3.6 HAU01A-01 Power Cable P9 and P10 EPU03A-21 Input Power Cable (Input from External Power Supply) P11 1.6.4.5 SOU Power Cable P12 and P13 1.6.1.4.13 Storage Battery Power Cable P14 1.6.4.8 Power Cable for the AC Power Distribution Box in the MRE1000 P15~P22 ODM03H-01 power cable Power Cable Connections in an MRE1000 225-400 V DC cabinet When an MRE1000 225-400 V DC cabinet is configured with an HSU (C2800G51), a PDU08H-01 is required to supply power for the Easy Macro. The power cable connections in this scenario are shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 337 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-80 Power cable connections in an MRE1000 225-400 V DC cabinet The following table describes the power cable connections. Table 1-203 Power cable connections in an MRE1000 225-400 V DC cabinet No. Description P1 1.6.3.1.18 FAU01D-05 Power Cable P2 1.6.3.2 Transfer Power Cable for the Fan Assembly P3 and P4 1.6.4.2 BBU Power Cable P5 and P6 EPU03A-21 Input Power Cable (Input from Batteries). P7 1.8.1.11 HSMU Monitoring Signal Cable for the PDU08H-01 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 338 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P8 1.6.3.3 Power Cable for an AC Heater P9 1.6.3.6 HAU01A-01 Power Cable P10 and P11 EPU03A-21 Input Power Cable (Input from External Power Supply). P12 to P14 1.6.1.3.4 PDU08H-01 Power Cable P15 1.6.4.5 SOU Power Cable P16 and P17 1.6.1.4.13 Storage Battery Power Cable P18 1.6.4.8 Power Cable for the AC Power Distribution Box in the MRE1000 P19~P26 ODM03H-02 power cable 1.3.1.10.2 Power Cable Connections in a DBS3900 Using the APM30H (Ver.E) This section describes the power cable connections in a DBS3900 using the APM30H (Ver.E). NOTE ● This section uses the distributed base station configured with 21 RRUs as an example to describe how to configure power cables. ● When a base station is configured with 1 to 6 RRUs, the EPU provides power for all RRUs. ● When a base station is configured with 7 to 15 RRUs, three PDU03D-02 modules need to be installed in the EPU to provide power for the seventh to fifteenth RRUs. ● When a base station is configured with 16 to 21 RRUs, one PDU01D-01 needs to be installed in the EPU to provide power for an ODM, and the ODM then provides power to the sixteenth to twenty-first RRUs. ● If a device is not configured at a site, you can ignore the related power cable connections in the figures. ● IBBS200D and IBBS200T power cable connections are similar. The following uses the IBBS200D as an example. ● IBBS300D and IBBS300T power cable connections are similar. The following uses the IBBS300D as an example. 1 APM30H+1 TMC11H+2 IBBS200Ds The following figure shows the power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS200Ds. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 339 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-81 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS200Ds The following table describes the power cable connections. Table 1-204 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS200Ds No. Cable Description P0 EPU05A-07 or EPU05A-09 Power Cable P1 Power Cable for a Junction Box P2 FAN 02E Power Cable/FAN02H Power Cable P3 BBU Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 340 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Cable Description P4 Power Cable for a Power Distribution Box P5 Fan Power Cable in an IBBS200D P6 RRU Power Cable P7 DCDU-12C Power Cable P8 Power Cable for a Heating Film P9 ODM Power Cable P10 Power Cable Between Cascaded Power Distribution Boxes 1 APM30H+1 TMC11H+2 IBBS300Ds The following figure shows the power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS300Ds. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 341 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-82 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS300Ds The following table describes the power cable connections. Table 1-205 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS300Ds No. Description P0 EPU05A-07 or EPU05A-09 Power Cable P1 Power Cable for a Junction Box P2 FAN 02E Power Cable/FAN02H Power Cable P3 BBU Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 342 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P4 Power Cable for a Power Distribution Box P5 Fan Power Cable in an IBBS300D P6 RRU Power Cable P7 DCDU-12C Power Cable P8 Power Cable for a Heating Film P9 ODM Power Cable P10, P11 Power Cable Between Cascaded DC Junction Boxes in Different IBBS300Ds 1 APM30H+1 TMC11H+2 BBC5200D-Ls The following figure shows the power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200D-Ls. Figure 1-83 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200D-Ls The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 343 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-206 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200D-Ls No. Description P0 EPU05A-07/09 power cable P1 Power cable for a junction box P2 FAN 02E power cable/1.6.3.1.13 FAN02H Power Cable P3 BBU power cable P4 Power cable for a power distribution box P5 1.6.3.9 BBC5200D Fan/BBC5200D-L Fan/BBC5200T TEC/BBC5200T-L Air Conditioner Power Cable P6 RRU power cable P7 DCDU-12C power cable P8 1.6.3.7 HAU03A-02 Power Cable P9 ODM power cable P10 Power cable between cascaded power distribution boxes P11 -48 V cascading power cable P12 CMUH power cable P13 Lithium battery power cable P14 Lithium battery activation cable P15 1.6.1.4.2 PMU 15A Power Cable 1 APM30H+1 TMC11H+2 BBC5200T-Ls The following figure shows the power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200T-Ls. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 344 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-84 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200T-Ls The following table describes the power cable connections. Table 1-207 Power cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200T-Ls No. Description P0 EPU05A-07/09 power cable P1 1.6.1.4.2 PMU 15A Power Cable P2 FAN 02E power cable/1.6.3.1.13 FAN02H Power Cable P3 BBU power cable P4 Power cable for a power distribution box P5 1.6.3.9 BBC5200D Fan/BBC5200D-L Fan/BBC5200T TEC/BBC5200T-L Air Conditioner Power Cable P6 RRU power cable P7 DCDU-12C power cable P8 CMUH power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 345 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P9 ODM power cable P10 Power cable between cascaded power distribution boxes P11 -48 V cascading power cable P12 Air conditioner power cable P13 Lithium battery power cable P14 Lithium battery activation cable 1.3.1.10.3 Power Cable Connections in a DBS3900 Using the APM30H (Ver.D) This section describes the power cable connections in a DBS3900 using the APM30H (Ver.D). Power Cable Connections in a 110 V AC or 220 V AC Scenario NOTE ● When a base station is configured with 7 to 12 RRUs, a DCDU-12B must be installed below the BBU to provide power for the seventh to twelfth RRUs. ● When a base station is configured with 13 to 15 RRUs, a DCDU-12B must be installed below the BBU to provide power for the seventh to twelfth RRUs, and an ODM must be configured to obtain power from the DCDU-12B and provide power for the remaining RRUs. This section uses the power cable connections for a DBS3900 configured with 15 RRUs as an example. When a single- or dual-mode base station is in the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D), the APM30H (Ver.D) is configured with an EPU, which converts 110 V AC or 220 V AC power into -48 V DC power and then provides the power for the BBU, RRUs, TMC11H (Ver.D), and IBBS200D (Ver.D). A DCDU-12B is configured below the BBU to provide power for RRUs. The following figure shows the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 346 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-85 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D) The following table describes the power cable connections. Table 1-208 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D) No. Description P1 and P11 1.6.1.4.1 Power Cable for a Junction Box P2 and P8 1.6.3.1.8 FAN 02D Power Cable P3 1.6.4.2 BBU Power Cable P4 1.6.1.4.13 Storage Battery Power Cable P5 1.6.3.12 TEC Power Cables in an IBBS200T P6 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable P10 1.6.3.4 Power Cable for a Heating Film Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 347 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P12 1.6.1.1.8 DCDU-12B Power Cable P13 1.6.4.10 ODM06D Power Cable When a single- or dual-mode base station is in the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D), the APM30H (Ver.D) is configured with an EPU, which converts 110 V AC or 220 V AC power into -48 V DC power and then provides the power for the BBU, RRUs, TMC11H (Ver.D), and IBBS200T (Ver.D). A DCDU-12B is configured below the BBU to provide power for RRUs. The following figure shows the power cable connections. Figure 1-86 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D) The following table describes the power cable connections. Table 1-209 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D) No. Description P1 and P11 1.6.1.4.1 Power Cable for a Junction Box P2 and P8 1.6.3.1.8 FAN 02D Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 348 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P3 1.6.4.2 BBU Power Cable P4 1.6.1.4.13 Storage Battery Power Cable P5 1.6.3.12 TEC Power Cables in an IBBS200T P6 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable P12 1.6.1.1.8 DCDU-12B Power Cable P13 1.6.4.10 ODM06D Power Cable When a single- or dual-mode base station is in the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D), the APM30H (Ver.D) is configured with an EPU, which converts 110 V AC or 220 V AC power into -48 V DC power and then provides the power for the BBU, RRUs, TMC11H (Ver.D), and IBBS200Ds (Ver.D). A DCDU-12B is configured below the BBU to provide power for RRUs. The following figure shows the power cable connections. Figure 1-87 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 349 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cable connections. Table 1-210 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D) No. Description P1 and P11 1.6.1.4.1 Power Cable for a Junction Box P2 and P8 1.6.3.1.8 FAN 02D Power Cable P3 1.6.4.2 BBU Power Cable P4 and P13 1.6.1.4.13 Storage Battery Power Cable P5 and P14 1.6.3.8 Fan Power Cables in an IBBS200D P6 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable P10 1.6.3.4 Power Cable for a Heating Film P12 1.6.1.1.8 DCDU-12B Power Cable P15 1.6.4.10 ODM06D Power Cable When a single- or dual-mode base station is in the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS300Ds, the APM30H (Ver.D) is configured with an EPU, which converts 110 V AC or 220 V AC power into -48 V DC power and then provides the power for the BBU, RRUs, TMC11H (Ver.D), and IBBS300Ds. A DCDU-12B is configured below the BBU to provide power for RRUs. The following figure shows the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 350 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-88 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS300Ds The following table describes the power cable connections. Table 1-211 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS300Ds No. Description P1 and P11 1.6.1.4.1 Power Cable for a Junction Box P2 and P8 1.6.3.1.8 FAN 02D Power Cable P3 1.6.4.2 BBU Power Cable P4 1.6.1.4.3 Power Cable for a Power Distribution Box P5 1.6.3.10 Fan Power Cables in an IBBS300D P6 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 351 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P10 1.6.3.4 Power Cable for a Heating Film P12 1.6.1.1.8 DCDU-12B Power Cable P13 Power Cable Between Cascaded Cabinets P14 Cascading Power Cable for the Fans P15 1.6.4.10 ODM06D Power Cable The following figure shows the power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS700D/T. NOTE The power cable connections in the IBBS700T are the same as those in the IBBS700D. The following uses the IBBS700D as an example. Figure 1-89 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS700D The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 352 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-212 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS700D No. Description P1, P10, and P11 1.6.1.4.1 Power Cable for a Junction Box P2 and P8 1.6.3.1.8 FAN 02D Power Cable P3 1.6.4.2 BBU Power Cable P4 1.6.1.4.3 Power Cable for a Power Distribution Box P5 1.6.3.5 Power Cables for the Temperature Control System P6 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable P12 1.6.1.1.8 DCDU-12B Power Cable P13 1.6.4.10 ODM06D Power Cable The following figure shows the power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 353 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-90 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D) The following table describes the power cable connections. Table 1-213 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D) No. Description P1 and P11 1.6.1.4.1 Power Cable for a Junction Box P2 and P8 1.6.3.1.8 FAN 02D Power Cable P3 1.6.4.2 BBU Power Cable P4 and P13 1.6.1.4.13 Storage Battery Power Cable P5 and P14 1.6.3.12 TEC Power Cables in an IBBS200T P6 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable P12 1.6.1.1.8 DCDU-12B Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 354 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P15 1.6.4.10 ODM06D Power Cable The following figure shows the power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 BBC5200T-Ls. Figure 1-91 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 BBC5200T-Ls The following table describes the power cable connections. Table 1-214 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 BBC5200T-Ls No. Description P1 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P2 and P8 1.6.3.1.8 FAN 02D Power Cable P3 1.6.4.2 BBU Power Cable P4 Power cable for a power distribution box Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 355 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P5 and P14 -48 V input power cable P6 1.6.4.10 ODM06D Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable P10 1.6.1.1.8 DCDU-12B Power Cable P11 Power cable between cascaded power distribution boxes P12 -48 V cascading power cable P13 Lithium battery power cable P14 Lithium battery activation cable P15 CMUH power cable P16 Air conditioner power cable The following figure shows the power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS300Ds. NOTE The power cable connections in the IBBS300T are the same as those in the IBBS300D, except for the connection of cable P10. The following uses the IBBS300D as an example. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 356 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-92 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS300Ds The following table describes the power cable connections. Table 1-215 Power cable connections in a single- or dual-mode base station with the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS300Ds No. Description P1 and P11 1.6.1.4.1 Power Cable for a Junction Box P2 and P8 1.6.3.1.8 FAN 02D Power Cable P3 1.6.4.2 BBU Power Cable P4 1.6.1.4.3 Power Cable for a Power Distribution Box P5 1.6.3.10 Fan Power Cables in an IBBS300D P6 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 357 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P10 1.6.3.6 HAU01A-01 Power Cable (Optional in the IBBS300D) P12 1.6.1.1.8 DCDU-12B Power Cable P13 Power Cable Between Cascaded Cabinets P14 Cascading Power Cable for the Fans P15 1.6.4.10 ODM06D Power Cable The following figure shows the power cable connections in a triple- or quadruplemode base station with the configuration of 1 APM30H (Ver.D)+1 IBBS200D (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D). NOTE When the base station is in the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D), BBU 1 is installed in the 1 U space below BBU 0, and the BBU power cable connections are the same as those in a base station with the configuration of 1 APM30H (Ver.D)+1 IBBS200D (Ver.D), as shown by illustration 1 in the following figure. Figure 1-93 Power cable connections in a triple- or quadruple-mode base station with the configuration of 1 APM30H (Ver.D)+1 IBBS200D (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D) The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 358 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-216 Power cable connections in a triple- or quadruple-mode base station with the configuration of 1 APM30H (Ver.D)+1 IBBS200D (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D) No. Description P1 and P11 1.6.1.4.1 Power Cable for a Junction Box P2 and P8 1.6.3.1.8 FAN 02D Power Cable P3 1.6.4.2 BBU Power Cable P4 1.6.1.4.13 Storage Battery Power Cable P5 1.6.3.8 Fan Power Cables in an IBBS200D P6 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable P10 1.6.3.4 Power Cable for a Heating Film P12 1.6.1.1.8 DCDU-12B Power Cable P13 1.6.4.10 ODM06D Power Cable The following figure shows the power cable connections in a triple- or quadruplemode base station with the configuration of 1 APM30H (Ver.D)+1 IBBS200T (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D). NOTE When the base station is in the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D), BBU 1 is installed in the 1 U space below BBU 0, and the BBU power cable connections are the same as those in a base station with the configuration of 1 APM30H (Ver.D)+1 IBBS200T (Ver.D), as shown by illustration 1 in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 359 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-94 Power cable connections in a triple- or quadruple-mode base station with the configuration of 1 APM30H (Ver.D)+1 IBBS200T (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D) The following table describes the power cable connections. Table 1-217 Power cable connections in a triple- or quadruple-mode base station with the configuration of 1 APM30H (Ver.D)+1 IBBS200T (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D) No. Description P1 and P11 1.6.1.4.1 Power Cable for a Junction Box P2 and P8 1.6.3.1.8 FAN 02D Power Cable P3 1.6.4.2 BBU Power Cable P4 1.6.1.4.13 Storage Battery Power Cable P5 1.6.3.12 TEC Power Cables in an IBBS200T P6 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable P12 1.6.1.1.8 DCDU-12B Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 360 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P13 1.6.4.10 ODM06D Power Cable The following figure shows the power cable connections in a triple- or quadruplemode base station with the configuration of 1 APM30H (Ver.D)+2 IBBS200Ds (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D). NOTE When the base station is in the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D), BBU 1 is installed in the 1 U space below BBU 0, and the BBU power cable connections are the same as those in a base station with the configuration of 1 APM30H (Ver.D)+2 IBBS200Ds (Ver.D), as shown by illustration 1 in the following figure. Figure 1-95 Power cable connections in a triple- or quadruple-mode base station with the configuration of 1 APM30H (Ver.D)+2 IBBS200Ds (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D) The following table describes the power cable connections. Table 1-218 Power cable connections in a triple- or quadruple-mode base station with the configuration of 1 APM30H (Ver.D)+2 IBBS200Ds (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D) No. Description P1 and P11 1.6.1.4.1 Power Cable for a Junction Box P2 and P8 1.6.3.1.8 FAN 02D Power Cable P3 1.6.4.2 BBU Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 361 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P4 and P13 1.6.1.4.13 Storage Battery Power Cable P5 and P14 1.6.3.8 Fan Power Cables in an IBBS200D P6 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable P10 1.6.3.4 Power Cable for a Heating Film P12 1.6.1.1.8 DCDU-12B Power Cable P15 1.6.4.10 ODM06D Power Cable The following figure shows the power cable connections in a triple- or quadruplemode base station with the configuration of 1 APM30H (Ver.D)+2 IBBS200Ts (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D). NOTE When the base station is in the configuration of 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D), BBU 1 is installed in the 1 U space below BBU 0, and the BBU power cable connections are the same as those in a base station with the configuration of 1 APM30H (Ver.D)+2 IBBS200Ts (Ver.D), as shown by illustration 1 in the following figure. Figure 1-96 Power cable connections in a triple- or quadruple-mode base station with the configuration of 1 APM30H (Ver.D)+2 IBBS200Ts (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 362 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cable connections. Table 1-219 Power cable connections in a triple- or quadruple-mode base station with the configuration of 1 APM30H (Ver.D)+2 IBBS200Ts (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D) No. Description P1 and P11 1.6.1.4.1 Power Cable for a Junction Box P2 and P8 1.6.3.1.8 FAN 02D Power Cable P3 1.6.4.2 BBU Power Cable P4 and P13 1.6.1.4.13 Storage Battery Power Cable P5 and P14 1.6.3.12 TEC Power Cables in an IBBS200T P6 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable P12 1.6.1.1.8 DCDU-12B Power Cable P15 1.6.4.10 ODM06D Power Cable The following figure shows the power cable connections in a triple- or quadruplemode base station with the configuration of 1 APM30H (Ver.D)+2 IBBS300D/Ts or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS300D/Ts. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 363 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-97 Power cable connections in a triple- or quadruple-mode base station with the configuration of 1 APM30H (Ver.D)+2 IBBS300D/Ts or 1 APM30H (Ver.D) +1 TMC11H (Ver.D)+2 IBBS300D/Ts The following table describes the power cable connections. Table 1-220 Power cable connections in a triple- or quadruple-mode base station with the configuration of 1 APM30H (Ver.D)+2 IBBS300D/Ts or 1 APM30H (Ver.D) +1 TMC11H (Ver.D)+2 IBBS300D/Ts No. Description P1 and P11 1.6.1.4.1 Power Cable for a Junction Box P2 and P8 1.6.3.1.8 FAN 02D Power Cable P3 1.6.4.2 BBU Power Cable P4 1.6.1.4.1 Power Cable for a Junction Box P5 1.6.3.10 Fan Power Cables in an IBBS300D P6 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable P7 1.6.4.4 RRU Power Cable P9 1.6.1.1.9 DCDU-12C Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 364 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P12 1.6.1.1.8 DCDU-12B Power Cable P13 and P14 1.6.1.4.6 Power Cables Between Cascaded DC Junction Boxes in Different IBBS300Ds/IBBS300Ts/ BBC5300Ds/BBC5300Ts P15 1.6.4.10 ODM06D Power Cable In a triple- or quadruple-mode base station: When it is configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 BBC5200T-Ls, the power cable connections are the same as those in a single- or dual-mode base station with the same cabinet configuration, as shown in Figure 1-91. The power cable connections for the second BBU in this base station are the same as those for the second BBU in a triple-mode base station with a different cabinet configuration. When it is configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS700D/T, the power cable connections are the same as those in a single- or dual-mode base station with the same cabinet configuration, as shown in Figure 1-89. The power cable connections for the second BBU in this base station are the same as those for the second BBU in a triple-mode base station with a different cabinet configuration. When it is configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS300D/Ts, the power cable connections are the same as those in a single- or dual-mode base station with the same cabinet configuration, as shown in Figure 1-92. The power cable connections for the second BBU in this base station are the same as those for the second BBU in a triple-mode base station with a different cabinet configuration. 1.3.1.10.4 Power Cable Connections in a DBS3900 Using the APM30H (Ver.D_A2) This section describes the power cable connections in a DBS3900 supplied with 110 V AC, 220 V AC, and -48 V DC power to facilitate power cable installation and maintenance. Power Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. When a DBS3900 is supplied with 110 V AC or 220 V AC power, 1 APM30H+1 TMC11H+1 IBBS200T are configured. The following figure shows the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 365 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-98 Power cable connections in a base station configured with 1 APM30H +1 TMC11H+1 IBBS200T The following table describes the power cable connections. Table 1-221 Power cable connections in a base station configured with 1 APM30H +1 TMC11H+1 IBBS200T No. Description P1 Input power cable for the APM30 P2 CMUEA power cable P3 and P8 to P11 Power cable for the storage battery cabinet P4 Input power cable for the transfer terminal P5 BBU power cable P6 1.6.4.1 EMUA or EMUB Power Cable P7 Input power cable for the TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 366 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections in a DBS3900 configured with 2 TMC11Hs in a -48 V DC input scenario. Figure 1-99 Power cable connections in a base station configured with two TMC11Hs The following table describes the power cable connections. Table 1-222 Power cable connections in a base station configured with two TMC11Hs No. Description P0 Input power cable for the TMC11H P1 CMUEA power cable P2 BBU power cable P3 1.6.4.1 EMUA or EMUB Power Cable 1.3.1.10.5 Power Cable Connections in a DBS3900 Using the APM30 (Ver.D_A1) This section describes the power cable connections in a DBS3900 supplied with 110 V AC, 220 V AC, and -48 V DC power to facilitate power cable installation and maintenance. Power Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. When a DBS3900 is supplied with 110 V AC or 220 V AC power, 1 APM30+1 TMC +1 BBC are configured. The following figure shows the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 367 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-100 Power cable connections in a base station configured with 1 APM30+1 TMC+1 BBC The following table describes the power cable connections. Table 1-223 Power cable connections in a base station configured with 1 APM30+1 TMC+1 BBC No. Description P1 Input power cable for the APM30 P2 CMUEA power cable P3 and P8 to P10 Power cable for the storage battery cabinet P4 Input power cable for the RFC P5 BBU power cable P6 1.6.4.1 EMUA or EMUB Power Cable P7 Input power cable for the TMC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 368 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections in a DBS3900 configured with 2 TMCs in a -48 V DC input scenario. Figure 1-101 Power cable connections in a base station configured with two TMCs The following table describes the power cable connections. Table 1-224 Power cable connections in a base station configured with two TMCs No. Description P0 Input power cable for the TMC P1 CMUEA power cable P2 BBU power cable P3 1.6.4.1 EMUA or EMUB Power Cable 1.3.1.10.6 Power Cable Connections in a DBS3900 Using the APM30H (Ver.E_A2) This section describes the power cable connections in a DBS3900 that uses APM30H (Ver.E_A2) cabinets and is supplied with 110 V AC, 220 V AC, or -48 V DC power, to facilitate power cable installation and maintenance. Power Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. When being supplied with 110 V AC or 220 V AC power, a DBS3900 can be configured with 1 APM30H+1 TMC11H+1 IBBS200T. The power cable connections in this scenario are shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 369 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-102 Power cable connections in a base station configured with 1 APM30H+1 TMC11H+1 IBBS200T The following table lists the power cable connections in a base station configured with 1 APM30H+1 TMC11H+1 IBBS200T. Table 1-225 Power cable connections in a base station configured with 1 APM30H +1 TMC11H+1 IBBS200T No. Description P1 Input power cable for the APM30H P2 Power cable for the fan assembly in the APM30H P3 and P9 BBU power cable P4 Input power cable for the TMC11H P5 Input power cable for the IBBS200T P6 Power cable for the TEC in the IBBS200T P8 Power cable for the fan assembly in the TMC11H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 370 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P10 and P11 Power cable for storage batteries P12 Power transfer cable for the TEC in the IBBS200T Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections in a DBS3900 configured with 2 TMC11Hs in a -48 V DC input scenario. Figure 1-103 Power cable connections in a base station configured with two TMC11Hs The following table lists the power cable connections in a base station configured with two TMC11Hs. Table 1-226 Power cable connections in a base station configured with two TMC11Hs No. Description P1 Input power cable for the TMC11H P2 Power cable for the fan assembly in the TMC11H P3 EMUA or EMUB power cable P4 BBU power cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 371 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.1.10.7 Power Cable Connections in a DBS3900 Using the APM30 (Ver.E_A1) This section describes the power cable connections in a DBS3900 that uses APM30 (Ver.E_A1) cabinets and is supplied with 110 V AC, 220 V AC, or -48 V DC power, to facilitate power cable installation and maintenance. Power Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. When being supplied with 110 V AC or 220 V AC power, a DBS3900 can be configured with 1 APM30+1 TMC+1 BBC. The power cable connections in this scenario are shown in the following figure. Figure 1-104 Power cable connections in a base station configured with 1 APM30+1 TMC+1 BBC The following table lists the power cable connections in a base station configured with 1 APM30+1 TMC+1 BBC. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 372 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-227 Power cable connections in a base station configured with 1 APM30+1 TMC+1 BBC No. Description P1 Input power cable for the APM30 P2 Power cable with an 8-pin transfer terminal P3 Heater power cable P4 EMUA or EMUB power cable P5 Input power cable for the TMC P6 and P14 BBU power cable P7 and P13 CMUH power cable P8 Power cable for a BBC P9 to P12 Power cable for storage batteries Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections in a DBS3900 configured with 2 TMCs in a -48 V DC input scenario. Figure 1-105 Power cable connections in a base station configured with two TMCs The following table lists the power cable connections in a base station configured with two TMCs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 373 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-228 Power cable connections in a base station configured with two TMCs No. Description P1 Input power cables for the TMC P2 CMUH power cable P3 BBU power cable P4 EMUA or EMUB power cable 1.3.1.10.8 Power Cable Connections in a DBS3900 Using the APM30H (Ver.B) or APM30H (Ver.C) This section describes the power cable connections in a DBS3900 using the APM30H (Ver.B) or APM30H (Ver.C). Power Cable Connections in 110 V AC or 220 V AC Scenarios When 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+1 IBBS200D are configured in a single- or dual-mode base station, the EPS in the APM30H (Ver.B) converts 110 V AC or 220 V AC power into -48 V DC power and distributes the power to the BBU, RRUs, and TMC11H (Ver.B). The following figure shows the power cable connections. Figure 1-106 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+1 IBBS200D Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 374 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cable connections. Table 1-229 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+1 IBBS200D No. Description P1 and P10 1.6.1.4.1 Power Cable for a Junction Box P2 and P11 FAN 02A Power Cable P3 1.6.4.2 BBU Power Cable P4 1.6.1.4.13 Storage Battery Power Cable P5 1.6.3.8 Fan Power Cables in an IBBS200D P6 EPS 01A or EPS 01C Power Cable P7 RRU Power Cable P8 EPS 01A or EPS 01C Power Cable P9 1.6.3.4 Power Cable for a Heating Film When 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+1 IBBS200D are configured in a single- or dual-mode base station, the EPU in the APM30H (Ver.C) converts 110 V AC or 220 V AC power into -48 V DC power and distributes the power to the BBU, RRUs, and TMC11H (Ver.C). The following figure shows the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 375 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-107 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+1 IBBS200D The following table describes the power cable connections. Table 1-230 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+1 IBBS200D No. Description P1 1.6.3.1.7 FAN 02B Power Cable P2 1.6.1.4.1 Power Cable for a Junction Box P3 and P4 1.6.3.4 Power Cable for a Heating Film P5 1.6.1.2.4 EPU03A-03 or EPU03A-05 Power Cable P6 RRU Power Cable P7 1.6.4.2 BBU Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 376 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P8 1.6.1.4.13 Storage Battery Power Cable P9 1.6.3.8 Fan Power Cables in an IBBS200D P10 1.6.1.1.6 DCDU-11C Power Cable P11 1.6.3.1.7 FAN 02B Power Cable The following figure shows the power cable connections in a base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+1 IBBS200T. Figure 1-108 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+1 IBBS200T The following table describes the power cable connections. Table 1-231 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+1 IBBS200T No. Description P1 and P9 1.6.1.4.1 Power Cable for a Junction Box Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 377 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P2 and P10 1.6.3.1.6 FAN 02A Power Cable P3 1.6.4.2 BBU Power Cable P4 1.6.1.4.13 Storage Battery Power Cable P5 1.6.3.12 TEC Power Cables in an IBBS200T P6 1.6.1.2.1 EPS 01A or EPS 01C Power Cable P7 RRU Power Cable P8 1.6.1.1.3 DCDU-03C Power Cable The following figure shows the power cable connections in a base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+1 IBBS200T. Figure 1-109 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+1 IBBS200T Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 378 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cable connections. Table 1-232 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+1 IBBS200T No. Description P1 1.6.3.1.7 FAN 02B Power Cable P2 1.6.1.4.1 Power Cable for a Junction Box P3 1.6.3.3 Power Cable for an AC Heater P4 1.6.1.2.4 EPU03A-03 or EPU03A-05 Power Cable P5 RRU Power Cable P6 1.6.4.2 BBU Power Cable P7 1.6.1.4.13 Storage Battery Power Cable P8 1.6.3.12 TEC Power Cables in an IBBS200T P9 1.6.1.1.6 DCDU-11C Power Cable P10 1.6.3.1.7 FAN 02B Power Cable The following figure shows the power cable connections in a base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+2 IBBS200Ds. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 379 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-110 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+2 IBBS200Ds The following table describes the power cable connections. Table 1-233 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+2 IBBS200Ds No. Description P1 and P10 1.6.1.4.1 Power Cable for a Junction Box P2 and P12 1.6.3.1.6 FAN 02A Power Cable P3 1.6.4.2 BBU Power Cable P5 and P13 1.6.3.8 Fan Power Cables in an IBBS200D P7 1.6.1.2.1 EPS 01A or EPS 01C Power Cable P8 RRU Power Cable P9 1.6.3.4 Power Cable for a Heating Film P11 1.6.1.1.3 DCDU-03C Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 380 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P4 and P14 1.6.1.4.13 Storage Battery Power Cable The following figure shows the power cable connections in a base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+2 IBBS200Ds. Figure 1-111 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+2 IBBS200Ds The following table describes the power cable connections. Table 1-234 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+2 IBBS200Ds No. Description P1 1.6.3.1.7 FAN 02B Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 381 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P2 and P4 1.6.1.4.1 Power Cable for a Junction Box P3 1.6.3.4 Power Cable for a Heating Film P5 1.6.1.2.4 EPU03A-03 or EPU03A-05 Power Cable P6 RRU Power Cable P7 1.6.4.2 BBU Power Cable P9 and P13 1.6.3.8 Fan Power Cables in an IBBS200D P10 1.6.1.1.6 DCDU-11C Power Cable P11 1.6.3.1.7 FAN 02B Power Cable P8 and P12 1.6.1.4.13 Storage Battery Power Cable The following figure shows the power cable connections in a base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+2 IBBS200Ts. Figure 1-112 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+2 IBBS200Ts Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 382 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cable connections. Table 1-235 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+2 IBBS200Ts No. Description P1 and P9 1.6.1.4.1 Power Cable for a Junction Box P2 and P11 1.6.3.1.6 FAN 02A Power Cable P3 1.6.4.2 BBU Power Cable P5 and P12 1.6.3.12 TEC Power Cables in an IBBS200T P7 1.6.1.2.1 EPS 01A or EPS 01C Power Cable P8 RRU Power Cable P10 1.6.1.1.3 DCDU-03C Power Cable P4 and P13 1.6.1.4.13 Storage Battery Power Cable The following figure shows the power cable connections in a base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+2 IBBS200Ts. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 383 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-113 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+2 IBBS200Ts The following table describes the power cable connections. Table 1-236 Power cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+2 IBBS200Ts No. Description P1 1.6.3.1.7 FAN 02B Power Cable P2 and P3 1.6.1.4.1 Power Cable for a Junction Box P4 1.6.1.2.4 EPU03A-03 or EPU03A-05 Power Cable P5 RRU Power Cable P6 1.6.4.2 BBU Power Cable P8 and P11 1.6.3.12 TEC Power Cables in an IBBS200T Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 384 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P9 1.6.1.1.6 DCDU-11C Power Cable P10 1.6.3.1.7 FAN 02B Power Cable P7 and P12 1.6.1.4.13 Storage Battery Power Cable A triple- or quadruple-mode DBS3900 requires two BBUs: BBU 0 and BBU 1. The power cable connections in the cabinet housing BBU 0 are the same as those in the cabinet housing BBU 1. Figure 1-114 and Figure 1-115 show the power cable connections in a triple- or quadruple-mode base station, using the scenario of configuring BBUs in the APM30Hs (Ver.B) as an example. Figure 1-114 Power cable connections in a triple- or quadruple-mode base station configured with 2 APM30Hs (Ver.B)+1 TMC11H (Ver.B)+2 IBBS200Ds The following table describes the power cable connections. Table 1-237 Power cable connections in a triple- or quadruple-mode base station configured with 2 APM30Hs (Ver.B)+1 TMC11H (Ver.B)+2 IBBS200Ds No. Description P1 and P10 1.6.1.4.1 Power Cable for a Junction Box Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 385 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P2 and P11 1.6.3.1.6 FAN 02A Power Cable P3 1.6.4.2 BBU Power Cable P4 1.6.1.4.13 Storage Battery Power Cable P5 1.6.3.8 Fan Power Cables in an IBBS200D P6 1.6.1.2.1 EPS 01A or EPS 01C Power Cable P7 RRU Power Cable P8 1.6.1.1.3 DCDU-03C Power Cable P9 1.6.3.4 Power Cable for a Heating Film Figure 1-115 Power cable connections in a triple- or quadruple-mode base station configured with 2 APM30Hs (Ver.B)+1 TMC11H (Ver.B)+4 IBBS200Ds The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 386 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-238 Power cable connections in a triple- or quadruple-mode base station configured with 2 APM30Hs (Ver.B)+1 TMC11H (Ver.B)+4 IBBS200Ds No. Description P1 and P10 1.6.1.4.1 Power Cable for a Junction Box P2, P6, and P12 1.6.3.1.6 FAN 02A Power Cable P3 1.6.4.2 BBU Power Cable P5 and P13 1.6.3.8 Fan Power Cables in an IBBS200D P7 1.6.1.2.1 EPS 01A or EPS 01C Power Cable P8 RRU Power Cable P9 1.6.3.4 Power Cable for a Heating Film P11 1.6.1.1.3 DCDU-03C Power Cable P4 and P14 1.6.1.4.13 Storage Battery Power Cable Power Cable Connections in a +24 V DC Input Scenario If a single- or dual-mode base station uses an APM30H (Ver.B, +24 V), the EPS24S48100DC in the APM30H converts the +24 V DC power into -48 V DC power, which is supplied to the DCDU-03B. The DCDU-03B distributes the power to the BBU, RRUs, and other components. The following figure shows the power cable connections. Figure 1-116 Power cable connections in a single- or dual-mode base station configured with an APM30H (Ver.B, +24 V) The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 387 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-239 Power cable connections in a single- or dual-mode base station configured with an APM30H (Ver.B, +24 V) No. Description P1 EPS24S48100DC Power Cable P2 1.6.1.1.2 DCDU-03B Power Cable P3 1.6.4.2 BBU Power Cable P4 RRU Power Cable 1.3.1.10.9 Power Cable Connections in a DBS3900 Using the TMC11H (Ver.E) This section describes the power cable connections in a DBS3900 using the TMC11H (Ver.E). The following figure shows the power cable connections in a base station configured with one or two TMC11Hs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 388 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-117 Power cable connections in a base station configured with one or two TMC11Hs The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 389 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-240 Power cable connections in a base station configured with one or two TMC11Hs No. Description P1 DCDU-12B power cable P2 BBU power cable P3 FAN 02E Power Cable/1.6.3.1.13 FAN02H Power Cable P4 RRU power cable P5 ODM power cable 1.3.1.10.10 Power Cable Connections in a DBS3900 Using the TMC11H (Ver.D) This section describes the power cable connections in a DBS3900 using the TMC11H (Ver.D). Power Cable Connections in -48 V Scenarios When a single- or dual-mode base station is configured with one TMC11H (Ver.D), the TMC11H is configured with two DCDU-12Bs, which distribute power to the BBU and RRUs or transmission equipment. The following figure shows the power cable connections. Figure 1-118 Power cable connections in a single- or dual-mode base station configured with one TMC11H (Ver.D) The following table describes the power cable connections. Table 1-241 Power cable connections in a single- or dual-mode base station configured with one TMC11H (Ver.D) No. Description P1 1.6.1.1.9 DCDU-12C Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 390 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P2 1.6.4.2 BBU Power Cable P3 1.6.3.1.8 FAN 02D Power Cable P4 1.6.4.4 RRU Power Cable The following figure shows the power cable connections in a triple- or quadruplemode base station configured with one or two TMC11Hs (Ver.D). NOTE When the base station is in the configuration of 2 TMC11Hs (Ver.D), BBU 1 is installed in the 1 U space below BBU 0, and the BBU power cable connections are the same as those in a base station with the configuration of 1 TMC11H (Ver.D), as shown by illustration 1 in the following figure. Figure 1-119 Power cable connections in a triple- or quadruple-mode base station configured with one or two TMC11Hs (Ver.D) The following table describes the power cable connections. Table 1-242 Power cable connections in a triple- or quadruple-mode base station configured with one or two TMC11Hs (Ver.D) No. Description P1 1.6.1.1.9 DCDU-12C Power Cable P2 1.6.4.2 BBU Power Cable P3 1.6.3.1.8 FAN 02D Power Cable P4 1.6.4.4 RRU Power Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 391 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.1.10.11 Power Cable Connections in a DBS3900 Using the TMC11H (Ver.B) or TMC11H (Ver.C) This section describes the power cable connections in a DBS3900 using the TMC11H (Ver.B) or TMC11H (Ver.C). Power Cable Connections in -48 V Scenarios When a single- or dual-mode base station is configured with two TMC11Hs (Ver.B), each TMC11H is configured with a DCDU-03B, which distributes power to the BBU and RRUs or transmission equipment. The following figure shows the power cable connections. Figure 1-120 Power cable connections in a single- or dual-mode base station configured with two TMC11Hs (Ver.B) The following table describes the power cables. Table 1-243 Power cable connections in a single- or dual-mode base station configured with two TMC11Hs (Ver.B) No. Description P1 1.6.1.1.2 DCDU-03B Power Cable P2 1.6.3.1.6 FAN 02A Power Cable P3 1.6.4.2 BBU Power Cable P4 1.6.4.4 RRU Power Cable When a single- or dual-mode base station is configured with two TMC11Hs (Ver.C), each TMC11H is configured with a DCDU-11B, which distributes power to the BBU and RRUs or transmission equipment. The following figure shows the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 392 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-121 Power cable connections in a single- or dual-mode base station configured with two TMC11Hs (Ver.C) The following table describes the power cables. Table 1-244 Power cable connections in a single- or dual-mode base station configured with two TMC11Hs (Ver.C) No. Description P1 1.6.1.1.6 DCDU-11C Power Cable P2 1.6.3.1.7 FAN 02B Power Cable P3 1.6.4.2 BBU Power Cable P4 1.6.4.4 RRU Power Cable 1.3.1.10.12 Power Cable Connections in a DBS3900 Using an OMB (Ver.C), OMB, or IMB03 This section describes the power cable connections in a DBS3900 using an OMB (Ver.C), OMB, or IMB03. Power Cable Connections in 110 V AC or 220 V AC Scenarios The following figure shows the power cable connections in a DBS3900 using an AC OMB. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 393 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-122 Power cable connections in a base station using an AC OMB The following table describes the power cable connections. Table 1-245 Power cable connections in a base station using an AC OMB No. Description P1 Power Cable for the Inner Air Circulation Fan P2 HEUA Power Cable P3 1.6.4.2 BBU Power Cable P4 DCDU-05 power cable P5 Power Cable for the Outer Air Circulation Fan P6 EPS30-4815AF Power Cable P7 1.6.4.7 Power Cable for an AC Surge Protection Box P8 1.6.4.4 RRU Power Cable The following figure shows the power cable connections in a DBS3900 using an AC OMB (Ver.C) (without backup power). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 394 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-123 Power cable connections in a base station using an AC OMB (Ver.C) (without backup power) The following table describes the power cable connections. Table 1-246 Power cable connections in a base station using an AC OMB (Ver.C) (without backup power) No. Description P1 1.6.2.7 HEUB Power Cable P2 1.6.4.2 BBU Power Cable P3 and P6 1.6.1.2.12 ETP48100-A1 Power Cable P4 1.6.1.3.1 PDU10D-01 Power Cable P5 1.6.4.4 RRU Power Cable The following figure shows the power cable connections in a DBS3900 using an AC OMB (Ver.C) for which backup power is required, one OMB (Ver.C), and two IBBS20Ds. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 395 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-124 Power cable connections in a base station using an AC OMB (Ver.C) (with backup power) The following table describes the power cable connections. Table 1-247 Power cable connections in a base station using an AC OMB (Ver.C) (with backup power) No. Description P1 1.6.2.7 HEUB Power Cable P2 1.6.4.2 BBU Power Cable P3 and P6 1.6.1.2.12 ETP48100-A1 Power Cable P4 1.6.1.3.1 PDU10D-01 Power Cable P5 1.6.4.4 RRU Power Cable P7 1.6.1.4.7 Power Cable Between Cascaded IBBS20Ds Power Cable Connections in a -48 V DC Input Scenario The following figure shows the power cable connections in a DBS3900 using a DC OMB. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 396 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-125 Power cable connections in a base station using a DC OMB The following table describes the power cable connections. Table 1-248 Power cable connections in a base station using a DC OMB No. Description P1 Power Cable for the Inner Air Circulation Fan P2 HEUA Power Cable P3 Power Cable for the Outer Air Circulation Fan P4 1.6.4.2 BBU Power Cable P5 1.6.1.1.2 DCDU-03B Power Cable P6 1.6.4.4 RRU Power Cable The following figure shows the power cable connections in a DBS3900 using a DC OMB (Ver.C). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 397 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-126 Power cable connections in a base station using a DC OMB (Ver.C) The following table describes the power cable connections. Table 1-249 Power cable connections in a base station using a DC OMB (Ver.C) No. Description P1 1.6.2.7 HEUB Power Cable P2 1.6.4.2 BBU Power Cable P3 1.6.4.4 RRU Power Cable P4 1.6.1.3.1 PDU10D-01 Power Cable 1.3.1.10.13 Power Cable Connections in a DBS3900 Using the IMB05 This section describes the power cable connections in an IMB05 used by the DBS3900. Power Cable Connections in a 110 V AC or 220 V AC Scenario This following figure shows the power cable connections in an IMB05 used by the DBS3900. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 398 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-127 Power cable connections in an AC IMB05 The following table describes the power cable connections. Table 1-250 Power cable connections in an AC IMB05 No. Description P1 ETP48100-B1 power cable P2 RRU power cable P3 BBU power cable Power Cable Connections in a -48 V DC Scenario This following figure shows the power cable connections in a DC IMB05 used by the DBS3900. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 399 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-128 Power cable connections in a DC IMB05 The following table describes the power cable connections. Table 1-251 Power cable connections in a DC IMB05 No. Description P0 EPU02D/EPU02D-02 power cable/ DCDU16D power cable P1 DCDU-12B power cable P2 RRU power cable P3 to P14 BBU power cable 1.3.1.10.14 Power Cable Connections in a DBS3900 Using the TP48600A This section describes the power cable connections in a DBS3900 using the TP48600A. The following figure shows the power cable connections in a DBS3900 configured with 1 TP48600A+1 IBBS700D/IBBS700T+1 TMC11H (Ver.C) and with two BBUs installed in the TP48600A in 110 V AC or 220 V AC scenarios. When an IBBS700T instead of an IBBS700D is used, the power cable connections are the same. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 400 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE If only one BBU is installed in the TP48600A, only two BBU power cables are required. Figure 1-129 Power cable connections in a DBS3900 with the configuration of 1 TP48600A+1 IBBS700D+1 TMC11H (Ver.C) The following table describes the power cable connections. Table 1-252 Power cable connections in a base station with the configuration of 1 TP48600A+1 IBBS700D+1 TMC11H (Ver.C) No. Description P1 PDU05A-03 power cable P2 to P5 1.6.4.2 BBU Power Cable P6 1.6.1.1.6 DCDU-11C Power Cable P7 1.6.1.4.3 Power Cable for a Power Distribution Box P8 1.6.1.4.13 Storage Battery Power Cable P9 1.6.1.4.1 Power Cable for a Junction Box P10 to P21 1.6.4.4 RRU Power Cable The following figure shows the power cable connections in a DBS3900 configured with 1 TP48600A+2 IBBS300Ds+1 TMC11H (Ver.C) and with two BBUs installed in the TP48600A in 110 V AC or 220 V AC scenarios. When the IBBS300T is Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 401 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables configured, the power cable for the junction box is not required. Connections of other power cables are the same as those when the IBBS300D is configured. The following uses the IBBS300D as an example. NOTE If only one BBU is installed in the TP48600A, only two BBU power cables are required. Figure 1-130 Power cable connections in a DBS3900 with the configuration of 1 TP48600A+2 IBBS300Ds+1 TMC11H (Ver.C) The following table describes the power cable connections. Table 1-253 Power cable connections in a base station with the configuration of 1 TP48600A+2 IBBS300Ds+1 TMC11H (Ver.C) No. Description P1 PDU05A-03 power cable P2 to P5 1.6.4.2 BBU Power Cable P6 1.6.1.1.6 DCDU-11C Power Cable P7 1.6.3.10 Fan Power Cables in an IBBS300D P8 Power cable for the storage battery cabinet P9 1.6.1.4.1 Power Cable for a Junction Box (Optional in the IBBS300D) P10 to P21 1.6.4.4 RRU Power Cable P22 Cascading power cable for the fans Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 402 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.1.10.15 Power Cable Connections in a DBS3900 Using the IBC10 This section describes the power cable connections in an IBC10 used by a DBS3900 supplied with -48 V DC input power. Power Cable Connections in a DC IBC10 The following figure shows the power cable connections in a DC IBC10 (housing a USU3900) in -48 V DC scenarios. Figure 1-131 Power cable connections in a DC IBC10 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 403 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes power cable connections in a DC IBC10 in -48 V DC scenarios. Table 1-254 Power cable connections in a DC IBC10 No. Description P0 1.6.1.1.9 DCDU-12C Power Cable P1, P2, and P15 USU power cable P3 to P12 1.6.4.2 BBU Power Cable P13 and P14 Power cable for the fan assembly Power Cable Connections in a DC IBC10 The following figure shows the power cable connections in a DC IBC10 (housing a USU3910) in -48 V DC scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 404 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-132 Power cable connections in a DC IBC10 The following table describes power cable connections in a DC IBC10 in -48 V DC scenarios. Table 1-255 Power cable connections in a DC IBC10 No. Description P0 1.6.1.1.9 DCDU-12C Power Cable P1 to P20 1.6.4.2 BBU Power Cable P21 and P25 Power cables for the first-level USU 0 P22 and P26 Power cables for the first-level USU 1 P23 and P24 Power cable for the fan assembly Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 405 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description P27 and P28 Power cables for the second-level USU 0 1.3.1.10.16 Power Cable Connections in a DBS3900 Using the ILC29 (Ver.E) This section describes the power cable connections in an ILC29 (Ver.E) used by the DBS3900. This following figure shows the power cable connections in an ILC29 (Ver.E) used by the DBS3900. Figure 1-133 ILC29 (Ver.E) power cable connections The following table describes the power cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 406 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-256 ILC29 (Ver.E) power cable connections No. Description P1 DCDU-12B power cable P2 EPU02D-02 power cable/DCDU16D power cable P3 FAU02D-15 power cable P4 BBU power cable P5 RRU power cable 1.3.1.11 Power Cable Connections in a DBS3900 Configured with a BBU3910A This section describes the power cable connections in a DBS3900 configured with a BBU3910A. Power Cable Connections in 110 V AC or 220 V AC Scenarios The following figure shows the power cable connections in a base station that is supplied with AC power and configured with 2 OPM50Ms+1 BBU3910A+6 RRUs+4 IBBS20Ds. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 407 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-134 Power cable connections in an AC scenario where 2 OPM50Ms+1 BBU3910A+6 RRUs+4 IBBS20Ds are configured The following table describes the power cables. Table 1-257 Power cables in a scenario where 2 OPM50Ms+1 BBU3910A+6 RRUs +4 IBBS20Ds are configured No. Description P1 1.6.1.4.3 Power Cable for a Power Distribution Box P2 1.6.4.4 RRU Power Cable P3 1.6.1.4.7 Power Cable Between Cascaded IBBS20Ds P4 1.6.4.2 BBU Power Cable The following figure shows the power cable connections in a base station that is supplied with AC power and configured with 2 OPM50Ms+1 BBU3910A+6 RRUs+4 IBBS20Ls. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 408 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-135 Power cable connections in an AC scenario where 2 OPM50Ms+1 BBU3910A+6 RRUs+4 IBBS20Ls are configured The following table describes the power cables. Table 1-258 Power cables in a scenario where 2 OPM50Ms+1 BBU3910A+6 RRUs +4 IBBS20Ls are configured No. Description P1 IBBS20L Power Cable P2 1.6.4.4 RRU Power Cable P3 Power Cable Between Cascaded IBBS20Ls P4 1.6.4.2 BBU Power Cable Power Cable Connections in -48 V DC Scenarios The following figure shows the power cable connections in a base station that is supplied with DC power and configured with 1 BBU3910A+6 RRUs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 409 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-136 Power cable connections in a DC scenario where 1 BBU3910A+6 RRUs are configured The following table describes the power cables. Table 1-259 Power cables in a scenario where 1 BBU3910A+6 RRUs are configured No. Description P1 1.6.4.2 BBU Power Cable P2 1.6.4.4 RRU Power Cable 1.3.1.12 BTS3900C Power Cable Connections This section describes power cable connections for the BTS3900C when it is configured with different types of cabinets. 1.3.1.12.1 BTS3900C WCDMA Power Cable Connections This section describes the power cable connections in a BTS3900C AC cabinet and a BTS3900C DC cabinet. ● BTS3900C AC cabinet Figure 1-137 shows the power cable connections of the BTS3900C AC cabinet. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 410 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-137 Power cable connections in a BTS3900C AC cabinet Table 1-260 describes the power cables in the BTS3900C AC cabinet. Table 1-260 Power cables in a BTS3900C AC cabinet No. Issue 16 (2021-08-13) Cable P1 Power cable for the inner air circulation fan P2 HEUA power cable P3 BBU power cable P4 DCDU-05 power cable P5 Power cable for the outer air circulation fan P6 RRU power cable P7 EPS30-4815AF Power Cable P8 Power Cable for the AC Surge Protection Box Copyright © Huawei Technologies Co., Ltd. 411 3900 & 5900 Series Base Station Cables ● 1 3900 & 5900 Series Base Station Cables BTS3900C DC cabinet Figure 1-138 shows the power cable connections of the BTS3900C DC cabinet. Figure 1-138 Power cable connections in a BTS3900C DC cabinet Table 1-261 describes the power cables in the BTS3900C DC cabinet. Table 1-261 Power cables in a BTS3900C DC cabinet No. Cable P1 Power cable for the inner air circulation fan P2 HEUA power cable P3 Power cable for the outer air circulation fan P4 HEUA power cable P5 RRU power cable P6 DCDU-03B power cable 1.3.1.12.2 BTS3900C (Ver.C) Power Cable Connections This section describes the power cable connections in a BTS3900C AC cabinet and a BTS3900C DC cabinet. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 412 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Power Cable Connections in a BTS3900C AC Cabinet The following figure shows the power cable connections in a BTS3900C AC cabinet. Figure 1-139 Power cable connections in a BTS3900C AC cabinet Table 1-262 Power cables in a BTS3900C AC cabinet No. Description P1 For details, see 1.6.2.7 HEUB Power Cable. P2 For details, see 1.6.4.2 BBU Power Cable. P3 For details, see 1.6.1.2.12 ETP48100-A1 Power Cable. P4, P6 For details, see 1.6.1.3.1 PDU10D-01 Power Cable. P5 For details, see 1.6.4.4 RRU Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 413 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Power Cable Connections in a BTS3900C DC Cabinet The following figure shows the power cable connections in a BTS3900C DC cabinet. Figure 1-140 Power cable connections in a BTS3900C DC cabinet Table 1-263 Power cables in a BTS3900C DC cabinet No. Description P1 For details, see 1.6.2.7 HEUB Power Cable. P2 For details, see 1.6.4.2 BBU Power Cable. P3 For details, see 1.6.4.4 RRU Power Cable. P4 For details, see 1.6.1.3.1 PDU10D-01 Power Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 414 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.2 Monitoring Signal Cable Connections This section describes monitoring signal cable connections for the BTS3900, BTS3900L, BTS3900A, BTS3900AL, DBS3900, and BTS3900C. 1.3.2.1 BTS5900 Monitoring Signal Cable Connections This section describes monitoring signal cable connections for the BTS5900 configured with different types of cabinets. 1.3.2.1.1 BTS3900 (Ver.E_A~D) Monitoring Signal Cable Connections BTS3900 (Ver.E_A~D) monitoring signal cable connections include the monitoring signal cable connections in the BTS3900 (Ver.A), BTS3900 (Ver.B), BTS3900 (Ver.C), and BTS3900 (Ver.D) cabinets, and the monitoring signal cable connections in the BTS3900 (Ver.E_A~D) cabinets that are restructured from these cabinets. The monitoring signal cable connections vary depending on the type of cabinet, for example, the BTS3900 (Ver.A), BTS3900 (Ver.B), BTS3900 (Ver.C), or BTS3900 (Ver.D) cabinet, which is to be restructured into the BTS3900 (Ver.E_A~D) cabinet, as listed in the following table. Table 1-264 Monitoring signal cable connections Reuse Scenario Monitoring Signal Cable Connections Upgrade from BTS3900 (Ver.A) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.A/Ver.B) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.B) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.A/Ver.B) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.C) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.C) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.D) to BTS3900 (Ver.E_A~D) Upgrade from BTS3900 (Ver.D) to BTS3900 (Ver.E_A~D) 1.3.2.1.2 BTS5900 (Ver.A) Monitoring Signal Cable Connections This section describes the monitoring signal cable connections in a BTS5900 (Ver.A). The following figure shows the BTS5900 (Ver.A) monitoring signal cable connections in -48 V DC input scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 415 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-141 BTS5900 (Ver.A) monitoring signal cable connections The following table describes the monitoring signal cable connections. Table 1-265 BTS5900 (Ver.A) monitoring signal cable connections No. Description S1 and S2 1.8.4.3 ELU Signal Cable S3 Monitoring signal cable between cascaded FAN 03Ds S4 FAN 03D monitoring signal cable S5 EPU02D-02 monitoring signal cable 1.3.2.2 BTS5900L Monitoring Signal Cable Connections This section describes monitoring signal cable connections for the BTS5900L configured with different types of cabinets. 1.3.2.2.1 BTS3900L (Ver.E_B~D) Monitoring Signal Cable Connections BTS3900L (Ver.E_B~D) monitoring signal cable connections include the monitoring signal cable connections in the BTS3900L (Ver.B), BTS3900L (Ver.C), and BTS3900L (Ver.D) cabinets, and the monitoring signal cable connections in the BTS3900L (Ver.E_B~D) cabinets that are restructured from these cabinets. The monitoring signal cable connections vary depending on the type of cabinet, for example, the BTS3900L (Ver.B), BTS3900L (Ver.C), or BTS3900L (Ver.D) cabinet, which is to be restructured into the BTS3900L (Ver.E_B~D) cabinet, as listed in the following table. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 416 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-266 Monitoring signal cable connections Reuse Scenario Monitoring Signal Cable Connections Upgrade from BTS3900L (Ver.B) to BTS3900L (Ver.E_B~D) Upgrade from BTS3900L (Ver.B) to BTS3900L (Ver.E_B~D) Upgrade from BTS3900L (Ver.C) to BTS3900L (Ver.E_B~D) Upgrade from BTS3900L (Ver.C/Ver.D) to BTS3900L (Ver.E_B~D) Upgrade from BTS3900L (Ver.D) to BTS3900L (Ver.E_B~D) Upgrade from BTS3900L (Ver.C/Ver.D) to BTS3900L (Ver.E_B~D) 1.3.2.2.2 BTS5900L (Ver.A) Monitoring Signal Cable Connections This section describes the monitoring signal cable connections in a BTS5900L (Ver.A). The following figure shows the BTS5900L (Ver.A) monitoring signal cable connections in -48 V DC input scenarios. Figure 1-142 BTS5900L (Ver.A) monitoring signal cable connections Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 417 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the monitoring signal cable connections. Table 1-267 BTS5900L (Ver.A) monitoring signal cable connections No. Description S1 1.8.4.3 ELU Signal Cable S2 Monitoring signal cable between cascaded FAN 03Ds S3 FAN 03D monitoring signal cable S4 EPU02D-02 monitoring signal cable 1.3.2.3 BTS5900A Monitoring Signal Cable Connections This section describes the monitoring signal cable connections of the BTS5900A. NOTE ● The position of the CMUH in the front door of an IBBS200T is different from the position of the CMUH in the front door of an IBBS200D, but the monitoring schemes are the same. This section uses the IBBS200D as an example. When connecting cables for an IBBS200T, ensure that the cables are connected to right positions. ● The position of the CMUH in the front door of an IBBS300T is different from the position of the CMUH in the front door of an IBBS300D, but the monitoring schemes are the same. This section uses the IBBS300D as an example. When connecting cables for an IBBS300T, ensure that the cables are connected to right positions. ● When a base station is configured with two BBUs, BBU 1 is not used for monitoring. In this case, the monitoring cable connections are the same as those when only one BBU is configured. This section uses a base station configured with two BBUs as an example. ● The boards to be monitored are cascaded in sequence. If a board is not configured, the monitoring signal cable is connected to its lower-level board. Monitoring Signal Cable Connections in a 110 V AC or 220 V AC Scenario The following figure shows the monitoring signal cable connections for a BTS5900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 418 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-143 Monitoring signal cable connections for a BTS5900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H The following table describes the monitoring signal cable connections. Table 1-268 Monitoring signal cable connections for a BTS5900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ CCUC-BBU Monitoring Signal Cable S2 and S4 CMUH-CCUB Monitoring Signal Cable/1.8.2.24 CMUH-CCUC Monitoring Signal Cable S3 EMUA or EMUB Monitoring Signal Cable S5 CCUB-CMUH Monitoring Signal Cable/1.8.2.26 CCUC-CMUH Monitoring Signal Cable S6 Monitoring Signal Cable for a Battery Cabinet S7 Door Status Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 419 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S8 Monitoring Signal Cables for Temperature Sensors S9 Monitoring Signal Cable Between Cascaded CMUHs S10 PMIU-CCUB Monitoring Signal Cable/1.8.1.14 PMIU-CCUC Monitoring Signal Cable The following figure shows the monitoring signal cable connections for a BTS5900A configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H. Figure 1-144 Monitoring signal cable connections for a BTS5900A configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H The following table describes the monitoring signal cable connections. Table 1-269 Monitoring signal cable connections for a BTS5900A configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H No. Description S0 ELU Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 420 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S1 CCUB-BBU Monitoring Signal Cable/ CCUC-BBU Monitoring Signal Cable S2 and S4 CMUH-CCUB Monitoring Signal Cable/1.8.2.24 CMUH-CCUC Monitoring Signal Cable S3 EMUA or EMUB Monitoring Signal Cable S5 CCUB-CMUH Monitoring Signal Cable/1.8.2.26 CCUC-CMUH Monitoring Signal Cable S6 Monitoring Signal Cable for a Battery Cabinet S7 Door Status Monitoring Signal Cable S8 Monitoring Signal Cables for Temperature Sensors S9 1.8.2.14 Monitoring Signal Cable Between Cascaded CCU01D-03s S10 PMIU-CCUB Monitoring Signal Cable/1.8.1.14 PMIU-CCUC Monitoring Signal Cable Monitoring Signal Cable Connections in -48 V DC Input Scenarios The following figure shows the monitoring signal cable connections for a BTS5900A configured with 2 RFCs+1 TMC11H. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 421 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-145 Monitoring signal cable connections for a BTS5900A configured with 2 RFCs+1 TMC11H The following table describes the monitoring signal cable connections. Table 1-270 Monitoring signal cable connections for a BTS5900A configured with 2 RFCs+1 TMC11H No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ CCUC-BBU Monitoring Signal Cable S2 CMUH-CCUB Monitoring Signal Cable/1.8.2.24 CMUH-CCUC Monitoring Signal Cable S3 EMUA or EMUB Monitoring Signal Cable S4 Monitoring Signal Cable Between Cascaded CMUHs S5 Door Status Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 422 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S6 Monitoring Signal Cables for Temperature Sensors 1.3.2.4 DBS5900 Monitoring Signal Cable Connections (BBU5900) This section describes monitoring signal cable connections for the DBS5900 configured with different types of cabinets. 1.3.2.4.1 Monitoring Signal Cable Connections in a DBS5900 Using the APM5930(AC) This section describes the monitoring signal cable connections in a DBS5900 using the APM5930(AC). 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200Ds NOTE ● The position of the CMUH in the front door of a BBC5200T/BBC5200D-L is different from that in the front door of a BBC5200D, but the monitoring schemes are the same. This section uses the BBC5200D as an example. When connecting cables for a BBC5200T/BBC5200D-L, ensure that the cables are connected to right positions. ● The position of the CCU01D-03/CMUH in the front door of a BBC5300T is different from that of a CCU01D-03/CMUH in the front door of a BBC5300D, but the monitoring schemes are the same. This section uses the BBC5300D as an example. When connecting cables for a BBC5300T, ensure that the cables are connected to right positions. ● When a base station is configured with two BBUs, BBU 1 is not used for monitoring. In this case, the monitoring signal cable connections are the same as those when only one BBU is configured. This section uses a base station configured with two BBUs as an example. ● The boards to be monitored are cascaded one by one. If a certain board is not configured, the monitoring signal cable directly connects to the lower-level board. The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200Ds. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 423 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-146 Monitoring signal cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200Ds The following table describes the monitoring signal cables. Table 1-271 Monitoring signal cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200Ds No. Description S0 ELU Signal Cable S1 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable Between Cascaded CMUHs S3 EMUB Monitoring Signal Cable S4 Monitoring Signal Cable for Connecting Cascaded CCUCs S5 Monitoring Signal Cable for a Door Status Sensor Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 424 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S6 Monitoring Signal Cable for a Battery Cabinet S7 PMID-CCUC Monitoring Signal Cable 1 APM5930(AC)+1 APM5930(DC)+2 BBC5300Ds The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5300Ds. Figure 1-147 Monitoring signal cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5300Ds The following table describes the monitoring signal cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 425 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-272 Monitoring signal cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5300Ds No. Description S0 ELU Signal Cable S1 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable Between Cascaded CCU01D-03 Modules/ 1.8.2.22 Monitoring Signal Cable Between Cascaded CMUHs S3 EMUB Monitoring Signal Cable S4 Monitoring Signal Cable for Connecting Cascaded CCUCs S5 Monitoring Signal Cable for a Door Status Sensor S6 Monitoring Signal Cable for a Battery Cabinet S7 PMID-CCUC Monitoring Signal Cable 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200D-Ls The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200DLs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 426 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-148 Monitoring signal cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200D-Ls The following table describes the monitoring signal cable connections. Table 1-273 Monitoring signal cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200D-Ls No. Description S0 ELU Signal Cable S1 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable Between Cascaded CMUHs S3 EMUB Monitoring Signal Cable S4 Monitoring Signal Cable for Connecting Cascaded CCUCs S5 Monitoring Signal Cable for a Door Status Sensor Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 427 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S6 Monitoring Signal Cable for a Battery Cabinet S7 PMID-CCUC Monitoring Signal Cable S8 1.8.3.13 HAU03A-02 Monitoring Signal Cable S9 1.8.1.24 Monitoring Signal Cable for the Lithium Battery 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200T-Ls The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200TLs. Figure 1-149 Monitoring signal cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200T-Ls The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 428 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-274 Monitoring signal cable connections in a base station with the configuration of 1 APM5930(AC)+1 APM5930(DC)+2 BBC5200T-Ls No. Description S0 ELU Signal Cable S1 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable Between Cascaded CMUHs S3 EMUB Monitoring Signal Cable S4 Monitoring Signal Cable for Connecting Cascaded CCUCs S5 Monitoring Signal Cable for a Door Status Sensor S6 Monitoring Signal Cable for a Battery Cabinet S7 PMID-CCUC Monitoring Signal Cable S8 BBC5200T-L air conditioner monitoring signal cable S9 1.8.1.24 Monitoring Signal Cable for the Lithium Battery 1.3.2.4.2 Monitoring Signal Cable Connections in a DBS5900 Using the APM5930(DC) This section describes the monitoring signal cable connections in a DBS5900 using the APM5930(DC). NOTE ● When a base station is configured with two BBUs, BBU 1 is not used for monitoring. In this case, the monitoring signal cable connections are the same as those when only one BBU is configured. This section uses a base station configured with two BBUs as an example. ● The boards to be monitored are cascaded one by one. If a certain board is not configured, the monitoring signal cable directly connects to the lower-level board. The following figure shows the monitoring signal cable connections when two APM5930(DC) cabinets are configured. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 429 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-150 Monitoring signal cable connections in a base station configured with two APM5930(DC) cabinets The following table describes the monitoring signal cables. Table 1-275 Monitoring signal cable connections in a base station configured with two APM5930(DC) cabinets No. Description S0 ELU Signal Cable S1 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable for a Door Status S3 EMUB Monitoring Signal Cable S4 Monitoring Signal Cable for Connecting Cascaded CCUCs 1.3.2.4.3 Monitoring Signal Cable Connections in a DBS5900 Using the APM30H (Ver.E) This section describes the monitoring signal cable connections in a DBS5900 using the APM30H (Ver.E). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 430 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE ● The position of the CMUH in the front door of an IBBS200T is different from the position of the CMUH in the front door of an IBBS200D, but the monitoring schemes are the same. This section uses the IBBS200D as an example. When connecting cables for an IBBS200T, ensure that the cables are connected to right positions. ● The position of the CMUH in the front door of an IBBS300T is different from the position of the CMUH in the front door of an IBBS300D, but the monitoring schemes are the same. This section uses the IBBS300D as an example. When connecting cables for an IBBS300T, ensure that the cables are connected to right positions. ● When a base station is configured with two BBUs, BBU 1 is not used for monitoring. In this case, the monitoring cable connections are the same as those when only one BBU is configured. This section uses a base station configured with two BBUs as an example. ● The boards to be monitored are cascaded in sequence. If a board is not configured, the monitoring signal cable is connected to its lower-level board. 1 APM30H+1 TMC11H+2 IBBS200Ds The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS200Ds. Figure 1-151 Monitoring signal cables in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS200Ds The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 431 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-276 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS200Ds No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ 1.8.2.5 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable Between Cascaded CMUHs S3 EMUA/EMUB Monitoring Signal Cable S4 Monitoring Signal Cable Between Cascaded CCUBs/1.8.2.28 Monitoring Signal Cable Between Cascaded CCUCs S5 Monitoring Signal Cable for a Door Status Sensor S6 Monitoring Signal Cable for a Battery Cabinet S7 PMIU-CCUB Monitoring Signal Cable/1.8.1.14 PMIU-CCUC Monitoring Signal Cable 1 APM30H+1 TMC11H+2 IBBS300Ds The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS300Ds. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 432 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-152 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS300Ds The following table describes the monitoring signal cable connections. Table 1-277 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS300Ds No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ 1.8.2.5 CCUC-BBU Monitoring Signal Cable S2 1.8.2.14 Monitoring Signal Cable Between Cascaded CCU01D-03s S3 EMUA or EMUB Monitoring Signal Cable S4 Monitoring Signal Cable Between Cascaded CCUBs/1.8.2.28 Monitoring Signal Cable Between Cascaded CCUCs Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 433 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S5 Monitoring Signal Cable for a Door Status Sensor S6 Monitoring Signal Cable for a Battery Cabinet S7 PMIU-CCUB Monitoring Signal Cable/1.8.1.14 PMIU-CCUC Monitoring Signal Cable 1 APM30H+1 TMC11H+2 BBC5200D-Ls The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200D-Ls. Figure 1-153 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200D-Ls The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 434 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-278 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200D-Ls No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ 1.8.2.5 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable Between Cascaded CMUHs S3 EMUA/EMUB Monitoring Signal Cable S4 Monitoring Signal Cable Between Cascaded CCUBs/1.8.2.28 Monitoring Signal Cable Between Cascaded CCUCs S5 Monitoring Signal Cable for a Door Status Sensor S6 Monitoring Signal Cable for a Battery Cabinet S7 PMIU-CCUB Monitoring Signal Cable/1.8.1.14 PMIU-CCUC Monitoring Signal Cable S8 1.8.3.13 HAU03A-02 Monitoring Signal Cable S9 1.8.1.24 Monitoring Signal Cable for the Lithium Battery S10 PMU 15A monitoring signal cable 1 APM30H+1 TMC11H+2 BBC5200T-Ls The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200T-Ls. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 435 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-154 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200T-Ls The following table describes the monitoring signal cable connections. Table 1-279 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200T-Ls No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ 1.8.2.5 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable Between Cascaded CMUHs S3 EMUA/EMUB Monitoring Signal Cable S4 Monitoring Signal Cable Between Cascaded CCUBs/1.8.2.28 Monitoring Signal Cable Between Cascaded CCUCs S5 Monitoring Signal Cable for a Door Status Sensor Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 436 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S6 Monitoring Signal Cable for a Battery Cabinet S7 PMIU-CCUB Monitoring Signal Cable/1.8.1.14 PMIU-CCUC Monitoring Signal Cable S8 Monitoring signal cable for the air conditioner S9 1.8.1.24 Monitoring Signal Cable for the Lithium Battery S10 PMU 15A monitoring signal cable 1.3.2.4.4 Monitoring Signal Cable Connections in a DBS5900 Using the TMC11H (Ver.E) This section describes the monitoring signal cable connections in a DBS5900 using the TMC11H (Ver.E). NOTE ● When a base station is configured with two BBUs, BBU 1 is not used for monitoring. In this case, the monitoring signal cable connections are the same as those when only one BBU is configured. This section uses a base station configured with two BBUs as an example. ● The boards to be monitored are cascaded one by one. If a certain board is not configured, the monitoring signal cable directly connects to the lower-level board. The following figure shows the monitoring signal cable connections when two TMC11Hs are configured. Figure 1-155 Monitoring signal cable connections when two TMC11Hs are configured The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 437 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-280 Monitoring signal cable connections when two TMC11Hs are configured No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ 1.8.2.5 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable for a Door Status Sensor S3 EMUA/EMUB Monitoring Signal Cable S4 Monitoring Signal Cable Between Cascaded CCUBs 1.3.2.4.5 Monitoring Signal Cable Connections in a DBS5900 Using the TMC11H (Ver.E) NOTE ● When a base station is configured with two BBUs, BBU 1 is not used for monitoring. In this case, the monitoring signal cable connections are the same as those when only one BBU is configured. This section uses a base station configured with two BBUs as an example. ● The boards to be monitored are cascaded one by one. If a certain board is not configured, the monitoring signal cable directly connects to the lower-level board. The following figure shows the monitoring signal cable connections when two TMC11Hs are configured. Figure 1-156 Monitoring signal cable connections when two TMC11Hs are configured The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 438 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-281 Monitoring signal cable connections when two TMC11Hs are configured No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ 1.8.2.5 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable for a Door Status Sensor S3 EMUA/EMUB Monitoring Signal Cable S4 Monitoring Signal Cable Between Cascaded CCUBs 1.3.2.4.6 Monitoring Signal Cable Connections in a DBS5900 Using the IBC10 (Ver.B) This section describes the monitoring signal cable connections in a DBS5900 using the IBC10 (Ver.B). Monitoring Signal Cable Connections in a DC IBC10 The following figure shows the monitoring signal cable connections in an IBC10 (Ver.B) when -48 V DC power is supplied. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 439 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-157 Monitoring signal cable connections in a DC IBC10 (Ver.B) The following table describes the monitoring signal cables for a DC IBC10 (Ver.B). Table 1-282 Monitoring signal cable connections in a DC IBC10 (Ver.B) No. Description S0 Fan assembly monitoring signal cable S1 ELU signal cable S2 Monitoring signal cable between cascaded fans Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 440 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S3 and S4 Monitoring signal cable for the temperature sensor at the air intake vent of the BBU S5 to S14 GPS clock signal cable (optional) 1.3.2.4.7 Monitoring Signal Cable Connections in a DBS5900 Using the IMB05 This section describes the monitoring signal cable connections in an IMB05 used by the distributed base station. Power Cable Connections in a 220 V AC Input Scenario The following figure shows the monitoring cable connections of an AC IMB05 configured with the ETP48100-B1. Figure 1-158 Monitoring signal cable connections in an AC IMB05 The following table describes the monitoring signal cable connections. Table 1-283 Monitoring signal cable connections in an AC IMB05 No. Description S1 PMU 11A-BBU monitoring signal cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 441 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Monitoring Signal Cable Connections in a -48 V DC Input Scenario The following figure shows the monitoring signal cable connections of a DC IMB05 configured with the EPU02D-02. Figure 1-159 Monitoring signal cable connections in a DC IMB05 The following table describes the monitoring signal cable connections. Table 1-284 Monitoring signal cable connections in a DC IMB05 No. Description S1 PMU 12A-BBU monitoring signal cable S2 Monitoring signal cable between cascaded EPU02D-02s 1.3.2.4.8 Monitoring Signal Cable Connections in a DBS5900 Using the ILC29 (Ver.E) This section describes the monitoring signal cable connections in an ILC29 (Ver.E) used by the DBS5900. This following figure shows the monitoring signal cable connections in an ILC29 (Ver.E) used by the distributed base station. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 442 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-160 Monitoring signal cable connections in an ILC29 (Ver.E) The following table describes the monitoring signal cable connections. Table 1-285 Monitoring signal cable connections No. Description S1 FAU02D-15 monitoring signal cable S2 EPU02D-02 monitoring signal cable S3 Monitoring signal cable between cascaded EPU02D-02s S5 FAU-PMU 12A monitoring signal cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 443 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.2.5 Monitoring Signal Cable Connections in a DBS5900 Using the BBU5900A This section describes the monitoring signal cable connections in a DBS5900 using a BBU5900A. 1 OPM200+1 BBU5900A+6 RRUs The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 OPM200+1 BBU5900A+6 RRUs. Figure 1-161 Monitoring signal cable connections in a base station with the configuration of 1 OPM200+1 BBU5900A+6 RRUs The following table describes the monitoring signal cable connections. Table 1-286 Monitoring signal cable connections in a base station with the configuration of 1 OPM200+1 BBU5900A+6 RRUs No. Description S1 OPM200-BBU monitoring signal cable S2 Monitoring signal cable between cascaded OPM200s 1.3.2.6 BTS3900 Monitoring Signal Cable Connections This section describes monitoring signal cable connections for the BTS3900 when it is configured with different types of cabinets. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 444 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.2.6.1 BTS3900 (Ver.B) Monitoring Signal Cable Connections This section provides reference for onsite installation of monitoring signal cables. NOTE When a base station is configured with two BBUs, BBU 1 is not used for monitoring and all monitoring signal cables are connected to the BBU 0. In this case, the monitoring signal cable connections are the same as those when only one BBU is configured. Monitoring Signal Cable Connections in a BTS3900 AC Cabinet (110 V or 220 V) The following figure shows the monitoring signal cable connections in a BTS3900 AC cabinet (110 V or 220 V). Figure 1-162 Monitoring signal cable connections in a BTS3900 AC cabinet The following table describes the monitoring signal cable connections. Table 1-287 Monitoring signal cable connections in a BTS3900 AC cabinet No. Description S1 and S2 For details, see 1.8.4.3 ELU Signal Cable. S3 For details, see 1.8.2.29 FMUC-BBU Monitoring Signal Cable. S4 For details, see 1.8.3.6 Monitoring Signal Cable Between Cascaded FANs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 445 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S5 and S6 For details, see 1.8.1.3 PMU 01B-BBU Monitoring Signal Cable. S7 For details, see 1.8.4.6 EMU Monitoring Signal Cable. S8 and S9 For details, see 1.8.4.17 GATM Monitoring Signal Cable. Monitoring Signal Cable Connections in a BTS3900 DC Cabinet (-48 V) The following figure shows the monitoring signal cable connections in a BTS3900 DC cabinet (-48 V). Figure 1-163 Monitoring signal cable connections in a BTS3900 DC cabinet (-48 V) The following table describes the monitoring signal cable connections. Table 1-288 Monitoring signal cable connections in a BTS3900 DC cabinet (-48 V) No. Description S1 and S2 For details, see 1.8.4.3 ELU Signal Cable. S3 For details, see 1.8.2.29 FMUC-BBU Monitoring Signal Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 446 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S4 For details, see 1.8.3.6 Monitoring Signal Cable Between Cascaded FANs. S5 For details, see 1.8.4.6 EMU Monitoring Signal Cable. S6 and S7 For details, see 1.8.4.17 GATM Monitoring Signal Cable. Monitoring Signal Cable Connections in a BTS3900 DC Cabinet (+24 V) The following figure shows the monitoring signal cable connections in a BTS3900 DC cabinet (+24 V). Figure 1-164 Monitoring signal cable connections in a BTS3900 DC cabinet (+24 V) The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 447 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-289 Monitoring signal cable connections in a BTS3900 DC cabinet (+24 V) No. Description S1 and S2 For details, see 1.8.4.3 ELU Signal Cable. S3 For details, see 1.8.2.29 FMUC-BBU Monitoring Signal Cable. S4 For details, see 1.8.3.6 Monitoring Signal Cable Between Cascaded FANs. S5 For details, see 1.8.4.6 EMU Monitoring Signal Cable. S6 and S7 For details, see 1.8.4.17 GATM Monitoring Signal Cable. S8 For details, see 1.8.1.18 PSU (EPW25-24S48D) Monitoring Signal Cable. S9 and S10 For details, see 1.8.1.19 PSU (EPW25-24S48D) In-Position Signal Cable. Monitoring Signal Cable Connections Between a BTS3900 Cabinet and a PS4890 The following figure shows the monitoring signal cable connections in a scenario where a BTS3900 cabinet is stacked on a PS4890. Figure 1-165 Monitoring signal cable connections in a scenario where a BTS3900 cabinet is stacked on a PS4890 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 448 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following figure shows the monitoring signal cable connections in a scenario where a BTS3900 cabinet and a PS4890 are installed side by side. Figure 1-166 Monitoring signal cable connections in a scenario where a BTS3900 cabinet and a PS4890 are installed side by side Table 1-290 Monitoring signal cable connections between a BTS3900 cabinet and a PS4890 No. Description S1 For details, see 1.8.1.3 PMU 01B-BBU Monitoring Signal Cable. 1.3.2.6.2 BTS3900 (Ver.C) Monitoring Signal Cable Connections This section provides reference for onsite installation of monitoring signal cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 449 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE When a base station is configured with two BBUs, BBU 1 is not used for monitoring and all monitoring signal cables are connected to the BBU 0. In this case, the monitoring signal cable connections are the same as those when only one BBU is configured. Monitoring Signal Cable Connections in a 110 V or 220 V AC Scenario The following figure shows the monitoring signal cable connections in a BTS3900 AC cabinet (110 V or 220 V). Figure 1-167 Monitoring signal cable connections in a BTS3900 AC cabinet The following table describes the monitoring signal cable connections. Table 1-291 Monitoring signal cable connections in a BTS3900 AC cabinet No. Description S1 and S2 For details, see 1.8.4.3 ELU Signal Cable. S3 For details, see 1.8.2.30 FMUE-BBU Monitoring Signal Cable. S4 For details, see 1.8.3.8 Monitoring Signal Cable Between Cascaded FAN 03B Units. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 450 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S5 and S6 For details, see 1.8.1.3 PMU 01B-BBU Monitoring Signal Cable. S7 For details, see 1.8.4.6 EMU Monitoring Signal Cable. S8 and S9 For details, see 1.8.4.17 GATM Monitoring Signal Cable. Monitoring Signal Cable Connections in the -48 V DC Scenario The following figure shows the monitoring signal cable connections in a BTS3900 DC cabinet (-48 V). Figure 1-168 Monitoring signal cable connections in a BTS3900 DC cabinet The following table describes the monitoring signal cable connections. Table 1-292 Monitoring signal cable connections in a BTS3900 DC cabinet (-48 V) No. Description S1 For details, see 1.8.4.3 ELU Signal Cable. S2 For details, see 1.8.2.30 FMUE-BBU Monitoring Signal Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 451 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S3 and S6 For details, see 1.8.4.17 GATM Monitoring Signal Cable. S4 For details, see 1.8.3.8 Monitoring Signal Cable Between Cascaded FAN 03B Units. S5 For details, see 1.8.4.6 EMU Monitoring Signal Cable. 1.3.2.6.3 BTS3900 (Ver.D) Monitoring Signal Cable Connections This section provides reference for onsite installation of monitoring signal cables. NOTE When a base station is configured with two BBUs, BBU 1 is not used for monitoring and all monitoring signal cables are connected to the BBU 0. In this case, the monitoring signal cable connections are the same as those when only one BBU is configured. Monitoring Signal Cable Connections in the 220 V AC Scenario The following figure shows the monitoring signal cable connections in a BTS3900 configured with 1 BTS3900 AC and supplied with 220 V AC power. Figure 1-169 Monitoring signal cable connections in a BTS3900 configured with 1 BTS3900 AC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 452 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the monitoring signal cable connections in a BTS3900 configured with 1 BTS3900 AC and supplied with 220 V AC power. Table 1-293 Monitoring signal cable connections in a BTS3900 configured with 1 BTS3900 AC No. Description S1 For details, see 1.8.4.3 ELU Signal Cable. S2 For details, see 1.8.2.31 FMUEA-BBU Monitoring Signal Cable. S3 For details, see 1.8.1.4 PMU 11A-BBU Monitoring Signal Cable. The following figure shows the monitoring signal cable connections in a BTS3900 configured with 1 BTS3900 AC+1 IMS06 (for power backup) and supplied with 220 V AC power. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 453 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-170 Monitoring signal cable connections in a BTS3900 configured with 1 BTS3900 AC+1 IMS06 (for power backup) The following table describes the monitoring signal cable connections in a BTS3900 configured with 1 BTS3900 AC+1 IMS06 (for power backup) and supplied with 220 V AC power. Table 1-294 Monitoring signal cable connections in a BTS3900 configured with 1 BTS3900 AC+1 IMS06 (for power backup) No. Description S1 For details, see 1.8.4.3 ELU Signal Cable. S2 For details, see 1.8.2.31 FMUEA-BBU Monitoring Signal Cable. S3 For details, see 1.8.1.4 PMU 11A-BBU Monitoring Signal Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 454 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S4 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. The following figure shows the monitoring signal cable connections in a BTS3900 configured with 1 BTS3900 AC+1 IMS06 (for transmission) and supplied with 220 V AC power. Figure 1-171 Monitoring signal cable connections in a BTS3900 configured with 1 BTS3900 AC+1 IMS06 (for transmission) The following table describes the monitoring signal cable connections in a BTS3900 configured with 1 BTS3900 AC+1 IMS06 (for transmission) and supplied with 220 V AC power. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 455 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-295 Monitoring signal cable connections in a BTS3900 configured with 1 BTS3900 AC+1 IMS06 (for transmission) No. Description S1 For details, see 1.8.4.3 ELU Signal Cable. S2 For details, see 1.8.2.31 FMUEA-BBU Monitoring Signal Cable. S3 For details, see 1.8.1.4 PMU 11A-BBU Monitoring Signal Cable. Monitoring Signal Cable Connections in the -48 V DC Scenario The following figure shows the monitoring signal cable connections in a BTS3900 configured with 2 BTS3900 DC cabinets and supplied with -48 V DC power. Figure 1-172 Monitoring signal cable connections in a BTS3900 configured with 2 BTS3900 DCs The following table describes the monitoring signal cable connections in a BTS3900 configured with 2 BTS3900 DC cabinets and supplied with -48 V DC power. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 456 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-296 Monitoring signal cable connections in a BTS3900 configured with 2 BTS3900 DCs No. Description S1 and S2 For details, see 1.8.4.3 ELU Signal Cable. S3 For details, see 1.8.2.31 FMUEA-BBU Monitoring Signal Cable. S4 For details, see 1.8.3.9 Monitoring Signal Cable Between Cascaded FAN 03C Units. S5 For details, see 1.8.4.6 EMU Monitoring Signal Cable. S6 and S7 For details, see 1.8.4.17 GATM Monitoring Signal Cable. 1.3.2.7 BTS3900L Monitoring Signal Cable Connections This section describes monitoring signal cable connections for the BTS3900L when it is configured with BTS3900L (Ver.B), BTS3900L (Ver.C), and BTS3900L (Ver.D) cabinets. 1.3.2.7.1 BTS3900L (Ver.B) Monitoring Signal Cable Connections This section describes the monitoring signal cable connections in a base station. NOTE When a base station is configured with two BBUs, BBU 1 is not used for monitoring and all monitoring signal cables are connected to the BBU 0. In this case, the monitoring signal cable connections are the same as those when only one BBU is configured. This section describes the scenario when two BBUs are configured. Monitoring Signal Cable Connections in the -48 V DC Scenario The following figure shows the monitoring signal cable connections in a BTS3900L cabinet in the -48 V DC scenario. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 457 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-173 Monitoring signal cable connections in a BTS3900L cabinet in the -48 V DC scenario The following table describes the monitoring signal cable connections in a BTS3900L cabinet. Table 1-297 Monitoring signal cable connections in a BTS3900L cabinet No. Description S1 For details, see 1.8.4.3 ELU Signal Cable. S2 For details, see 1.8.3.6 Monitoring Signal Cable Between Cascaded FANs. S3 For details, see 1.8.2.29 FMUC-BBU Monitoring Signal Cable. S4 and S5 For details, see 1.8.4.17 GATM Monitoring Signal Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 458 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.2.7.2 BTS3900L (Ver.C) Monitoring Signal Cable Connections This section provides reference for onsite installation of monitoring signal cables. NOTE When a base station is configured with two BBUs, BBU 1 is not used for monitoring and all monitoring signal cables are connected to the BBU 0. In this case, the monitoring signal cable connections are the same as those when only one BBU is configured. This section describes the scenario when two BBUs are configured. Monitoring Signal Cable Connections in the -48 V DC Scenario The following figure shows the monitoring signal cable connections in a BTS3900L cabinet in the -48 V DC scenario. Figure 1-174 Monitoring signal cable connections in a BTS3900L cabinet in the -48 V DC scenario The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 459 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-298 Monitoring signal cable connections in a BTS3900L cabinet No. Description S1 For details, see 1.8.4.3 ELU Signal Cable. S2 For details, see 1.8.3.8 Monitoring Signal Cable Between Cascaded FAN 03B Units. S3 For details, see 1.8.2.30 FMUE-BBU Monitoring Signal Cable. S4 and S5 For details, see 1.8.4.17 GATM Monitoring Signal Cable. 1.3.2.7.3 BTS3900L (Ver.D) Monitoring Signal Cable Connections This section provides reference for onsite installation of monitoring signal cables. NOTE When a base station is configured with two BBUs, BBU 1 is not used for monitoring and all monitoring signal cables are connected to the BBU 0. In this case, the monitoring signal cable connections are the same as those when only one BBU is configured. This section describes the scenario when two BBUs are configured. Monitoring Signal Cable Connections in the 220 V AC Scenario The following figure shows the power cable connections in the 220 V AC scenario. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 460 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-175 Monitoring signal cable connections in the 220 V AC scenario The following table describes the monitoring signal cable connections. Table 1-299 Monitoring signal cables in a BTS3900L cabinet No. Description S1 For details, see 1.8.4.3 ELU Signal Cable. S2 For details, see 1.8.3.9 Monitoring Signal Cable Between Cascaded FAN 03C Units. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 461 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S3 For details, see 1.8.1.4 PMU 11A-BBU Monitoring Signal Cable. Monitoring Signal Cable Connections in the -48 V DC Scenario The following figure shows the monitoring signal cable connections in the -48 V DC scenario. Figure 1-176 Monitoring signal cable connections in a -48 V DC scenario The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 462 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-300 Monitoring signal cables in a BTS3900L cabinet No. Description S1 For details, see 1.8.4.3 ELU Signal Cable. S2 For details, see 1.8.3.9 Monitoring Signal Cable Between Cascaded FAN 03C Units. S3 For details, see 1.8.2.31 FMUEA-BBU Monitoring Signal Cable. S4 and S5 For details, see 1.8.4.17 GATM Monitoring Signal Cable. 1.3.2.8 BTS3900A Monitoring Signal Cable Connections This section describes monitoring signal cable connections for the BTS3900A (Ver.C), BTS3900A (Ver.B), and BTS3900A (Ver.D). 1.3.2.8.1 BTS3900A (Ver.B) Monitoring Signal Cable Connections This section describes the monitoring signal cable connections for the BTS3900A (Ver.B) in different power supply scenarios. Monitoring Signal Cable Connections in a 110 V AC or 220 V AC Scenario NOTE ● The position of the CMUA in the front door of the IBBS200T is different from the position of the CMUA in the front door of the IBBS200D, but the monitoring schemes are the same. This section uses the IBBS200D as an example. When connecting cables for an IBBS200T, ensure that the cables are connected to right positions. ● When two BBUs (BBU 0 and BBU 1) are configured in a base station, all monitoring signal cables are connected to the root BBU (BBU 0). Therefore, the monitoring signal cable connections in a base station configured with two BBUs are the same as those in a base station configured with one BBU. The following figure shows the monitoring signal cable connections for the BTS3900A configured with 1 RFC+1 APM30H+1 IBBS200D+1 TMC11H and only one BBU. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 463 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-177 Monitoring signal cable connections for the BTS3900A configured with 1 RFC+1 APM30H+1 IBBS200D+1 TMC11H and one BBU The following table describes the monitoring signal cable connections. Table 1-301 Monitoring signal cable connections for the BTS3900A configured with 1 RFC+1 APM30H+1 IBBS200D+1 TMC11H and one BBU No. Description S0 For details, see 1.8.2.18 HPMI-PMU Monitoring Signal Cable. S1 and S2 For details, see 1.8.2.3 CMUA-BBU Monitoring Signal Cable. S3 For details, see 1.8.1.7 PMU-CMUA Monitoring Signal Cable. S4 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. S5 For details, see 1.8.2.10 Monitoring Signal Cable Between Cascaded CMUAs. S6 For details, see 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 464 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S7 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S8 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. S9 For details, see 1.8.4.3 ELU Signal Cable. The following figure shows the monitoring signal cable connections for the BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds and only one BBU. Figure 1-178 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds and one BBU Table 1-302 describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 465 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-302 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds and one BBU No. Description S0 For details, see 1.8.2.18 HPMI-PMU Monitoring Signal Cable. S1, S2, and S5 For details, see 1.8.2.3 CMUA-BBU Monitoring Signal Cable. S3 For details, see 1.8.1.7 PMU-CMUA Monitoring Signal Cable. S4 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. S6 and S8 For details, see 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet. S7 For details, see 1.8.2.10 Monitoring Signal Cable Between Cascaded CMUAs. S9 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S10 For details, see 1.8.4.3 ELU Signal Cable. S11 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S12 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. When the BTS3900A is configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds and two BBUs, BBU 0 is installed in the basic APM30H on the left side, and BBU 1 is installed in the extension APM30H on the right side. In this scenario, all monitoring signal cables are connected to the root BBU (BBU 0). The following figure shows the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 466 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-179 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds and two BBUs The following table describes the monitoring signal cable connections. Table 1-303 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds and two BBUs No. Description S0 For details, see 1.8.2.18 HPMI-PMU Monitoring Signal Cable. S1, S2, and S5 For details, see 1.8.2.3 CMUA-BBU Monitoring Signal Cable. S3 For details, see 1.8.1.7 PMU-CMUA Monitoring Signal Cable. S4 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. S6 and S8 For details, see 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet. S7 For details, see 1.8.2.10 Monitoring Signal Cable Between Cascaded CMUAs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 467 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S9 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S10 For details, see 1.8.4.3 ELU Signal Cable. S11 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S12 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. Monitoring Signal Cable Connections in the -48 V DC Scenario The following figure shows the monitoring signal cable connections for the BTS3900A configured with 2 RFCs+1 TMC11H and one BBU. Figure 1-180 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+1 TMC11H and one BBU Table 1-304 describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 468 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-304 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+1 TMC11H and one BBU No. Description S0 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S1 and S2 For details, see 1.8.2.3 CMUA-BBU Monitoring Signal Cable. S3 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. S4 For details, see 1.8.4.3 ELU Signal Cable. S5 For details, see 1.8.2.10 Monitoring Signal Cable Between Cascaded CMUAs. S6 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. When the BTS3900A is configured with 2 RFCs+2 TMC11Hs and two BBUs, BBU 0 is installed in the basic TMC11H, and BBU 1 is installed in the extension TMC11H. In this scenario, all monitoring signal cables are connected to the root BBU (BBU 0). The following figure shows the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 469 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-181 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+2 TMC11Hs and two BBUs 1.3.2.8.2 BTS3900A (Ver.C) Monitoring Signal Cable Connections This section describes monitoring signal cables connections for the BTS3900A (Ver.C) in different power supply scenarios. Monitoring Signal Cable Connections in a 110 V AC/220 V AC Scenario NOTE ● The position of the CMUE in the front door of the IBBS200T is different from the position of the CMUE in the front door of the IBBS200D, but the monitoring schemes are the same. This section uses the IBBS200D as an example. When connecting cables for an IBBS200T, ensure that the cables are connected to right positions. ● When two BBUs (BBU 0 and BBU 1) are configured in a base station, all monitoring signal cables are connected to the root BBU (BBU 0). Therefore, the monitoring signal cable connections in a base station configured with two BBUs are the same as those in a base station configured with one BBU. The following figure shows the monitoring signal cable connections for the BTS3900A configured with 1 RFC+1 APM30H+1 IBBS200D+1 TMC11H and only one BBU. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 470 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-182 Monitoring signal cable connections for the BTS3900A configured with 1 RFC+1 APM30H+1 IBBS200D+1 TMC11H and one BBU The following table describes the monitoring signal cable connections. Table 1-305 Monitoring signal cable connections for the BTS3900A configured with 1 RFC+1 APM30H+1 IBBS200D+1 TMC11H and one BBU No. Description S0 For details, see 1.8.2.18 HPMI-PMU Monitoring Signal Cable. S1 and S2 For details, see 1.8.2.6 CMUE-BBU Monitoring Signal Cable. S3 For details, see 1.8.1.8 PMU-CMUE Monitoring Signal Cable. S4 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 471 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S5 For details, see 1.8.2.11 Monitoring Signal Cable Between Cascaded CMUEs. S6 For details, see 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet. S7 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S8 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. S9 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S10 For details, see 1.8.4.3 ELU Signal Cable. The following figure shows the monitoring signal cable connections in a BTS3900A where the configuration is 2 RFCs+2 APM30Hs+2 IBBS200Ds and one BBU. Figure 1-183 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds and one BBU The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 472 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-306 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds and one BBU No. Description S0 For details, see 1.8.2.18 HPMI-PMU Monitoring Signal Cable. S1, S2, and S5 For details, see 1.8.2.6 CMUE-BBU Monitoring Signal Cable. S3 For details, see 1.8.1.8 PMU-CMUE Monitoring Signal Cable. S4 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. S6 and S8 For details, see 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet. S7 For details, see 1.8.2.11 Monitoring Signal Cable Between Cascaded CMUEs. S9 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S10 For details, see 1.8.4.3 ELU Signal Cable. S11 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S12 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. When the BTS3900A configuration is 2 RFCs+2 APM30Hs+2 IBBS200Ds and two BBUs, BBU 0 is installed in the basic APM30H on the left, BBU 1 is installed in the extension APM30H on the right, and all monitoring signal cables are connected to BBU 0. The monitoring signal cable connections in this scenario are shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 473 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-184 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds and two BBUs The following table describes the monitoring signal cable connections. Table 1-307 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+2 APM30Hs+2 IBBS200Ds and two BBUs No. Description S0 For details, see 1.8.2.18 HPMI-PMU Monitoring Signal Cable. S1, S2, and S5 For details, see 1.8.2.6 CMUE-BBU Monitoring Signal Cable. S3 For details, see 1.8.1.8 PMU-CMUE Monitoring Signal Cable. S4 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. S6 and S8 For details, see 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet. S7 For details, see 1.8.2.11 Monitoring Signal Cable Between Cascaded CMUEs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 474 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S9 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S10 For details, see 1.8.4.3 ELU Signal Cable. S11 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S12 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. Monitoring Signal Cable Connections in the -48 V DC Power Supply Scenario The following figure shows the monitoring signal cable connections for the BTS3900A configured with 2 RFCs+1 TMC11H and only one BBU. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 475 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-185 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+1 TMC11H and one BBU The following table describes the monitoring signal cable connections. Table 1-308 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+1 TMC11H and one BBU No. Description S0 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S1 and S2 For details, see 1.8.2.6 CMUE-BBU Monitoring Signal Cable. S3 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. S4 For details, see 1.8.4.3 ELU Signal Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 476 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S5 For details, see 1.8.2.11 Monitoring Signal Cable Between Cascaded CMUEs. S6 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. S7 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. When the BTS3900A configuration is 2 RFCs+2 TMC11Hs and two BBUs, BBU 0 is installed in the basic TMC11H on the left, BBU 1 is installed in the extension TMC11H on the right, and all monitoring signal cables are connected to BBU 0. The monitoring signal cable connections in this scenario are shown in the following figure. Figure 1-186 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+2 TMC11Hs and two BBUs Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 477 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the monitoring signal cable connections. Table 1-309 Monitoring signal cable connections for the BTS3900A configured with 2 RFCs+2 TMC11Hs and two BBUs No. Description S0 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S1 and S2 For details, see 1.8.2.6 CMUE-BBU Monitoring Signal Cable. S3 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. S4 For details, see 1.8.4.3 ELU Signal Cable. S5 For details, see 1.8.2.11 Monitoring Signal Cable Between Cascaded CMUEs. S6 For details, see 1.8.3.18 Monitoring Signal Cable for the Temperature Sensor in the RFC. S7 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. 1.3.2.8.3 BTS3900A (Ver.D) Monitoring Signal Cable Connections This section describes monitoring signal cables connections for the BTS3900A (Ver.D) in different power supply scenarios. Click the cable numbers in the following figures to view the connections on both ends of each cable. NOTE ● The position of the CMUEA in the front door of the IBBS200T is different from the position of the CMUEA in the front door of the IBBS200D, but the monitoring schemes are the same. This section uses the IBBS200D as an example. When connecting cables for an IBBS200T, ensure that the cables are connected to right positions. ● When two BBUs (BBU 0 and BBU 1) are configured in a base station, all monitoring signal cables are connected to the root BBU (BBU 0). Therefore, the monitoring signal cable connections in a base station configured with two BBUs are the same as those in a base station configured with one BBU. This section uses a base station configured with two BBUs as an example. Monitoring Signal Cable Connections in a 110 V AC/220 V AC Scenario The following figure shows the monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 478 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-187 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H The following table describes the monitoring signal cable connections. Table 1-310 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H Cable No. Description S0 For details, see ELU Signal Cable. S1 and S2 For details, see 1.8.2.7 CMUEA-BBU Monitoring Signal Cable. S3 For details, see 1.8.1.2 PMU 11ACMUEA Monitoring Signal Cable. S4 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. S5 For details, see 1.8.2.13 Monitoring Signal Cable Between Cascaded CMUEAs. S6 For details, see 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet. S7 and S9 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 479 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable No. Description S8 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. The following figure shows the monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H. Figure 1-188 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H The following table describes the monitoring signal cable connections. Table 1-311 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H Cable No. Description S0 For details, see ELU Signal Cable. S1 and S2 For details, see 1.8.2.7 CMUEA-BBU Monitoring Signal Cable. S3 For details, see 1.8.1.2 PMU 11ACMUEA Monitoring Signal Cable. S4 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 480 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable No. Description S5 For details, see 1.8.2.13 Monitoring Signal Cable Between Cascaded CMUEAs. S6 For details, see 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet. S7 and S9 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S8 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. S10 For details, see 1.8.2.14 Monitoring Signal Cable Between Cascaded CCU01D-03s. The following figure shows the monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+1 IBBS700D+1 TMC11H. Figure 1-189 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+1 IBBS700D+1 TMC11H The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 481 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-312 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+1 IBBS700D+1 TMC11H Cable No. Description S0 For details, see ELU Signal Cable. S1 and S2 For details, see 1.8.2.7 CMUEA-BBU Monitoring Signal Cable. S3 For details, see 1.8.1.2 PMU 11ACMUEA Monitoring Signal Cable. S4 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. S5 For details, see 1.8.2.13 Monitoring Signal Cable Between Cascaded CMUEAs. S6 For details, see 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet. S7 and S9 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S8 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. S10 For details, see HAU01A-01 Monitoring Signal Cable. Monitoring Signal Cable Connections in the -48 V DC Power Supply Scenario The following figure shows the monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 TMC11H. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 482 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-190 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 TMC11H The following table describes the monitoring signal cable connections. Table 1-313 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 TMC11H No. Description S0 For details, see 1.8.4.3 ELU Signal Cable. S1 and S2 For details, see 1.8.2.7 CMUEA-BBU Monitoring Signal Cable. S3 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 483 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S4 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S5 For details, see 1.8.2.13 Monitoring Signal Cable Between Cascaded CMUEAs. S6 For details, see 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor. 1.3.2.8.4 BTS3900A (Ver.E) Monitoring Signal Cable Connections This section describes the monitoring signal cable connections for the BTS3900A (Ver.E) in different power supply scenarios. Click the cable numbers in the following figures to view the connections on both ends of each cable. NOTE ● The position of the CMUH in the front door of an IBBS200T is different from the position of the CMUH in the front door of an IBBS200D, but the monitoring schemes are the same. This section uses the IBBS200D as an example. When connecting cables for an IBBS200T, ensure that the cables are connected to right positions. ● The position of the CMUH in the front door of an IBBS300T is different from the position of the CMUH in the front door of an IBBS300D, but the monitoring schemes are the same. This section uses the IBBS300D as an example. When connecting cables for an IBBS300T, ensure that the cables are connected to right positions. ● When a base station is configured with two BBUs, BBU 1 is not used for monitoring. In this case, the monitoring cable connections are the same as those when only one BBU is configured. This section uses a base station configured with two BBUs as an example. ● The boards to be monitored are cascaded in sequence. If a board is not configured, the monitoring signal cable is connected to its lower-level board. Monitoring Signal Cable Connections in a 110 V AC or 220 V AC Scenario The following figure shows the monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 484 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-191 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H The following table lists monitoring signal cable connections. Table 1-314 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS200Ds+1 TMC11H No. Description S0 For details, see ELU Signal Cable. S1 For details, see CCUB-BBU Monitoring Signal Cable/CCUC-BBU Monitoring Signal Cable. S2 and S4 For details, see CMUH-CCUB Monitoring Signal Cable/CCUCCMUH Monitoring Signal Cable. S3 For details, see EMUA or EMUB Monitoring Signal Cable. S5 For details, see CCUB-CMUH Monitoring Signal Cable/CCUCCMUH Monitoring Signal Cable. S6 For details, see Monitoring Signal Cable for a Battery Cabinet. S7 For details, see Monitoring Signal Cables for Door Status Sensors. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 485 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S8 For details, see Monitoring Signal Cables for Temperature Sensors. S9 For details, see Monitoring Signal Cable Between Cascaded CMUHs. S10 For details, see PMIU-CCUB Monitoring Signal Cable/PMIU-CCUC Monitoring Signal Cable. The following figure shows the monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H. Figure 1-192 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H The following table lists monitoring signal cable connections. Table 1-315 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 APM30H+2 IBBS300Ds+1 TMC11H No. Description S0 For details, see ELU Signal Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 486 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S1 For details, see CCUB-BBU Monitoring Signal Cable/CCUC-BBU Monitoring Signal Cable. S2 and S4 For details, see CMUH-CCUB Monitoring Signal Cable/CCUCCMUH Monitoring Signal Cable. S3 For details, see EMUA or EMUB Monitoring Signal Cable. S5 For details, see CCUB-CMUH Monitoring Signal Cable/CCUCCMUH Monitoring Signal Cable. S6 For details, see Monitoring Signal Cable for a Battery Cabinet. S7 For details, see Monitoring Signal Cables for Door Status Sensors. S8 For details, see Monitoring Signal Cables for Temperature Sensors. S9 For details, see 1.8.2.14 Monitoring Signal Cable Between Cascaded CCU01D-03s. S10 For details, see PMIU-CCUB Monitoring Signal Cable/CCUCCMUH Monitoring Signal Cable. Monitoring signal cable connections in a -48 V DC scenario The following figure shows the monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 TMC11H. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 487 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-193 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 TMC11H The following table lists monitoring signal cable connections. Table 1-316 Monitoring signal cable connections for a BTS3900A configured with 2 RFCs+1 TMC11H No. Description S0 For details, see ELU Signal Cable. S1 For details, see CCUB-BBU Monitoring Signal Cable/CCUC-BBU Monitoring Signal Cable. S2 For details, see CMUH-CCUB Monitoring Signal Cable/CCUCCMUH Monitoring Signal Cable. S3 For details, see EMUA or EMUB Monitoring Signal Cable. S4 For details, see Monitoring Signal Cable Between Cascaded CMUHs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 488 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S5 For details, see Monitoring Signal Cables for Door Status Sensors. S6 For details, see Monitoring Signal Cables for Temperature Sensors. 1.3.2.8.5 BTS3900A (Ver.D_A2) Monitoring Signal Cable Connections This section describes the monitoring signal cable connections in a BTS3900A in 110 V or 220 V AC and -48 V DC scenarios. Monitoring Signal Cable Connections in a 110 V or 220 V AC Scenario NOTE If a device is not configured, ignore the monitoring signal cable connections for the device in the figures. When a BTS3900A is in the configuration of 1 APM30H+1 TMC11H+1 IBBS200T+2 RFCs and is supplied with 110 V or 220 V AC power, the monitoring signal cable connections are shown in the following figure. Figure 1-194 Monitoring signal cable connections in the configuration of 1 APM30H+1 TMC11H+1 IBBS200T+2 RFCs Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 489 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the monitoring signal cable connections. Table 1-317 Monitoring signal cable connections in the configuration of 1 APM30H+1 TMC11H+1 IBBS200T+2 RFCs No. Description S1 Monitoring signal cable for the door status sensor in the IBBS200T S2 PMU-CMUEA monitoring signal cable S3 EMUA/EMUB monitoring signal cable (optional) S4 Monitoring signal transfer cable for the fan in the front door S5 Monitoring signal cable for the door status sensor in an APM30H S6 and S14 ELU signal cable S7 and S8 CMUEA-BBU monitoring signal cable S9 and S17 Monitoring signal cable between cascaded CMUEAs S10 and S16 Monitoring signal cable for the fan assembly in the RFC S11 and S12 Surge protection alarm cable for the DCDU-13A S13, S18, and S19 Monitoring signal cable for the door status sensor S15 Monitoring signal cable for the temperature sensor Monitoring Signal Cable Connections in the -48 V DC Scenario The following figure shows the power cable connections for a BTS3900A configured with 1 TMC11H+2 RFCs in a -48 V DC input scenario. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 490 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-195 Monitoring signal cable connections in the configuration of 1 TMC11H+2 RFCs The following table describes the monitoring signal cable connections. Table 1-318 Monitoring signal cable connections in the configuration of 1 TMC11H+2 RFCs No. Description S1 and S11 Monitoring signal cable for the door status sensor S2 EMUA/EMUB monitoring signal cable (optional) S3 Monitoring signal transfer cable for the fan in the front door S4 and S6 CMUEA-BBU monitoring signal cable S5 and S12 ELU signal cable S7 Monitoring signal cable between cascaded CMUEAs S8 and S14 Monitoring signal cable for the fan assembly in the RFC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 491 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S9 and S10 Surge protection alarm cable for the DCDU-13A S13 Monitoring signal cable for the temperature sensor in the RFC 1.3.2.8.6 BTS3900A (Ver.D_A1) Monitoring Signal Cable Connections This section describes the monitoring signal cable connections in a BTS3900A in 110 V or 220 V AC and -48 V DC scenarios. Monitoring Signal Cable Connections in a 110 V or 220 V AC Scenario When a BTS3900A is in the configuration of 1 APM30+1 TMC+1 BBC+2 RFCs and is supplied with 110 V or 220 V AC power, the monitoring signal cable connections are shown in the following figure. Figure 1-196 Monitoring signal cable connections in the configuration of 1 APM30+1 TMC+1 BBC+2 RFCs The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 492 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-319 Monitoring signal cable connections in the configuration of 1 APM30+1 TMC+1 BBC+2 RFCs No. Description S0 Monitoring signal cable for the door status sensor in an APM30 S1 Temperature monitoring signal cable for the batteries S2 Monitoring signal cable between cascaded CMUEAs S3 EMUA/EMUB monitoring signal cable (optional) S4 Monitoring signal transfer cable for the fan at the top of a cabinet S5, S15, and S20 Monitoring signal cable for the temperature sensor S6 and S14 ELU signal cable S7 and S8 CMUEA-BBU monitoring signal cable S9 and S17 Monitoring signal cable between cascaded CMUEAs S10 and S16 Monitoring signal cable for the fan assembly S11 and S12 Surge protection alarm cable for the DCDU-13A S13 and S18 Monitoring signal cable for the door status sensor S19 Monitoring signal transfer cable for the fan in the front door Monitoring Signal Cable Connections in the -48 V DC Scenario When a BTS3900A is in the configuration of 1 TMC+2 RFCs and is supplied with -48 V DC power, the monitoring signal cable connections are shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 493 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-197 Monitoring signal cable connections in the configuration of 1 TMC+2 RFCs The following table describes the monitoring signal cable connections. Table 1-320 Monitoring signal cable connections in the configuration of 1 TMC+2 RFCs No. Description S0 and S13 Monitoring signal cable for the door status sensor S1 Monitoring signal transfer cable for the fan in the front door S2 EMUA/EMUB monitoring signal cable (optional) S3, S5, and S15 Monitoring signal cable for the temperature sensor S4 Monitoring signal transfer cable for the fan at the top of a cabinet S6 and S14 ELU signal cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 494 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S7 and S8 CMUEA-BBU monitoring signal cable S9 Monitoring signal cable between cascaded CMUEAs S10 and S16 Monitoring signal cable for the fan assembly S11 and S12 Surge protection alarm cable for the DCDU-13A 1.3.2.8.7 BTS3900A (Ver.E_A2) Monitoring Signal Cable Connections This section describes the monitoring signal cable connections in a BTS3900A (Ver.E_A2) that is supplied with 110 V AC, 220 V AC, or -48 V DC power, to facilitate monitoring signal cable installation and maintenance. Monitoring Signal Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. When being supplied with 110 V AC or 220 V AC power, a BTS3900A can be configured with 1 APM30H+1 TMC11H+1 IBBS200T+2 RFCs. The following figure shows monitoring signal cable connections in this scenario. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 495 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-198 Monitoring signal cable connections in a base station configured with 1 APM30H+1 TMC11H+1 IBBS200T+2 RFCs The following figure shows the monitoring signal cable connections in a base station configured with 1 APM30H+1 TMC11H+1 IBBS200T+2 RFCs. Table 1-321 Monitoring signal cable connections in a base station configured with 1 APM30H+1 TMC11H+1 IBBS200T+2 RFCs No. Description S1 and S12 Monitoring signal cable for the door status sensor S2 ELU signal cable S3 CCUB-BBU monitoring signal cable/ CCUC-BBU monitoring signal cable S4 EMUA/EMUB monitoring signal cable S5 Monitoring signal transfer cable for the fan in a front door S6 PMIU-CCUB monitoring signal cable/ PMIU-CCUC monitoring signal cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 496 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S7 CMUH-CCUB monitoring signal cable (between the RFC and APM30H)/ CMUH-CCUC monitoring signal cable (between the RFC and APM30H) S8 CCUB-CMUH monitoring signal cable (between the TMC11H and RFC)/ CCUC-CMUH monitoring signal cable (between the TMC11H and RFC) S9 Monitoring signal cable for the battery cabinet (between the IBBS200T and APM30H) S10 and S11 DCDU-13A surge protection alarm cable S13 ELU signal cable S14 Monitoring signal cable for the fan assembly S15 Monitoring signal cable for the temperature sensor in the RFC Monitoring Signal Cable Connections in the -48 V DC Scenario The following figure shows the power cable connections for a BTS3900A configured with 1 TMC11H+2 RFCs in a -48 V DC input scenario. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 497 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-199 Monitoring signal cable connections in a base station configured with 1 TMC11H+2 RFCs The following figure shows the monitoring signal cable connections in a base station configured with 1 TMC11H+2 RFCs. Table 1-322 Monitoring signal cable connections in a base station configured with 1 TMC11H+2 RFCs No. Description S1 and S12 Monitoring signal cable for the door status sensor S2 and S13 ELU signal cable S5 Monitoring signal transfer cable for the fan in a front door S6 CMUH-CCUB monitoring signal cable (between the RFC and TMC11H)/ CMUH-CCUC monitoring signal cable (between the RFC and TMC11H) S7 Monitoring signal cable for the temperature sensor in the RFC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 498 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S8 CCUB-BBU monitoring signal cable/ CCUC-BBU monitoring signal cable S9 Monitoring signal cable for the fan assembly S10 and S11 DCDU-13A surge protection alarm cable S14 EMUA/EMUB monitoring signal cable 1.3.2.8.8 BTS3900A (Ver.E_A1) Monitoring Signal Cable Connections This section describes the monitoring signal cable connections in a BTS3900A (Ver.E_A1) that is supplied with 110 V AC, 220 V AC, or -48 V DC power, to facilitate monitoring signal cable installation and maintenance. Monitoring Signal Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. When being supplied with 110 V AC or 220 V AC power, a BTS3900A can be configured with 1 APM30+1 TMC+1 BBC+2 RFCs. The monitoring signal cable connections in this scenario are shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 499 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-200 Monitoring signal cable connections in a base station configured with 1 APM30+1 TMC+1 BBC+2 RFCs The following figure shows the monitoring signal cable connections in a base station configured with 1 APM30+1 TMC+1 BBC+2 RFCs. Table 1-323 Monitoring signal cable connections in a base station configured with 1 APM30+1 TMC+1 BBC+2 RFCs No. Description S1 Temperature monitoring signal cable for the air exhaust vent S2 Monitoring signal cable for fan assemblies S3, S13, and S16 ELU signal cable S4 CMUH-BBU monitoring signal cable/ CCUC-BBU monitoring signal cable S5 PMU-CMUH monitoring signal cable S6 Environmental temperature monitoring signal cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 500 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S7 Monitoring signal transfer cable for the fan in a front door S9 EMUA/EMUB monitoring signal cable S10 and S15 Monitoring signal cable for the door status sensor S11 Monitoring signal cable between cascaded CMUHs (between the TMC and RFC) S12 CMUH-BBU monitoring signal cable (between the RFC and APM30) S14 DCDU-13A surge protection alarm cable S17 Monitoring signal cable for the fan assembly S18 Monitoring signal cable for the temperature sensor in the RFC Monitoring Signal Cable Connections in the -48 V DC Scenario When being supplied with -48 V DC power, a BTS3900A can be configured with 1 TMC+2 RFCs. The monitoring signal cable connections in this scenario are shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 501 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-201 Monitoring signal cable connections in a base station configured with 1 TMC+2 RFCs The following figure shows the monitoring signal cable connections in a base station configured with 1 TMC+2 RFCs. Table 1-324 Monitoring signal cable connections in a base station configured with 1 TMC+2 RFCs No. Description S1 Temperature monitoring signal cable for the air exhaust vent S2 Monitoring signal cable for fan assemblies S3 and S13 ELU signal cable S4 Monitoring signal transfer cable for the fan in a front door S5 Environmental temperature monitoring signal cable S6 EMUA/EMUB monitoring signal cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 502 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S7 CMUH-BBU monitoring signal cable S8 and S12 Monitoring signal cable for the door status sensor S9 CMUH-BBU monitoring signal cable (between the RFC and TMC) S10 and S11 DCDU-13A surge protection alarm cable S14 Monitoring signal cable for the fan assembly S15 Monitoring signal cable for the temperature sensor in the RFC S16 Monitoring signal cable between cascaded CMUHs (between the RFCs) 1.3.2.9 BTS3900AL Monitoring Signal Cable Connections This section describes the monitoring signal cable connections for a BTS3900AL cabinet. 1.3.2.9.1 BTS3900AL (Ver.A) Monitoring Signal Cable Connections This section provides reference for onsite installation of monitoring signal cables. Monitoring signal cable connections in a 110 V AC/220 V AC scenario Scenario with a Single BBU The following figure shows the monitoring signal cable connections for a BTS3900AL configured with 1 BTS3900AL AC cabinet+1 BTS3900AL DC cabinet+1 TMC11H (Ver.D). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 503 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-202 Monitoring signal cable connections in a base station configured with 1 BTS3900AL AC cabinet+1 BTS3900AL DC cabinet+1 TMC11H (Ver.D) (with one BBU) The following table describes the monitoring signal cables. Table 1-325 Monitoring signal cables in a base station configured with 1 BTS3900AL AC cabinet+1 BTS3900AL DC cabinet+1 TMC11H (Ver.D) (with one BBU) No. Description S0 For details, see 1.8.2.8 Signal Cable for Connecting Cascaded CCUs. S1 For details, see 1.8.1.1 PMU-CCU Monitoring Signal Cable. S2 For details, see 1.8.3.4 FAU03D-01 Monitoring Signal Cable. S3 For details, see 1.8.2.19 CMUEA-CCU Monitoring Signal Cable. S5 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S6 For details, see 1.8.4.7 Monitoring Signal Cable for the AC Surge Protection Module. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 504 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S7 For details, see 1.8.4.3 ELU Signal Cable. S8 For details, see 1.8.2.20 CMUF-CCU Monitoring Signal Cable. S9 For details, see 1.8.3.12 HAU01A-01 Monitoring Signal Cable. S10 For details, see 1.8.2.9 CCU-BBU Monitoring Signal Cable. S11 For details, see 1.8.2.15 Signal Cable Between Cascaded HAU01A-01s. S12 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. Scenario with Two BBUs The following figure shows the monitoring signal cable connections for a BTS3900AL configured with 1 BTS3900AL AC cabinet+1 BTS3900AL DC cabinet+1 TMC11H (Ver.D). When an IBBS700T instead of an IBBS700D is used, the monitoring signal cable connections are the same. Figure 1-203 Monitoring signal cable connections in a base station configured with 1 BTS3900AL AC cabinet+1 BTS3900AL DC cabinet+1 TMC11H (Ver.D) (with two BBUs) The following table describes the monitoring signal cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 505 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-326 Monitoring signal cables in a base station configured with 1 BTS3900AL AC cabinet+1 BTS3900AL DC cabinet+1 TMC11H (Ver.D) (with two BBUs) No. Description S0 For details, see 1.8.2.8 Signal Cable for Connecting Cascaded CCUs. S1 For details, see 1.8.1.1 PMU-CCU Monitoring Signal Cable. S2 For details, see 1.8.3.4 FAU03D-01 Monitoring Signal Cable. S3 For details, see 1.8.2.19 CMUEA-CCU Monitoring Signal Cable. S4 For details, see 1.8.4.14 BBU Interconnection Signal Cable. S5 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S6 For details, see 1.8.4.7 Monitoring Signal Cable for the AC Surge Protection Module. S7 For details, see 1.8.4.3 ELU Signal Cable. S8 For details, see 1.8.2.20 CMUF-CCU Monitoring Signal Cable. S9 For details, see 1.8.3.12 HAU01A-01 Monitoring Signal Cable. S10 and S11 For details, see 1.8.2.9 CCU-BBU Monitoring Signal Cable. S12 For details, see 1.8.2.15 Signal Cable Between Cascaded HAU01A-01s. S13 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. The following figure shows the monitoring signal cable connections for a BTS3900AL configured with 1 BTS3900AL AC cabinet+1 BTS3900AL DC cabinet+2 IBBS300Ds. When two IBBS300Ts instead of two IBBS300Ds are used, the monitoring signal cable connections are the same. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 506 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-204 Monitoring signal cable connections in a base station configured with 1 BTS3900AL AC cabinet+1 BTS3900AL DC cabinet+2 IBBS300Ds (with two BBUs) The following table describes the monitoring signal cables. Table 1-327 Monitoring signal cables in a base station configured with 1 BTS3900AL AC cabinet+1 BTS3900AL DC cabinet+2 IBBS300Ds (with two BBUs) No. Description S0 and S4 For details, see 1.8.2.8 Signal Cable for Connecting Cascaded CCUs. S1 For details, see 1.8.1.1 PMU-CCU Monitoring Signal Cable. S2 For details, see 1.8.3.4 FAU03D-01 Monitoring Signal Cable. S3 For details, see 1.8.4.14 BBU Interconnection Signal Cable. S5 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S6 For details, see 1.8.4.7 Monitoring Signal Cable for the AC Surge Protection Module. S7 For details, see 1.8.4.3 ELU Signal Cable. S8 For details, see 1.8.2.20 CMUF-CCU Monitoring Signal Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 507 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S9 For details, see 1.8.3.12 HAU01A-01 Monitoring Signal Cable. S10 and S11 For details, see 1.8.2.9 CCU-BBU Monitoring Signal Cable. S12 For details, see 1.8.2.15 Signal Cable Between Cascaded HAU01A-01s. S13 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. Monitoring Signal Cable Connections in the -48 V DC Scenario Scenario with a Single BBU The following figure shows the monitoring signal cable connections in a BTS3900AL configured with one BTS3900AL DC cabinet. Figure 1-205 Monitoring signal cable connections in a base station configured with one BTS3900AL DC cabinet (with one BBU) The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 508 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-328 Monitoring signal cables in a base station configured with one BTS3900AL DC cabinet (with one BBU) No. Description S0 For details, see 1.8.4.3 ELU Signal Cable. S1 For details, see 1.8.3.4 FAU03D-01 Monitoring Signal Cable. S2 For details, see 1.8.3.12 HAU01A-01 Monitoring Signal Cable. S3 For details, see 1.8.2.9 CCU-BBU Monitoring Signal Cable. S4 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. S5 For details, see 1.8.2.20 CMUF-CCU Monitoring Signal Cable. S6 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S7 For details, see 1.8.2.15 Signal Cable Between Cascaded HAU01A-01s. Scenario with Two BBUs The following figure shows the monitoring signal cable connections in a BTS3900AL configured with one BTS3900AL DC cabinet. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 509 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-206 Monitoring signal cable connections in a base station configured with one BTS3900AL DC cabinet (with two BBUs) The following table describes the monitoring signal cable connections. Table 1-329 Monitoring signal cables in a base station configured with one BTS3900AL DC cabinet (with two BBUs) No. Description S0 For details, see 1.8.4.3 ELU Signal Cable. S1 For details, see 1.8.3.4 FAU03D-01 Monitoring Signal Cable. S2 For details, see 1.8.3.12 HAU01A-01 Monitoring Signal Cable. S3 and S4 For details, see 1.8.2.9 CCU-BBU Monitoring Signal Cable. S5 For details, see 1.8.2.20 CMUF-CCU Monitoring Signal Cable. S6 For details, see 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor. S7 For details, see 1.8.4.14 BBU Interconnection Signal Cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 510 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S8 For details, see 1.8.4.5 EMUA or EMUB Monitoring Signal Cable. S9 For details, see 1.8.2.15 Signal Cable Between Cascaded HAU01A-01s. 1.3.2.10 Monitoring Signal Cable Connections in the DBS3900 (Using a BBU3900 or BBU3910) This section describes monitoring signal cable connections in the DBS3900 configured with different types of cabinets in which a BBU3900 or BBU3910 is used. 1.3.2.10.1 Monitoring Signal Cable Connections in a DBS3900 Using an MRE1000 This section describes the monitoring signal cable connections in a DBS3900 using an MRE1000. Monitoring Signal Cable Connections in an MRE1000 BVDC Cabinet When an MRE1000 boost voltage direct current (BVDC) cabinet is configured with a BDU65-03, the monitoring signal cables are used to provide power for Book RRUs. The monitoring signal cable connections in this scenario are shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 511 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-207 Monitoring signal cable connections in an MRE1000 BVDC cabinet The following table describes the monitoring signal cable connections. Table 1-330 Monitoring signal cable connections in an MRE1000 BVDC cabinet No. Description S1 1.8.4.3 ELU Signal Cable S2 1.8.1.13 PMIU-CCUB Monitoring Signal Cable S3 and S4 1.8.2.4 CCUB-BBU Monitoring Signal Cable S5 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 512 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S6 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor S7 1.8.3.12 HAU01A-01 Monitoring Signal Cable S8 1.8.1.10 Monitoring Signal Cable for the AC Power Distribution Box in an MRE1000 Monitoring Signal Cable Connections in an MRE1000 225-400 V DC Cabinet When an MRE1000 225-400 V DC cabinet is configured with an HSU (C2800G51), a PDU08H-01 is required to supply power for the Easy Macro. The monitoring signal cable connections in this scenario are shown in the following figure. Figure 1-208 Monitoring signal cable connections in an MRE1000 225-400 V DC cabinet Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 513 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the power cable connections. Table 1-331 Monitoring signal cable connections in an MRE1000 225-400 V DC cabinet No. Description S1 1.8.4.3 ELU Signal Cable S2 1.8.1.13 PMIU-CCUB Monitoring Signal Cable S3 and S4 1.8.2.4 CCUB-BBU Monitoring Signal Cable S5 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor S6 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor S7 1.8.1.11 HSMU Monitoring Signal Cable for the PDU08H-01 S8 1.8.3.12 HAU01A-01 Monitoring Signal Cable S9 1.8.1.10 Monitoring Signal Cable for the AC Power Distribution Box in an MRE1000 1.3.2.10.2 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.E) This section describes the monitoring signal cable connections in a DBS3900 using the APM30H (Ver.E). NOTE ● The position of the CMUH in the front door of an IBBS200T is different from the position of the CMUH in the front door of an IBBS200D, but the monitoring schemes are the same. This section uses the IBBS200D as an example. When connecting cables for an IBBS200T, ensure that the cables are connected to right positions. ● The position of the CMUH in the front door of an IBBS300T is different from the position of the CMUH in the front door of an IBBS300D, but the monitoring schemes are the same. This section uses the IBBS300D as an example. When connecting cables for an IBBS300T, ensure that the cables are connected to right positions. ● When a base station is configured with two BBUs, BBU 1 is not used for monitoring. In this case, the monitoring cable connections are the same as those when only one BBU is configured. This section uses a base station configured with two BBUs as an example. ● The boards to be monitored are cascaded in sequence. If a board is not configured, the monitoring signal cable is connected to its lower-level board. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 514 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1 APM30H+1 TMC11H+2 IBBS200Ds The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS200Ds. Figure 1-209 Monitoring signal cables in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS200Ds The following table describes the monitoring signal cable connections. Table 1-332 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS200Ds No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ 1.8.2.5 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable Between Cascaded CMUHs S3 EMUA/EMUB Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 515 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S4 Monitoring Signal Cable Between Cascaded CCUBs/1.8.2.28 Monitoring Signal Cable Between Cascaded CCUCs S5 Monitoring Signal Cable for a Door Status Sensor S6 Monitoring Signal Cable for a Battery Cabinet S7 PMIU-CCUB Monitoring Signal Cable/1.8.1.14 PMIU-CCUC Monitoring Signal Cable 1 APM30H+1 TMC11H+2 IBBS300Ds The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS300Ds. Figure 1-210 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS300Ds The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 516 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-333 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 IBBS300Ds No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ 1.8.2.5 CCUC-BBU Monitoring Signal Cable S2 1.8.2.14 Monitoring Signal Cable Between Cascaded CCU01D-03s S3 EMUA or EMUB Monitoring Signal Cable S4 Monitoring Signal Cable Between Cascaded CCUBs/1.8.2.28 Monitoring Signal Cable Between Cascaded CCUCs S5 Monitoring Signal Cable for a Door Status Sensor S6 Monitoring Signal Cable for a Battery Cabinet S7 PMIU-CCUB Monitoring Signal Cable/1.8.1.14 PMIU-CCUC Monitoring Signal Cable 1 APM30H+1 TMC11H+2 BBC5200D-Ls The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200D-Ls. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 517 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-211 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200D-Ls The following table describes the monitoring signal cable connections. Table 1-334 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200D-Ls No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ 1.8.2.5 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable Between Cascaded CMUHs S3 EMUA/EMUB Monitoring Signal Cable S4 Monitoring Signal Cable Between Cascaded CCUBs/1.8.2.28 Monitoring Signal Cable Between Cascaded CCUCs Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 518 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S5 Monitoring Signal Cable for a Door Status Sensor S6 Monitoring Signal Cable for a Battery Cabinet S7 PMIU-CCUB Monitoring Signal Cable/1.8.1.14 PMIU-CCUC Monitoring Signal Cable S8 1.8.3.13 HAU03A-02 Monitoring Signal Cable S9 1.8.1.24 Monitoring Signal Cable for the Lithium Battery S10 PMU 15A monitoring signal cable 1 APM30H+1 TMC11H+2 BBC5200T-Ls The following figure shows the monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200T-Ls. Figure 1-212 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200T-Ls The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 519 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-335 Monitoring signal cable connections in a base station with the configuration of 1 APM30H+1 TMC11H+2 BBC5200T-Ls No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ 1.8.2.5 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable Between Cascaded CMUHs S3 EMUA/EMUB Monitoring Signal Cable S4 Monitoring Signal Cable Between Cascaded CCUBs/1.8.2.28 Monitoring Signal Cable Between Cascaded CCUCs S5 Monitoring Signal Cable for a Door Status Sensor S6 Monitoring Signal Cable for a Battery Cabinet S7 PMIU-CCUB Monitoring Signal Cable/1.8.1.14 PMIU-CCUC Monitoring Signal Cable S8 Monitoring signal cable for the air conditioner S9 1.8.1.24 Monitoring Signal Cable for the Lithium Battery S10 PMU 15A monitoring signal cable 1.3.2.10.3 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.D) This section describes the monitoring signal cable connections in a DBS3900 using the APM30H (Ver.D). Monitoring Signal Cable Connections in a Single- or Dual-Mode Base Station Figure 1-213 shows the monitoring signal cable connections in a base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 520 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-213 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D) Table 1-336 describes the monitoring signal cable connections. Table 1-336 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D) No. Description S1 and S4 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable S2 and S3 1.8.2.7 CMUEA-BBU Monitoring Signal Cable Figure 1-214 shows the monitoring signal cable connections in a base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 521 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-214 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D) Table 1-337 describes the monitoring signal cable connections. Table 1-337 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D) No. Description S1 and S4 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable S2 and S3 1.8.2.7 CMUEA-BBU Monitoring Signal Cable Figure 1-215 shows the monitoring signal cable connections in a base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 522 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-215 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D) Table 1-338 describes the monitoring signal cable connections. Table 1-338 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D) No. Description S1 and S4 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable S2 and S3 1.8.2.7 CMUEA-BBU Monitoring Signal Cable S5 1.8.2.13 Monitoring Signal Cable Between Cascaded CMUEAs Figure 1-216 shows the monitoring signal cable connections in a base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 523 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-216 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D) Table 1-339 describes the monitoring signal cable connections. Table 1-339 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D) No. Description S1 and S4 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable S2 and S3 1.8.2.7 CMUEA-BBU Monitoring Signal Cable S5 1.8.2.13 Monitoring Signal Cable Between Cascaded CMUEAs The following figure shows the monitoring signal cable connections in a base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 BBC5200T-Ls. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 524 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-217 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 BBC5200T-Ls The following table describes the monitoring signal cable connections. Table 1-340 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 BBC5200T-Ls No. Description S1 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable S2 and S3 1.8.2.7 CMUEA-BBU Monitoring Signal Cable S4 Monitoring signal cable for a battery cabinet S5 Monitoring signal cable for a door status sensor S6 Monitoring signal cable for the air conditioner S7 ELU signal cable S8 Monitoring signal cable between cascaded CMUHs Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 525 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S9 1.8.1.24 Monitoring Signal Cable for the Lithium Battery Figure 1-218 shows the monitoring signal cable connections in a base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS300Ds. NOTE The monitoring signal cable connections in an IBBS300T are the same as those in an IBBS300D. The following uses the IBBS300D as an example. Figure 1-218 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS300Ds Table 1-341 describes the monitoring signal cable connections. Table 1-341 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS300Ds No. Description S1 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 526 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S2 and S3 1.8.2.7 CMUEA-BBU Monitoring Signal Cable S4 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet S5 1.8.2.14 Monitoring Signal Cable Between Cascaded CCU01D-03s The following figure shows the monitoring signal cable connections in a base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS700D. Figure 1-219 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS700D No. Description S1 and S4 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable S2 and S3 1.8.2.7 CMUEA-BBU Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 527 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following figure shows the monitoring signal cable connections in a base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS700T. Figure 1-220 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS700T No. Description S1 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable S4 1.8.1.1 PMU-CCU Monitoring Signal Cable S2 and S3 1.8.2.7 CMUEA-BBU Monitoring Signal Cable Monitoring Signal Cable Connections in a Triple- or Quadruple-Mode Base Station The monitoring signal cable connections in a triple- or quadruple-mode base station configured with one BBU are the same as those in a single- or dual-mode base station. If two BBUs are configured for the base station, BBU 0 is installed in the basic APM30H (Ver.D). If the base station is not configured with a TMC11H (Ver.D), BBU 1 is installed in the 2 U space below BBU 0 in the basic APM30H Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 528 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables (Ver.D). If the base station is configured with a TMC11H (Ver.D), BBU 1 is installed in the TMC11H (Ver.D). Figure 1-221 shows the monitoring signal cable connections in the base station configured with 1 APM30H (Ver.D)+1 IBBS200D (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D). Figure 1-221 Monitoring signal cable connections in a triple- or quadruple-mode base station configured with 1 APM30H (Ver.D)+1 IBBS200D (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D) Table 1-342 describes the monitoring signal cable connections. Table 1-342 Monitoring signal cable connections in a triple- or quadruple-mode base station configured with 1 APM30H (Ver.D)+1 IBBS200D (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200D (Ver.D) No. Description S1 and S4 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable S2 and S3 1.8.2.7 CMUEA-BBU Monitoring Signal Cable Figure 1-222 shows the monitoring signal connections in a triple- or quadruplemode base station configured with 1 APM30H (Ver.D)+1 IBBS200T (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D). NOTE If the base station is configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D) and BBU 1 is installed in the 1U space below BBU 0, the monitoring signal cable connections for the base station are the same as those when BBU 1 is installed in the TMC11H (Ver.D), as shown by illustration 2 in Figure 1-222. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 529 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-222 Monitoring signal cable connections in a triple- or quadruple-mode base station configured with 1 APM30H (Ver.D)+1 IBBS200T (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D) Table 1-343 describes the monitoring signal cable connections. Table 1-343 Monitoring signal cable connections in a triple- or quadruple-mode base station configured with 1 APM30H (Ver.D)+1 IBBS200T (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS200T (Ver.D) No. Description S1 and S4 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable S2 and S3 1.8.2.7 CMUEA-BBU Monitoring Signal Cable Figure 1-223 shows the monitoring signal connections in a triple- or quadruplemode base station configured with 1 APM30H (Ver.D)+2 IBBS200Ds (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D). NOTE If the base station is configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D) and BBU 1 is installed in the 1U space below BBU 0, the monitoring signal cable connections for the base station are the same as those when BBU 1 is installed in the TMC11H (Ver.D), as shown by illustration 2 in Figure 1-223. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 530 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-223 Monitoring signal cable connections in a triple- or quadruple-mode base station configured with 1 APM30H (Ver.D)+2 IBBS200Ds (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D) Table 1-344 describes the monitoring signal cable connections. Table 1-344 Monitoring signal cable connections in a triple- or quadruple-mode base station configured with 1 APM30H (Ver.D)+2 IBBS200Ds (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ds (Ver.D) No. Description S1 and S4 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 531 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S2 and S3 1.8.2.7 CMUEA-BBU Monitoring Signal Cable S5 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet Figure 1-224 shows the monitoring signal connections in a triple-mode base station configured with 1 APM30H (Ver.D)+2 IBBS200Ts (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D). NOTE If the base station is configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D) and BBU 1 is installed in the 1U space below BBU 0, the monitoring signal cable connections for the base station are the same as those when BBU 1 is installed in the TMC11H (Ver.D), as shown by illustration 2 in Figure 1-224. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 532 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-224 Monitoring signal cable connections in a triple-mode base station configured with 1 APM30H (Ver.D)+2 IBBS200Ts (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D) Table 1-345 describes the monitoring signal cable connections. Table 1-345 Monitoring signal cable connections in a triple-mode base station configured with 1 APM30H (Ver.D)+2 IBBS200Ts (Ver.D) or 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS200Ts (Ver.D) No. Description S1 and S4 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 533 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S2 and S3 1.8.2.7 CMUEA-BBU Monitoring Signal Cable S5 1.8.2.34 Monitoring Signal Cable for a Battery Cabinet In a triple- or quadruple-mode base station: When it is configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+1 IBBS700D/T, the monitoring signal cable connections are the same as those in a single- or dual-mode base station with the same cabinet configuration. The second BBU does not perform the monitoring function. For detailed cable connections, see Figure 1-219 and Figure 1-220. When it is configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 BBC5200T-Ls, the monitoring signal cable connections are the same as those in a single- or dual-mode base station with the same cabinet configuration. The second BBU does not perform the monitoring function. For detailed cable connections, see Figure 1-217. When it is configured with 1 APM30H (Ver.D)+1 TMC11H (Ver.D)+2 IBBS300D/Ts, the monitoring signal cable connections are the same as those in a single- or dual-mode base station with the same cabinet configuration. The second BBU does not perform the monitoring function. For detailed cable connections, see Figure 1-218. 1.3.2.10.4 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.D_A2) This section describes the monitoring signal cable connections in a DBS3900 in 110 V or 220 V AC and -48 V DC scenarios. Monitoring Signal Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured, ignore the monitoring signal cable connections for the device in the figures. When a DBS3900 is in the configuration of 1 APM30H+1 TMC11H+1 IBBS200T and is supplied with 110 V or 220 V AC power, the monitoring signal cable connections are shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 534 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-225 Monitoring signal cable connections in the configuration of 1 APM30H+1 TMC11H+1 IBBS200T The following table describes the monitoring signal cable connections. Table 1-346 Monitoring signal cable connections in the configuration of 1 APM30H+1 TMC11H+1 IBBS200T No. Description S1 Monitoring signal cable for the IBBS200T S2 PMU-CMUEA monitoring signal cable S3 EMUA monitoring signal cable (optional) S4 Monitoring signal transfer cable for the fan in the front door S5 Monitoring signal cable for the door status sensor in an APM30H S6 ELU signal cable S7 and S8 CMUEA-BBU monitoring signal cable S9 and S10 Monitoring signal cable for the door status sensor Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 535 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Monitoring Signal Cable Connections in the -48 V DC Scenario The following figure shows the monitoring signal cable connections for a DBS3900 configured with 2 TMC11Hs in a -48 V DC input scenario. Figure 1-226 Monitoring signal cable connections in the configuration of two TMC11Hs The following table describes the monitoring signal cable connections. Table 1-347 Monitoring signal cable connections in the configuration of two TMC11Hs No. Description S1 Monitoring signal cable for the door status sensor S2 EMUA monitoring signal cable (optional) S3 Monitoring signal transfer cable for the fan in the front door S4 and S6 CMUEA-BBU monitoring signal cable S5 ELU signal cable S6 Monitoring signal cable between cascaded CMUEAs 1.3.2.10.5 Monitoring Signal Cable Connections in a DBS3900 Using the APM30 (Ver.D_A1) This section describes the monitoring signal cable connections in a DBS3900 in 110 V or 220 V AC and -48 V DC scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 536 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Monitoring Signal Cable Connections in a 110 V or 220 V AC Scenario When a DBS3900 is in the configuration of 1 APM30+1 TMC+1 BBC and is supplied with 110 V or 220 V AC power, the monitoring signal cable connections are shown in the following figure. NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. Figure 1-227 Monitoring signal cable connections in the configuration of 1 APM30+1 TMC+1 BBC The following table describes the monitoring signal cable connections. Table 1-348 Monitoring signal cable connections in the configuration of 1 APM30+1 TMC+1 BBC No. Description S0 Monitoring signal cable for the door status sensor in an APM30 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 537 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S1 Temperature monitoring signal cable for the batteries S2 Monitoring signal cable between cascaded CMUEAs S3 EMUA monitoring signal cable (optional) S4 Monitoring signal transfer cable for the fan at the top of a cabinet S5 and S10 Monitoring signal cable for the temperature sensor S6 ELU signal cable S7 and S8 CMUEA-BBU monitoring signal cable S9 Monitoring signal transfer cable for the fan in the front door S11 and S12 Monitoring signal cable for the door status sensor Monitoring Signal Cable Connections in the -48 V DC Scenario When a DBS3900 is in the configuration of two TMCs and is supplied with -48 V DC power, the monitoring signal cable connections are shown in the following figure. Figure 1-228 Monitoring signal cable connections in the configuration of two TMCs The following table describes the monitoring signal cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 538 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-349 Monitoring signal cable connections in the configuration of two TMCs No. Description S0 Monitoring signal cable for the door status sensor S1 Monitoring signal transfer cable for the fan in the front door S2 EMUA monitoring signal cable (optional) S3 and S5 Monitoring signal cable for the temperature sensor S4 Monitoring signal transfer cable for the fan at the top of a cabinet S6 Monitoring signal cable between cascaded CMUEAs S7 and S8 CMUEA-BBU monitoring signal cable 1.3.2.10.6 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.E_A2) This section describes the monitoring signal cable connections in a DBS3900 that uses APM30H (Ver.E_A2) cabinets and is supplied with 110 V AC, 220 V AC, or -48 V DC power, to facilitate monitoring signal cable installation and maintenance. Monitoring Signal Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. When being supplied with 110 V AC or 220 V AC power, a DBS3900 can be configured with 1 APM30H+1 TMC11H+1 IBBS200T. The monitoring signal cable connections in this scenario are shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 539 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-229 Monitoring signal cable connections in a base station configured with 1 APM30H+1 TMC11H+1 IBBS200T The following table describes the monitoring signal cable connections in a base station configured with 1 APM30H+1 TMC11H+1 IBBS200T. Table 1-350 Monitoring signal cable connections in a base station configured with 1 APM30H+1 TMC11H+1 IBBS200T No. Description S1 Monitoring signal cable for the door status sensor S2 ELU signal cable S3, S7 CCUB-BBU monitoring signal cable S4 EMUA/EMUB monitoring signal cable S5 Monitoring signal transfer cable for the fan in a front door S6 PMIU-CCUB monitoring signal cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 540 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Monitoring Signal Cable Connections in the -48 V DC Scenario The following figure shows the monitoring signal cable connections for a DBS3900 configured with 2 TMC11Hs in a -48 V DC input scenario. Figure 1-230 Monitoring signal cable connections in a base station configured with two TMC11Hs The following table describes the monitoring signal cable connections in a base station configured with two TMC11Hs. Table 1-351 Monitoring signal cable connections in a base station configured with two TMC11Hs No. Description S1 Monitoring signal cable for the door status sensor S2 ELU signal cable S5 Monitoring signal transfer cable for the fan in a front door S6 Monitoring signal cable between cascaded CCUBs S7 EMUA/EMUB monitoring signal cable S8 CCUB-BBU monitoring signal cable 1.3.2.10.7 Monitoring Signal Cable Connections in a DBS3900 Using the APM30 (Ver.E_A1) This section describes the monitoring signal cable connections in a DBS3900 uses APM30 (Ver.E_A1) cabinets and is supplied with 110 V AC, 220 V AC, or -48 V DC power, to facilitate monitoring signal cable installation and maintenance. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 541 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Monitoring Signal Cable Connections in a 110 V AC or 220 V AC Scenario NOTE If a device is not configured at a site, you can ignore the related power cable connections in the figures. When being supplied with 110 V AC or 220 V AC power, a DBS3900 can be configured with 1 APM30+1 TMC+1 BBC. The monitoring signal cable connections in this scenario are shown in the following figure. Figure 1-231 Monitoring signal cable connections in a base station configured with 1 APM30+1 TMC+1 BBC The following table describes the monitoring signal cable connections in a base station configured with 1 APM30+1 TMC+1 BBC. Table 1-352 Monitoring signal cable connections in a base station configured with 1 APM30+1 TMC+1 BBC No. Description S1 Temperature monitoring signal cable for the air exhaust vent Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 542 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S2 Monitoring signal cable for fan assemblies S3 ELU signal cable S4 and S12 CMUH-BBU monitoring signal cable S5 PMU 11B-CMUH monitoring signal cable S6 Environmental temperature monitoring signal cable S7 Monitoring signal transfer cable for the fan in a front door S9 EMUA/EMUB monitoring signal cable S10 and S11 Monitoring signal cable for the door status sensor S13 APM30-BBC monitoring signal cable Monitoring Signal Cable Connections in the -48 V DC Scenario When being supplied with -48 V DC power, a DBS3900 can be configured with two TMCs. The monitoring signal cable connections in this scenario are shown in the following figure. Figure 1-232 Monitoring signal cable connections in a base station configured with two TMCs The following table describes the monitoring signal cable connections in a base station configured with two TMCs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 543 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-353 Monitoring signal cable connections in a base station configured with two TMCs No. Description S1 Temperature monitoring signal cable for the air exhaust vent S2 Monitoring signal cable for fan assemblies S3 ELU signal cable S4 CMUH-BBU monitoring signal cable S5 Monitoring signal cable for the door status sensor S6 Environmental temperature monitoring signal cable S7 Monitoring signal transfer cable for the fan in a front door S8 EMUA/EMUB monitoring signal cable 1.3.2.10.8 Monitoring Signal Cable Connections in a DBS3900 Using the APM30H (Ver.B) or APM30H (Ver.C) This section describes the monitoring signal cable connections in a DBS3900 using the APM30H (Ver.B) or APM30H (Ver.C). Monitoring Signal Cable Connections in a Single- or Dual-Mode Base Station The following figure shows the monitoring signal cable connections in a DBS3900 configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+1 IBBS200D/IBBS200T (Ver.B). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 544 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-233 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+1 IBBS200D/ IBBS200T (Ver.B) The following table describes the monitoring signal cable connections. Table 1-354 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.B)+1 TMC11H (Ver.B)+1 IBBS200D/ IBBS200T (Ver.B) No. Description S1 1.8.2.18 HPMI-PMU Monitoring Signal Cable S2 and S4 1.8.1.7 PMU-CMUA Monitoring Signal Cable S3 and S5 1.8.2.3 CMUA-BBU Monitoring Signal Cable The following figure shows the monitoring signal cable connections in a DBS3900 configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+1 IBBS200D/IBBS200T (Ver.C). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 545 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-234 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+1 IBBS200D/ IBBS200T (Ver.C) The following table describes the monitoring signal cable connections. Table 1-355 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.C)+1 TMC11H (Ver.C)+1 IBBS200D/ IBBS200T (Ver.C) No. Description S1 1.8.2.18 HPMI-PMU Monitoring Signal Cable S2 and S4 1.8.1.8 PMU-CMUE Monitoring Signal Cable S3 and S5 1.8.2.6 CMUE-BBU Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 546 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following figure shows the monitoring signal cable connections in a DBS3900 configured with 1 APM30H (Ver.C)+2 IBBS200Ds/IBBS200Ts (Ver.C)+1 TMC11H (Ver.C). Figure 1-235 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.C)+2 IBBS200Ds/IBBS200Ts (Ver.C)+1 TMC11H (Ver.C) The following table describes the monitoring signal cable connections. Table 1-356 Monitoring signal cable connections in a single- or dual-mode base station configured with 1 APM30H (Ver.C)+2 IBBS200Ds/IBBS200Ts (Ver.C)+1 TMC11H (Ver.C) No. Description S1 1.8.2.18 HPMI-PMU Monitoring Signal Cable S2 and S4 1.8.1.8 PMU-CMUE Monitoring Signal Cable S3 and S5 1.8.2.6 CMUE-BBU Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 547 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S6 1.8.2.11 Monitoring Signal Cable Between Cascaded CMUEs The following figure shows the monitoring signal cable connections in a DBS3900 configured with 2 APM30Hs (Ver.B)+4 IBBS200Ds/IBBS200Ts (Ver.B)+1 TMC11H (Ver.B). Figure 1-236 Monitoring signal cable connections in a single- or dual-mode base station configured with 2 APM30Hs (Ver.B)+4 IBBS200Ds/IBBS200Ts (Ver.B)+1 TMC11H (Ver.B) The following table describes the monitoring signal cable connections. Table 1-357 Monitoring signal cable connections in a single- or dual-mode base station configured with 2 APM30Hs (Ver.B)+4 IBBS200Ds/IBBS200Ts (Ver.B)+1 TMC11H (Ver.B) No. Description S1 1.8.2.18 HPMI-PMU Monitoring Signal Cable S2 and S4 1.8.1.7 PMU-CMUA Monitoring Signal Cable S3 and S5 1.8.2.3 CMUA-BBU Monitoring Signal Cable S6 1.8.2.11 Monitoring Signal Cable Between Cascaded CMUEs The following figure shows the monitoring signal cable connections in a DBS3900 configured with 2 APM30Hs (Ver.C)+4 IBBS200Ds/IBBS200Ts (Ver.C)+1 TMC11H (Ver.C). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 548 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-237 Monitoring signal cable connections in a single- or dual-mode base station configured with 2 APM30Hs (Ver.C)+4 IBBS200Ds/IBBS200Ts (Ver.C)+1 TMC11H (Ver.C) The following table describes the monitoring signal cable connections. Table 1-358 Monitoring signal cable connections in a single- or dual-mode base station configured with 2 APM30Hs (Ver.C)+4 IBBS200Ds/IBBS200Ts (Ver.C)+1 TMC11H (Ver.C) No. Description S1 1.8.2.18 HPMI-PMU Monitoring Signal Cable S2 and S4 1.8.1.8 PMU-CMUE Monitoring Signal Cable S3 and S5 1.8.2.6 CMUE-BBU Monitoring Signal Cable S6 1.8.2.11 Monitoring Signal Cable Between Cascaded CMUEs Monitoring Signal Cable Connections in a Triple-Mode Base Station The monitoring signal cable connections in a triple-mode base station configured with one BBU are the same as those in a single- or dual-mode base station. If two BBUs are configured for the base station, BBU 0 is installed in the basic cabinet and BBU 1 is installed in the extension cabinet. The monitoring boards in all cabinets are connected to BBU 0, and the monitoring scheme is the same as that in dual-mode scenarios. The following figure uses the monitoring signal cable connections in the base station when BBUs are installed in two APM30Hs (Ver.B) as an example. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 549 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-238 Monitoring signal cable connections in a triple-mode base station configured with 2 APM30Hs (Ver.B)+4 IBBS200Ds/IBBS200Ts (Ver.B)+1 TMC11H (Ver.B) The following table describes the monitoring signal cable connections. Table 1-359 Monitoring signal cable connections in a triple-mode base station configured with 2 APM30Hs (Ver.B)+4 IBBS200Ds/IBBS200Ts (Ver.B)+1 TMC11H (Ver.B) No. Description S1 1.8.2.18 HPMI-PMU Monitoring Signal Cable S2 and S4 1.8.1.7 PMU-CMUA Monitoring Signal Cable S3 and S5 1.8.2.3 CMUA-BBU Monitoring Signal Cable S6 1.8.2.10 Monitoring Signal Cable Between Cascaded CMUAs 1.3.2.10.9 Monitoring Signal Cable Connections in a DBS3900 Using the TMC11H (Ver.E) This section describes the monitoring signal cable connections in a DBS3900 using the TMC11H (Ver.E). NOTE ● When a base station is configured with two BBUs, BBU 1 is not used for monitoring. In this case, the monitoring signal cable connections are the same as those when only one BBU is configured. This section uses a base station configured with two BBUs as an example. ● The boards to be monitored are cascaded one by one. If a certain board is not configured, the monitoring signal cable directly connects to the lower-level board. The following figure shows the monitoring signal cable connections when two TMC11Hs are configured. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 550 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-239 Monitoring signal cable connections when two TMC11Hs are configured The following table describes the monitoring signal cable connections. Table 1-360 Monitoring signal cable connections when two TMC11Hs are configured No. Description S0 ELU Signal Cable S1 CCUB-BBU Monitoring Signal Cable/ 1.8.2.5 CCUC-BBU Monitoring Signal Cable S2 Monitoring Signal Cable for a Door Status Sensor S3 EMUA/EMUB Monitoring Signal Cable S4 Monitoring Signal Cable Between Cascaded CCUBs 1.3.2.10.10 Monitoring Cable Connections in a DBS3900 Using the TMC11H (Ver.D) This section describes the monitoring signal cable connections in a DBS3900 using the TMC11H (Ver.D). Monitoring Signal Cable Connections in a Single- or Dual-Mode Base Station The following figure shows the monitoring signal cable connections in a single- or dual-mode base station configured with one TMC11H (Ver.D). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 551 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-240 Monitoring signal cable connections in a single- or dual-mode base station configured with one TMC11H (Ver.D) The following table describes the monitoring signal cable connections. Table 1-361 Monitoring signal cable connections in a single- or dual-mode base station configured with one TMC11H (Ver.D) No. Description S1 1.8.2.7 CMUEA-BBU Monitoring Signal Cable Monitoring Signal Cable Connections in a Triple-Mode Base Station The monitoring signal cable connections in a triple-mode base station configured with one BBU are the same as those in a single- or dual-mode base station. The following figure shows the monitoring signal cable connections in a base station configured with two BBUs and one or two TMC11Hs (Ver.D). NOTE When the base station is configured with two TMC11Hs (Ver.D) and BBU 1 is installed in the 1 U space below BBU 0, the monitoring signal cable connections in the base station are the same as those in the base station where two BBUs are installed in two TMC11Hs (Ver.D) separately, as shown by illustration 2 in Figure 1-241. Figure 1-241 Monitoring signal cable connections in a triple-mode base station configured with one or two TMC11Hs (Ver.D) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 552 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-362 describes the monitoring signal cable connections. Table 1-362 Monitoring signal cable connections in a triple-mode base station configured with two TMC11Hs (Ver.D) No. Description S1 and S2 1.8.2.7 CMUEA-BBU Monitoring Signal Cable 1.3.2.10.11 Monitoring Signal Cable Connections in a DBS3900 Using the TMC11H (Ver.B) or TMC11H (Ver.C) This section describes the monitoring signal cable connections in a DBS3900 using the TMC11H (Ver.B) or TMC11H (Ver.C). Monitoring Signal Cable Connections in a Single- or Dual-Mode Base Station The following figure shows the monitoring signal cable connections in a DBS3900 configured with two TMC11Hs (Ver.B). Figure 1-242 Monitoring signal cable connections in a base station configured with two TMC11Hs (Ver.B) The following table describes the monitoring signal cable connections. Table 1-363 Monitoring signal cable connections in a single- or dual-mode base station configured with two TMC11Hs (Ver.B) No. Description S1 and S2 1.8.2.3 CMUA-BBU Monitoring Signal Cable The following figure shows the monitoring signal cable connections in a DBS3900 configured with two TMC11Hs (Ver.C). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 553 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-243 Monitoring signal cable connections in a single- or dual-mode base station configured with two TMC11Hs (Ver.C) The following table describes the monitoring signal cable connections. Table 1-364 Monitoring signal cable connections in a single- or dual-mode base station configured with two TMC11Hs (Ver.C) No. Description S1 and S2 1.8.2.6 CMUE-BBU Monitoring Signal Cable Monitoring Signal Cable Connections in a Triple- or Quadruple-Mode Base Station The monitoring signal cable connections in a triple- or quadruple-mode base station configured with one BBU are the same as those in a single- or dual-mode base station. If the base station is configured with two BBUs, BBU 0 is installed in the basic TMC, and BBU 1 is installed in the extension TMC. The monitoring boards in all cabinets are connected to BBU 0, and the monitoring scheme is the same as that in dual-mode scenarios. The following figure uses the monitoring signal cable connections in the base station when BBUs are installed in two TMC11Hs (Ver.B) as an example. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 554 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-244 Monitoring signal cable connections in a triple- or quadruple-mode base station configured with two TMC11Hs (Ver.B) The following table describes the monitoring signal cable connections. Table 1-365 Monitoring signal cable connections in a triple- or quadruple-mode base station configured with two TMC11Hs (Ver.B) No. Description S1 and S2 1.8.2.6 CMUE-BBU Monitoring Signal Cable 1.3.2.10.12 Monitoring Cable Connections in a DBS3900 Using an OMB (Ver.C), OMB, or IMB03 This section describes the monitoring signal cable connections in a DBS3900 using an OMB (Ver.C), OMB, or IMB03. ● For details about the monitoring signal cable connections in a DBS3900 using the IMB03 or IMB03+IFS06, see IMB03 Installation Guide or IFS06 Installation Guide. ● If a DBS3900 uses the OMB or IMB03, the DBS3900 can be configured as a single- or dual-mode base station. If a DBS3900 uses the IMB03+IFS06, the DBS3900 can be configured as a triple-mode base station. The following figure shows the monitoring signal cable connections in a DBS3900 using an AC OMB. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 555 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-245 Monitoring signal cable connections when an AC OMB is used The following table describes the monitoring signal cables. Table 1-366 Monitoring signal cables when an AC OMB is used No. Description S1 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor S2 1.8.3.10 Monitoring Signal Cable for the OMB Fan Assembly S3 1.8.2.17 HEUA-BBU Monitoring Signal Cable S4 1.8.4.8 Alarm Signal Cable for the AC Surge Protection Box S5 1.8.2.1 PMU-HEUA Monitoring Signal Cable The following figure shows the monitoring signal cable connections in a DBS3900 using an AC OMB (Ver.C) without backup power. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 556 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-246 Monitoring signal cable connections when an AC OMB (Ver.C) (without backup power) is used The following table describes the monitoring signal cables. Table 1-367 Monitoring signal cables when an AC OMB (Ver.C) (without backup power) is used No. Description S1 1.8.4.3 ELU Signal Cable S2 and S3 1.8.3.7 HEUB-FAU01D-01 Monitoring Signal Cable S4 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor S5 1.8.4.9 SPD Monitoring Signal Cable S6 1.8.2.16 HEUB-BBU Monitoring Signal Cable S7 1.8.1.12 PMU 11A-HEUB Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 557 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S8 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor The following figure shows the monitoring signal cable connections in a DBS3900 using an AC OMB (Ver.C) for which backup power is provided, one OMB (Ver.C), and two IBBS20Ds. Figure 1-247 Monitoring signal cable connections when an AC OMB (Ver.C) (without backup power) is used The following table describes the monitoring signal cables. Table 1-368 Monitoring signal cables when an AC OMB (Ver.C) (without backup power) is used No. Description S1 1.8.4.3 ELU Signal Cable S2 and S3 1.8.3.7 HEUB-FAU01D-01 Monitoring Signal Cable S4 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor S5 1.8.4.9 SPD Monitoring Signal Cable S6 1.8.2.16 HEUB-BBU Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 558 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S7 1.8.1.12 PMU 11A-HEUB Monitoring Signal Cable S8 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor S9 1.8.2.21 Monitoring Signal Cable for the CMUG S10 1.8.2.12 Monitoring Signal Cable Between Cascaded CMUGs The following figure shows the monitoring signal cable connections in a DBS3900 using a DC OMB. Figure 1-248 Monitoring signal cable connections when a DC OMB is used The following table describes the monitoring signal cables. Table 1-369 Monitoring signal cables when a DC OMB is used No. Description S1 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor S2 1.8.3.10 Monitoring Signal Cable for the OMB Fan Assembly S3 1.8.2.17 HEUA-BBU Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 559 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following figure shows the monitoring signal cable connections in a DBS3900 using a DC OMB (Ver.C). Figure 1-249 Monitoring signal cable connections when a DC OMB (Ver.C) is used The following table describes the monitoring signal cables. Table 1-370 Monitoring signal cables when a DC OMB (Ver.C) is used No. Description S1 1.8.4.3 ELU Signal Cable S2 and S3 1.8.3.7 HEUB-FAU01D-01 Monitoring Signal Cable S4 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor S5 1.8.2.16 HEUB-BBU Monitoring Signal Cable S6 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 560 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.2.10.13 Monitoring Signal Cable Connections in a DBS5900 Using the IMB05 This section describes the monitoring signal cable connections in an IMB05 used by the distributed base station. Power Cable Connections in a 220 V AC Input Scenario The following figure shows the monitoring cable connections of an AC IMB05 configured with the ETP48100-B1. Figure 1-250 Monitoring signal cable connections in an AC IMB05 The following table describes the monitoring signal cable connections. Table 1-371 Monitoring signal cable connections in an AC IMB05 No. Description S1 PMU 11A-BBU monitoring signal cable Monitoring Signal Cable Connections in a -48 V DC Input Scenario The following figure shows the monitoring signal cable connections of a DC IMB05 configured with the EPU02D-02. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 561 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-251 Monitoring signal cable connections in a DC IMB05 The following table describes the monitoring signal cable connections. Table 1-372 Monitoring signal cable connections in a DC IMB05 No. Description S1 PMU 12A-BBU monitoring signal cable S2 Monitoring signal cable between cascaded EPU02D-02s 1.3.2.10.14 Monitoring Signal Cable Connections in a DBS3900 Using the TP48600A This section describes the monitoring signal cable connections in a DBS3900 using the TP48600A. The following figure shows the monitoring signal cable connections in a DBS3900 configured with 1 TP48600A+1 IBBS700D/IBBS700T+1 TMC11H (Ver.C) and two BBUs installed in the TP48600A. When an IBBS700T instead of an IBBS700D is used, the monitoring signal cable connections are the same. NOTE If only one BBU is installed in the TP48600A, one CCU-BBU signal cable is required. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 562 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-252 Monitoring signal cable connections in a DBS3900 configured with 1 TP48600A+1 IBBS700D+1 TMC11H (Ver.C) The following table describes the monitoring signal cable connections. Table 1-373 Monitoring signal cable connections in a base station configured with 1 TP48600A+1 IBBS700D+1 TMC11H (Ver.C) No. Description S1 and S2 1.8.2.9 CCU-BBU Monitoring Signal Cable S3 1.8.2.19 CMUEA-CCU Monitoring Signal Cable S4 1.8.2.8 Signal Cable for Connecting Cascaded CCUs The following figure shows the monitoring signal cable connections in a DBS3900 configured with 1 TP48600A+2 IBBS300Ds+1 TMC11H (Ver.C) and two BBUs installed in the TP48600A. When an IBBS300T instead of an IBBS300D is used, the monitoring signal cable connections are the same. NOTE If only one BBU is installed in the TP48600A, one CCU-BBU signal cable is required. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 563 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-253 Monitoring signal cable connections in a DBS3900 configured with 1 TP48600A+2 IBBS300Ds+1 TMC11H (Ver.C) The following table describes the monitoring signal cable connections. Table 1-374 Monitoring signal cable connections in a base station configured with 1 TP48600A+2 IBBS300Ds+1 TMC11H (Ver.C) No. Description S1 and S2 1.8.2.9 CCU-BBU Monitoring Signal Cable S3 1.8.2.19 CMUEA-CCU Monitoring Signal Cable S4 and S5 1.8.2.8 Signal Cable for Connecting Cascaded CCUs 1.3.2.10.15 Monitoring Signal Cable Connections in a DBS3900 Using the IBC10 This section describes signal cable connections in an IBC10 used by a DBS3900 supplied with -48 V DC input power. Monitoring Signal Cable Connections in a DC IBC10 The following figure shows monitoring signal cable connections in a DC IBC10 when -48 V DC power is supplied. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 564 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-254 Signal cable connections in a DC IBC10 The following table describes monitoring signal cable connections in a DC IBC10 when -48 V DC power is supplied. Table 1-375 Monitoring signal cable connections in a DC IBC10 No. Description S0 Monitoring signal cable for fan assemblies S1 ELU signal cable S2 Signal cable between cascaded fan assemblies Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 565 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S3 and S4 Monitoring signal cable for the temperature sensors at the air intake vents of the BBUs S5 to S14 GPS clock signal cable (optional) 1.3.2.10.16 Monitoring Signal Cable Connections in a DBS5900 Using the ILC29 (Ver.E) This section describes the monitoring signal cable connections in an ILC29 (Ver.E) used by the DBS5900. This following figure shows the monitoring signal cable connections in an ILC29 (Ver.E) used by the distributed base station. Figure 1-255 Monitoring signal cable connections in an ILC29 (Ver.E) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 566 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the monitoring signal cable connections. Table 1-376 Monitoring signal cable connections No. Description S1 FAU02D-15 monitoring signal cable S2 EPU02D-02 monitoring signal cable S3 Monitoring signal cable between cascaded EPU02D-02s S5 FAU-PMU 12A monitoring signal cable 1.3.2.11 Monitoring Signal Cable Connections in a DBS3900 Using a BBU3910A This section describes the monitoring signal cable connections in a DBS3900 using a BBU3910A. 2 OPM50Ms+1 BBU3910A+6 RRUs+4 IBBS20Ds The following figure shows the monitoring signal cable connections in a base station with the configuration of 2 OPM50Ms+1 BBU3910A+6 RRUs+4 IBBS20Ds. Figure 1-256 Monitoring signal cable connections in a base station with the configuration of 2 OPM50Ms+1 BBU3910A+6 RRUs+4 IBBS20Ds Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 567 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the monitoring signal cables. Table 1-377 Monitoring signal cables in a base station with the configuration of 2 OPM50Ms+1 BBU3910A+6 RRUs+4 IBBS20Ds No. Description S1 OPM50M-BBU monitoring signal cable S2 Monitoring signal cable between cascaded OPM50Ms S3 OPM50M-CMUG Monitoring Signal Cable S4 1.8.2.12 Monitoring Signal Cable Between Cascaded CMUGs 2 OPM50Ms+1 BBU3910A+6 RRUs+4 IBBS20Ls The following figure shows the monitoring signal cable connections in a base station with the configuration of 2 OPM50Ms+1 BBU3910A+6 RRUs+4 IBBS20Ls. Figure 1-257 Monitoring signal cable connections in a base station with the configuration of 2 OPM50Ms+1 BBU3910A+6 RRUs+4 IBBS20Ls Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 568 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the monitoring signal cables. Table 1-378 Monitoring signal cables in a base station with the configuration of 2 OPM50Ms+1 BBU3910A+6 RRUs+4 IBBS20Ls No. Description S1 OPM50M-BBU monitoring signal cable S2 Monitoring signal cable between cascaded OPM50Ms S3 Monitoring Signal Cable for the IBBS20L S4 Monitoring Signal Cable Between Cascaded IBBS20Ls 1.3.2.12 BTS3900C Monitoring Signal Cable Connections This section describes monitoring signal cable connections for the BTS3900C when it is configured with different types of cabinets. 1.3.2.12.1 BTS3900C WCDMA Monitoring Signal Cable Connections This section provides reference for onsite installation of monitoring signal cables. ● AC cabinet Figure 1-258 shows the signal cable connections of the BTS3900C AC cabinet. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 569 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-258 Signal cable connections of the AC cabinet Table 1-379 lists the signal cables in the BTS3900C AC cabinet. Table 1-379 Signal cables in the BTS3900C AC cabinet ● No. Cable S1 Monitoring Signal Cable for the Door Status Sensor S2 Monitoring Signal Cable for the OMB Fan S3 HEUA-BBU Monitoring Signal Cable S4 1.8.4.12 GPS Clock Signal Cable S5 1.8.2.1 PMU-HEUA Monitoring Signal Cable S6 Alarm Signal Cable for the AC Surge Protection Box DC cabinet Figure 1-259 shows the signal cable connections of the BTS3900C DC cabinet. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 570 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-259 Signal cable connections of the DC cabinet Table 1-380 lists the signal cables in the BTS3900C DC cabinet. Table 1-380 Signal cables in the BTS3900C DC cabinet No. Cable S1 Monitoring Signal Cable for the Door Status Sensor S2 1.8.1.17 Alarm Signal Cable for the DCDU-03B S3 Monitoring Signal Cable for the OMB Fan S4 1.8.2.1 PMU-HEUA Monitoring Signal Cable S5 1.8.4.12 GPS Clock Signal Cable 1.3.2.12.2 BTS3900C (Ver.C) Monitoring Signal Cable Connections This section provides reference for onsite installation of monitoring signal cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 571 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Monitoring Signal Cable Connections in a 110 V AC or 220 V AC Scenario Only one BBU can be installed in a BTS3900C. The following figure shows the monitoring signal cable connections in a BTS3900C cabinet supplied with 110 V AC or 220 V AC power. Figure 1-260 Monitoring signal cable connections in a BTS3900C AC cabinet The following table describes the monitoring signal cable connections. Table 1-381 Monitoring signal cable connections in a BTS3900C AC cabinet No. Description S1 1.8.4.3 ELU Signal Cable S2 Monitoring signal cable for the outer air circulation fan S3 Monitoring signal cable for the inner air circulation fan S4 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor S5 1.8.4.9 SPD Monitoring Signal Cable S6 1.8.2.16 HEUB-BBU Monitoring Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 572 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S7 1.8.1.12 PMU 11A-HEUB Monitoring Signal Cable S8 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor Monitoring Signal Cable Connections in the -48 V DC Scenario The following figure shows the monitoring signal cable connections when -48 V DC power is supplied. Figure 1-261 Monitoring signal cable connections in a BTS3900C DC cabinet The following table describes the monitoring signal cable connections. Table 1-382 Monitoring signal cable connections in a BTS3900C DC cabinet No. Description S1 1.8.4.3 ELU Signal Cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 573 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables No. Description S2 Monitoring signal cable for the outer air circulation fan S3 Monitoring signal cable for the inner air circulation fan S4 1.8.4.1 Monitoring Signal Cable for a Door Status Sensor S5 1.8.2.16 HEUB-BBU Monitoring Signal Cable S6 1.8.3.11 Monitoring Signal Cable for the Temperature Sensor 1.3.3 BBU Interconnection Signal Cable Connections This section describes the BBU interconnection signal cable connections when two BBUs are configured. NOTE When two BBUs are interconnected to support triple or quadruple modes, BBU 0 is the root BBU, and BBU 1 is the leaf BBU. The following table describes the UCIU+UMPT or UMPT+UMPT interconnection scenario. Table 1-383 BBU configurations BBU 0 BBU 1 GU ● L ● UL ● N ● L*T GL U N GU UL L*T G*U*L G*U*L G[L*T] U U U UL N G[U*L] ● U*L ● N Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 574 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables UCIU+UMPT In a triple- or quadruple-mode base station configured with two BBUs, triple or quadruple modes can be supported by connecting the UCIU in BBU 0 to the UMPT in BBU 1. In a UMTS single-mode base station, the UMTS service processing capacity can be expanded by connecting the UCIU in BBU 0 to the UMPT in BBU 1. Any port from M0 to M4 on the UCIU in BBU 0 can be connected to the CI port on the UMPT in BBU 1 by using a BBU interconnection signal cable, as shown in Figure 1-262. NOTE In UCIU+UMPT interconnection mode, BBU 0 and BBU 1 can have the following combinations: ● BBU 0 and BBU 1 are both BBU3900s. ● BBU 0 is BBU3900 and BBU 1 is BBU3910. ● BBU 0 is BBU3900 and BBU 1 is BBU5900. In UCIU+UMPT mode, the UMPT must be configured as the main control board of BBU 1. Figure 1-262 Connections of the interconnection signal cable between the UCIU and UMPT UMPT+UMPT In a multimode base station configured with two BBUs, the UMPT in BBU 0 can be connected to the UMPT in BBU 1. The "CI" port on the UMPT in BBU 0 can be connected to the "CI" port on the UMPT in BBU 1 by using a BBU interconnection signal cable, as shown in the following figure. Figure 1-263 Connections of the interconnection signal cable between UMPT boards Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 575 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.4 Transmission Cable Connections for 5900 Series Base Stations Transmission cable connections vary with the configuration of main control boards and transmission boards in base stations of different modes. This section describes transmission cable connections in single-mode, dual-mode, triple-mode, and quadruple-mode base stations. 1.3.4.1 Transmission Cable Connections in a Single-Mode Base Station In a GSM, UMTS, NR, or LTE single-mode base station, E1/T1 cables, FE/GE Ethernet cables, or FE/GE optical fibers can be used to transmit data. This section describes the transmission configuration principles and cable connections. It also provides figures to show how to connect the cables. Transmission Configuration Principles The following table describes the transmission configuration principles for a single-mode base station configured with the BBU5900. Table 1-384 Transmission configuration principles for a single-mode base station Transmis sion Mode Working Mode of a Base Station Transmission Configuration Principle Illustration of Cable Connections Transmiss ion over E1/T1 cables GSM or UMTS The UMPTb provides E1/T1 ports for transmission cables. Illustration "1" in Figure 1-264 shows transmission cable connections in this scenario. Transmiss ion over FE/GE cables GSM, UMTS, NR, or LTE Scenario 1: The UMPTb, UMPTg, or UMPTe provides FE/GE optical ports for transmission cables. Illustration "2" in Figure 1-264 shows the transmission cable connections in scenario 1. Scenario 2: The UMPTb, UMPTg, or UMPTe provides FE/GE electrical ports for transmission cables. Illustration "3" in Figure 1-264 shows the transmission cable connections in scenario 2. Illustration of Transmission Cable Connections The following figure shows the transmission cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 576 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-264 Transmission cable connections 1.3.4.2 Transmission Cable Connections in a Dual-Mode Base Station This section describes the transmission configuration principles and cable connections in a dual-mode base station. It also provides figures to show how to connect the cables. Transmission Configuration Principles The following table describes the transmission configuration principles for a dualmode base station. Table 1-385 Transmission configuration principles for a dual-mode base station Working Mode of a Base Station Transmission Configuration Principle Co-MPT dualmode scenario Co-transmission mode is used and the UMPT is configured. IPbased co-transmission in IP over FE/GE mode is preferentially used. Separate-MPT dual-mode scenario For separate transmission, the two modes use separate transmission cables. The UMPT is configured and the IP-based co-transmission in IP over FE/GE mode is preferentially used. For co-transmission, the UMPT is configured and the IP-based co-transmission in IP over FE/GE mode is preferentially used. Description of Transmission Cable Connections The following table describes the transmission cable connections in a dual-mode base station when different transmission modes are used. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 577 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-386 Cable connection description Transmissio n Mode Working Mode of a Base Station Cable Connection Description Illustration of Cable Connections IP-based cotransmission in IP over FE/GE mode GU A UMPT_U provides FE/GE optical ports or FE/GE electrical ports for transmission cables. See illustration "1" in Figure 1-265. GL A UMPT_L provides FE/GE optical ports or FE/GE electrical ports for transmission cables. See illustration "2" in Figure 1-265. UL A UMPT_L provides FE/GE optical ports or FE/GE electrical ports for transmission cables. See illustration "2" in Figure 1-265. G*U, G*L, U*L, G*N, U*N, or L*N A UMPT provides FE/GE optical ports or FE/GE electrical ports for transmission cables. See illustration "3" in Figure 1-265. Hybrid transmission G*U, G*L, U*L, G*N, U*N, or L*N A UMPT provides FE/GE optical ports and FE/GE electrical ports for transmission cables. See illustration "4" in Figure 1-265. Separate transmission GU ● GSM transmission cables can be connected to E1/T1 ports, FE/GE electrical ports, or FE/GE optical ports on a UMPT_G. See illustration "1" in Figure 1-266. ● GSM E1/ T1+UMTS E1/T1 ● GSM E1/ T1+UMTS E1/T1 ● GSM FE/GE +UMTS FE/GE ● GSM FE/GE +UMTS E1/T1 Issue 16 (2021-08-13) ● UMTS transmission cables can be connected to E1/T1 ports, FE/GE electrical ports, or FE/GE optical ports on a UMPT_U. Copyright © Huawei Technologies Co., Ltd. 578 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Transmissio n Mode Working Mode of a Base Station Cable Connection Description Illustration of Cable Connections Separate transmission GL ● GSM transmission cables can be connected to E1/T1 ports, FE/GE electrical ports, or FE/GE optical ports on a UMPT_G. See illustration "2" in Figure 1-266. ● GSM E1/ T1+LTE FE/GE ● GSM FE/GE +LTE FE/GE ● LTE transmission cables can be connected to FE/GE electrical ports or FE/GE optical ports. Separate transmission UL ● UMTS E1/ T1+LTE FE/GE ● UMTS FE/GE +LTE FE/GE See illustration "3" in Figure 1-266. ● LTE transmission cables can be connected to FE/GE electrical ports or FE/GE optical ports. Separate transmission ● GSM E1/ T1+NR FE/GE ● GSM FE/GE+NR FE/GE Issue 16 (2021-08-13) ● UMTS transmission cables can be connected to E1/T1 ports, FE/GE electrical ports, or FE/GE optical ports on a UMPT_U. GN ● GSM transmission cables can be connected to E1/T1 ports, FE/GE electrical ports, or FE/GE optical ports on a UMPT_G. See illustration "4" in Figure 1-266. ● LTE transmission cables can be connected to FE/GE electrical ports or FE/GE optical ports. Copyright © Huawei Technologies Co., Ltd. 579 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Transmissio n Mode Working Mode of a Base Station Cable Connection Description Illustration of Cable Connections Separate transmission UN ● UMTS transmission cables can be connected to E1/T1 ports, FE/GE electrical ports, or FE/GE optical ports on a UMPT_U. See illustration "5" in Figure 1-266. ● UMTS E1/ T1+NR FE/GE ● UMTS FE/GE+NR FE/GE Separate transmission LTE FE/GE +NR FE/GE ● NR transmission cables can be connected to FE/GE electrical ports or FE/GE optical ports. LN ● LTE transmission cables can be connected to FE/GE electrical ports or FE/GE optical ports. See illustration "6" in Figure 1-266. ● NR transmission cables can be connected to FE/GE electrical ports or FE/GE optical ports. Illustrations of Transmission Cable Connections The following figures show the transmission cable connections. Figure 1-265 Transmission cable connections Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 580 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-266 Transmission cable connections 1.3.4.3 Transmission Cable Connections in a Triple-Mode Base Station This section describes the transmission cable connections in a triple-mode base station in typical scenarios. Cable Connection Description The following table describes the transmission cable connections in a triple-mode base station configured with two BBUs. Table 1-387 Transmission cable connections in a triple-mode base station TripleMode Scenario Working Mode of the BBU Cable Connection Description GU+L (BBUs not interconnec ted) BBU 0 works in GU mode and BBU 1 works in LO mode. ● For transmission cable connections in dual-mode scenarios, see 1.3.4.2 Transmission Cable Connections in a DualMode Base Station. ● For transmission cable connections in single mode Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 581 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables TripleMode Scenario Working Mode of the BBU Cable Connection Description GL+U (BBUs not interconnec ted) BBU 0 works in GL mode and BBU 1 works in UO mode. GU+L (UMPT +UMPT) BBU 0 works in GU mode and BBU 1 works in LO mode. BBU 0 and BBU 1 are interconnected using the UMPT boards. The UMPT_L is preferentially used to provide the FE/GE optical port or FE/GE electrical port. For details on the transmission cable connections, see illustration "1" in Figure 1-267. GL+U (UMPT +UMPT) BBU 0 works in GL mode and BBU 1 works in UO mode. BBU 0 and BBU 1 are interconnected using the UMPT boards. The UMPT_L is preferentially used to provide the FE/GE optical port or FE/GE electrical port. For details on the transmission cable connections, see illustration "2" in Figure 1-267. GL+N (UMPT +UMPT) BBU 0 works in GL mode and BBU 1 works in NR mode. BBU 0 and BBU 1 are interconnected using the UMPT boards. The UMPT_NR is preferentially used to provide the FE/GE optical port or FE/GE electrical port. UL+N (UMPT +UMPT) BBU 0 works in UL mode and BBU 1 works in NR mode. BBU 0 and BBU 1 are interconnected using the UMPT boards. The UMPT_NR is preferentially used to provide the FE/GE optical port or FE/GE electrical port. U+LN (UMPT +UMPT) BBU 0 works in UO mode and BBU 1 works in LN mode. BBU 0 and BBU 1 are interconnected using the UMPT boards. The UMPT_U is preferentially used to provide the FE/GE optical port or FE/GE electrical port. G*U*L The BBU is configured with a UMPT and works in triple-mode co-MPT scenarios. See illustration "3" in Figure 1-267. scenarios, see 1.3.4.1 Transmission Cable Connections in a SingleMode Base Station. Illustration of Transmission Cable Connections The following figure shows the transmission cable connections in a triple-mode base station. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 582 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-267 Transmission cable connections in a triple-mode base station 1.3.4.4 Transmission Cable Connections in a Quadruple-Mode Base Station This section describes the transmission cable connections in a quadruple-mode base station in typical scenarios. Cable Connection Description The following table describes the transmission cable connections in a quadruplemode base station in typical scenarios. Table 1-388 Transmission cable connections in a quadruple-mode base station BBU Quadruple-Mode Scenario Transmission Mode Illustration of Cable Connections BBU5900 ● G*U*L*T A single BBU is configured with a UMPT and works in quadruple modes. Figure 1-268 ● G*U*L*M ● G*U*L*N Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 583 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Illustration of Transmission Cable Connections The following figure shows the transmission cable connections in a quadruplemode base station. Figure 1-268 Transmission cable connections in a quadruple-mode base station 1.3.5 Transmission Cable Connections for 3900 Series Base Stations Transmission cable connections vary with the configuration of main control boards and transmission boards in base stations of different modes. This section describes transmission cable connections in single-mode, dual-mode, triple-mode, and quadruple-mode base stations. 1.3.5.1 Transmission Cable Connections in a Single-Mode Base Station In a GSM, UMTS, or LTE base station, E1/T1 cables, FE/GE Ethernet cables, and FE/GE optical fibers can be used to transmit data. This section describes the transmission configuration principles and cable connections and also provides illustrations of the cable connections. Transmission Configuration Principles The following table describes the transmission configuration principles for a single-mode base station. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 584 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-389 Transmission configuration principles Principle Classific ation BBU Transmission Configuration Principle Applicable Base Station Principles classified by transmiss ion modes BBU3 900 ● In a GSM single-mode base station, a UTRP is configured for providing extension transmission ports only when the GTMU/ GTMUb/GTMUc/UMPT has no available transmission port. 3900 series base stations ● In a UMTS single-mode base station, if the UTRP is configured, transmission cables must be connected to the UTRP. ● In an LTE single-mode base station, FE/GE optical fibers are preferentially used for data transmission. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 585 3900 & 5900 Series Base Station Cables Principle Classific ation 1 3900 & 5900 Series Base Station Cables BBU Transmission Configuration Principle BBU3 910 ● In a GSM single-mode base station: Applicable Base Station – In a GBTS using E1/T1 transmission, transmission cables are connected to a GTMUb/ GTMUc. – In an eGBTS using E1/T1 transmission, transmission cables are connected to a UMPT/ GTMUb/GTMUc. ● In a UMTS single-mode base station, transmission cables are connected to a UMPT by default. If more transmission ports are required, a UTRPc or UTRPa is configured and transmission cables are preferentially connected to the UTRPc or UTRPa. ● In an LTE single-mode base station, a UMPT is configured for connecting transmission cables. ● In an NR single-mode base station, a UMPT is configured for connecting transmission cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 586 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Principle Classific ation BBU Transmission Configuration Principle Applicable Base Station Principles classified by base station types - ● E1/T1 cables must be first connected to a UELP that processes signals for surge protectiona. ● BTS3900A or BTS3900AL ● If a UMPTe or UMPTg is configured, FE/GE Ethernet cables are directly connected to the UMPTe or UMPTg. If a main control board other than the UMPTe or UMPTg is configured, FE/GE Ethernet cables must be connected to a UFLP that processes signals for surge protection and then to the main control board. ● Outdoor DBS3900 - - ● BTS3900C or DBS3900 using the OMB ● BTS3012AE (Ver.D_Z) E1/T1 cables and FE/GE Ethernet cables do not need to be connected to a surge protection board. ● BTS3900 or BTS3900L FE/GE optical fibers do not need to be connected to a surge protection board. ● BTS3900 or BTS3900L ● Indoor DBS3900 ● BTS3900A or BTS3900AL ● BTS3900C or DBS3900 using the OMB ● DBS3900 ● BTS3012AE (Ver.D_Z) a: Boards are configured for surge protection in different cabinets as follows: ● If an APM30H (Ver.B)/APM30H (Ver.C)/APM30H (Ver.D)/APM30H (Ver.E) is used for a BTS3900A or DBS3900, an SLPU equipped with a UELP or UFLP is configured in the APM30H. ● If an APM30 or APM30H (Ver.A) is used for a DBS3900, a UELP or UFLP is installed in the BBU in the APM30 or APM30H (Ver.A). ● BTS3900AL cabinets have slots for a UELP or UFLP, which provides the surge protection function. ● For a BTS3900C or a DBS3900 using an OMB, a UELP or UFLP is installed in the BBU in the OMB. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 587 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description Table 1-390 and Table 1-391 describe transmission cable connections in a singlemode base station configured with a BBU3900 and a single-mode base station configured with a BBU3910 in different transmission modes. Table 1-390 Transmission cable connections in a single-mode base station configured with a BBU3900 Trans missi on Mode Work ing Mode of a Base Stati on Cable Connection Illustration of Cable Connectionsa Trans missio n over E1/T1 cables GSM A GTMU/GTMUb/GTMUc/UMPT provides E1/T1 ports for transmission cables. Illustrations "1" in Figure 1-269, Figure 1-270, Figure 1-271, and Figure 1-272 show transmission cable connections in this scenario. UMTS Scenario 1: A UTRP is configured, and the UTRP provides E1/T1 ports for transmission cables. Illustrations "2" in Figure 1-269, Figure 1-270, Figure 1-271, and Figure 1-272 show transmission cable connections in scenario 1. Scenario 2: No UTRP is configured, and a WMPT/UMPT provides E1/T1 ports for transmission cables. Trans missio n over FE/GE cables Issue 16 (2021-08-13) LTE A UMPT is configured, and the UMPT provides E1/T1 ports for transmission cables. Illustrations "3" in Figure 1-269, Figure 1-270, Figure 1-271, and Figure 1-272 show transmission cable connections in this scenario. GSM Scenario 1: No UTRP is configured, and a GTMU/GTMUb/GTMUc/ UMPT provides FE/GE optical ports for transmission cables. Illustrations "4" in Figure 1-269, Figure 1-270, Figure 1-271, and Figure 1-272 show transmission cable connections in scenario 1. Scenario 2: No UTRP is configured, and a GTMU/GTMUb/GTMUc/ UMPT provides FE/GE electrical ports for transmission cables. Copyright © Huawei Technologies Co., Ltd. 588 3900 & 5900 Series Base Station Cables Trans missi on Mode 1 3900 & 5900 Series Base Station Cables Work ing Mode of a Base Stati on Cable Connection Illustration of Cable Connectionsa UMTS Scenario 1: A UTRPc is configured, and the UTRPc provides FE/GE optical ports or FE/GE electrical ports for transmission cables. Illustrations "5" in Figure 1-269, Figure 1-270, Figure 1-271, and Figure 1-272 show transmission cable connections in scenario 1. Scenario 2: A UTRP2 is configured, and the UTRP2 provides FE/GE optical ports for transmission cables. Scenario 3: A UTRP9 is configured, and the UTRP9 provides FE/GE electrical ports for transmission cables. Scenario 4: No UTRP is configured, and a WMPT/UMPT provides FE/GE optical ports or FE/GE electrical ports for transmission cables. LTE Scenario 1: A UTRPc is configured, and the UTRPc provides FE/GE optical ports or FE/GE electrical ports for transmission cables. Scenario 2: No UTRP is configured, and an LMPT or UMPT provides FE/GE optical ports or FE/GE electrical ports for transmission cables. Illustrations "6" in Figure 1-269, Figure 1-270, Figure 1-271, and Figure 1-272 show transmission cable connections in scenario 1. a: Figure 1-269, Figure 1-270, Figure 1-271, and Figure 1-272 show transmission cable connections in different types of base stations. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 589 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-391 Transmission cable connections in a single-mode base station configured with a BBU3910 Trans missi on Mode Work ing Mode of a Base Stati on Cable Connection Illustration of Cable Connectionsa Trans missio n over E1/T1 cables GSM A UMPT/GTMUb/GTMUc provides E1/T1 ports for transmission cables. Illustrations "1" in Figure 1-273, Figure 1-274, Figure 1-275, and Figure 1-276 show transmission cable connections in this scenario. UMTS Scenario 1: No UTRP is configured, and a UMPT provides E1/T1 ports for transmission cables. Illustrations "1" in Figure 1-273, Figure 1-274, Figure 1-275, and Figure 1-276 show transmission cable connections in scenario 1. Scenario 2: A UTRPa is configured, and the UTRPa provides E1/T1 ports for transmission cables. Trans missio n over FE/GE cables GSM A UMPT/GTMUb/GTMUc provides FE/GE optical ports or FE/GE electrical ports for transmission cables. Illustrations "2" in Figure 1-273, Figure 1-274, Figure 1-275, and Figure 1-276 show cable connections in this scenario. Trans missio n over FE/GE cables UMTS Scenario 1: No UTRP is configured, and a UMPT provides FE/GE optical ports or FE/GE electrical ports for transmission cables. Illustrations "2" in Figure 1-273, Figure 1-274, Figure 1-275, and Figure 1-276 show transmission cable connections in scenario 1. Trans missio n over FE/GE cables LTE No UTRP is configured, and a UMPT provides FE/GE optical ports or FE/GE electrical ports for transmission cables. Illustrations "2" in Figure 1-273, Figure 1-274, Figure 1-275, and Figure 1-276 show transmission cable connections in this scenario. Trans missio n over FE/GE cables NR No UTRP is configured, and a UMPT provides FE/GE optical ports or FE/GE electrical ports for transmission cables. Illustrations "2" in Figure 1-273, Figure 1-274, Figure 1-275, and Figure 1-276 show transmission cable connections in this scenario. Issue 16 (2021-08-13) Scenario 2: A UTRPc is configured, and the UTRPc provides FE/GE optical ports or FE/GE electrical ports for transmission cables. Copyright © Huawei Technologies Co., Ltd. 590 3900 & 5900 Series Base Station Cables Trans missi on Mode Work ing Mode of a Base Stati on 1 3900 & 5900 Series Base Station Cables Cable Connection Illustration of Cable Connectionsa a: ● Figure 1-273, Figure 1-274, Figure 1-275, and Figure 1-276 show transmission cable connections in different types of base stations. ● In these figures, GSM scenarios use UMPT boards as examples. Illustrations of Transmission Cable Connections in a Base Station Configured with a BBU3900 Figure 1-269 Transmission cable connections in an outdoor DBS3900 configured with an APM30H (Ver.B)/APM30H (Ver.C)/APM30H (Ver.D)/APM30H (Ver.E), or in a BTS3900A Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 591 3900 & 5900 Series Base Station Cables T1: 1.7.2 E1/T1 Surge Protection Transfer Cable 1 3900 & 5900 Series Base Station Cables T2: 1.7.1 E1/T1 Cable T3: 1.7.3 FE/GE Optical Fiber Figure 1-270 Transmission cable connections in an indoor DBS3900, a BTS3900, or a BTS3900L T1: 1.7.1 E1/T1 Cable Issue 16 (2021-08-13) T2: 1.7.3 FE/GE Optical Fiber Copyright © Huawei Technologies Co., Ltd. 592 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-271 Transmission cable connections in a DBS3900 configured with an APM30, APM30H (Ver.A), or OMB, or in a BTS3900C T1: 1.7.2 E1/T1 Surge Protection Transfer Cable Issue 16 (2021-08-13) T2: 1.7.1 E1/T1 Cable Copyright © Huawei Technologies Co., Ltd. T3: 1.7.3 FE/GE Optical Fiber 593 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-272 Transmission cable connections in a BTS3900AL T1: 1.7.2 E1/T1 Surge Protection Transfer Cable T2: 1.7.1 E1/T1 Cable T3: 1.7.3 FE/GE Optical Fiber Illustrations of Transmission Cable Connections in a Base Station Configured with a BBU3910 Figure 1-273 Transmission cable connections in an outdoor DBS3900 configured with an APM30H (Ver.B)/APM30H (Ver.C)/APM30H (Ver.D)/APM30H (Ver.E), or in a BTS3900A T1: 1.7.2 E1/T1 Surge Protection Transfer Cable Issue 16 (2021-08-13) T2: 1.7.1 E1/T1 Cable Copyright © Huawei Technologies Co., Ltd. T3: 1.7.3 FE/GE Optical Fiber 594 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-274 Transmission cable connections in an indoor DBS3900, a BTS3900, or a BTS3900L T1: 1.7.1 E1/T1 Cable T2: 1.7.3 FE/GE Optical Fiber Figure 1-275 Transmission cable connections in a DBS3900 configured with an APM30, APM30H (Ver.A), or OMB, or in a BTS3900C T1: 1.7.2 E1/T1 Surge Protection Transfer Cable T2: 1.7.1 E1/T1 Cable T3: 1.7.3 FE/GE Optical Fiber Figure 1-276 Transmission cable connections in a BTS3900AL T1: 1.7.2 E1/T1 Surge Protection Transfer Cable T2: 1.7.1 E1/T1 Cable T3: 1.7.3 FE/GE Optical Fiber 1.3.5.2 Transmission Cable Connections in a Dual-Mode Base Station Using Co-Transmission In a GU, GL, or UL dual-mode base station, data can be transmitted by using cotransmission. This section describes the transmission configuration principles and cable connections. It also provides figures to show how to connect the cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 595 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Transmission Configuration Principles The following table describes the transmission configuration principles for a dualmode base station when co-transmission is implemented. Table 1-392 Transmission configuration principles Princi ple Classif icatio n BBU Transmission Configuration Principle Applicable Base Station Princip les classifi ed by trans missio n modes BBU3900 ● For a GU dual-mode base station using the TDM-based co-transmission function, the UTRP homed on the GSM side or the GTMU connects to transmission cables. 3900 series base stations ● For a GU dual-mode base station using the IP-based co-transmission function, the UTRP on the UMTS side or the WMPT/UMPT preferentially connects to transmission cables. ● For a GL dual-mode base station, the UMPT preferentially connects to transmission cables. ● In a UL dual-mode base station, the UTRP on the LTE side or the LMPT/ UMPT preferentially connects to transmission cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 596 3900 & 5900 Series Base Station Cables Princi ple Classif icatio n 1 3900 & 5900 Series Base Station Cables BBU Transmission Configuration Principle BBU3910 ● Co-transmission is used in co-MPT base stations by default. In this case, the UMPT is configured and the IP over FE/GE transmission mode is preferentially used. Applicable Base Station ● When a separate-MPT base station uses co-transmission, a UMPT is configured and IP over FE/GE cotransmission is preferentially used. If more transmission ports are required, a UTRPc can be configured and transmission cables are preferentially connected to the UTRPc. ● In a separate-MPT base station, if the GSM mode is deployed on a GTMUb/ GTMUc, transmission cables can only be connected to the UMPT deployed with UMTS mode rather than the GTMUb/GTMUc to support cotransmission. If more transmission ports are required, a UTRPc can be configured and transmission cables are preferentially connected to the UTRPc. Princip les classifi ed by base statio n types - ● E1/T1 cables must be connected to a UELP that processes signals for surge protectiona. ● If a UMPTe or UMPTg is configured, FE/GE Ethernet cables are directly connected to the UMPTe or UMPTg. If a main control board other than the UMPTe or UMPTg is configured, FE/GE Ethernet cables must be connected to a UFLP that processes signals for surge protection and then to the main control board. - E1/T1 cables and FE/GE Ethernet cables do not need to be connected to a surge protection board. ● BTS3900A or BTS3900A L ● BTS3900C or DBS3900 using the OMB ● Outdoor DBS3900 ● BTS3012A E (Ver.D_Z) ● BTS3900 or BTS3900L ● Indoor DBS3900 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 597 3900 & 5900 Series Base Station Cables Princi ple Classif icatio n 1 3900 & 5900 Series Base Station Cables BBU Transmission Configuration Principle Applicable Base Station - FE/GE optical fibers do not need to be connected to a surge protection board. ● BTS3900 or BTS3900L ● BTS3900A or BTS3900A L ● BTS3900C or DBS3900 using the OMB ● DBS3900 ● BTS3012A E (Ver.D_Z) a: Boards are configured for surge protection in different cabinets as follows: ● If an APM30H (Ver.B)/APM30H (Ver.C)/APM30H (Ver.D)/APM30H (Ver.E) is used for a BTS3900A or DBS3900, an SLPU equipped with a UELP or UFLP is configured in the APM30H. ● If an APM30 or APM30H (Ver.A) is used for a DBS3900, a UELP or UFLP is installed in the BBU in the APM30 or APM30H (Ver.A). ● BTS3900AL cabinets have slots for a UELP or UFLP, which provides the surge protection function. ● For a BTS3900C or a DBS3900 using an OMB, a UELP or UFLP is installed in the BBU in the OMB. Description Table 1-393 and Table 1-394 describe the transmission cable connections in a dual-mode base station (using co-transmission) configured with the BBU3900 and BBU3910 in different transmission modes, respectively. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 598 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-393 Transmission cable connections in a dual-mode base station (using co-transmission) configured with the BBU3900 Trans missi on Mode Appli cable Mode Description Illustration of Cable Connectionsa TDMbased cotrans missio n GU Scenario 1: No UTRP is configured, the GTMU/GTMUb/GTMUc provides E1/T1 ports for transmission cables. Illustrations "1" in Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in scenario 1. IPbased cotrans missio n in IP over E1/T1 mode GU Scenario 2: A UTRP is configured, and the UTRP provides E1/T1 ports for transmission cables. Scenario 2: The UMPT deployed with the UMTS mode provides E1/T1 ports for transmission cables. The UMPT is interconnected with the GTMU by electrical ports or optical ports. Scenario 3: The UMPT deployed with the UMTS mode provides E1/T1 ports for transmission cables and the UMPT and the GTMUb/GTMUc are connected through a backplane. GL Issue 16 (2021-08-13) Scenario 1: The WMPT/UTRP provides E1/T1 ports for transmission cables. The WMPT/ UTRP is interconnected with the GTMU by electrical ports or optical ports. The UMPT provides E1/T1 ports for transmission cables. The UMPT and the GTMUb/GTMUc are connected through a backplane. Copyright © Huawei Technologies Co., Ltd. Illustrations "2" in Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in scenario 1. Illustrations "3" in Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in this scenario. 599 3900 & 5900 Series Base Station Cables Trans missi on Mode IPbased cotrans missio n in IP over FE/GE mode 1 3900 & 5900 Series Base Station Cables Appli cable Mode Description Illustration of Cable Connectionsa UL A UTRP is configured, and the UTRP provides E1/T1 ports for transmission cables. The LMPT/UMPT is interconnected with the WMPT/UMPT by electrical ports or optical ports. Illustrations "4" in Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in this scenario. GU Scenario 1: A UTRPc is configured, and the UTRPc provides FE/GE optical ports or electrical ports for transmission cables. Illustrations "5" in Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in scenario 1. Scenario 2: A UTRP2 is configured, and the UTRP2 provides FE/GE optical ports for transmission cables. The GTMU is interconnected with the UTRP2 by optical ports. Scenario 3: No UTRP is configured, and the WMPT/UMPT provides FE/GE optical ports for transmission cables. The WMPT/UMPT is interconnected with the GTMU by electrical ports. Scenario 4: No UTRP is configured, and the WMPT/UMPT provides FE/GE electrical ports for transmission cables. The WMPT/ UMPT is interconnected with the GTMU by optical ports. Scenario 5: No UTRP is configured, and the WMPT/UMPT provides FE/GE electrical ports or optical ports for transmission cables. The WMPT/UMPT and the GTMUb/ GTMUc are connected through the backplane. Scenario 6: No UTRP is configured, and the UMPT provides FE/GE electrical ports or optical ports for transmission cables. The WMPT/UMPT communicates with the UMPT through the backplane. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 600 3900 & 5900 Series Base Station Cables Trans missi on Mode 1 3900 & 5900 Series Base Station Cables Appli cable Mode Description Illustration of Cable Connectionsa GL Scenario 1: A UTRPc is configured, and the UTRPc provides FE/GE optical ports or electrical ports for transmission cables. Illustrations "6" in Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in scenario 1. Scenario 2: No UTRP is configured, and the LMPT/UMPT provides FE/GE optical ports for transmission cables. The LMPT/UMPT is interconnected with the GTMU by electrical ports. Scenario 3: No UTRP is configured, and the LMPT/UMPT provides FE/GE electrical ports for transmission cables. The LMPT/UMPT is interconnected with the GTMU by optical ports. Scenario 4: No UTRP is configured, and the LMPT/UMPT provides FE/GE electrical ports or optical ports for transmission cables. The LMPT/UMPT and the GTMUb/GTMUc are connected through the backplane. Scenario 5: No UTRP is configured, and the UMPT provides FE/GE electrical ports or optical ports for transmission cables. The LMPT/UMPT communicates with the UMPT through the backplane. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 601 3900 & 5900 Series Base Station Cables Trans missi on Mode 1 3900 & 5900 Series Base Station Cables Appli cable Mode Description Illustration of Cable Connectionsa UL Scenario 1: A UTRPc is configured, and the UTRPc provides FE/GE optical ports or FE/GE electrical ports for transmission cables. Illustrations "7" in Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in scenario 1. Scenario 2: No UTRP is configured, and the LMPT/UMPT provides FE/GE optical ports for transmission cables. The LMPT/UMPT is interconnected with the WMPT/UMPT by electrical ports. Scenario 3: No UTRP is configured, and the LMPT/UMPT provides FE/GE electrical ports for transmission cables. The LMPT/UMPT is interconnected with the WMPT/UMPT by optical ports. Scenario 4: No UTRP is configured, and the LMPT/UMPT provides FE/GE electrical ports or optical ports for transmission cables. The LMPT/UMPT communicates with the WMPT/UMPT through the backplane. Scenario 5: No UTRP is configured, and the UMPT provides FE/GE electrical ports or optical ports for transmission cables. The LMPT/UMPT communicates with the UMPT through the backplane. Route backu p and IPbased cotrans missio n Issue 16 (2021-08-13) G*U, G*L, or U*L No UTRP is configured, and the UMPT provides FE/GE electrical ports or optical ports for transmission cables. Illustrations "8" in Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in this scenario. GU Scenario 1: Both the WMPT/UMPT and the GTMU provide electrical ports for transmission cables. The WMPT/UMPT is interconnected with the GTMU by optical ports. Illustrations "9" in Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in scenario 1. Scenario 2: Both the WMPT/UMPT and the GTMU provide optical ports for transmission cables. The WMPT/UMPT is interconnected with the GTMU by electrical ports. Copyright © Huawei Technologies Co., Ltd. 602 3900 & 5900 Series Base Station Cables Trans missi on Mode 1 3900 & 5900 Series Base Station Cables Appli cable Mode Description Illustration of Cable Connectionsa GL Scenario 1: Both the LMPT/UMPT and the GTMU provide electrical ports for transmission cables. The LMPT/UMPT is interconnected with the GTMU by optical ports. Illustrations "10" in Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in scenario 1. Scenario 2: Both the LMPT/UMPT and the GTMU provide optical ports for transmission cables. The LMPT/UMPT is interconnected with the GTMU by electrical ports. UL Scenario 1: Both the LMPT/UMPT and the WMPT/UMPT provide electrical ports for transmission cables. The LMPT/UMPT is interconnected with the WMPT/UMPT by optical ports. Scenario 2: Both the LMPT/UMPT and the WMPT/UMPT provide optical ports for transmission cables. The LMPT/UMPT is interconnected with the WMPT/UMPT by electrical ports. Hybri d trans missio n UL Scenario 1: The WMPT/UMPT provides E1/T1 ports for transmission cables, and the LMPT/UMPT provides FE/GE optical ports for transmission cables. The LMPT/UMPT is interconnected with the WMPT/UMPT by electrical ports. Scenario 2: The WMPT/UMPT provides E1/T1 ports for transmission cables, and the LMPT/UMPT provides FE/GE electrical ports for transmission cables. The LMPT/UMPT is interconnected with the WMPT/UMPT by optical ports. Illustrations "11" in Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in scenario 1. Illustrations "12" in Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in scenario 1. a: Figure 1-277, Figure 1-278, Figure 1-279, and Figure 1-280 show transmission cable connections in different types of base stations. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 603 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-394 Transmission cable connections in a dual-mode base station (using co-transmission) configured with the BBU3910 Trans missi on Mode Appli cable Mode Description Illustration of Cable Connectionsa IPbased cotrans missio n in IP over FE/GE mode GU Scenario 1 (recommended): No UTRP is configured, and the UMPT_U provides FE/GE optical ports or electrical ports for transmission cables. Illustration "1" in Figure 1-281 shows the cable connections in scenario 1. Scenario 2: A UTRPc is configured, and the UTRPc provides FE/GE optical ports or electrical ports for transmission cables. GL Scenario 1 (recommended): No UTRP is configured, and the UMPT_L provides FE/GE optical ports or electrical ports for transmission cables. Scenario 2: A UTRPc is configured, and the UTRPc provides FE/GE optical ports or electrical ports for transmission cables. UL Scenario 1 (recommended): No UTRP is configured, and the UMPT_L provides FE/GE optical ports or electrical ports for transmission cables. Scenario 2: A UTRPc is configured, and the UTRPc provides FE/GE optical ports or electrical ports for transmission cables. G*U, G*L, G*N, U*N, L*N, or U*L Issue 16 (2021-08-13) Scenario 1 (recommended): No UTRP is configured, and the UMPT provides FE/GE optical ports or electrical ports for transmission cables. Scenario 2: A UTRPc is configured, and the UTRPc provides FE/GE optical ports or electrical ports for transmission cables. Copyright © Huawei Technologies Co., Ltd. Illustration "2" in Figure 1-281 shows the transmission cable connections in scenario 1. Illustration "2" in Figure 1-281 shows the transmission cable connections in scenario 1. Illustration "3" in Figure 1-281 shows the transmission cable connections in scenario 1. 604 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Trans missi on Mode Appli cable Mode Description Illustration of Cable Connectionsa Hybri d trans missio n G*U, G*L, G*N, U*N, L*N, or U*L Scenario 1: No UTRP is configured, and the UMPT provides optical ports or electrical ports for transmission cables. Illustration "4" in Figure 1-281 shows the transmission cable connections in scenario 1. Scenario 2: A UTRPc is configured. The UMPT provides electrical ports or optical ports for transmission cables, and the UTRPc provides electrical ports or optical ports for transmission cables. Scenario 3: A UTRPa is configured, the UMPT provides optical ports or electrical ports for transmission cables, and the UTRPa provides E1/T1 ports for transmission cables. a: The illustrations of transmission cable connections in Figure 1-281 apply to all types of base stations. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 605 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Illustrations of Transmission Cable Connections in a Base Station Configured with a BBU3900 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 606 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-277 Cable connections for a BTS3900A or a DBS3900 configured with an APM30H (Ver.B)/APM30H (Ver.C)/APM30H (Ver.D)/APM30H (Ver.E) outdoors T1: 1.7.2 E1/T1 Surge Protection Transfer Cable Issue 16 (2021-08-13) T2: 1.7.1 E1/T1 Cable T3: 1.7.4 T4: 1.7.3 FE/GE Interconnection Cable Optical Fiber Between FE/GE Electrical Ports Copyright © Huawei Technologies Co., Ltd. 607 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables T5: 1.7.5 T6: 1.7.7 FE/GE Surge T7: 1.7.6 FE/GE Interconnection Cable Protection Transfer Ethernet Cable Between FE/GE Cable Optical Ports Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. - 608 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-278 Transmission cable connections in an indoor DBS3900, BTS3900, or BTS3900L T1: 1.7.1 E1/T1 Cable T2: 1.7.4 Interconnection Cable Between FE/GE Electrical Ports T4: 1.7.5 Interconnection T5: 1.7.6 FE/GE Ethernet Cable Between FE/GE Optical Cable Ports Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. T3: 1.7.3 FE/GE Optical Fiber - 609 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-279 Transmission cable connections in a BTS3900C or a DBS3900 configured with an APM30, APM30H (Ver.A), or OMB T1: 1.7.2 E1/T1 Surge Protection Transfer Cable T2: 1.7.1 E1/T1 Cable T3: 1.7.4 T4: 1.7.3 FE/GE Interconnection Cable Optical Fiber Between FE/GE Electrical Ports T5: 1.7.5 T6: 1.7.7 FE/GE Surge T7: 1.7.6 FE/GE Interconnection Cable Protection Transfer Ethernet Cable Between FE/GE Cable Optical Ports Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. - 610 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-280 Transmission cable connections in a BTS3900AL T1: 1.7.2 E1/T1 Surge Protection Transfer Cable T2: 1.7.1 E1/T1 Cable T3: 1.7.4 T4: 1.7.3 FE/GE Interconnection Cable Optical Fiber Between FE/GE Electrical Ports T5: 1.7.5 T6: 1.7.7 FE/GE Surge T7: 1.7.6 FE/GE Interconnection Cable Protection Transfer Ethernet Cable Between FE/GE Cable Optical Ports Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. - 611 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Illustrations of Transmission Cable Connections in a Base Station Configured with a BBU3910 Figure 1-281 Transmission cable connections in all types of base stations T1: 1.7.3 FE/GE Optical Fiber T2: 1.7.6 FE/GE Ethernet Cable 1.3.5.3 Transmission Cable Connections in a Dual-Mode Base Station Using Separate Transmission In a GU, GL, or UL dual-mode base station, data can be transmitted using separate transmission. This section describes the transmission configuration principles and cable connections and also provides illustrations of the cable connections. Transmission Configuration Principles The following table describes the transmission configuration principles for a dualmode base station using separate transmission. Table 1-395 Transmission configuration principles Principle Classifica tion BBU Transmission Configuration Principle Applicable Base Station Principles classified by transmissi on modes BBU3 900 or BBU3 910 ● In separate-MPT scenarios, data of different modes is separately transmitted. 3900 series base stations Issue 16 (2021-08-13) ● Data transmission of different modes does not affect each other. Copyright © Huawei Technologies Co., Ltd. 612 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Principle Classifica tion BBU Transmission Configuration Principle Applicable Base Station Principles classified by base station types - ● E1/T1 cables must be connected to a UELP that processes signals for surge protectiona. ● BTS3900A or BTS3900AL ● If a UMPTe or UMPTg is configured, FE/GE Ethernet cables are directly connected to the UMPTe or UMPTg. If a main control board other than the UMPTe or UMPTg is configured, FE/GE Ethernet cables must be connected to a UFLP that processes signals for surge protection and then to the main control board. ● BTS3900C or DBS3900 using the OMB E1/T1 cables and FE/GE Ethernet cables do not need to be connected to a surge protection board. ● BTS3900 or BTS3900L FE/GE optical fibers do not need to be connected to a surge protection board. ● BTS3900 or BTS3900L - - ● Outdoor DBS3900 ● BTS3012AE (Ver.D_Z) ● Indoor DBS3900 ● BTS3900A or BTS3900AL ● BTS3900C or DBS3900 using the OMB ● DBS3900 ● BTS3012AE (Ver.D_Z) a: Boards are configured for surge protection in different cabinets as follows: ● If an APM30H (Ver.B)/APM30H (Ver.C)/APM30H (Ver.D)/APM30H (Ver.E) is used for a BTS3900A or DBS3900, an SLPU equipped with a UELP or UFLP is configured in the APM30H. ● If an APM30 or APM30H (Ver.A) is used for a DBS3900, a UELP or UFLP is installed in the BBU in the APM30 or APM30H (Ver.A). ● BTS3900AL cabinets have slots for a UELP or UFLP, which provides the surge protection function. ● For a BTS3900C or a DBS3900 using an OMB, a UELP or UFLP is installed in the BBU in the OMB. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 613 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description Table 1-396 and Table 1-397 describe the transmission cable connections in a dual-mode base station (using separate transmission) configured with the BBU3900 and BBU3910 in different transmission modes, respectively. Table 1-396 Transmission cable connections in a dual-mode base station (using separate transmission) configured with a BBU3900 Trans missi on Mode Appli cable Mode Description Illustration of Cable Connectionsa GSM E1/ T1+U MTS E1/T1 GU A WMPT/UMPT and a GTMU/GTMUb/GTMUc both provide E1/T1 ports for transmission cables. Illustrations "1" in Figure 1-282, Figure 1-283, Figure 1-284, and Figure 1-285 show transmission cable connections in this scenario. GSM FE/GE +UMT S FE/GE GU Scenario 1: A WMPT/UMPT and a GTMU/ GTMUb/GTMUc both provide FE/GE optical ports for transmission cables. Illustrations "2" in Figure 1-282, Figure 1-283, Figure 1-284, and Figure 1-285 show transmission cable connections in scenario 1. GSM E1/ T1+LT E FE/GE GL Issue 16 (2021-08-13) Scenario 2: A WMPT/UMPT and a GTMU/ GTMUb/GTMUc both provide FE/GE electrical ports for transmission cables. A GTMU/GTMUb/GTMUc provides E1/T1 ports for transmission cables, and a UMPT/LMPT provides FE/GE electrical ports or FE/GE optical ports for transmission cables. Copyright © Huawei Technologies Co., Ltd. Illustrations "3" in Figure 1-282, Figure 1-283, Figure 1-284, and Figure 1-285 show transmission cable connections in scenario 1. 614 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Trans missi on Mode Appli cable Mode Description Illustration of Cable Connectionsa GSM FE/GE +LTE FE/GE GL Scenario 1: A UMPT/LMPT and a GTMU/ GTMUb/GTMUc both provide FE/GE electrical ports for transmission cables. Illustrations "4" in Figure 1-282, Figure 1-283, Figure 1-284, and Figure 1-285 show transmission cable connections in scenario 1. UMTS E1/ T1+LT E FE/GE UL Scenario 2: A UMPT/LMPT provides FE/GE optical ports for transmission cables, and a GTMU/GTMUb/GTMUc provides FE/GE electrical ports for transmission cables. Scenario 1: No UTRP is configured. A WMPT/ UMPT provides E1/T1 ports for transmission cables, and a UMPT/LMPT provides FE/GE electrical ports or FE/GE optical ports for transmission cables. Scenario 2: A UTRP is configured for the UMTS mode. The UTRP provides E1/T1 ports for transmission cables, and a UMPT/LMPT provides FE/GE electrical ports or FE/GE optical ports for transmission cables. UMTS FE/GE +LTE FE/GE UL Scenario 1: A UMPT/LMPT and a WMPT/UMPT both provide FE/GE electrical ports for transmission cables. Scenario 2: A UMPT/LMPT provides FE/GE optical ports for transmission cables, and a WMPT/UMPT provides FE/GE electrical ports for transmission cables. Illustrations "5" in Figure 1-282, Figure 1-283, Figure 1-284, and Figure 1-285 show transmission cable connections in scenario 1. Illustrations "6" in Figure 1-282, Figure 1-283, Figure 1-284, and Figure 1-285 show transmission cable connections in scenario 1. a: Figure 1-282, Figure 1-283, Figure 1-284, and Figure 1-285 show transmission cable connections in different types of base stations. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 615 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-397 Transmission cable connections in a dual-mode base station (using separate transmission) configured with a BBU3910 Transmission Mode Appl icabl e Mod e Cable Connection Illustration of Cable Connection sa ● GSM E1/ T1+UMTS E1/T1 GU ● GSM transmission cables can be connected to E1/T1 ports, FE/GE electrical ports, or FE/GE optical ports on a UMPT_G/GTMUb/GTMUc. Illustration "1" in Figure 1-286 shows transmissio n cable connections in this scenario. ● GSM E1/ T1+UMTS FE/GE ● UMTS transmission cables can be connected to E1/T1 ports, FE/GE electrical ports, or FE/GE optical ports on a UMPT_U. A UTRPa can be configured to provide E1/T1 ports for UMTS transmission cables. ● GSM FE/GE +UMTS FE/GE ● GSM FE/GE +UMTS E1/T1 ● GSM E1/ T1+LTE FE/GE GL ● GSM FE/GE+LTE FE/GE ● UMTS E1/ T1+LTE FE/GE ● UMTS FE/GE+LTE FE/GE Issue 16 (2021-08-13) ● GSM transmission cables can be connected to E1/T1 ports, FE/GE electrical ports, or FE/GE optical ports on a UMPT_G/GTMUb/GTMUc. ● LTE transmission cables can be connected to FE/GE electrical ports or FE/GE optical ports on a UMPT_L. UL ● UMTS transmission cables can be connected to E1/T1 ports, FE/GE electrical ports, or FE/GE optical ports on a UMPT_U. ● LTE transmission cables can be connected to FE/GE electrical ports or FE/GE optical ports on a UMPT_L. Copyright © Huawei Technologies Co., Ltd. Illustration "2" in Figure 1-286 shows transmissio n cable connections in this scenario. Illustration "3" in Figure 1-286 shows transmissio n cable connections in this scenario. 616 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Transmission Mode Appl icabl e Mod e Cable Connection Illustration of Cable Connection sa ● GSM E1/ T1+NR FE/GE GN ● GSM transmission cables can be connected to E1/T1 ports, FE/GE electrical ports, or FE/GE optical ports on a UMPT_G/GTMUb/GTMUc. Illustration "4" in Figure 1-286 shows transmissio n cable connections in this scenario. ● GSM FE/GE+NR FE/GE ● UMTS E1/ T1+NR FE/GE ● NR transmission cables can be connected to FE/GE electrical ports or FE/GE optical ports on the UMPT_NR. UN ● UMTS FE/GE+NR FE/GE LTE FE/GE+NR FE/GE ● UMTS transmission cables can be connected to E1/T1 ports, FE/GE electrical ports, or FE/GE optical ports on a UMPT_U. ● NR transmission cables can be connected to FE/GE electrical ports or FE/GE optical ports on the UMPT_NR. LN ● LTE transmission cables can be connected to FE/GE electrical ports or FE/GE optical ports on a UMPT_L. ● NR transmission cables can be connected to FE/GE electrical ports or FE/GE optical ports on the UMPT_NR. Illustration "5" in Figure 1-286 shows transmissio n cable connections in this scenario. Illustration "6" in Figure 1-286 shows transmissio n cable connections in this scenario. a: ● The transmission cable connections in Figure 1-286 apply to different types of base stations. ● In these illustrations, GSM scenarios use UMPT boards as examples. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 617 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Illustrations of Transmission Cable Connections in a Base Station Configured with a BBU3900 Figure 1-282 Cable connections for a BTS3900A or a DBS3900 configured with an APM30H (Ver.B)/APM30H (Ver.C)/APM30H (Ver.D)/APM30H (Ver.E) outdoors T1: 1.7.2 E1/T1 Surge Protection Transfer Cable T2: 1.7.1 E1/T1 Cable T3: 1.7.3 FE/GE Optical Fiber T4: 1.7.2 E1/T1 Surge Protection Transfer Cable T5: 1.7.6 FE/GE Ethernet Cable - - - Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 618 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-283 Transmission cable connections in an indoor DBS3900, BTS3900, or BTS3900L T1: 1.7.1 E1/T1 Cable Issue 16 (2021-08-13) T3: 1.7.3 FE/GE Optical Fiber Copyright © Huawei Technologies Co., Ltd. T5: 1.7.6 FE/GE Ethernet Cable 619 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-284 Transmission cable connections in a BTS3900C or a DBS3900 configured with an APM30, APM30H (Ver.A), or OMB T1: 1.7.2 E1/T1 Surge Protection Transfer Cable T2: 1.7.1 E1/T1 Cable T3: 1.7.3 FE/GE Optical Fiber T4: 1.7.2 E1/T1 Surge Protection Transfer Cable T5: 1.7.6 FE/GE Ethernet Cable - - - Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 620 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-285 BTS3900AL T1: 1.7.2 E1/T1 Surge Protection Transfer Cable T2: 1.7.1 E1/T1 Cable T3: 1.7.3 FE/GE Optical Fiber T4: 1.7.2 E1/T1 Surge Protection Transfer Cable T5: 1.7.6 FE/GE Ethernet Cable - - - Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 621 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Illustrations of Transmission Cable Connections in a Base Station Configured with a BBU3910 Figure 1-286 Transmission cable connections in all types of base stations T1: 1.7.3 FE/GE Optical Fiber 1.3.5.4 Transmission Cable Connections in a Triple-Mode Base Station This section describes the transmission cable connections in a triple-mode base station in typical scenarios. Description In this document, BBU 0 and BBU 1 are used to differentiate the two BBUs in a triple-mode base station. ● In an expanded base station, BBU 0 is the one installed during the initial site deployment, and BBU 1 is the one added during the capacity expansion. ● In a new base station, BBU 0 is the one working in GU, GN, UN, LN, or GL mode, and BBU 1 is the one working in LO, UO, or NO mode. ● For example, the difference between the GL+U configuration and U+GL configuration is as follows: The GL+U configuration applies to both a new base station and an expanded base station, whereas the U+GL configuration applies only to an expanded base station. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 622 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table describes the transmission cable connections in a triple-mode base station in typical scenarios. Table 1-398 Transmission cable connections in a triple-mode base station BBU Triple-Mode Scenario Working Mode of the BBU Illustration of Cable Connections BBU 3900 GU+L (BBUs not interconnecte d) BBU 0 works in GU mode, and BBU 1 works in LO mode. GL+U (BBUs not interconnecte d) BBU 0 works in GL mode, and BBU 1 works in UO mode. U+GL (BBUs not interconnecte d) BBU 0 works in UO mode, and BBU 1 works in GL mode. G+UL (BBUs not interconnecte d) BBU 0 works in GO mode, and BBU 1 works in UL mode. ● Transmission cable connections in dualmode scenarios are different for cotransmission and separate-transmission. For details, see 1.3.5.2 Transmission Cable Connections in a DualMode Base Station Using Co-Transmission and 1.3.5.3 Transmission Cable Connections in a DualMode Base Station Using Separate Transmission. ● For transmission cable connections in single mode scenarios, see 1.3.5.1 Transmission Cable Connections in a Single-Mode Base Station. GU+L (UCIU +UMPT) BBU 0 works in GU mode, and BBU 1 works in LO mode. BBU 0 and BBU 1 are interconnected using the UCIU and UMPT. For details, see illustration 1 or 2 in Figure 1-287. GL+U (UCIU +UMPT) BBU 0 works in GL mode, and BBU 1 works in UO mode. BBU 0 and BBU 1 are interconnected using the UCIU and UMPT. For details, see illustration 3 or 4 in Figure 1-287. GU+UL (UCIU +UMPT) BBU 0 works in GU mode, and BBU 1 works in UL mode. BBU 0 and BBU 1 are interconnected using the UCIU and UMPT. For details, see illustration 5 in Figure 1-287. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 623 3900 & 5900 Series Base Station Cables BBU 1 3900 & 5900 Series Base Station Cables Triple-Mode Scenario Working Mode of the BBU Illustration of Cable Connections ● G*U*L The BBU is configured with a UMPT and works in triple-mode co-MPT scenarios. The UMPT provides optical ports or electrical ports for transmission cables. For details, see illustration 6 in Figure 1-287. ● G*L*T ● G[L*T] ● U[L*T] ● G[U*T] The BBU is configured with UMPTs and works in triplemode separate-MPT scenarios. The main control boards of different modes communicate with each other through the BBU backplane. BBU 3910 G*U*L+G*U*L (UCIU +UMPT) Each BBU is configured with a UMPT and works in GUL mode. The two BBUs are interconnected using the UCIU and UMPT. BBU 0 supports the cotransmission function for GUL mode. Transmission cables are not connected to BBU 1. For transmission cable connections of BBU 0, see illustration 6 in Figure 1-287. GU+L (BBUs not interconnecte d) BBU 0 works in GU mode, and BBU 1 works in LO mode. GL+U (BBUs not interconnecte d) BBU 0 works in GL mode, and BBU 1 works in UO mode. ● Transmission cable connections in dualmode scenarios are different for cotransmission and separate-transmission. For details, see 1.3.5.2 Transmission Cable Connections in a DualMode Base Station Using Co-Transmission and 1.3.5.3 Transmission Cable Connections in a DualMode Base Station Using Separate Transmission. ● For transmission cable connections in single mode scenarios, see 1.3.5.1 Transmission Cable Connections in a Single-Mode Base Station. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 624 3900 & 5900 Series Base Station Cables BBU 1 3900 & 5900 Series Base Station Cables Triple-Mode Scenario Working Mode of the BBU Illustration of Cable Connections ● GU+L (UMPT +UMPT) ● BBU 0 works in GU mode and BBU 1 works in LO mode. BBU 0 and BBU 1 are interconnected using the UMPT boards. ● The UMPT_L is preferentially used to provide the FE/GE optical port or FE/GE electrical port. For details, see illustration "1" in Figure 1-288. ● GU+N (UMPT +UMPT) ● GL+N (UMPT +UMPT) ● UL+N (UMPT +UMPT) ● BBU 0 works in GU mode and BBU 1 works in NO mode. BBU 0 and BBU 1 are interconnected using the UMPT boards. ● BBU 0 works in GL mode and BBU 1 works in NO mode. BBU 0 and BBU 1 are interconnected using the UMPT boards. ● The UMPT_NR is preferentially used to provide the FE/GE optical port or FE/GE electrical port. For details, see illustrations "4", "5", and "6" in Figure 1-288. ● BBU 0 works in UL mode and BBU 1 works in NO mode. BBU 0 and BBU 1 are interconnected using the UMPT boards. GL+U (UMPT +UMPT) BBU 0 works in GL mode, and BBU 1 works in UO mode. BBU 0 and BBU 1 are interconnected using the UMPT boards. The UMPT_L is preferentially used to provide the FE/GE optical port or FE/GE electrical port. For details, see illustration "2" in Figure 1-288. ● G*U*L The BBU is configured with a UMPT and works in triple-mode co-MPT scenarios. For details, see illustration "3" in Figure 1-288. ● G*U*N ● G*L*N ● U*L*N Illustrations of Transmission Cable Connections in a Base Station Configured with a BBU3900 The following figure shows the transmission cable connections in a triple-mode base station. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 625 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-287 Transmission cable connections for a triple-mode base station (applying to all types of base stations) T1: 1.7.3 FE/GE Optical Fiber Illustrations of Transmission Cable Connections in a Base Station Configured with a BBU3910 The following figure shows the transmission cable connections in a triple-mode base station. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 626 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-288 Transmission cable connections for a triple-mode base station (applying to all types of base stations) T1: 1.7.3 FE/GE Optical Fiber 1.3.5.5 Transmission Cable Connections in a Quadruple-Mode Base Station This section describes the transmission cable connections in a quadruple-mode base station in typical scenarios. Description The following table describes the transmission cable connections in a quadruplemode base station in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 627 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-399 Transmission cable connections in a quadruple-mode base station BBU Base Stati on Working Mode of the BBU Illustration of Cable Connections BBU 3900 G*U* L*T base statio n A single BBU is configured with a UMPT and works in quadruple modes. For details, see Figure 1-289. BBU 3910 ● G* U* L* T ● In a newly deployed base station, a single BBU is configured with a UMPT and works in quadruple modes. If active/standby backup of main control boards or signaling extension is required, a second UMPT needs to be configured. For details, see Figure 1-289. ● G* U* L* N ● G* U* T* N ● If a co-MPT single-, dual-, or triple-mode base station configured with one BBU requires capacity expansion, the original main control board needs to be reserved. If the base station requires signaling extension, a second UMPT needs to be configured. ● If a base station needs to be expanded to a co-MPT base station configured with two BBUs, both BBU 0 and BBU 1 need to be configured with a UMPT. Illustration of Transmission Cable Connections for a Base Station Configured with the BBU3900 or BBU3910 The following figure shows the transmission cable connections in a quadruplemode base station. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 628 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-289 Transmission cable connections for a quadruple-mode base station (applying to all types of base stations) T1: 1.7.3 FE/GE Optical Fiber 1.3.6 CPRI Cable Connections for 5900 Series Base Stations CPRI cable connections include those for single-mode, dual-mode, triple-mode, and quadruple-mode base stations. 1.3.6.1 CPRI Cable Connections in a GSM Base Station This section describes the principles of CPRI cable connections in a GSM base station and provides related illustrations. CPRI Cable Connection Principles The following table describes the principles of CPRI cable connections in a GSM base station in typical scenarios. Table 1-400 CPRI cable connection principles BBU Networkin g Principle CPRI Cable Connection Principle Illustration of Cable Connections BBU59 00 Baseband signals processed by RF modules The baseband processing units working in other modes provide CPRI cable connections. Figure 1-290 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 629 3900 & 5900 Series Base Station Cables BBU 1 3900 & 5900 Series Base Station Cables Networkin g Principle CPRI Cable Connection Principle Illustration of Cable Connections Baseband signals processed by baseband processing units The UBBP(G)a is configured to provide CPRI cable connections. Figure 1-291 a: The UBBP(G) is not a board type but a UBBP working in GO mode. The CPRI cable connection principles vary depending on the RF modules configured in different types of base stations, as described in the following table. Table 1-401 CPRI cable connection principles for different types of base stations Base Station Supporte d RF Module Configuration Principle Separated macro base station RFU A CPRI port is connected to the RFU whose slot number is the same as the CPRI port number on the baseband processing unit. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. RFU+RRU If RFUs and RRUs can be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports before the CPRI cables for RRUs. RRU The CPRI cables for the RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. Distribute d base station Illustrations of CPRI Cable Connections The CPRI cable connections in GSM base stations in typical scenarios are shown in Figure 1-290 and Figure 1-291. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 630 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-290 CPRI cable connections (baseband signals processed by RF modules) Figure 1-291 CPRI cable connections (baseband signals processed by baseband processing units) 1.3.6.2 CPRI Cable Connections in a UMTS Base Station This section describes the principles of CPRI cable connections in a UMTS base station and provides related illustrations. CPRI Cable Connection Principles The following table describes the principles of CPRI cable connections in a UMTS base station in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 631 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-402 CPRI cable connection principles BBU Board Configurat ion CPRI Cable Connection Principle Illustration of Cable Connections BBU5900 The UBBP(U)a is configured. The CPRI cables for RF modulesb can be connected to the CPRI ports on the UBBP(U) in any of slots 0 to 5. The CPRI cables for RFUs and RRUs can be connected to the CPRI ports on the same UBBP. Figure 1-292 The UBBPei is configured. The BBU can be connected to the radio multiplex unit (RMU). Figure 1-293 ● Scenario 1: One XCI port on the UBBPei is connected to the RMU. ● Scenario 2: Two XCI ports on the UBBPei are connected to the RMU. ● Scenario 3: Two XCI ports of the UBBPei are connected to two RMUs separately. a: The UBBP(U) is not a board type but a UBBP working in UMTS mode. b: RF modules include RFUs and RRUs. Unless otherwise stated, all principles and illustrations in this section apply to both RFUs and RRUs. The CPRI cable connection principles vary depending on the RF modules configured in different types of base stations, as described in the following table. Table 1-403 CPRI cable connection principles for different types of base stations Base Station Supporte d RF Module Configuration Principle Separated macro base station RFU A CPRI port is connected to the RFU whose slot number is the same as the CPRI port number on the baseband processing unit. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. RFU+RRU If RFUs and RRUs can be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports before the CPRI cables for RRUs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 632 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Base Station Supporte d RF Module Configuration Principle Distribute d base station RRU The CPRI cables for the RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. Illustrations of CPRI Cable Connections Figure 1-292 and Figure 1-293 show the CPRI cable connections in UMTS base stations in typical scenarios. Figure 1-292 CPRI cable connections in a base station configured with the UBBP(U) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 633 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-293 CPRI cable connections in a base station configured with the UBBPei 1.3.6.3 CPRI Cable Connections in LTE FDD and LTE TDD Base Stations This section describes the principles of CPRI cable connections in an LTE FDD/LTE TDD base station and provides related illustrations. CPRI Cable Connection Principles The following table describes the principles of CPRI cable connections in LTE FDD and LTE TDD base stations in typical scenarios. Table 1-404 CPRI cable connection principles BBU Base Statio n Board Configu ration CPRI Cable Connection Principle Illustration of Cable Connection s BBU59 00 LTE FDDa base station The UBBP(L ) is configu red. The CPRI cables for RF modulesb can be connected to the CPRI ports on the UBBP(L) in any of slots 0 to 5. The CPRI cables for RFUs and RRUs can be connected to the CPRI ports on the same UBBP(L). Figure 1-294 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 634 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables BBU Base Statio n Board Configu ration CPRI Cable Connection Principle Illustration of Cable Connection s BBU59 00 LTE TDDa base station The UBBP(T ) is configu red. The CPRI cables for RRUs can be connected to the CPRI ports on the UBBP(T) in any of slots 0 to 5. LTE TDD base stations support RRUs only. Figure 1-294 BBU59 00 LTE FDD and LTE TDD base station s The UBBPei is configu red. The BBU can be connected to the radio multiplex unit (RMU). Figure 1-295 ● Scenario 1: One XCI port on the UBBPei is connected to the RMU. ● Scenario 2: Two XCI ports on the UBBPei are connected to the RMU. ● Scenario 3: Two XCI ports of the UBBPei are connected to two RMUs separately. a: The UBBP(L) is not a board type but a UBBP working in LTE FDD mode. The UBBP(T) is a UBBP working in LTE TDD mode. b: RF modules include RFUs and RRUs. Unless otherwise stated, all principles and illustrations in this section apply to both RFUs and RRUs. The CPRI cable connection principles vary depending on the RF modules configured in different types of base stations, as described in the following table. Table 1-405 CPRI cable connection principles for different types of base stations Base Station Supporte d RF Module Configuration Principle Separated macro base station RFU A CPRI port is connected to the RFU whose slot number is the same as the CPRI port number on the baseband processing unit. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. RFU+RRU If RFUs and RRUs can be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports before the CPRI cables for RRUs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 635 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Base Station Supporte d RF Module Configuration Principle Distribute d base station RRU The CPRI cables for the RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. Illustrations of CPRI Cable Connections Figure 1-294 and Figure 1-295 show the CPRI cable connections in LTE FDD and LTE TDD base stations in typical scenarios. Figure 1-294 CPRI cable connections in an LTE FDD or LTE TDD base station configured with the UBBP Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 636 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-295 CPRI cable connections in a base station configured with the UBBPei 1.3.6.4 CPRI/eCPRI Cable Connections in an NR Base Station This section describes the principles of CPRI/eCPRI cable connections in an NR base station and provides related illustrations. CPRI/eCPRI Cable Connection Principles The following table describes the principles of CPRI/eCPRI cable connections in an NR base station in typical scenarios. Table 1-406 CPRI/eCPRI cable connection principles BBU Networking Board Configuratio n CPRI Cable Connection Principle Illustration of Cable Connections BBU5900 CPRI-based topology A UBBP board is configured. CPRI cables connect the UBBP in the slot 0/2/4 or slot 0/1/2/3/4/5 to the RRUs/AAUs. Figure 1-296 uses the fullwidth board as an example. Figure 1-297 uses the UBBPg as an example. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 637 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables BBU Networking Board Configuratio n CPRI Cable Connection Principle Illustration of Cable Connections BBU5900 eCPRI-based networking A UBBP board is configured. CPRI cables are connected to the UBBP in the slot 0/2/4 or slot 0/1/2/3/4/5. Figure 1-298 uses the fullwidth board as an example. Figure 1-299 uses the UBBPg as an example. ● For the star topology, the UBBP provides CPRI ports and each CPRI port is connected to one AAU. ● For the load sharing topology, the UBBP provides CPRI ports and two CPRI ports are connected to one AAU. Illustrations of CPRI/eCPRI Cable Connections The following figure shows the CPRI cable connections in an NR base station in typical scenarios. NOTE ● The UBBPfw1 is not supported in the 5G high-band scenario. ● In this document, 5G high-band scenarios refer to scenarios where frequency bands are above 6 GHz. 5G low-band scenarios refer to scenarios where frequency bands are below 6 GHz. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 638 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-296 CPRI cable connections (5G low-band scenarios) Figure 1-297 CPRI cable connections (5G low-band scenarios & 5G high-band scenarios) The following figure shows the eCPRI cable connections in an NR base station in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 639 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-298 eCPRI cable connections (5G low-band scenarios) Figure 1-299 eCPRI cable connections (5G low-band scenarios & 5G high-band scenarios) 1.3.6.5 CPRI Cable Connections in GU and G*U Base Stations This section describes the principles of CPRI cable connections in GU and G*U base stations and provides related illustrations. CPRI Cable Connection Principles The principles of CPRI cable connections in GU and G*U base stations in typical scenarios are described as follows: ● The CPRI cables for RF modules working in GSM mode and RF modules working in UMTS mode can be connected to the CPRI ports on the same UBBP. ● In RRU cascading scenarios, multimode RRUs of the same and different modes can be cascaded. The intra-mode cascading is recommended. – Issue 16 (2021-08-13) In intra-mode cascading scenarios, all cascaded multimode RRUs are working in the same mode. Copyright © Huawei Technologies Co., Ltd. 640 3900 & 5900 Series Base Station Cables – 1 3900 & 5900 Series Base Station Cables In inter-mode cascading scenarios, all cascaded multimode RRUs are working in different modes, such as GO, UO, and GU modes. The following table describes the principles of CPRI cable connections in GU and G*U base stations in typical scenarios. Table 1-407 CPRI cable connection principles BBU Base Station Networki ng Principle CPRI Cable Connection Principle Illustration of Cable Connections BBU5 900 GU The dualstar topology is used by default. RF modules working in GU mode connect to two baseband processing units, which are separately working in GSM and UMTS modes. Figure 1-300 G*U The CPRI MUX feature is used by default. There are no constraints on the slots for installing UBBP boards serving as the converging and converged parties. The UBBP in any of slots 0 to 5 can provide CPRI ports for connecting to RF modules. Figure 1-301 The following table lists the priorities of RF modules connecting to UBBP boards based on the working modes of UBBP boards. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). If a UBBP(UL) is not configured, the RF module connects to a UBBP(GL) or UBBP(LO) in sequence. Table 1-408 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBBP(LO) > UBBP(UO) > UBBP(UL) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 641 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The CPRI cable connection principles vary depending on the RF modules configured in different types of base stations, as described in the following table. Table 1-409 CPRI cable connection principles for different types of base stations Base Station Supporte d RF Module Configuration Principle Separated macro base station RFU A CPRI port is connected to the RFU whose slot number is the same as the CPRI port number on the baseband processing unit. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. RFU+RRU If RFUs and RRUs can be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports before the CPRI cables for RRUs. RRU The CPRI cables for the RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. Distribute d base station Illustrations of CPRI Cable Connections Figure 1-300 and Figure 1-301 show the CPRI cable connections in GU and G*U base stations in typical scenarios. Figure 1-300 CPRI cable connections in a GU base station Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 642 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-301 CPRI cable connections in a G*U base station 1.3.6.6 CPRI Cable Connections in GL and G*L Base Stations This section describes the principles of CPRI cable connections in GL and G*L base stations and provides related illustrations. CPRI Cable Connection Principles The CPRI cable connection principles for GL and G*L base stations in typical scenarios are described as follows: ● The CPRI cables for RF modules working in GSM mode and RF modules working in LTE mode can be connected to the CPRI ports on the same UBBP. ● In RRU cascading scenarios, multimode RRUs of the same and different modes can be cascaded. The intra-mode cascading is recommended. – In intra-mode cascading scenarios, all cascaded multimode RRUs are working in the same mode. – In inter-mode cascading scenarios, all cascaded multimode RRUs are working in different modes, such as GO, LO, and GL modes. The following table describes the principles of CPRI cable connections in GL and G*L base stations in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 643 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-410 CPRI cable connection principles BBU Base Station Networki ng Principle CPRI Cable Connection Principle Illustration of Cable Connections BBU5 900 GL The dualstar topology is used by default. RF modules working in GL mode connect to the baseband processing units working in GSM and LTE modes. Figure 1-302 G*L The CPRI MUX feature is used by default. There are no constraints on the slots for installing UBBP boards serving as the converging and converged parties. The UBBP in any of slots 0 to 5 can provide CPRI ports for connecting to RF modules. Figure 1-303 The following table lists the priorities of RF modules connecting to UBBP boards based on the working modes of UBBP boards. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). If a UBBP(UL) is not configured, the RF module connects to a UBBP(GL) or UBBP(LO) in sequence. Table 1-411 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBBP(LO) > UBBP(UO) > UBBP(UL) The CPRI cable connection principles vary depending on the RF modules configured in different types of base stations, as described in the following table. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 644 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-412 CPRI cable connection principles for different types of base stations Base Station Supporte d RF Module Configuration Principle Separated macro base station RFU A CPRI port is connected to the RFU whose slot number is the same as the CPRI port number on the baseband processing unit. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. RFU+RRU If RFUs and RRUs can be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports before the CPRI cables for RRUs. RRU The CPRI cables for the RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. Distribute d base station Illustrations of CPRI Cable Connections Figure 1-302 and Figure 1-303 show the CPRI cable connections in GL and G*L base stations in typical scenarios. Figure 1-302 CPRI cable connections in a GL base station Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 645 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-303 CPRI cable connections in a G*L base station 1.3.6.7 CPRI Cable Connections in UL and U*L Base Stations This section describes the principles of CPRI cable connections in UL and U*L base stations and provides related illustrations. CPRI Cable Connection Principles The following table describes the principles of CPRI cable connections in UL and U*L base stations in typical scenarios. Table 1-413 CPRI cable connection principles BBU Base Station Networ king Principl e CPRI Cable Connection Principle Illustration of Cable Connections BBU5 900 UL The dualstar topology is used by default. RF modules working in UL mode connect to the UBBP(U) and UBBP(L) to form a dualstar topology. The UBBP can be configured in any of slots 0 to 5. Figure 1-304 The CPRI MUX feature is used by default. There are no constraints on the slots for installing UBBP boards serving as the converging and converged parties. The UBBP in any of slots 0 to 5 can provide CPRI ports for connecting to RF modules. Figure 1-305 U*L Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. Figure 1-306 shows the CPRI cable connections when an RMU is configured. Figure 1-306 shows the CPRI cable connections when an RMU is configured. 646 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table lists the priorities of RF modules connecting to UBBP boards based on the working modes of UBBP boards. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). If a UBBP(UL) is not configured, the RF module connects to a UBBP(GL) or UBBP(LO) in sequence. Table 1-414 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBBP(LO) > UBBP(UO) > UBBP(UL) The CPRI cable connection principles vary depending on the RF modules configured in different types of base stations, as described in the following table. Table 1-415 CPRI cable connection principles for different types of base stations Base Station Supporte d RF Module Configuration Principle Separated macro base station RFU A CPRI port is connected to the RFU whose slot number is the same as the CPRI port number on the baseband processing unit. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. RFU+RRU If RFUs and RRUs can be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports before the CPRI cables for RRUs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 647 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Base Station Supporte d RF Module Configuration Principle Distribute d base station RRU The CPRI cables for the RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. Illustrations of CPRI Cable Connections Figure 1-304, Figure 1-305, and Figure 1-306 show the CPRI cable connections in UL and U*L base stations in typical scenarios. Figure 1-304 CPRI cable connections in a UL base station Figure 1-305 CPRI cable connections in a U*L base station Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 648 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-306 CPRI cable connections in a base station configured with an RMU 1.3.6.8 CPRI Cable Connections in a Triple-Mode Base Station This section describes the principles of CPRI cable connections in a triple-mode base station in different scenarios and provides related illustrations. CPRI Cable Connection Principles The following table describes the principles of CPRI cable connections in a triplemode base station in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 649 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-416 CPRI cable connection principles BBU Base Station CPRI Cable Connection Principle Illustration of Cable Connections BBU59 00 Separat e-MPT base station s configu red with two BBUs: - For details on the CPRI cable connections of the BBU working in UMTS mode, see 1.3.6.2 CPRI Cable Connections in a UMTS Base Station. For details on the CPRI cable connections of the BBU working in LTE mode, see 1.3.6.3 CPRI Cable Connections in LTE FDD and LTE TDD Base Stations. ● GU +L (BB Us not inter con nect ed) For details on the CPRI cable connections of the BBU working in GU mode, see 1.3.6.5 CPRI Cable Connections in GU and G*U Base Stations. ● GL +U (BB Us not inter con nect ed) Separat e-MPT base station configu red with two BBUs: GU+L or GL +U base station in UMPT +UMPT mode Issue 16 (2021-08-13) For details on the CPRI cable connections of the BBU working in GL mode, see 1.3.6.6 CPRI Cable Connections in GL and G*L Base Stations. ● RF modules working in dual modes are connected to the BBU by using the dual-star topology. Figure 1-307 ● RF modules working in single mode are connected to the BBU by using the single-star topology. Copyright © Huawei Technologies Co., Ltd. 650 3900 & 5900 Series Base Station Cables BBU 1 3900 & 5900 Series Base Station Cables Base Station CPRI Cable Connection Principle Illustration of Cable Connections Separat e-MPT base station configu red with one BBU ● RF modules working in single mode are connected to the BBU by using the single-star topology. Figure 1-308 ● G[U *L] ● Multimode RF modules working in separate-MPT scenarios are connected to the BBU by using the dual-star topology. ● G[L* T] ● It is recommended that multimode RF modules working in co-MPT scenarios be connected to the BBU by using the CPRI MUX feature. ● RF modules working in LTE TDD mode are connected to the BBU by using the single-star topology. These RF modules can only be single-mode RRUs. CoMPT base station configu red with one BBU: G*U*L ● RF modules working in single mode are connected to the BBU by using the single-star topology. Figure 1-309 ● The CPRI MUX feature is used for dual-mode RF modules by default. These RF modules connect to corresponding UBBP boardsb in an order of prioritya. ● The load sharing topology can be used. If none of the baseband processing units or interface boards supports the CPRI MUX feature, CPRI cables for multimode RF modules are connected to baseband processing units or interface boards working in different modes. ● For G*U*L base stations whose GSM baseband signals are processed by RF modules, GSM signals can be converged by the UBBP_U, UBBP_L, or UBBP_UL when GSM serves as the converged party. Therefore, a GSM baseband processing unit or interface board is not required. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 651 3900 & 5900 Series Base Station Cables BBU 1 3900 & 5900 Series Base Station Cables Base Station CPRI Cable Connection Principle Illustration of Cable Connections a: The RF modules of different working modes are connected in a descending order of priority as follows: GUL > UL > GL > LO > GU > UO > GO. For example, RF modules in GUL mode are preferentially connected and then the RF modules in UL mode. The rest may be deduced by analogy. b: According to the working modes of the UBBP boards, the priorities of RF modules for connecting to UBBP boards are listed in the following table. For example, an RF module in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). The rest may be deduced by analogy. The following table lists the priorities of RF modules connecting to UBBP boards based on the working modes of UBBP boards. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). If a UBBP(UL) is not configured, the RF module connects to a UBBP(GL) or UBBP(LO) in sequence. Table 1-417 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBBP(LO) > UBBP(UO) > UBBP(UL) The CPRI cable connection principles vary depending on the RF modules configured in different types of base stations, as described in the following table. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 652 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-418 CPRI cable connection principles for different types of base stations Base Station Supporte d RF Module Configuration Principle Separated macro base station RFU A CPRI port is connected to the RFU whose slot number is the same as the CPRI port number on the baseband processing unit. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. RFU+RRU If RFUs and RRUs can be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports before the CPRI cables for RRUs. RRU The CPRI cables for the RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. Distribute d base station Illustrations of CPRI Cable Connections Figure 1-307, Figure 1-308, and Figure 1-309 show the CPRI cable connections in UL and U*L base stations in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 653 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-307 CPRI cable connections in a separate-MPT base station configured with two BBUs interconnected in UMPT+UMPT mode Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 654 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-308 CPRI cable connections in a separate-MPT base station configured with one BBU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 655 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-309 CPRI cable connections in a co-MPT base station configured with one BBU 1.3.6.9 CPRI Cable Connections in a Quadruple-Mode Base Station This section describes the principles of CPRI cable connections in a quadruplemode base station in different scenarios and provides related illustrations. CPRI Cable Connection Principles The following table describes the principles of CPRI cable connections in a quadruple-mode base station in typical scenarios. Table 1-419 CPRI cable connection principles BBU Base Station CPRI Cable Connection Principle Illustration of Cable Connections BBU59 00 Co-MPT base station configur ed with one BBU: G*U*L*T ● RF modules working in dual modes are connected to the BBU by using the dual-star topology. Figure 1-310 Issue 16 (2021-08-13) ● RF modules working in single mode are connected to the BBU by using the single-star topology. ● If the UBBP boards working in LTE FDD and LTE TDD modes need to be installed in the same slot, the UBBP working in LTE FDD mode is preferentially installed. Copyright © Huawei Technologies Co., Ltd. 656 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table lists the priorities of RF modules connecting to UBBP boards based on the working modes of UBBP boards. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). If a UBBP(UL) is not configured, the RF module connects to a UBBP(GL) or UBBP(LO) in sequence. Table 1-420 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBBP(LO) > UBBP(UO) > UBBP(UL) The CPRI cable connection principles vary depending on the RF modules configured in different types of base stations, as described in the following table. Table 1-421 CPRI cable connection principles for different types of base stations Base Station Supporte d RF Module Configuration Principle Separated macro base station RFU A CPRI port is connected to the RFU whose slot number is the same as the CPRI port number on the baseband processing unit. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. RFU+RRU If RFUs and RRUs can be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports before the CPRI cables for RRUs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 657 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Base Station Supporte d RF Module Configuration Principle Distribute d base station RRU The CPRI cables for the RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. Illustrations of CPRI Cable Connections The following figure shows the CPRI cable connections in a quadruple-mode base station in typical scenarios. Figure 1-310 CPRI cable connections in a quadruple-mode base station 1.3.7 CPRI Cable Connections for 3900 Series Base Stations CPRI cable connections include those for single-mode/dual-mode/triple-mode/ quadruple-mode base stations. 1.3.7.1 CPRI Cable Connections in a GSM Base Station This section describes the principles of CPRI cable connections in a GSM base station and provides related illustrations. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 658 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description The following table describes the principles of CPRI cable connections in a GSM base station in typical scenarios. Table 1-422 CPRI cable connection principles BBU Board Configuration and Networking Principle CPRI Cable Connection Principle Illustratio n of Cable Connectio ns BBU390 0 ● When GSM baseband signals are processed by RF modules, the GTMU/GTMUb/ GTMUc/UMPT can be configured as the main control board and the UBRI is configured as required. ● If the BBU is configured with a UBBP, CPRI cables for RF modulesb can be connected to the UBBP in any of slots 0 to 3. The CPRI cables for RFUs and RRUs can be connected to the CPRI ports on the same UBBP. Figure 1-311 and Figure 1-312 show CPRI cable connectio ns in scenarios where GSM baseband signals are processed by RF modules. ● When GSM baseband signals need to be processed by the baseband processing unit, the UBBP(G)a is required. ● If the GSM baseband signals are processed by RF modules, CPRI cable connections are as follows: – If the BBU is configured with a GTMU/GTMUb/GTMUc, CPRI cables are directly connected to the GTMU/ GTMUb/GTMUc. – If the BBU is configured with a UMPT, CPRI cables are connected to the UBRI. ● If RFUs and RRUs are configured together, CPRI cable connections are as follows: – CPRI cables for RFUs and RRUs can be connected to the same UBRI when at most six CPRI ports are required. – It is recommended that CPRI cables for all RFUs be connected to a UBRI and CPRI cables for all RRUs be connected to another UBRI when more than six CPRI ports are required. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. Figure 1-313 and Figure 1-314 show CPRI cable connectio ns in scenarios where baseband signals are processed by the baseband processing unit. 659 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables BBU Board Configuration and Networking Principle CPRI Cable Connection Principle Illustratio n of Cable Connectio ns BBU391 0 ● When GSM baseband signals need to be processed by RF modules, the GTMUb/GTMUc can be configured or the UBRI is configured as required. ● When GSM baseband signals are processed by RF modules, the GTMUb/GTMUc in slot 5 or 6 or the UBRIb in slot 0, 1, 2, or 3 can provide CPRI ports for connecting to RF modules. Figure 1-311 and Figure 1-312 show CPRI cable connectio ns in scenarios where GSM baseband signals are processed by RF modules. ● When GSM baseband signals need to be processed by the baseband processing unit, the UBBP(G) is required. ● When baseband signals are processed by the baseband processing unit, the UBBP in slot 0/1/2/3 can provide CPRI ports for connecting to RF modules. Figure 1-313 and Figure 1-314 show CPRI cable connectio ns in scenarios where baseband signals are processed by the baseband processing unit. a: The UBBP(G) is not a board type but a UBBP working in GO mode. b: RF modules include RFUs and RRUs. Unless otherwise stated, all principles and illustrations in this section apply to both RFUs and RRUs. Table 1-423 lists the priorities of RF modules connecting to UBBP boards based on the working modes of the UBBP boards. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). The rest may be deduced by analogy. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 660 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-423 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) > UBRIb GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBRIb > UBBP(LO) > UBBP(UO) > UBBP(UL) Illustrations of CPRI Cable Connections NOTE A macro base station can be configured with RFUs but without RRUs or can be configured with RFUs and RRUs. A distributed base station can be configured with RRUs but without RFUs. The restrictions of CPRI ports are as follows: ● If a base station is configured with RFUs but without RRUs, a CPRI port is connected to the RF module whose slot number is the same as the CPRI port number. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. ● If a base station is configured with RRUs but without RFUs, the CPRI cables for these RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. ● If a base station is configured with RFUs and RRUs, and the RFUs and RRUs need to be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports, and then the CPRI cables for RRUs are connected to the rest of CPRI ports. Based on the principles of CPRI cable connections, the following illustrations show the CPRI cable connections in typical scenarios. Figure 1-311 CPRI cable connections in a GSM base station in which the BBU3900 or BBU3910 is configured and GSM baseband signals are processed by RF modules NOTE The slot for installing the UBRI is different in different scenarios. The following figure uses configuring the UBRI in a BBU3910 as an example. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 661 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-312 CPRI cable connections in a GSM base station in which the BBU3900 or BBU3910 is configured and baseband signals are processed by RF modules Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 662 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-313 CPRI cable connections in a GSM base station in which the BBU3900 or BBU3910 is configured and GSM baseband signals are processed by the baseband processing unit Figure 1-314 CPRI cable connections in a GSM base station in which the BBU3900 or BBU3910 is configured and GSM baseband signals are processed by the baseband processing unit 1.3.7.2 CPRI Cable Connections in a UMTS Base Station This section describes the principles of CPRI cable connections in a UMTS base station and provides related illustrations. Description The following table describes the principles of CPRI cable connections in a UMTS base station in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 663 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-424 CPRI cable connection principles BBU Board Configuration and Networking Principle CPRI Cable Connection Principle Illustratio n of Cable Connectio ns BBU390 0 The UBBP(U)a is preferentially configured. Alternatively, the WBBP can be configured. CPRI cables for RF modulesb can be connected to the CPRI ports only on the UBBP or WBBP in slot 2 or 3. The CPRI cables for RFUs and RRUs can be connected to the CPRI ports on the same UBBP or WBBP. Figure 1-315 shows the CPRI cable connectio ns. BBU391 0 Only the UBBP(U) can be configured as the baseband processing unit. The CPRI cables for RF modules can be connected to the CPRI ports on the UBBP(U) in any of slots 0 to 5. The CPRI cables for RFUs and RRUs can be connected to the CPRI ports on the same UBBP. BBU390 0 or BBU391 0 The UBBPei is configured as the baseband processing unit. The BBU can be connected to the radio multiplex unit (RMU). ● Scenario 1: One XCI port on the UBBPei is connected to the RMU. ● Scenario 2: Two XCI ports on the UBBPei are connected to the RMU. Figure 1-316 shows the CPRI cable connectio ns. ● Scenario 3: Two XCI ports of the UBBPei are connected to two RMUs separately. a: The UBBP(U) is not a board type but a UBBP working in UMTS mode. b: RF modules include RFUs and RRUs. Unless otherwise stated, all principles and illustrations in this section apply to both RFUs and RRUs. Table 1-425 lists the priorities of RF modules connecting to UBBP boards based on the working modes of the UBBP boards. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). The rest may be deduced by analogy. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 664 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-425 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) > UBRIb GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBRIb > UBBP(LO) > UBBP(UO) > UBBP(UL) Illustrations of CPRI Cable Connections NOTE A macro base station can be configured with RFUs but without RRUs or can be configured with RFUs and RRUs. A distributed base station can be configured with RRUs but without RFUs. The restrictions of CPRI ports are as follows: ● If a base station is configured with RFUs but without RRUs, a CPRI port is connected to the RF module whose slot number is the same as the CPRI port number. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. ● If a base station is configured with RRUs but without RFUs, the CPRI cables for these RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. ● If a base station is configured with RFUs and RRUs, and the RFUs and RRUs need to be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports, and then the CPRI cables for RRUs are connected to the rest of CPRI ports. Based on the principles of CPRI cable connections, the following illustrations show the CPRI cable connections in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 665 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-315 CPRI cable connections in a UMTS base station configured with the UBBP in the BBU3900 or BBU3910 Figure 1-316 CPRI cable connections with the BBU connected to the RMU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 666 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-317 CPRI cable connections with the BBU connected to the RMU 1.3.7.3 CPRI Cable Connections in an LTE FDD/LTE TDD Base Station This section describes the principles of CPRI cable connections in an LTE FDD/LTE TDD base station and provides related illustrations. Description The following table describes the principles of CPRI cable connections in an LTE base station in typical scenarios. Table 1-426 CPRI cable connection principles BBU Ba se Sta tio n Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections BBU 390 0 LTE FD D bas e sta tio n The UBBP(L)a is preferentially configured. Alternatively, the LBBP can be configured. The CPRI cables for RF modulesb can be connected to the CPRI ports on the UBBP or LBBP in any of slots 0 to 5. The CPRI cables for RFUs and RRUs can be connected to the CPRI ports on the same UBBP or LBBP. Figure 1-318 shows the CPRI cable connections. BBU 390 0 LTE TD D bas e sta tio n The UBBP(T) is preferentially configured. Alternatively, the LBBP can be configured. ● The CPRI cables for RRUs can be connected to the CPRI ports on the UBBP(T) or LBBP in any of slots 0 to 5. LTE TDD base stations support RRUs only. Figure 1-319 shows the CPRI cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 667 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables BBU Ba se Sta tio n Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections BBU 391 0 LTE FD D bas e sta tio n Only the UBBP(L) can be configured as the baseband processing unit. The CPRI cables for RF modulesb can be connected to the CPRI ports on the UBBP(L) in any of slots 0 to 5. The CPRI cables for RFUs and RRUs can be connected to the CPRI ports on the same UBBP(L). Figure 1-318 shows the CPRI cable connections. BBU 391 0 LTE TD D bas e sta tio n Only the UBBP(T) can be configured as the baseband processing unit. ● The CPRI cables for RRUs can be connected to the CPRI ports on the UBBP(T) in any of slots 0 to 5. LTE TDD base stations support RRUs only. Figure 1-319 shows the CPRI cable connections. BBU 390 0 or BBU 391 0 - The UBBPei is configured as the baseband processing unit. The BBU can be connected to the RMU. Figure 1-320 shows the CPRI cable connections. ● Scenario 1: One XCI port on the UBBPei is connected to the RMU. ● Scenario 2: Two XCI ports on the UBBPei are connected to the RMU. ● Scenario 3: Two XCI ports of the UBBPei are connected to two RMUs separately. Table 1-427 lists the priorities of RF modules connecting to UBBP boards based on the working modes of the UBBP boards. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). The rest may be deduced by analogy. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 668 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-427 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) > UBRIb GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBRIb > UBBP(LO) > UBBP(UO) > UBBP(UL) Illustrations of CPRI Cable Connections NOTE A macro base station can be configured with RFUs but without RRUs or can be configured with RFUs and RRUs. A distributed base station can be configured with RRUs but without RFUs. The restrictions of CPRI ports are as follows: ● If a base station is configured with RFUs but without RRUs, a CPRI port is connected to the RF module whose slot number is the same as the CPRI port number. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. ● If a base station is configured with RRUs but without RFUs, the CPRI cables for these RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. ● If a base station is configured with RFUs and RRUs, and the RFUs and RRUs need to be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports, and then the CPRI cables for RRUs are connected to the rest of CPRI ports. Based on the principles of CPRI cable connections, the following illustrations show the CPRI cable connections in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 669 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-318 CPRI cable connections in an LTE FDD base station configured with the UBBP in the BBU3900 or BBU3910 Figure 1-319 CPRI cable connections in an LTE TDD base station configured with the UBBP in the BBU3900 or BBU3910 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 670 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-320 CPRI cable connections with the BBU connected to the RMU Figure 1-321 CPRI cable connections with the BBU connected to the RMU 1.3.7.4 CPRI Cable Connections in GU and G*U Base Stations This section describes the principles of CPRI cable connections in GU and G*U base stations and provides related illustrations. CPRI Cable Connection Principles The following table describes the principles of CPRI cable connections in G*U and GU base stations in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 671 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-428 CPRI cable connection principles BBU Ba se Sta tio n Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections BBU 390 0 G* U ● The CPRI MUX feature is used by default. ● When the UBBP(U)a and UBBP(G) are configured, any of UBBP boards can be used to provide CPRI ports for connecting to RF modules. Figure 1-322 shows the CPRI cable connections when the UBBP(U) and UBBP(G) are configured. ● The UBBP is preferentially configured. The UBBP can serve either as the converging part to provide CPRI ports for connecting to RF modules or as the converged party. The peer board can be a UBBP, WBBPf, or UBRIb. ● If the UBBP is not configured, the WBBPf and UBRIb are required. ● If the UBBP(U) and UBRIb are configured, only the UBRIb can be used to provide CPRI ports for connecting to RF modules. ● If the UBBP(G) and WBBPf are configured, either of them can be used to provide CPRI ports for connecting to RF modules. ● If the UBRIb and WBBPf are configured, only the UBRIb can be used to provide CPRI ports for connecting to RF modules. ● The CPRI cables for RF modules whose working modes include GSM can be connected to the UBBP in any of slots 0 to 3. ● The CPRI cables for RF modules whose working modes include UMTS can be connected to the UBBP in any of slots 2 and 3. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 672 3900 & 5900 Series Base Station Cables BBU 1 3900 & 5900 Series Base Station Cables Ba se Sta tio n Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections GU ● The dual-star topology is used by default. When the dual-star topology is used, the cable connection principles are as follows: Figure 1-323 shows the CPRI cable connections when the dualstar topology is used. ● The UBBP can be configured. ● When the base station is configured with both RFUs and RRUs whose working modes include GSM, the BBU must be configured with the GTMUb/GTMUc. ● RF modulesb working in GU mode connect to the baseband processing units or baseband interface boards working in GSM and UMTS modes. ● When the base station is configured with both RFUs and RRUs whose working modes include GSM, the RFUs and RRUs working in GSM mode connect to the GTMUb/GTMUc and UBRI boards, respectively. Figure 1-324 shows the CPRI cable connections when the CPRI MUX feature is used and the UBBP is configured. When the CPRI MUX feature is used, the cable connection principles are as follows: ● If the UBBP is configured, the UBBP(U) can serve as the converging party to provide CPRI ports for connecting to RF modules, and the UBBP(U) must be installed in slot 2 or 3. ● If the UBBP is not configured, the WBBPf can serve as the converging party to provide CPRI ports for connecting to RF modules. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 673 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables BBU Ba se Sta tio n Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections BBU 391 0 G* U ● The CPRI MUX feature is used by default. There are no constraints on the slots for installing UBBP boards serving as the converging and converged parties. The UBBP in any of slots 0 to 5 can provide CPRI ports for connecting to RF modules. Figure 1-322 shows the CPRI cable connections. When the dual-star topology is used, the cable connection principles are as follows: Figure 1-325 shows the CPRI cable connections when the dualstar topology is used and the UBBP is configured. ● Only the UBBP can be configured as the baseband processing unit. ● RRU3004 and DRFU modules cannot connect to the BBU3910. GU ● The dual-star topology is used by default. ● Only the UBBP can be configured as the baseband processing unit. ● RRU3004 and DRFU modules cannot connect to the BBU3910. ● RF modulesb working in GU mode connect to the baseband processing units or baseband interface boards working in GSM and UMTS modes. ● When the base station is configured with both RFUs and RRUs whose working modes include GSM, the RFUs and RRUs working in GSM mode connect to the GTMUb/GTMUc and UBRI boards, respectively. When the CPRI MUX feature is used, the UBBP(U) can serve as the converging party to provide CPRI ports for connecting to RF modules, and the UBBP(U) can be installed in any of slots 0 to 3. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. Figure 1-326 shows the CPRI cable connections when the dualstar topology is used and the UBBP and GTMUb/GTMUc are configured. Figure 1-324 shows the CPRI cable connections when the CPRI MUX feature is used and the UBBP is configured. 674 3900 & 5900 Series Base Station Cables BBU Ba se Sta tio n 1 3900 & 5900 Series Base Station Cables Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections a: The UBBP(U) is not a board type but a UBBP working in UO mode. The UBBP(G) in this section is a UBBP working in GSM mode. b: RF modules include RFUs and RRUs. Unless otherwise stated, all principles and illustrations in this section apply to both RFUs and RRUs. Table 1-429 lists the priorities of RF modules connecting to UBBP boards based on the working modes of the UBBP boards. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). If a UBBP(UL) is not configured, the RF module connects to a UBBP(GL) or UBBP(LO) in sequence. Table 1-429 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) > UBRIb GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBRIb > UBBP(LO) > UBBP(UO) > UBBP(UL) In addition to the preceding principles, there are some common principles, as described as follows: ● When UBBP boards are configured in a BBU3900, the CPRI cables for RF modules working in GSM mode and RF modules working in UMTS mode can be connected to the CPRI ports on the same UBBP. ● In RRU cascading scenarios, multimode RRUs of the same and different modes can be cascaded. The intra-mode cascading is recommended. – Issue 16 (2021-08-13) In intra-mode cascading scenarios, all cascaded multimode RRUs are working in the same mode. Copyright © Huawei Technologies Co., Ltd. 675 3900 & 5900 Series Base Station Cables – 1 3900 & 5900 Series Base Station Cables In inter-mode cascading scenarios, all cascaded multimode RRUs are working in different modes, such as GO, UO, and GU modes. Illustrations of CPRI Cable Connections NOTE A macro base station can be configured with RFUs but without RRUs or can be configured with RFUs and RRUs. A distributed base station can be configured with RRUs but without RFUs. The restrictions of CPRI ports are as follows: ● If a base station is configured with RFUs but without RRUs, a CPRI port is connected to the RF module whose slot number is the same as the CPRI port number. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. ● If a base station is configured with RRUs but without RFUs, the CPRI cables for these RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. ● If a base station is configured with RFUs and RRUs, and the RFUs and RRUs need to be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports, and then the CPRI cables for RRUs are connected to the rest of CPRI ports. Based on the principles of CPRI cable connections, the following illustrations show the CPRI cable connections in typical scenarios. Figure 1-322 CPRI cable connections in a G*U base station configured with the BBU3900 or BBU3910 and enabled with the CPRI MUX feature Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 676 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-323 CPRI cable connections in a GU base station configured with the BBU3900 and using the dual-star topology Figure 1-324 CPRI cable connections in a GU base station configured with the UBBP in the BBU3900 or BBU3910 and enabled with the CPRI MUX feature Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 677 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-325 CPRI cable connections in a GU base station configured with the UBBP in the BBU3910 and using the dual-star topology Figure 1-326 CPRI cable connections in a GU base station configured with the UBBP and GTMUb/GTMUc in the BBU3910 and using the dual-star topology 1.3.7.5 CPRI Cable Connections in GL and G*L Base Stations This section describes the principles of CPRI cable connections in GL and G*L base stations and provides related illustrations. The following table describes the principles of CPRI cable connections in GL and G*L base stations in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 678 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-430 CPRI cable connection principles BBU Ba se Sta tio n Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections BBU 390 0 G* L ● The CPRI MUX feature is used by default. ● When the UBBP(L)a and UBBP(G) are configured, any of UBBP boards can be used to provide CPRI ports for connecting to RF modules. Figure 1-327 shows the CPRI cable connections when the UBBP(L) and UBBP(G) are configured. ● The UBBP is preferentially configured. The UBBP can serve either as the converging part to provide CPRI ports for connecting to RF modules or as the converged party. The peer board can be a UBBP, LBBPd, or UBRIb. ● If the UBBP is not configured, the LBBPd and UBRIb are required. The UBRIb must be configured in slot 0 or 1, and at least one LBBPd is configured in slots 2 and 3. ● If the UBBP(L) and UBRIb are configured, only the UBRIb can be used to provide CPRI ports for connecting to RF modules. ● If the UBBP(G) and LBBPd are configured, either of them can be used to provide CPRI ports for connecting to RF modules. ● If the UBRIb and LBBPd are configured, only the UBRIb can be used to provide CPRI ports for connecting to RF modules. ● The CPRI cables for RF modules whose working modes include GSM can be connected to the UBBP in any of slots 0 to 3. ● The CPRI cables for RF modules whose working modes include LTE can be connected to the UBBP in any of slots 0 to 5. ● The load sharing topology can be used. If the UBRIb and LBBPd are not configured, one CPRI cable for a dualmode RF module is Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 679 3900 & 5900 Series Base Station Cables BBU Ba se Sta tio n 1 3900 & 5900 Series Base Station Cables Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections connected to the baseband processing unit and the other one is connected to the baseband interface board whose working mode is different from that of the baseband processing unit. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 680 3900 & 5900 Series Base Station Cables BBU 1 3900 & 5900 Series Base Station Cables Ba se Sta tio n Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections GL ● The dual-star topology is used by default. When the dual-star topology is used, the cable connection principles are as follows: Figure 1-328 shows the CPRI cable connections when the dualstar topology is used. ● The UBBP can be configured. ● When the base station is configured with both RFUs and RRUs whose working modes include GSM, the BBU must be configured with the GTMUb/GTMUc. ● RF modulesb working in GL mode connect to the baseband processing units or baseband interface boards working in GSM and LTE modes. ● When the base station is configured with both RFUs and RRUs whose working modes include GSM, the RFUs and RRUs working in GSM mode connect to the GTMUb/GTMUc and UBRI boards, respectively. Figure 1-329 shows the CPRI cable connections when the CPRI MUX feature is used and the UBBP is configured. When the CPRI MUX feature is used, the cable connection principles are as follows: ● If the UBBP is configured, the UBBP(L) can serve as the converging party to provide CPRI ports for connecting to RF modules, and the UBBP(L) can be installed in slot 2 or 3. ● If the UBBP is not configured, the LBBPd can serve as the converging party to provide CPRI ports for connecting to RF modules. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 681 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables BBU Ba se Sta tio n Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections BBU 391 0 G* L ● The CPRI MUX feature is used by default. There are no constraints on the slots for installing UBBP boards serving as the converging and converged parties. The UBBP in any of slots 0 to 5 can provide CPRI ports for connecting to RF modules. Figure 1-327 shows the CPRI cable connections. When the dual-star topology is used, the cable connection principles are as follows: Figure 1-330 shows the CPRI cable connections when the dualstar topology is used and only the UBBP is configured. ● Only the UBBP can be configured as the baseband processing unit. ● RRU3004 and DRFU modules cannot connect to the BBU3910. GL ● The dual-star topology is used by default. ● Only the UBBP can be configured as the baseband processing unit. ● RRU3004 and DRFU modules cannot connect to the BBU3910. ● RF modulesb working in GL mode connect to the baseband processing units or baseband interface boards working in GSM and LTE modes. ● When the base station is configured with both RFUs and RRUs whose working modes include GSM, the RFUs and RRUs working in GSM mode connect to the GTMUb/GTMUc and UBRI boards, respectively. When the CPRI MUX feature is used, the UBBP(L) can serve as the converging party to provide CPRI ports for connecting to RF modules, and the UBBP(L) can be installed in any of slots 0 to 3. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. Figure 1-331 shows the CPRI cable connections when the dualstar topology is used and the UBBP and GTMUb/GTMUc are configured. Figure 1-329 shows the CPRI cable connections when the CPRI MUX feature is used and the UBBP is configured. 682 3900 & 5900 Series Base Station Cables BBU Ba se Sta tio n 1 3900 & 5900 Series Base Station Cables Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections a: The UBBP(L) is not a board type but a UBBP working in LO mode. The UBBP(G) in this section is a UBBP working in GSM mode. b: RF modules include RFUs and RRUs. Unless otherwise stated, all principles and illustrations in this section apply to both RFUs and RRUs. Table 1-431 lists the priorities of RF modules connecting to UBBP boards based on the working modes of the UBBP boards. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). If a UBBP(UL) is not configured, the RF module connects to a UBBP(GL) or UBBP(LO) in sequence. Table 1-431 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) > UBRIb GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBRIb > UBBP(LO) > UBBP(UO) > UBBP(UL) In addition to the preceding principles, there are some common principles, as described as follows: ● When UBBP boards are configured in a BBU3900, the CPRI cables for RF modules working in GSM mode and RF modules working in LTE mode can be connected to the CPRI ports on the same UBBP. ● In RRU cascading scenarios, multimode RRUs of the same and different modes can be cascaded. The intra-mode cascading is recommended. – Issue 16 (2021-08-13) In intra-mode cascading scenarios, all cascaded multimode RRUs are working in the same mode. Copyright © Huawei Technologies Co., Ltd. 683 3900 & 5900 Series Base Station Cables – 1 3900 & 5900 Series Base Station Cables In inter-mode cascading scenarios, all cascaded multimode RRUs are working in different modes, such as GO, LO, and GL modes. Illustrations of CPRI Cable Connections NOTE A macro base station can be configured with RFUs but without RRUs or can be configured with RFUs and RRUs. A distributed base station can be configured with RRUs but without RFUs. The restrictions of CPRI ports are as follows: ● If a base station is configured with RFUs but without RRUs, a CPRI port is connected to the RF module whose slot number is the same as the CPRI port number. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. ● If a base station is configured with RRUs but without RFUs, the CPRI cables for these RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. ● If a base station is configured with RFUs and RRUs, and the RFUs and RRUs need to be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports, and then the CPRI cables for RRUs are connected to the rest of CPRI ports. Based on the principles of CPRI cable connections, the following illustrations show the CPRI cable connections in typical scenarios. Figure 1-327 CPRI cable connections in a G*L base station configured with the BBU3900 or BBU3910 and enabled with the CPRI MUX feature Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 684 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-328 CPRI cable connections in a GL base station configured with the BBU3900 and using the dual-star topology Figure 1-329 CPRI cable connections in a GL base station configured with the UBBP in the BBU3900 or BBU3910 and enabled with the CPRI MUX feature Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 685 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-330 CPRI cable connections in a GL base station configured with the UBBP in the BBU3910 and using the dual-star topology Figure 1-331 CPRI cable connections in a GL base station configured with the UBBP and GTMUb/GTMUc in the BBU3910 and using the dual-star topology 1.3.7.6 CPRI Cable Connections in UL and U*L Base Stations This section describes the principles of CPRI cable connections in UL and U*L base stations and provides related illustrations. The following table describes the principles of CPRI cable connections in UL and U*L base stations in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 686 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-432 CPRI cable connection principles BBU Ba se Sta tio n Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections BBU 390 0 U* L ● The CPRI MUX feature is used by default. ● When the UBBP(L)a and UBBP(U) are configured, any of UBBP boards can be used to provide CPRI ports for connecting to RF modules. Figure 1-332 shows the CPRI cable connections when the UBBP(L) and UBBP(U) are configured. ● The UBBP is preferentially configured. The UBBP can serve either as the converging part to provide CPRI ports for connecting to RF modules or as the converged party. The peer board can be a UBBP, LBBPd, or WBBPf. ● If the UBBP is not configured, the LBBPd and WBBPf are required. In this case, the LBBPd or WBBPf must be configured in slot 2 or 3. ● If the UBBP(L) and WBBPf are configured, either of them must be used to provide CPRI ports for connecting to RF modules. ● When the UBBP(U) and LBBPd are configured, either of them can be used to provide CPRI ports for connecting to RF modules. Illustration 1 in Figure 1-336 shows the CPRI cable connections when the RMU is configured. ● The CPRI cables for RF modules whose working modes include UMTS can be connected to the UBBP in any of slots 2 and 3. ● The CPRI cables for RF modules whose working modes include LTE can be connected to the UBBP in any of slots 0 to 5. ● The load sharing topology can be used. If the WBBPf and LBBPd are not configured, one CPRI cable for a dualmode RF module is connected to the baseband processing unit and the other one is connected to the baseband interface board whose working Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 687 3900 & 5900 Series Base Station Cables BBU Ba se Sta tio n 1 3900 & 5900 Series Base Station Cables Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections mode is different from that of the baseband processing unit. UL ● The dual-star topology is used by default. ● The UBBP can be configured. ● If the UBBP is not configured and the CPRI MUX feature is used, the LBBPd and WBBPf are required. In this case, the LBBPd or WBBPf must be configured in slot 2 or 3. When the dual-star topology is used, the cable connection principles are as follows: ● RF modulesb working in UL mode connect to the baseband processing units working in UMTS and LTE modes. When the CPRI MUX feature is used, the cable connection principles are as follows: ● If the UBBP is configured, the UBBP(L) or UBBP(U) can serve as the converging party to provide CPRI ports for connecting to RF modules, and the UBBP(L) or UBBP(U) must be configured in slot 2 or 3. Figure 1-333 shows the CPRI cable connections when the dualstar topology is used. Figure 1-334 shows the CPRI cable connections when the CPRI MUX feature is used and the UBBP is configured. Illustration 1 or 2 in Figure 1-336 shows the CPRI cable connections when the RMU is configured. ● If the UBBP is not configured, the LBBPd or WBBPf can serve as the converging party to provide CPRI ports for connecting to RF modules. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 688 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables BBU Ba se Sta tio n Board Configuration and Networking Principle CPRI Cable Connection Principle Illustration of Cable Connections BBU 391 0 U* L ● The CPRI MUX feature is used by default. There are no constraints on the slots for installing UBBP boards serving as the converging and converged parties. The UBBP in any of slots 0 to 5 can provide CPRI ports for connecting to RF modules. Figure 1-332 shows the CPRI cable connections. RF modules working in UL mode connect to the UBBP(U) and UBBP(L) to form a dual-star topology. The UBBP can be configured in any of slots 0 to 5. Figure 1-335 shows the CPRI cable connections. ● Only the UBBP can be configured as the baseband processing unit. UL ● The dual-star topology is used by default. ● Only the UBBP can be configured as the baseband processing unit. Illustration 1 in Figure 1-336 shows the CPRI cable connections when the RMU is configured. Illustration 1 or 2 in Figure 1-336 shows the CPRI cable connections when the RMU is configured. a: The UBBP(L) is not a board type but a UBBP working in LO mode. The UBBP(U) in this section is a UBBP working in UMTS mode. b: RF modules include RFUs and RRUs. Unless otherwise stated, all principles and illustrations in this section apply to both RFUs and RRUs. Table 1-433 lists the priorities of RF modules connecting to UBBP boards based on the working modes of the UBBP boards. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). The rest may be deduced by analogy. Table 1-433 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 689 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Working Mode of an RF Module Connection Priority UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) > UBRIb GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBRIb > UBBP(LO) > UBBP(UO) > UBBP(UL) In addition to the preceding principles, there are some common principles, as described as follows: ● When UBBP boards are configured in a BBU3900, the CPRI cables for RF modules working in UMTS mode and RF modules working in LTE mode can be connected to the CPRI ports on the same UBBP. ● In RRU cascading scenarios, multimode RRUs of the same and different modes can be cascaded. The intra-mode cascading is recommended. – In intra-mode cascading scenarios, all cascaded multimode RRUs are working in the same mode. – Inter-mode cascading: The cascaded multimode RF modules are working in the UO, LO, and UL modes. Illustrations of CPRI Cable Connections NOTE A macro base station can be configured with RFUs but without RRUs or can be configured with RFUs and RRUs. A distributed base station can be configured with RRUs but without RFUs. The restrictions of CPRI ports are as follows: ● If a base station is configured with RFUs but without RRUs, a CPRI port is connected to the RF module whose slot number is the same as the CPRI port number. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. ● If a base station is configured with RRUs but without RFUs, the CPRI cables for these RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. ● If a base station is configured with RFUs and RRUs, and the RFUs and RRUs need to be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports, and then the CPRI cables for RRUs are connected to the rest of CPRI ports. Based on the principles of CPRI cable connections, the following illustrations show the CPRI cable connections in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 690 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-332 CPRI cable connections in a U*L base station configured with the BBU3900 or BBU3910 and enabled with the CPRI MUX feature Figure 1-333 CPRI cable connections in a UL base station configured with the BBU3900 and using the dual-star topology Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 691 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-334 CPRI cable connections in a UL base station configured with the UBBP in the BBU3900 and enabled with the CPRI MUX feature Figure 1-335 CPRI cable connections in a UL base station configured with the UBBP in the BBU3910 and using the dual-star topology Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 692 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-336 CPRI cable connections in a base station configured with an RMU 1.3.7.7 CPRI Cable Connections in a Triple-Mode Base Station This section describes the principles of CPRI cable connections in a triple-mode base station in different scenarios and provides related illustrations. The following table describes the principles of CPRI cable connections in a triplemode base station in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 693 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-434 CPRI cable connection principles BBU Base Station CPRI Cable Connection Principle Illustration of Cable Connections BBU39 00 Separate-MPT base station configured with two BBU3900s - For details on the CPRI cable connections of the BBU working in UMTS mode, see 1.3.7.2 CPRI Cable Connections in a UMTS Base Station. ● GU+L (BBUs not interconnec ted) ● GL+U (BBUs not interconnec ted) For details on the CPRI cable connections of the BBU working in LTE mode, see 1.3.7.3 CPRI Cable Connections in an LTE FDD/LTE TDD Base Station. For details on the CPRI cable connections of the BBU working in GU mode, see 1.3.7.4 CPRI Cable Connections in GU and G*U Base Stations. For details on the CPRI cable connections of the BBU working in GL mode, see 1.3.7.5 CPRI Cable Connections in GL and G*L Base Stations. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 694 3900 & 5900 Series Base Station Cables BBU 1 3900 & 5900 Series Base Station Cables Base Station CPRI Cable Connection Principle Illustration of Cable Connections Separate-MPT base station configured with two BBU3900s: GU +L or GL+U base station in UCIU+UMPT mode ● RF modules working in dual modes are connected to the BBU by using the dual-star topology. Figure 1-337 shows the CPRI cable connections in a GU+L base station in UCIU +UMPT mode. Separate-MPT base station configured with one BBU ● RF modules working in single mode are connected to the BBU by using the single-star topology. ● G[U*L] ● It is recommended that multimode RF modules working in co-MPT scenarios be connected to the BBU by using the CPRI MUX feature. ● G[L*T] ● U[L*T] ● G[U*T] ● RF modules working in single mode are connected to the BBU by using the single-star topology. ● Multimode RF modules working in separate-MPT scenarios are connected to the BBU by using the dualstar topology. ● RF modules working in LTE TDD mode are connected to the BBU by using the singlestar topology. These RF modules can only be singlemode RRUs. Figure 1-339 shows the CPRI cable connections in G[U*L] scenarios. Figure 1-341 shows the CPRI cable connections in G[L*T] scenarios. The CPRI cable connections in G[L*T], U[L*T], and G[U*T] scenarios are similar. ● RRU3961 modules working in GUL mode are connected to the WBBPf and the GTMU/ GTMUb/GTMUc by using the dual-star topology. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 695 3900 & 5900 Series Base Station Cables BBU 1 3900 & 5900 Series Base Station Cables Base Station CPRI Cable Connection Principle Illustration of Cable Connections Co-MPT base station configured with one BBU ● RF modules working in single mode are connected to the BBU by using the single-star topology. ● G*U*L ● Dual-mode RF modules are connected to the BBU by using the CPRI MUX feature. Figure 1-342 shows the CPRI cable connections in G*U*L scenarios. ● G*L*T – The CPRI cables for RF modules working in GU or GL mode are connected to the CPRI ports on the UBRI, and the CPRI cables for RF modules working in UL mode are connected to the CPRI ports on the WBBPf. Figure 1-343 shows the CPRI cable connections in G*L*T scenarios. – The CPRI cables for RRU3961 modules that can work in GUL mode are connected to the UBRIb. ● The load sharing topology can be used. If none of the baseband processing units or interface boards supports the CPRI MUX feature, CPRI cables for multimode RF modules are connected to baseband processing units or interface boards working in different modes. ● For G*U*L base stations whose GSM baseband signals are processed by RF modules, GSM signals can be converged by the UBBP_U, UBBP_L, or UBBP_UL when GSM serves as the converged party. Therefore, a GSM baseband processing unit or interface board is not required. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 696 3900 & 5900 Series Base Station Cables BBU Issue 16 (2021-08-13) 1 3900 & 5900 Series Base Station Cables Base Station CPRI Cable Connection Principle Illustration of Cable Connections Co-MPT base station configured with two BBUs: G*U*L +G*U*L base station in UCIU+UMPT mode ● RF modules working in single mode are connected to the BBU by using the single-star topology. - ● RF modules working in GL mode are connected to the UBRI in a BBU by using the single-star topology. ● RF modules working in GU mode are connected to the UBRI and WBBP in a BBU by using the dual-star topology. Copyright © Huawei Technologies Co., Ltd. 697 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables BBU Base Station CPRI Cable Connection Principle Illustration of Cable Connections BBU39 10 Separate-MPT base station configured with two BBU3910s - For details on the CPRI cable connections of the BBU working in UMTS mode, see 1.3.7.2 CPRI Cable Connections in a UMTS Base Station. ● GU+L (BBUs not interconnec ted) ● GL+U (BBUs not interconnec ted) For details on the CPRI cable connections of the BBU working in LTE mode, see 1.3.7.3 CPRI Cable Connections in an LTE FDD/LTE TDD Base Station. For details on the CPRI cable connections of the BBU working in GU mode, see 1.3.7.4 CPRI Cable Connections in GU and G*U Base Stations. For details on the CPRI cable connections of the BBU working in GL mode, see 1.3.7.5 CPRI Cable Connections in GL and G*L Base Stations. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 698 3900 & 5900 Series Base Station Cables BBU 1 3900 & 5900 Series Base Station Cables Base Station CPRI Cable Connection Principle Illustration of Cable Connections Separate-MPT base station configured with two BBU3910s: GU +L or GL+U base station in UMPT+UMPT mode ● RF modules working in dual modes are connected to the BBU by using the dual-star topology. Figure 1-338 shows the CPRI cable connections in a GU+L base station in UMPT +UMPT mode. Separate-MPT base station configured with one BBU ● RF modules working in single mode are connected to the BBU by using the single-star topology. ● G[U*L] ● It is recommended that multimode RF modules working in co-MPT scenarios be connected to the BBU by using the CPRI MUX feature. ● G[L*T] ● RF modules working in single mode are connected to the BBU by using the single-star topology. Figure 1-340 shows the CPRI cable connections in G[U*L] scenarios. ● Multimode RF modules working in separate-MPT scenarios are connected to the BBU by using the dualstar topology. ● RF modules working in LTE TDD mode are connected to the BBU by using the singlestar topology. These RF modules can only be singlemode RRUs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 699 3900 & 5900 Series Base Station Cables BBU 1 3900 & 5900 Series Base Station Cables Base Station CPRI Cable Connection Principle Illustration of Cable Connections Co-MPT base station configured with one BBU ● RF modules working in single mode are connected to the BBU by using the single-star topology. Figure 1-344 shows the CPRI cable connections. ● G*U*L ● The CPRI MUX feature is used for dual-mode RF modules by default. These RF modules connect to corresponding UBBP boardsb in an order of prioritya. ● The load sharing topology can be used. If none of the baseband processing units or interface boards supports the CPRI MUX feature, CPRI cables for multimode RF modules are connected to baseband processing units or interface boards working in different modes. ● For G*U*L base stations whose GSM baseband signals are processed by RF modules, GSM signals can be converged by the UBBP_U, UBBP_L, or UBBP_UL when GSM serves as the converged party. Therefore, a GSM baseband processing unit or interface board is not required. a: The RF modules of different working modes connect to the BBU in a descending order of priority as follows: GUL > UL > GL > LO > GU > UO > GO. For example, RF modules in GUL mode preferentially connect to the BBU and then the RF modules in UL mode. RF modules working in other modes are connected to the BBU in order of the previously mentioned priority. b: According to the working modes of the UBBP boards, the priorities of RF modules for connecting to UBBP boards are listed in Table 1-435. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). If a UBBP(UL) is not configured, the RF module connects to a UBBP(GL) or UBBP(LO) in sequence. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 700 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-435 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) > UBRIb GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBRIb > UBBP(LO) > UBBP(UO) > UBBP(UL) Illustrations of CPRI Cable Connections NOTE A macro base station can be configured with RFUs but without RRUs or can be configured with RFUs and RRUs. A distributed base station can be configured with RRUs but without RFUs. The restrictions of CPRI ports are as follows: ● If a base station is configured with RFUs but without RRUs, a CPRI port is connected to the RF module whose slot number is the same as the CPRI port number. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. ● If a base station is configured with RRUs but without RFUs, the CPRI cables for these RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. ● If a base station is configured with RFUs and RRUs, and the RFUs and RRUs need to be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports, and then the CPRI cables for RRUs are connected to the rest of CPRI ports. Based on the principles of CPRI cable connections, the following illustrations show the CPRI cable connections in typical scenarios. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 701 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-337 CPRI cable connections in a GU+L base station configured with two BBU3900s interconnected in UCIU+UMPT mode Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 702 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-338 CPRI cable connections in a GU+L base station configured with two BBU3910s interconnected in UMPT+UMPT mode Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 703 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-339 CPRI cable connections in a G[U*L] base station configured with one BBU3900 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 704 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-340 CPRI cable connections in a G[U*L] base station configured with one BBU3910 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 705 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-341 CPRI cable connections in a G[L*T] base station configured with one BBU3900 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 706 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-342 CPRI cable connections in a G*U*L base station configured with one BBU3900 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 707 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-343 CPRI cable connections in a G*L*T base station configured with one BBU3900 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 708 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-344 CPRI cable connections in a G*U*L base station configured with one BBU3910 1.3.7.8 CPRI Cable Connections in a Quadruple-Mode Base Station This section describes the principles of CPRI cable connections in a quadruplemode base station in different scenarios and provides related illustrations. The following table describes the principles of CPRI cable connections in a quadruple-mode base station in typical scenarios. Table 1-436 CPRI cable connection principles BBU Base Station CPRI Cable Connection Principle Illustration of Cable Connections BBU3900 Co-MPT base station configure d with one BBU3900: G*U*L*T ● RF modules working in dual modes are connected to the BBU by using the dual-star topology. ● RF modules working in single mode are connected to the BBU by using the single-star topology. ● If the LBBP boards working in LTE FDD and LTE TDD modes need to be installed in the same slot, the LBBP working Figure 1-345 shows the CPRI cable connections. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 709 3900 & 5900 Series Base Station Cables BBU 1 3900 & 5900 Series Base Station Cables Base Station SeparateMPT base station configure d with two BBU3900 s: GU+L*T (UMPT +UMPT) BBU3910 CPRI Cable Connection Principle in LTE FDD mode is preferentially installed. Co-MPT base station configure d with one BBU3900: G*U*L*T Illustration of Cable Connections Figure 1-346 shows the CPRI cable connections. Figure 1-345 shows the CPRI cable connections. Table 1-437 lists the priorities of RF modules connecting to UBBP boards based on the working modes of the UBBP boards. For example, an RF module working in GUL mode preferentially connects to a UBBP(GUL). If a UBBP(GUL) is not configured, the RF module connects to a UBBP(UL). If a UBBP(UL) is not configured, the RF module connects to a UBBP(GL) or UBBP(LO) in sequence. Table 1-437 Priorities of RF modules working in different modes when they are connected to UBBP boards Working Mode of an RF Module Connection Priority GUL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) UL UBBP(GUL) > UBBP(UL) > UBBP(GL) > UBBP(LO) > UBRIb GL UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb LO UBBP(GUL) > UBBP(GL) > UBBP(UL) > UBBP(LO) > UBRIb GU UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb UO UBBP(GUL) > UBBP(GU) > UBBP(UL) > UBBP(UO) > UBRIb GO UBBP(GO) > UBBP(GL) > UBBP(GU) > UBBP(GUL) > UBRIb > UBBP(LO) > UBBP(UO) > UBBP(UL) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 710 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Illustrations of CPRI Cable Connections NOTE A macro base station can be configured with RFUs but without RRUs or can be configured with RFUs and RRUs. A distributed base station can be configured with RRUs but without RFUs. The restrictions of CPRI ports are as follows: ● If a base station is configured with RFUs but without RRUs, a CPRI port is connected to the RF module whose slot number is the same as the CPRI port number. For example, the CPRI cable for RFU 2 connects to the CPRI2 port on the baseband processing unit. ● If a base station is configured with RRUs but without RFUs, the CPRI cables for these RRUs are connected to available CPRI ports in sequence on the baseband processing unit. For example, CPRI cables for RRU 0, RRU 1, and RRU 2 are connected to CPRI0, CPRI1, and CPRI2 ports in sequence on the baseband processing unit. ● If a base station is configured with RFUs and RRUs, and the RFUs and RRUs need to be connected to the same baseband processing unit, the CPRI cables for RFUs are connected to CPRI ports, and then the CPRI cables for RRUs are connected to the rest of CPRI ports. Figure 1-345 CPRI cable connections in a G*U*L*T base station configured with one BBU3900 or BBU3910 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 711 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-346 CPRI cable connections in a GU+L*T base station configured with two BBU3900s in UMPT+UMPT mode 1.3.8 RF Cable Connections Configuration of RF modules varies according to the modes of base stations, and therefore RF cable connections are different. This section describes RF cable connections in single-mode, dual-mode, and triple-mode base stations. 1.3.8.1 RF Cable Connection Description In terms of the number of RX and TX channels, RFUs can be classified into 1T2R RFUs and 2T2R RFUs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 712 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables RF Cable Connections for 1T2R RFUs A single 1T2R RFU connects to an antenna system through the ANT_TX/RXA and ANT_RXB ports. Antenna channel "a" transmits and receives signals while antenna channel "b" receives signals only. In this case, there are two RX channels and one TX channel. The following figure shows the RF cable connections for a single 1T2R RFU. Figure 1-347 RF cable connections for a single 1T2R RFU (a) Transmit and receive channel (b) RX channel Two 1T2R RFUs connect to an antenna system through their own ANT_TX/RXA port. Two antenna channels (marked as "a") transmit and receive signals. The RX_INB port on one 1T2R RFU interconnects with the RX_OUTA port on the other 1T2R RFU to transfer the diversity signals received through the antenna channel. The following figure shows the RF cable connections for two 1T2R RFUs. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 713 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-348 RF cable connections for two 1T2R RFUs (a) Transmit and receive channel Two 1T2R RFUs can be connected by using RF cables to support any of the following RX and TX channel combinations: ● Two RX channels and two TX channels ● Two RX channels and one TX channel in a scenario where multiple carriers are used or high carrier power is required, or the carrier frequency configurations exceed the bandwidth capacity of the RFU ● 2x2 MIMO channels RF Cable Connections for 2T2R RFUs A single 2T2R RFU connects to an antenna system through the ANT_TX/RXA port. Both antenna channels "a" and "b" transmit and receive signals. In this case, there are two RX channels and two TX channels and 2x2 MIMO channels can be supported. The following figure shows the RF cable connections for a single 2T2R RFU. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 714 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-349 RF cable connections for a single 2T2R RFU (a) Transmit and receive channel (b) Transmit and receive channel Two 2T2R RFUs can be configured in a single sector, each using one antenna. In this case, there are four RX channels and four TX channels. This configuration applies to a scenario where multiple carriers are used or high carrier power is required. The following figure shows the RF cable connections for two 2T2R RFUs. Figure 1-350 RF cable connections for two 2T2R RFUs Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 715 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.8.2 RF Cable Connections for the DRFU RF cable connections for the DRFU vary according to the positions of the DRFU and antenna. Cable Connections This section describes the RF cable connections for the DRFU with a single sector. The following table lists the RF cable connections for the DRFU. Table 1-438 RF cable connections for the DRFU RFU Model Specifications of a Single RFU Description Illustration of Cable Connections DRFU Two carriers with 1T2R ● One carrier with 1T2R See illustration 1 in Figure 1-351. ● One carrier with 2T2R ● Two carriers with 1T2R ● Two carriers with 2T2R See illustration 2 in Figure 1-351. ● Four carriers with 1T2R Illustration of Cable Connections Figure 1-351 RF cable connections for the DRFU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 716 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.8.3 RF Cable Connections for the GRFU RF cable connections for the GRFU vary according to the positions of the GRFU and antenna. Cable Connections This section describes the RF cable connections for the GRFU with a single sector. The following table lists the RF cable connections for the GRFU. Table 1-439 RF cable connections for the GRFU RFU Model Specifications of a Single RFU Description Illustration of Cable Connections GRFU Six carriers with 1T2R ● Three carriers with 1T2R See illustration 1 in Figure 1-352. ● Three carriers with 2T2R ● Six carriers with 1T2R ● Six carriers with 2T2R See illustration 2 in Figure 1-352. ● Twelve carriers with 1T2R Illustration of Cable Connections Figure 1-352 RF cable connections for the GRFU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 717 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.8.4 RF Cable Connections for the WRFU RF cable connections for the WRFU vary according to the positions of the WRFU and antenna. Cable Connections This section describes the RF cable connections for the WRFU with a single sector. The following table lists the RF cable connections for the WRFU. Table 1-440 RF cable connections for the WRFU RFU Model Specifications of a Single RFU Description Illustration of Cable Connections WRFU Four carriers with 1T2R Four carriers with 1T2R See illustration 1 in Figure 1-353. ● Four carriers with 2T2R See illustration 2 in Figure 1-353. ● Eight carriers with 1T2R ● 2x2 MIMO Four carriers with 2T4R See illustration 3 in Figure 1-353. Illustration of Cable Connections Figure 1-353 RF cable connections for the WRFU Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 718 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.8.5 RF Cable Connections for the WRFUa RF cable connections for the WRFUa vary according to the positions of the WRFUa and antenna. Cable Connections This section describes the RF cable connections for the WRFUa with a single sector. The following table lists the RF cable connections for the WRFUa. Table 1-441 RF cable connections for the WRFUa RFU Model Specifications of a Single RFU Description Illustration of Cable Connections WRFUa Four carriers with 1T2R Four carriers with 1T2R See illustration 1 in Figure 1-354. ● Four carriers with 2T2R See illustration 2 in Figure 1-354. ● Eight carriers with 1T2R ● 2x2 MIMO Four carriers with 2T4R See illustration 3 in Figure 1-354. Illustration of Cable Connections Figure 1-354 RF cable connections for the WRFUa Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 719 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.8.6 RF Cable Connections for the WRFUd RF cable connections for the WRFUd vary according to the positions of the WRFUd and antenna. Cable Connections This section describes the RF cable connections for the WRFUd with a single sector. The following table lists the RF cable connections for the WRFUd. Table 1-442 RF cable connections for the WRFUd RFU Model Specifications of a Single RFU Description Illustration of Cable Connections WRFUd ● Four carriers when MIMO is configured ● Six carriers with 2T2R when MIMO is not configured Four carriers with 2T2R See illustration 1 in Figure 1-355. ● Six carriers with 2T2R See illustration 2 in Figure 1-355. ● 2x2 MIMO Six carriers with 2T4R See illustration 3 in Figure 1-355. Illustration of Cable Connections Figure 1-355 RF cable connections for the WRFUd Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 720 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.8.7 RF Cable Connections for the WRFUe RF cable connections for the WRFUe vary according to the positions of the WRFUe and antenna. Cable Connections This section describes the RF cable connections for the WRFUe with a single sector. The following table lists the RF cable connections for the WRFUe. Table 1-443 RF cable connections for the WRFUe RFU Model Specifications of a Single RFU Description Illustration of Cable Connections WRFUe ● Four carriers when MIMO is configured ● Six carriers with 2T2R when MIMO is not configured Four carriers with 2T2R See illustration 1 in Figure 1-356. ● Six carriers with 2T2R See illustration 2 in Figure 1-356. ● 2x2 MIMO Six carriers with 2T4R See illustration 3 in Figure 1-356. Illustration of Cable Connections Figure 1-356 RF cable connections for the WRFUe Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 721 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.3.8.8 RF Cable Connections for the LRFU RF cable connections for the LRFU vary according to the positions of the LRFU and antenna. Cable Connections This section describes the RF cable connections for the LRFU with a single sector. The following table lists the RF cable connections for the LRFU. Table 1-444 RF cable connections for the LRFU RFU Model Specifications of a Single RFU Description Illustration of Cable Connections LRFU One carrier with 2T2R One carrier with 2T2R See illustration 1 in Figure 1-357. One carrier with 4T4R See illustration 2 in Figure 1-357. Illustration of Cable Connections Figure 1-357 RF cable connections for the LRFU 1.3.8.9 RF Cable Connections for the LRFUe RF cable connections for the LRFUe vary according to the positions of the LRFUe and antenna. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 722 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Connections This section describes the RF cable connections for the LRFUe with a single sector. The following table lists the RF cable connections for the LRFUe. Table 1-445 RF cable connections for the LRFUe RFU Model Specifications of a Single RFU Description Illustration of Cable Connections LRFUe One carrier with 2T2R One carrier with 2T2R See illustration 1 in Figure 1-358. One carrier with 4T4R See illustration 2 in Figure 1-358. Illustration of Cable Connections Figure 1-358 RF cable connections for the LRFUe 1.3.8.10 RF Cable Connections for the MRFU RF cable connections for the MRFU vary according to the positions of the MRFU and antenna. Cable Connections This section describes the RF cable connections for the MRFU with a single sector. The following table lists the RF cable connections for the MRFU. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 723 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-446 RF cable connections for the MRFU RFU Model Specifications of a Single RFU Description Illustration of Cable Connections MRFU ● Six GSM carriers 1T2R ● Four UMTS carriers See illustration 1 in Figure 1-359. 2T4R See illustration 2 in Figure 1-359. ● One LTE carrier Illustration of Cable Connections Figure 1-359 RF cable connections for the MRFU 1.3.8.11 RF Cable Connections for the MRFUd RF cable connections for the MRFUd vary according to the positions of the MRFUd and antenna. Cable Connections This section describes the RF cable connections for the MRFUd with a single sector. The following table lists the RF cable connections for the MRFUd. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 724 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-447 RF cable connections for the MRFUd RFU Model Specifications of a Single RFU Description Illustration of Cable Connections MRFUd ● Eight GSM carriers 2T2R See illustration 1 in Figure 1-360. ● Six UMTS carriers 4T4R See illustration 2 in Figure 1-360. ● Two LTE carriers Illustration of Cable Connections Figure 1-360 RF cable connections for the MRFUd 1.3.8.12 RF Cable Connections for the MRFUe RF cable connections for the MRFUe vary according to the positions of the MRFUe and antenna. Cable Connections This section describes the RF cable connections for the MRFUe with a single sector. The following table lists the RF cable connections for the MRFUe. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 725 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-448 RF cable connections for the MRFUe RFU Model Specifications of a Single RFU Description Illustration of Cable Connections MRFUe ● Eight GSM carriers ● Four UMTS carriers ● Two LTE carriers 1T2R See illustration 1 in Figure 1-361. 2T2R See illustration 2 in Figure 1-361. 2T4R See illustration 3 in Figure 1-361. Illustration of Cable Connections Figure 1-361 RF cable connections for the MRFUe 1.3.8.13 RF Cable Connections for the CRFUd RF cable connections for the CRFUd vary according to the positions of the CRFUd and antenna. Cable Connections This section describes the RF cable connections for the CRFUd with a single sector. The following table lists the RF cable connections for the CRFUd. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 726 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-449 RF cable connections for the CRFUd RFU Model Specifications of a Single RFU Description Illustration of Cable Connections CRFUd One carrier with 2T2R 2T2R See illustration 1 in Figure 1-362. 4T4R See illustration 2 in Figure 1-362. Illustration of Cable Connections Figure 1-362 RF cable connections for the CRFUd 1.3.8.14 RF Cable Connections for the CRFUe RF cable connections for the CRFUe vary according to the positions of the CRFUe and antenna. Cable Connections This section describes the RF cable connections for the CRFUe with a single sector. The following table lists the RF cable connections for the CRFUe. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 727 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-450 RF cable connections for the CRFUe RFU Model Specifications of a Single RFU Description Illustration of Cable Connections CRFUe Four carriers with 2T2R 2T2R See illustration 1 in Figure 1-363. 4T4R See illustration 2 in Figure 1-363. Illustration of Cable Connections Figure 1-363 RF cable connections for the CRFUe 1.3.8.15 RF Cable Connections for Mixed RFU Configuration Different models of RFUs can be configured in the same base station to expand the system capacity or support multimode radio access technologies (RATs). This section describes the RF cable connections for mixed RFU configuration. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 728 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Connections Table 1-451 RF cable connections for mixed RFU configuration Initial Scenario Mixed Configuration Scenario Illustration of Cable Connections In UMTS 3x2 mode, each sector is configured with one WRFU of 40 W. This WRFU supports two UMTS carriers. In UMTS 3x6 mode, each sector is configured with one WRFU of 80 W. This WRFU supports four UMTS carriers. See illustration 1 in Figure 1-364. In GSM S4/4/4 mode, each sector is configured with one MRFU V1 that supports four GSM carriers. To support 3x5 MHz of LTE, one MRFU V2 is added to each sector. The MRFU V2 and MRFU V1 are configured to support one LTE carrier. See illustration 2 in Figure 1-364. In GSM S8/8/8 mode, each sector is configured with two GRFU V2 modules (1800 MHz). Each GRFU V2 (1800 MHz) supports four GSM carriers. To support GSM S8/8/8+LTE 3x15 MHz, one GRFU V2 (1800 MHz) in each sector is replaced with one MRFUd (1800 MHz). The MRFUd (1800 MHz) works in GL mode, supporting four GSM carriers and one LTE carrier. See illustration 3 in Figure 1-364. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 729 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Illustration of Cable Connections Figure 1-364 RF cable connections for mixed RFU configuration 1.4 PGND Cable PGND cables include PGND cables for cabinets and PGND cables for modules, which ensure proper grounding of cabinets and modules in the cabinets as well as safe operation of a base station. ● PGND cables for cabinets are used for connecting the ground bars in the cabinets to the ground bars at the site to ensure proper grounding of the cabinets. ● PGND cables for modules are used for connecting the ground screws on the modules to the ground bars in the cabinet to ensure proper grounding of modules. Exterior The following figure shows the exterior of a PGND cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 730 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-365 PGND cable (1) OT terminal (2) Cord end terminal NOTE In most cases, yellow and green PGND cables are used. However, green PGND cables are used if 110 V dual-live-wire power is provided for an APM30H (Ver.C), APM30H (Ver.D), APM5930(AC), RFC (Ver.C), RFC (Ver.D), RFC (Ver.E), or APM30H (Ver.E). Description Table 1-452 and Table 1-453 describe the PGND cables for cabinets and PGND cables for modules, respectively. Table 1-452 PGND cables for cabinets Cable Exterior Cabinet Type Connector Maximum Length Cable Specificati ons Illustration 1 BTS3900 (Ver.B) or BTS3900L (Ver.B) Both ends use OT terminals (M8). 15 m (49.21 ft) 25 mm2 (0.039 in.2) BTS3900 (Ver.C) or BTS3900L (Ver.C) Illustration 1 BTS3900 (Ver.D), BTS3900L (Ver.D), BTS5900 (Ver.A), or BTS5900L (Ver.A) Both ends use OT terminals (M8). 15 m (49.21 ft) 16 mm2 (0.025 in.2) Illustration 1 RFC (Ver.B) Both ends use OT terminals (M6). 8 m (26.25 ft) 16 mm2 (0.025 in.2) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 731 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Exterior Cabinet Type Connector Maximum Length Cable Specificati ons Illustration 1 RFC (Ver.C) Both ends use OT terminals (M6). 8 m (26.25 ft) 25 mm2 (0.039 in.2) Illustration 1 RFC (Ver.D) Both ends use OT terminals (M6). 8 m (26.25 ft) 16 mm2 (0.025 in.2) Illustration 1 RFC (Ver.E) Both ends use OT terminals (M6). 8 m (26.25 ft) 16 mm2 (0.025 in.2) Illustration 1 OMB (Ver.C) Both ends use OT terminals (M6). 15 m (49.21 ft) 16 mm2 (0.025 in.2) Illustration 1 APM30H (Ver.B), TMC11H (Ver.B), IBBS200D (Ver.B), or IBBS200T (Ver.B) Both ends use OT terminals (M6). 8 m (26.25 ft) 16 mm2 (0.025 in.2) Illustration 1 APM30H (Ver.C), TMC11H (Ver.C), IBBS200D (Ver.C), or IBBS200T (Ver.C) Both ends use OT terminals (M6). 8 m (26.25 ft) 25 mm2 (0.039 in.2) Illustration 1 APM30H (Ver.D), TMC11H (Ver.D), IBBS200D (Ver.D), or IBBS200T (Ver.D) Both ends use OT terminals (M6). 8 m (26.25 ft) 16 mm2 (0.025 in.2) Both ends use OT terminals (M6). 8 m (26.25 ft) 16 mm2 (0.025 in.2) IBBS20D Illustration 1 APM30H (Ver.E), TMC11H (Ver.E), IBBS200D (Ver.E), or IBBS200T (Ver.E) APM5930(AC) or APM5930(DC) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 732 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Exterior Cabinet Type Connector Maximum Length Cable Specificati ons Illustration 1 BTS3900AL (Ver.A) Both ends use OT terminals (M6). 8 m (26.25 ft) 35 mm2 (0.054 in.2) Illustration 1 IBC10 Both ends use OT terminals (M8). - 25 mm2 (0.039 in.2) Illustration 1 MRE1000 Both ends use OT terminals (M6). 8 m (26.25 ft) 16 mm2 (0.025 in.2) Illustration 1 BBU3910A An OT terminal (M6) at the BBU3910A end and an OT terminal (M8) at the site ground bar end - 16 mm2 (0.025 in.2) Illustration 1 BBU5900A An OT terminal (M6) at the BBU5900A end and a terminal (depending on site requirement s) at the site ground bar end - 16 mm2 (0.025 in.2) Illustration 2 ODM06D A cord end terminal at the ODM06D end and an OT terminal (M6) at the site ground bar end - 16 mm2 (0.025 in.2) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 733 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-453 PGND cables for modules Cable Exterior Cabinet Type Connector Maximum Length Cable Specificati ons Illustration 1 BTS3900 (Ver.B) or BTS3900L (Ver.B) Both ends use OT terminals (M4). 15 m (49.21 ft) 6 mm2 (0.009 in. 2) Both ends use OT terminals (M4). 15 m (49.21 ft) 6 mm2 (0.009 in. 2) Both ends use OT terminals (M4). 0.3 m (0.98 ft) 6 mm2 (0.009 in. 2) BTS3900 (Ver.C) or BTS3900L (Ver.C) BTS3900 (Ver.D) or BTS3900L (Ver.D) BTS5900 (Ver.A) or BTS5900L (Ver.A) Illustration 1 APM30H (Ver.B) IBBS200D (Ver.B) IBBS200T (Ver.B) Illustration 1 IBBS300D (Ver.A) Illustration 1 OMB (Ver.C) Both ends use OT terminals (M6). 15 m (49.21 ft) 6 mm2 (0.009 in. 2) Illustration 1 BTS3900AL Both ends use OT terminals (M6). 15 m (49.21 ft) 6 mm2 (0.009 in. 2) Illustration 1 IBC10 Both ends use OT terminals (M6). - 6 mm2 (0.009 in. 2) Illustration 1 IBBS20D Both ends use OT terminals (M4). 0.2 m (0.66 ft) 6 mm2 (0.009 in. 2) Illustration 1 MRE1000 Both ends use OT terminals (M4). 0.2 m (0.66 ft) 6 mm2 (0.009 in. 2) Issue 16 (2021-08-13) IBBS300T (Ver.A) Copyright © Huawei Technologies Co., Ltd. 734 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Exterior Cabinet Type Connector Maximum Length Cable Specificati ons Illustration 2 BBC5200T-L air conditioner A cord end terminal at the air conditioner end and an OT terminal (M6) at the cabinet ground bar end 0.5 m (1.64 ft) 2.5 mm2 (0.0039 in. 2) 1.5 Equipotential Cable Equipotential cables connect the PGND terminals of two cabinets. They ensure equipotential bonding between cabinets and safe operation of base stations. Exterior The following figure shows the exterior of an equipotential cable. Figure 1-366 Equipotential cable (1) OT terminal (M6) NOTE In most cases, yellow and green equipotential cables are used. When 110 V dual-live-wire power is supplied for an APM30H (Ver.C), APM30H (Ver.D), RFC (Ver.C), RFC (Ver.D), RFC (Ver.E), or APM30H (Ver.E), green equipotential cables are used. Description The following table describes equipotential cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 735 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-454 Equipotential cables Cabinet Type Cable Specifications BTS3900 (Ver.B) cabinets stacked or installed side by side 16 mm2 (0.025 in.2) BTS3900 (Ver.C) cabinets stacked or installed side by side BTS3900 (Ver.D) cabinets stacked or installed side by side BTS5900 (Ver.A) cabinets stacked or installed side by side BTS3900 (Ver.D) cabinet stacked on the IMS06 BTS3900L (Ver.D) cabinet stacked on the IMS06 16 mm2 (0.025 in.2) APM30H (Ver.B), RFC (Ver.B), IBBS200D (Ver.B), IBBS200T (Ver.B), and TMC11H (Ver.B) stacked or installed side by side 16 mm2 (0.025 in.2) APM30H (Ver.C), RFC (Ver.C), IBBS200D (Ver.C), IBBS200T (Ver.C), and TMC11H (Ver.C) stacked or installed side by side The cross-sectional areas of cables vary according to the installation scenarios of cabinets. ● 16 mm2 (0.025 in.2) for stacked cabinets ● 25 mm2 (0.039 in.2) for side-by-side cabinets APM30H (Ver.D), RFC (Ver.D), IBBS200D (Ver.D), IBBS200T (Ver.D), IBBS700D, IBBS700T, and TMC11H (Ver.D) stacked or installed side by side 16 mm2 (0.025 in.2) APM30H (Ver.D), RFC (Ver.D), IBBS300D (Ver.A), IBBS300T (Ver.A), and TMC11H (Ver.D) stacked or installed side by side 16 mm2 (0.025 in.2) APM30H (Ver.E), RFC (Ver.E), IBBS300D (Ver.A), IBBS300T (Ver.A), and TMC11H (Ver.E) stacked or installed side by side 16 mm2 (0.025 in.2) IBBS20D, IBBS20L-E, or IBBS20L installed side by side with the RRU, BBU3910A, and OPM50M 16 mm2 (0.025 in.2) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 736 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cabinet Type Cable Specifications BTS3900AL (Ver.A) AC cabinet and BTS3900AL (Ver.A) DC cabinet installed side by side 35 mm2 (0.054 in.2) BTS3900AL (Ver.A) AC cabinet and IBBS700D or IBBS700T cabinet installed side by side BTS3900AL (Ver.A) AC cabinet and IBBS300D or IBBS300T cabinet installed side by side BTS3900AL (Ver.A) AC cabinet and TMC11H (Ver.D) cabinet installed side by side 25 mm2 (0.039 in.2) 1.6 Power Cables This section describes the exteriors, functions, and pin assignment of power cables. 1.6.1 Power Cables for Power Supply Devices This section describes power cables for all power supply devices. 1.6.1.1 DCDU Power Cables This section describes power cables for different models of DCDUs. 1.6.1.1.1 DCDU-01 Power Cable A DCDU-01 power cable feeds DC power into a DCDU-01 from power equipment. This section describes the specifications of various DCDU-01 power cables when DCDU-01s are configured in different cabinets. If external power equipment is used, the maximum length of a DCDU-01 power cable is 15 m (49.21 ft). Exterior The DCDU-01 power cables vary depending on cabinets and power equipment. The following figure shows the exteriors of DCDU-01 power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 737 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-367 Cable exterior (1) OT terminal (M6) (2) Power series 120 connector NOTE The RTN(+) and NEG(-) wires in a DCDU-01 power cable are black and blue, respectively. Description The following table lists the specifications of DCDU-01 power cables (categorized by cable exterior) when DCDU-01s are configured in different cabinets. Table 1-455 Cable description Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustratio n1 BTS3900L (Ver.B) External power equipment 16 mm2 (0.025 in.2), one group Illustratio n1 BTS3900 (Ver.B) DC (-48 V) External power equipment 16 mm2 (0.025 in.2), one group Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 738 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustratio n1 RFC (Ver.B) in DC scenarios External power equipment 16 mm2 (0.025 in.2), one group Illustratio n2 BTS3900 (Ver.B) DC (+24 V) EPS24S48100DC in a cabinet 16 mm2 (0.025 in.2), one group BTS3900 (Ver.B) AC EPS4890 in a cabinet 16 mm2 (0.025 in.2), one group RFC (Ver.B) in AC scenarios EPS 01A or EPS 01C in an APM30H 16 mm2 (0.025 in.2), one group Illustratio n3 1.6.1.1.2 DCDU-03B Power Cable A DCDU-03B power cable feeds DC power into a DCDU-03B from power equipment. This section describes the specifications of various DCDU-03B power cables when DCDU-03Bs are configured in different cabinets. The maximum length of a DCDU-03B power cable is 10 m (32.81 ft). Exterior The following figure shows the exterior of a DCDU-03B power cable. Figure 1-368 Cable exterior (1) OT terminal (M6) NOTE The RTN(+) and NEG(-) wires in a DCDU-03B power cable are black and blue, respectively. Description The following table lists the specifications of DCDU-03B power cables when DCDU-03Bs are configured in different cabinets. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 739 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE When a BTS3900AL is configured with RFUs and RRUs, a DCDU-11B, DCDU-03B, or DCDU-12B is used. No power cable is needed for any of the preceding DCDU models, which is connected to power supply equipment using a busbar (in an AC cabinet) or a DC junction box (in a DC cabinet). Table 1-456 Cable description Cabinet Type Power Equipment Cable Specifications BTS3900 (Ver.B) DC (the DCDU-03B is installed on a wall) External power equipment 16 mm2 (0.025 in.2), one group External power equipment 4 mm2 (0.006 in.2), one group BTS3900L (Ver.B) (the DCDU-03B is installed on a wall) DBS3900 where the BBU is installed on a wall, in a 19inch rack, or in an IMB03 OMB TMC11H (Ver.B) serving as a power cabinet in DC scenarios 1.6.1.1.3 DCDU-03C Power Cable A DCDU-03C power cable feeds DC power into a DCDU-03C from power equipment. This section describes the specifications of various DCDU-03C power cables when the DCDU-03C configured in different cabinets. If external power equipment is used, the maximum length of a DCDU-03C power cable is 15 m (49.21 ft). Exterior The DCDU-03C power cables vary depending on cabinets and power equipment. The following figure shows the exteriors of DCDU-03C power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 740 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-369 Cable exterior (1) Female fast connector (pressfit type) (2) OT terminal (M6) (3) Parallel terminal NOTE The RTN(+) and NEG(-) wires in a DCDU-03C power cable are black and blue, respectively. Description The following table lists the specifications of DCDU-03C power cables (categorized by cable exterior) when DCDU-03Cs are configured in different cabinets. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 741 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-457 Cable description Cable Exterio r Base Station Cabinet Type Power Equipment Cable Specifications Illustrat ion 1 BTS3900A/ DBS3900 TMC11H (Ver.B) serving as a transmission cabinet in AC scenarios EPS 01A, EPS 01C, EPS 01B, or EPS 01D in an APM30H 4 mm2 (0.006 in.2), one group Illustrat ion 2 BTS3900A TMC11H (Ver.B) serving as a power cabinet in DC scenarios DCDU-01 in an RFC 2.5 mm2 (0.004 in.2), one group Illustrat ion 3 BTS3900A/ DBS3900 TMC11H (Ver.B) serving as a transmission cabinet in DC scenarios External power equipment 4 mm2 (0.006 in.2), one group 1.6.1.1.4 DCDU-11A Power Cable A DCDU-11A power cable feeds DC power into a DCDU-11A from power equipment. This section describes the specifications of various DCDU-11A power cables when DCDU-11As are configured in different cabinets. If external power equipment is used, the maximum length of the DCDU-11A power cable is 15 m (49.21 ft). Exterior The DCDU-11A power cables vary depending on cabinets and power equipment. The following figure shows the exteriors of DCDU-11A power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 742 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-370 Cable exterior (1) OT terminal (M6) NOTE When a DCDU-11A is configured in a BTS3900L (Ver.C) or RFC (Ver.C), colors of the wires in a DCDU-11A power cable vary depending on the region as follows: ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In other regions, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table lists the specifications of DCDU-11A power cables (categorized by cable exterior) when DCDU-11As are configured in different cabinets. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 743 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-458 Cable description Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustration 1 BTS3900L (Ver.C) External power equipment BTS3900 (Ver.C) DC External power equipment 35 mm2 (0.054 in. 2), one group; 16 mm2 (0.025 in.2), two groups Illustration 2 BTS3900 (Ver.C) AC ETP48150-A3 in a cabinet 16 mm2 (0.025 in. 2), one group Illustration 3 RFC (Ver.C) ● EPU03A-02 or EPU03A-04 in an APM30H in AC scenarios 25 mm2 (0.039 in. 2), one group ● External power equipment in DC scenarios The power from the preceding power equipment is transferred by the DC junction box in an RFC. 1.6.1.1.5 DCDU-11B Power Cable A DCDU-11B power cable feeds DC power into a DCDU-11B from power equipment. This section describes the specifications of various DCDU-11B power cables when the DCDU-11B is configured in different cabinets. The maximum length of a DCDU-11B power cable is 10 m (32.81 ft). Exterior The following figure shows the exterior of a DCDU-11B power cable. Figure 1-371 Cable exterior (1) OT terminal (M6) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 744 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE When a DCDU-11B is configured in a BTS3900L (Ver.C) or TMC11H (Ver.C), colors of the wires in a DCDU-11B power cable vary depending on the region as follows: ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In other regions, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table lists the specifications of DCDU-11B power cables when DCDU-11Bs are configured in different cabinets. NOTE When a BTS3900AL is configured with RFUs and RRUs, a DCDU-11B, DCDU-03B, or DCDU-12B is used. No power cable is needed for any of the preceding DCDU models, which is connected to power supply equipment using a busbar (in an AC cabinet) or a DC junction box (in a DC cabinet). Table 1-459 Cable description Cabinet Type Power Equipment Cable Specifications BTS3900 (Ver.C) DC (the DCDU-11B is installed on a wall) External power equipment 16 mm2 (0.025 in. 2), one group External power equipment 4 mm2 (0.006 in. 2), one group BTS3900L (Ver.C) (the DCDU-11B is installed on a wall) DBS3900 where the BBU is installed on a wall, in a 19-inch rack, or in an IMB03 TMC11H (Ver.C) 1.6.1.1.6 DCDU-11C Power Cable A DCDU-11C power cable feeds DC power into a DCDU-11C from power equipment. This section describes the specifications of various DCDU-11C power cables when the DCDU-11C configured in different cabinets. If external power equipment is used, the maximum length of the DCDU-11C power cable is 15 m (49.21 ft). Exterior The DCDU-11C power cables vary depending on cabinets and power equipment. The following figure shows the exteriors of DCDU-11C power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 745 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-372 Cable exterior (1) Female fast connector (pressfit type) (2) OT terminal (M6) NOTE Colors of the wires in a DCDU-11C power cable vary depending on the region as follows: ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In other regions, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table lists the specifications of DCDU-11C power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 746 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-460 Cable description Cable Exterior Base Station Cabinet Type Power Equipment Cable Specifications Illustration 1 BTS3900A/ DBS3900 TMC11H (Ver.C) serving as a transmission cabinet in AC scenarios EPU03A-02/ EPU03A-04/ EPU03A-03/ EPU03A-05 in an APM30H Illustration 2 BTS3900A TMC11H (Ver.C) serving as a power cabinet in DC scenarios DCDU-11A in an RFC (the power from this power equipment is transferred by the DC junction box) 25 mm2 (0.039 in.2), one group Illustration 3 BTS3900A/ DBS3900 TMC11H (Ver.C) serving as a transmission cabinet in DC scenarios External power equipment 4 mm2 (0.006 in. 2), one group 4 mm2 (0.006 in. one group 2), 1.6.1.1.7 DCDU-12A Power Cable A DCDU-12A power cable feeds DC power into a DCDU-12A from power equipment. This section describes the specifications of various DCDU-12A power cables when DCDU-12As are configured in different cabinets. If external power equipment is used, the maximum length of a DCDU-12A power cable is 15 m (49.21 ft). Exterior The DCDU-12A power cables vary depending on cabinets and power equipment. The following figure shows the exteriors of DCDU-12A power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 747 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-373 Cable exterior (1) OT terminal (M6) NOTE When a DCDU-12A is configured in a BTS3900L (Ver.D)/RFC (Ver.D)/RFC (Ver.E), colors of the wires in a DCDU-12A power cable vary depending on the region as follows: ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table lists the specifications of DCDU-12A power cables (categorized by cable exterior) when DCDU-12As are configured in different cabinets. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 748 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-461 Cable description Cable Exteri or Cabinet Type Power Equipment Cable Specifications Illustr ation 1 BTS3900L (Ver.D) DC External power equipment 35 mm2 (0.054 in.2), one group; 16 mm2 (0.025 in.2), two groups BTS5900L (Ver.A) DC BTS3900 (Ver.D) DC External power equipment BTS5900 (Ver.A) DC Illustr ation 2 Illustr ation 3 BTS3012AE (Ver.D_Z) DC External power equipment 16 mm2 (0.025 in.2), two groups BTS3900L (Ver.D) AC EPU05A-02 in a BTS3900L cabinet 35 mm2 (0.054 in.2), one group BTS3900 (Ver.D) AC EPU05A-02 in a BTS3900 cabinet 35 mm2 (0.054 in.2), one group BTS3012AE (Ver.D_Z) AC EPU05A-02 or EPU05A-04 in a BTS3012AE (Ver.D_Z) cabinet 25 mm2 (0.039 in.2), one group RFC (Ver.D) External power equipment or EPU05A-02/EPU05A-04 in an APM30H (The power from power equipment is transferred by the DC junction box in an RFC.) 25 mm2 (0.039 in.2), one group RFC (Ver.E) External power equipment or EPU05A-06/EPU05A-08 in an APM30H (The power from power equipment is transferred by the DC junction box in an RFC.) 1.6.1.1.8 DCDU-12B Power Cable A DCDU-12B power cable feeds DC power into a DCDU-12B from power equipment. This section describes the specifications of various DCDU-12B power cables when DCDU-12Bs are configured in different cabinets. If external power equipment is used, the maximum length of a DCDU-12B power cable is 10 m (32.81 ft). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 749 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Exterior The DCDU-12B power cables vary depending on cabinets and power equipment. The following figure shows the two exteriors of DCDU-12B power cables. Figure 1-374 Cable exterior (1) OT terminal (M6) NOTE When a DCDU-12B is configured in the BTS3900L (Ver.D), RFC (Ver.D), RFC (Ver.E), APM30H (Ver.D), APM30H (Ver.E), TMC11H (Ver.D), or TMC11H (Ver.E), colors of the wires in a DCDU-12B power cable vary depending on the region as follows: ● In most regions except UK and China, the RTN(+) and NEG(-) wires are black and blue, respectively. ● In UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. ● In China, the RTN(+) and NEG(-) wires are red and blue, respectively. Description The following table lists the specifications of DCDU-12B power cables (categorized by cable exterior) when DCDU-12Bs are configured in different cabinets. NOTE When a BTS3900AL is configured with RFUs and RRUs, a DCDU-11B, DCDU-03B, or DCDU-12B is used. No power cable is needed for any of the preceding DCDU models, which is connected to power supply equipment using a busbar (in an AC cabinet) or a DC junction box (in a DC cabinet). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 750 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-462 Cable description Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustrati on 1 BTS3900 (Ver.D) DC/BTS5900 (Ver.A) External power equipment 35 mm2 (0.054 in.2), one group; 16 mm2 (0.025 in.2), two groups Illustrati on 1 BTS3900L (Ver.D)/ BTS5900L (Ver.A) External power equipment 35 mm2 (0.054 in.2), one group; 16 mm2 (0.025 in.2), two groups Illustrati on 1 TMC11H (Ver.D) External power equipment 35 mm2 (0.054 in.2), one group; 16 mm2 (0.025 in.2), two groups Illustrati on 1 TMC11H (Ver.E) External power equipment 35 mm2 (0.054 in.2), one group; 16 mm2 (0.025 in.2), two groups Illustrati on 1 RFC (Ver.D) in DC scenarios External power equipment 35 mm2 (0.054 in.2), one group; 16 mm2 (0.025 in.2), two groups Illustrati on 1 RFC (Ver.E) in DC scenarios External power equipment 35 mm2 (0.054 in.2), one group; 16 mm2 (0.025 in.2), two groups Illustrati on 1 BTS3012AE (Ver.D_Z) DC External power equipment 35 mm2 (0.054 in.2), one group; 16 mm2 (0.025 in.2), two groups Illustrati on 1 DBS3900 where the BBU is installed on a wall, as well as in a 19-inch rack, an IMB03, an IMB05, or an ILC29 External power equipment 35 mm2 (0.054 in.2), one group; 16 mm2 (0.025 in.2), two groups Illustrati on 2 RFC (Ver.D) in AC scenarios EPU05A-02/ EPU05A-04 in an APM30H 25 mm2 (0.039 in.2), one group Illustrati on 2 RFC (Ver.E) in AC scenarios EPU05A-06/ EPU05A-08 in an APM30H 25 mm2 (0.039 in.2), one group Illustrati on 2 BTS3012AE (Ver.D_Z) AC EPU05A-02/ EPU05A-04 25 mm2 (0.039 in.2), one group Illustrati on 2 BTS3900L (Ver.D) AC EPU05A-02 35 mm2 (0.054 in.2), one group Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 751 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustrati on 2 APM30H (Ver.D) EPU05A-03/ EPU05A-05 in an APM30H 25 mm2 (0.039 in.2), one group Illustrati on 2 APM30H (Ver.E) EPU05A-07/ EPU05A-09 in an APM30H 25 mm2 (0.039 in.2), one group 1.6.1.1.9 DCDU-12C Power Cable A DCDU-12C power cable feeds DC power into a DCDU-12C from power equipment. This section describes the specifications of various DCDU-12C power cables when DCDU-12Cs are configured in different cabinets. If external power equipment is used, the maximum length of a DCDU-12C power cable is 10 m (32.81 ft). Exterior The exteriors of DCDU-12C power cables vary depending on cabinets and power equipment. The following figure shows the exteriors of DCDU-12C power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 752 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-375 Cable exterior (1) EPC4 connector (2) OT terminal (M6) (3) OT terminal (M8) NOTE Colors of the wires in a DCDU-12C power cable vary depending on the region as follows: ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In other regions, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table lists the specifications of DCDU-12C power cables (categorized by cable exterior) when DCDU-12Cs are configured in different cabinets. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 753 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-463 Cable description Cable Exterior Base Station Cabinet Type Power Equipment Cable Specifications Illustration 1 BTS3900A/ DBS3900 TMC11H (Ver.D) serving as a transmission cabinet in AC scenarios EPU05A-02/ EPU05A-04/ EPU05A-03/ EPU05A-05 in an APM30H 4 mm2 (0.006 in.2), one group BTS3900AL TMC11H (Ver.D) serving as a transmission cabinet DCDU-12C in the equipment compartment in a BTS3900AL AC cabinet 4 mm2 (0.006 in.2), one group BTS3900A/ DBS3900 TMC11H (Ver.D) serving as a transmission cabinet in DC scenarios External power equipment 4 mm2 (0.006 in.2), one group BTS3012AE BTS3012AE (Ver.D_Z) DC External power equipment 16 mm2 (0.025 in. 2), one group DBS3900 IBC10 External power equipment Illustration 2 Illustration 3 Issue 16 (2021-08-13) 16 mm2 (0.025 in. two groups 2), IBC10 (Ver.B) External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups BTS3900A TMC11H (Ver.D) serving as a power cabinet in DC scenarios External power equipment (The power from this power equipment is transferred by the DC junction box in an RFC.) 25 mm2 (0.039 in. 2), one group BTS3900AL BTS3900AL (Ver.A)a AC PDU03D-01 or ETP48400 in a cabinet 16 mm2 (0.025 in. 2), one group Copyright © Huawei Technologies Co., Ltd. 754 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Exterior Base Station Cabinet Type Power Equipment Cable Specifications Illustration 4 BTS3900AL BTS3900AL (Ver.A) DC PDU03D-01 in a cabinet ● DCDU-12C in the equipment compartment: 16 mm2 (0.025 in.2), one group ● DCDU-12C in the RF compartment: 25 mm2 (0.039 in.2), one group a: This DCDU-12C refers to the one in the equipment compartment in a BTS3900AL (Ver.A) AC cabinet. The DCDU-12C in the RF compartment is powered using a busbar for transfer. 1.6.1.1.10 DCDU-13A Power Cable A DCDU-13A power cable feeds DC power from power equipment into the DCDU-13A on the left inside an RFC (Ver.D_A) cabinet. This section describes the specifications of DCDU-13A power cables connecting different power equipment. Exterior The exteriors of DCDU-13A power cables vary depending on power equipment. The following figure shows the exteriors of DCDU-13A power cables. Figure 1-376 Cable exterior (1) OT terminal (M6) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 755 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE The RTN(+) and NEG(-) wires in a DCDU-13A power cable are black and blue, respectively. Description The following table lists the specifications of DCDU-13A power cables (categorized by cable exterior). Table 1-464 Cable description Cable Exteri or Cabinet Type Power Equipment Cable Specifications Illustr ation 1 RFC (Ver.D_A) in DC scenarios External power equipment 35 mm2 (0.054 in.2), one group; 16 mm2 (0.025 in.2), two groups Illustr ation 2 RFC (Ver.D_A) in AC scenarios EPU05A-02 or EPU05A-04 in a cabinet 25 mm2 (0.039 in.2), one group 1.6.1.1.11 Power Cable Between Cascaded DCDU-13As The power cable connecting two DCDU-13As in an RFC (Ver.D_A) cabinet feeds DC power from the left DCDU-13A into the right one. This section describes the specifications of the power cable between cascaded DCDU-13As. Exterior The following figure shows the exterior of a power cable between cascaded DCDU-13As. Figure 1-377 Cable exterior (1) OT terminal Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 756 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description The following table lists the specifications of the power cable between cascaded DCDU-13As. Table 1-465 Cable description Cabinet Type Power Equipment Cable Specifications RFC (Ver.D_A) Left DCDU-13A in a cabinet 25 mm2 (0.039 in.2), one group 1.6.1.1.12 DCDU15D Power Cable A DCDU15D power cable feeds DC power into a DCDU15D from power equipment. The maximum length of a DCDU15D power cable is 20 m (65.62 ft). Exterior DCDU15D power cables vary depending on the cabinet type and power equipment. The following figure shows the exteriors of various DCDU15D power cables. Figure 1-378 Cable exterior (1) OT terminal (M6) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 757 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE ● In most regions except UK and China, the RTN(+) and NEG(-) wires are black and blue, respectively. ● In UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. ● In China, the RTN(+) and NEG(-) wires are red and blue, respectively. Description The following table lists the specifications of DCDU15D power cables when the cables are used in different cabinets. Table 1-466 Cable description Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustration 1 APM5930(DC) External power equipment 35 mm2 (0.054 in.2), one group; 25 mm2 (0.039 in.2) or 16 mm2 (0.025 in.2), two groups Illustration 2 APM5930(DC) EPU05A-11 or EPU05A-12 in an APM5930(AC) 25 mm2 (0.039 in.2), one group 1.6.1.1.13 DCDU16D Power Cable A DCDU16D power cable feeds DC power into a DCDU16D from power equipment. The maximum length of a DCDU16D power cable is 10 m (32.81 ft). Exterior The following figure shows the exterior of a DCDU16D power cable. Figure 1-379 Cable exterior (1) OT terminal (M6) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 758 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE ● In most regions except UK and China, the RTN(+) and NEG(-) wires are black and blue, respectively. ● In UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. ● In China, the RTN(+) and NEG(-) wires are red and blue, respectively. Description The following table lists the specifications of DCDU16D power cables when the cables are used in different cabinets. Table 1-467 Cable description Base Station Cabinet Type Power Equipment Cable Specifications DBS390 0/ BTS3900 A TMC11H (Ver.D)/ TMC11H (Ver.E)/ TMC11H (Ver.E_B~D)/TMC11H (Ver.D_B)/TMC11H (Ver.D_C) External power equipment 35 mm2 (0.054 in.2), one group; 25 mm2 (0.039 in.2), two groups APM30H (Ver.E)/ APM30H (Ver.E_B~D) EPU05A-06/ EPU05A-07/ EPU05A-08/ EPU05A-09 25 mm2 (0.039 in.2), two groups APM30H (Ver.D)/ APM30H (Ver.D_C)/ APM30H (Ver.D_B) EPU05A-03/ EPU05A-05 25 mm2 (0.039 in.2), one group IMB03 External power equipment 35 mm2 (0.054 in.2), one group; 25 mm2 (0.039 in.2), two groups OMB (Ver.C) External power equipment 16 mm2 (0.025 in.2), two groups APM5930(AC) EPU05A-11/ EPU05A-12 25 mm2 (0.039 in.2), two groups APM5930(DC) External power equipment 35 mm2 (0.054 in.2), one group; 25 mm2 (0.039 in.2), two groups IMB05 External power equipment 35 mm2 (0.054 in.2), one group; 25 mm2 (0.039 in.2), two groups DBS390 0 DBS590 0 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 759 3900 & 5900 Series Base Station Cables Base Station 1 3900 & 5900 Series Base Station Cables Cabinet Type Power Equipment Cable Specifications ILC29 (Ver.E) External power equipment 35 mm2 (0.054 in.2), one group; 25 mm2 (0.039 in.2), two groups BTS3900 A APM30H (Ver.D)/ APM30H (Ver.D_C)/ APM30H (Ver.D_B) EPU05A-02/ EPU05A-04 25 mm2 (0.039 in.2), one group BTS5900 BTS5900 (Ver.A) External power equipment 35 mm2 (0.054 in.2), one group; 25 mm2 (0.039 in.2), two groups BTS3900 BTS3900 (Ver.D) DC External power equipment 35 mm2 (0.054 in.2), one group; 25 mm2 (0.039 in.2), two groups BTS5900 L BTS5900L (Ver.A) External power equipment 35 mm2 (0.054 in.2), one group; 25 mm2 (0.039 in.2), two groups BTS3900 L BTS3900L (Ver.D) External power equipment 35 mm2 (0.054 in.2), one group; 25 mm2 (0.039 in.2), two groups BTS3900 AL BTS3900AL AC ETP48400D 35 mm2 (0.054 in.2), one group; 25 mm2 (0.039 in.2), two groups BTS3900AL DC External power equipment 35 mm2 (0.054 in.2), one group; 25 mm2 (0.039 in.2), two groups 1.6.1.2 EPU/EPS/ETP Power Cables This section describes power cables for different models of EPUs, EPSs, and ETPs. 1.6.1.2.1 EPS 01A or EPS 01C Power Cable An EPS 01A or EPS 01C power cable feeds external AC power into the power system in an APM30H (Ver.B) in a BTS3900A. The maximum length of an EPS 01A or EPS 01C power cable is 15 m (49.21 ft). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 760 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Exterior The colors and quantities of wires of an EPS 01A power cable are different from those of an EPS 01C power cable. The following figure shows the exteriors of EPS 01A and EPS 01C power cables. NOTE Colors and exteriors of cables may vary with countries and regions. Figure 1-380 Cable exterior (1) OT terminal (M6) Description The following table describes EPS 01A and EPS 01C power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 761 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-468 Description Cable Exterior Cable Wire Wire Color Cable Specifications Illustration 1 EPS 01A power cable in the 220 V AC threephase scenario L1 Brown L2 Black 2.5 mm2 (0.004 in. 2) L3 Gray N Blue PE Green and yellow L Brown N Blue PE Green and yellow L1 Black L2 Red N White PE Green Illustration 2 Illustration 3 EPS 01A power cable in the 220 V AC singlephase scenario EPS 01C power cable 6 mm2 (0.009 in.2) 6 mm2 (0.009 in.2) 1.6.1.2.2 EPS 01B or EPS 01D Power Cable An EPS 01B or EPS 01D power cable feeds external AC power into the power system in an APM30H (Ver.B) in a DBS3900. The maximum length of an EPS 01B or EPS 01D power cable is 15 m (49.21 ft). Exterior The number and colors of wires in EPS 01B and EPS 01D power cables differ. The following figure shows the exteriors of the power cables. NOTE Colors and exteriors of cables may vary with countries and regions. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 762 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-381 Cable exterior (1) OT terminal (M6) Description The following table describes EPS 01B and EPS 01D power cables. Table 1-469 Description Cable Exterior Cable Wire Wire Color Cable Specifications Illustration 1 EPS 01B power cable in the 220 V AC threephase scenario L1 Brown L2 Black 2.5 mm2 (0.004 in.2) L3 Gray N Blue Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 763 3900 & 5900 Series Base Station Cables Cable Exterior 1 3900 & 5900 Series Base Station Cables Cable Illustration 2 Illustration 3 Wire Wire Color PE Green and yellow EPS 01B power cable in the 220 V AC singlephase scenario L Brown N Blue PE Green and yellow EPS 01D power cable L1 Black L2 Red N White PE Green Cable Specifications 6 mm2 (0.009 in. 2) 6 mm2 (0.009 in. 2) 1.6.1.2.3 EPU03A-02 or EPU03A-04 Power Cable An EPU03A-02 or EPU03A-04 power cable feeds external AC power into the power system in an APM30H (Ver.C) in a BTS3900A. The maximum length of an EPU03A-02 or EPU03A-04 power cable is 15 m (49.21 ft). Exterior The number and colors of wires in EPU03A-02 and EPU03A-04 power cables differ. The following figure shows the exteriors of the power cables. NOTE Colors and exteriors of cables may vary with countries and regions. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 764 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-382 Cable exterior (1) OT terminal (M6) Description The following table describes EPU03A-02 and EPU03A-04 power cables. Table 1-470 Description Cable Exterior Cable Wire Wire Color Cable Specifications Illustration 1 EPU03A-02 power cable in the 220 V AC threephase scenario L1 Brown L2 Black 4 mm2 (0.006 in. 2) L3 Gray N Blue Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 765 3900 & 5900 Series Base Station Cables Cable Exterior 1 3900 & 5900 Series Base Station Cables Cable Illustration 2 Illustration 3 Wire Wire Color PE Green and yellow EPU03A-02 power cable in the 220 V AC singlephase scenario L Brown N Blue PE Green and yellow EPU03A-04 power cable L1 Black L2 Red N White PE Green Cable Specifications 16 mm2 (0.025 in.2) 16 mm2 (0.025 in.2) 1.6.1.2.4 EPU03A-03 or EPU03A-05 Power Cable An EPU03A-03 or EPU03A-05 power cable feeds external AC power into the power system in an APM30H (Ver.C) in a DBS3900. The maximum length of an EPU03A-03 or EPU03A-05 power cable is 15 m (49.21 ft). Exterior The number and colors of wires in EPU03A-03 and EPU03A-05 power cables differ. The following figure shows the exteriors of the power cables. NOTE Colors and exteriors of cables may vary with countries and regions. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 766 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-383 Cable exterior (1) OT terminal (M6) Description The following table describes EPU03A-03 and EPU03A-05 power cables. Table 1-471 Description Cable Exterior Cable Wire Wire Color Cable Specifications Illustration 1 EPU03A-03 power cable in the 220 V AC threephase scenario L1 Brown L2 Black 4 mm2 (0.006 in. 2) L3 Gray N Blue Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 767 3900 & 5900 Series Base Station Cables Cable Exterior 1 3900 & 5900 Series Base Station Cables Cable Illustration 2 Illustration 3 Wire Wire Color PE Green and yellow EPU03A-03 power cable in the 220 V AC singlephase scenario L Brown N Blue PE Green and yellow EPU03A-05 power cable L1 Black L2 Red N White PE Green Cable Specifications 16 mm2 (0.025 in.2) 16 mm2 (0.025 in.2) 1.6.1.2.5 EPU05A-02 or EPU05A-04 Power Cable An EPU05A-02 or EPU05A-04 power cable feeds external AC power into the power system in an APM30H (Ver.D) in a BTS3900A. The maximum length of an EPU05A-02 or EPU05A-04 power cable is 15 m (49.21 ft). Exterior The number and colors of wires in EPU05A-02 and EPU05A-04 power cables differ. The following figure shows the exteriors of the power cables. NOTE Colors and exteriors of cables may vary with countries and regions. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 768 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-384 Cable exterior (1) OT terminal (M6) Description The following table describes EPU05A-02 and EPU05A-04 power cables. Table 1-472 Description Cable Exterior Cable Wire Wire Color Illustration 1 EPU05A-02 power cable in the 220 V AC three-phase scenario L1 Brown Issue 16 (2021-08-13) L2 Black L3 Gray N Blue Copyright © Huawei Technologies Co., Ltd. Cable Specifications 6 mm2 (0.009 in. 2) 769 3900 & 5900 Series Base Station Cables Cable Exterior Illustration 2 Illustration 3 1 3900 & 5900 Series Base Station Cables Cable Wire Wire Color PE Green and yellow EPU05A-02 power cable in the 220 V AC single-phase scenario L Brown N Blue PE Green and yellow EPU05A-04 power cable L1 Black L2 Red N White PE Green Cable Specifications 25 mm2 (0.039 in.2) 25 mm2 (0.039 in.2) 1.6.1.2.6 EPU05A-03 or EPU05A-05 Power Cable An EPU05A-03 or EPU05A-05 power cable feeds external AC power into the power system in an APM30H (Ver.D) in a DBS3900. The maximum length of an EPU05A-03 or EPU05A-05 power cable is 15 m (49.21 ft). Exterior The number and colors of wires in EPU05A-03 and EPU05A-05 power cables differ. The following figure shows the exteriors of the power cables. NOTE Colors and exteriors of cables may vary with countries and regions. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 770 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-385 Cable exterior (1) OT terminal (M6) Description The following table describes EPU05A-03 and EPU05A-05 power cables. Table 1-473 Description Cable Exterior Cable Wire Wire Color Cable Specifications Illustration 1 EPU05A-03 power cable in the 220 V AC threephase scenario L1 Brown L2 Black 6 mm2 (0.009 in. 2) L3 Gray N Blue Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 771 3900 & 5900 Series Base Station Cables Cable Exterior 1 3900 & 5900 Series Base Station Cables Cable Illustration 2 Illustration 3 Wire Wire Color PE Green and yellow EPU05A-03 power cable in the 220 V AC singlephase scenario L Brown N Blue PE Green and yellow EPU05A-05 power cable L1 Black L2 Red N White PE Green Cable Specifications 25 mm2 (0.039 in.2) 25 mm2 (0.039 in.2) 1.6.1.2.7 EPU05A-06 or EPU05A-08 Power Cable An EPU05A-06 or EPU05A-08 power cable feeds AC power from external power equipment into the power system of an APM30H (Ver.E) in a BTS3900A. The maximum length of an EPU05A-06 or EPU05A-08 power cable is 15 m (49.21 ft). Exterior The number and colors of wires in EPU05A-06 and EPU05A-08 power cables differ. The following figure shows the exteriors of the power cables. NOTE Colors and exteriors of cables may vary with countries and regions. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 772 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-386 Cable exterior (1) OT terminal (M6) Description The following table describes EPU05A-06 and EPU05A-08 power cables. Table 1-474 Description Cable Exterior Cable Wire Wire Color Cable Specification s Illustration 1 EPU05A-06 power cable in the 220 V AC threephase scenario L1 Brown L2 Black 6 mm2 (0.009 in.2) L3 Gray N Blue Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 773 3900 & 5900 Series Base Station Cables Cable Exterior 1 3900 & 5900 Series Base Station Cables Cable Illustration 2 Illustration 3 Wire Wire Color PE Green and yellow EPU05A-06 power cable in the 220 V AC singlephase scenario L Brown N Blue PE Green and yellow EPU05A-08 power cable L1 Black L2 Red N White PE Green Cable Specification s 25 mm2 (0.039 in.2) 25 mm2 (0.039 in.2) 1.6.1.2.8 EPU05A-07 or EPU05A-09 Power Cable An EPU05A-07 or EPU05A-09 power cable feeds AC power from external power equipment into the power system of an APM30H (Ver.E) in a DBS3900. The maximum length of an EPU05A-07 or EPU05A-09 power cable is 15 m (49.21 ft). Exterior The number and colors of wires in EPU05A-07 and EPU05A-09 power cables differ. The following figure shows the exteriors of the power cables. NOTE Colors and exteriors of cables may vary with countries and regions. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 774 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-387 Cable exterior (1) OT terminal (M6) Description The following table describes EPU05A-07 and EPU05A-09 power cables. Table 1-475 Description Cable Exterior Cable Wire Wire Color Cable Specifications Illustration 1 EPU05A-07 power cable in the 220 V AC threephase scenario L1 Brown L2 Black 6 mm2 (0.009 in. 2) L3 Gray N Blue Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 775 3900 & 5900 Series Base Station Cables Cable Exterior 1 3900 & 5900 Series Base Station Cables Cable Illustration 2 Illustration 3 Wire Wire Color PE Green and yellow EPU05A-07 power cable in the 220 V AC singlephase scenario L Brown N Blue PE Green and yellow EPU05A-09 power cable L1 Black L2 Red N White PE Green Cable Specifications 25 mm2 (0.039 in.2) 25 mm2 (0.039 in.2) 1.6.1.2.9 EPU05A-11 or EPU05A-12 Power Cable An EPU05A-11 or EPU05A-12 power cable feeds AC power from external power equipment into an EPU05A-11 or EPU05A-12, which then supplies power to other devices in the cabinet. The maximum length of an EPU05A-11 or EPU05A-12 power cable is 15 m (49.21 ft). Exterior The colors and quantities of wires of an EPU05A-11 power cable are different from those of an EPU05A-12 power cable. The following figure shows the exteriors of EPU05A-11 and EPU05A-12 power cables. NOTE Colors and exteriors of cables may vary with countries and regions. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 776 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-388 Cable exteriors (1) OT terminal (M6) Description The following table describes EPU05A-11 and EPU05A-12 power cables. Table 1-476 Cable description Cable Exterior Cable Wire Wire Color Cable Specifications Illustration 1 EPU05A-11 power cable in a 220 V AC threephase scenario L1 Brown L2 Black 10 mm2 (0.016 in.2) L3 Gray N Blue EPU05A-11 power cable in a 220 V L Brown N Blue Illustration 2 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 35 mm2 (0.054 in.2) 777 3900 & 5900 Series Base Station Cables Cable Exterior Illustration 3 1 3900 & 5900 Series Base Station Cables Cable Wire Wire Color Cable Specifications AC singlephase scenario PE Green and yellow 25 mm2 (0.039 in.2) EPU05A-12 power cable L1 Black L2 Red 35 mm2 (0.054 in.2) N White PE Green 25 mm2 (0.039 in.2) 1.6.1.2.10 EPU02D/EPU02D-02/EPU02B/EPU02S/EPU02S-02 Power Cable EPU02D/EPU02D-02/EPU02B/EPU02S/EPU02S-02 power cables feed DC power into the EPU02D/EPU02D-02/EPU02B/EPU02S/EPU02S-02 from the power equipment. The maximum length of the EPU02D/EPU02D-02/EPU02B/EPU02S/ EPU02S-02 power cables is 10 m (32.81 ft). Exterior The following figure shows the exterior of EPU02D/EPU02D-02/EPU02B/EPU02S/ EPU02S-02 power cables. Figure 1-389 EPU02D/EPU02D-02/EPU02B/EPU02S/EPU02S-02 power cables (1) OT terminal (M6) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 778 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE ● In most regions except UK and China, the RTN(+) and NEG(-) wires are black and blue, respectively. ● In UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. ● In China, the RTN(+) and NEG(-) wires are red and blue, respectively. Description The following table describes EPU02D/EPU02D-02/EPU02B power cables. Table 1-477 Cable description Base Statio n Cable Exteri or Cabinet Type Power Equipment Cable Specifications DBS39 00/ BTS390 0A Illustr ation 1 TMC11H (Ver.D)/ TMC11H (Ver.E)/ TMC11H (Ver.E_B~D)/ TMC11H (Ver.D_B)/TMC11H (Ver.D_C) External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups Illustr ation 2 APM30H (Ver.E)/ APM30H (Ver.E_B~D) EPU05A-06/ EPU05A-07/ EPU05A-08/ EPU05A-09 25 mm2 (0.039 in. 2), two groups Illustr ation 2 APM30H (Ver.D)/ APM30H (Ver.D_C)/APM30H (Ver.D_B) EPU05A-03/ EPU05A-05 25 mm2 (0.039 in. 2), one group Illustr ation 1 IMB03 External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups Illustr ation 1 OMB (Ver.C) External power equipment 16 mm2 (0.025 in. 2), two groups Illustr ation 2 APM5930(AC) EPU05A-11/ EPU05A-12 25 mm2 (0.039 in. 2), two groups Illustr ation 1 APM5930(DC) External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups DBS39 00 DBS59 00 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 779 3900 & 5900 Series Base Station Cables Base Statio n 1 3900 & 5900 Series Base Station Cables Cable Exteri or Cabinet Type Power Equipment Cable Specifications Illustr ation 1 IMB05 External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups Illustr ation 1 ILC29 External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups BTS390 0A Illustr ation 2 APM30H (Ver.D)/ APM30H (Ver.D_C)/APM30H (Ver.D_B) EPU05A-02/ EPU05A-04 25 mm2 (0.039 in. 2), one group BTS590 0 Illustr ation 1 BTS5900 (Ver.A) External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups BTS390 0 Illustr ation 1 BTS3900 (Ver.D) DC External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups BTS590 0L Illustr ation 1 BTS5900L (Ver.A) External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups BTS390 0L Illustr ation 1 BTS3900L (Ver.D) External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups BTS390 0AL Illustr ation 2 BTS3900AL AC ETP48400D 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups Illustr ation 1 BTS3900AL DC External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups The following table describes EPU02S/EPU02S-02 power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 780 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-478 Cable description Base Statio n Cable Exteri or Cabinet Type Power Equipment Cable Specifications DBS39 00/ BTS390 0A Illustr ation 1 TMC11H (Ver.D)/ TMC11H (Ver.E)/ TMC11H (Ver.E_B~D)/ TMC11H (Ver.D_B)/TMC11H (Ver.D_C) External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups DBS39 00 Illustr ation 2 APM30H (Ver.D)/ APM30H (Ver.D_C)/APM30H (Ver.D_B) EPU05A-03/ EPU05A-05 25 mm2 (0.039 in. 2), one group Illustr ation 1 IMB03 External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups Illustr ation 1 OMB (Ver.C) External power equipment 16 mm2 (0.025 in. 2), two groups Illustr ation 1 APM5930(DC) External power equipment 35 mm2 (0.054 in. one group; 25 mm2 (0.039 in.2), two groups Illustr ation 1 IMB05 External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups Illustr ation 1 ILC29 External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups BTS390 0A Illustr ation 2 APM30H (Ver.D)/ APM30H (Ver.D_C)/APM30H (Ver.D_B) EPU05A-02/ EPU05A-04 25 mm2 (0.039 in. 2), one group BTS590 0 Illustr ation 1 BTS5900 (Ver.A) External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups DBS59 00 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 2), 781 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Base Statio n Cable Exteri or Cabinet Type Power Equipment Cable Specifications BTS390 0 Illustr ation 1 BTS3900 (Ver.D) DC External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups BTS590 0L Illustr ation 1 BTS5900L (Ver.A) External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups BTS390 0L Illustr ation 1 BTS3900L (Ver.D) External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups BTS390 0AL Illustr ation 2 BTS3900AL AC ETP48400D 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups Illustr ation 1 BTS3900AL DC External power equipment 35 mm2 (0.054 in. 2), one group; 25 mm2 (0.039 in.2), two groups 1.6.1.2.11 EPU03A-21 Power Cable An EPU03A-21 power cable connects the AC power distribution box in the MRE1000 and EPU03A-21 to provide power input for the EPU03A-21. Exterior There are two types of EPU03A-21 power cables. Figure 1-390 shows the power cable exterior when the external AC power supply is used. Figure 1-391 shows the power cable exterior when the power supply is from batteries. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 782 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-390 Cable exterior (1) (1) OT terminal (M4) (2) Cord end terminal Figure 1-391 Cable exterior (2) (1) OT terminal (M6) Description The specifications for the EPU03A-21 power cable used in an MRE1000 are listed in the following table. Table 1-479 EPU03A-21 power cable specifications Cabinet Power Equipment Cable Specifications MRE1000 AC power distribution box in an MRE1000 When the input power is external AC power supply, one group of 6 mm2 (0.009 in.2) power cables are used. When the input power is provided by batteries, one group of 25 mm2 (0.039 in.2) power cables are used. 1.6.1.2.12 ETP48100-A1 Power Cable An ETP48100-A1 power cable feeds external AC power into an ETP48100-A1 from a PDU10D-01 after the AC power is converted by a surge protective device (SPD). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 783 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The cross-sectional area of the wires of an ETP48100-A1 power cable is 4 mm2 (0.006 in.2), as shown in the following figure. Figure 1-392 Cable exterior (1) Cord end terminal (2) OT terminal (M4) 1.6.1.2.13 ETP48100-B1 Power Cable An ETP48100-B1 power cable feeds AC power into an ETP48100-B1 from power equipment. Exterior The following figure shows the exterior of an ETP48100-B1 power cable. Figure 1-393 ETP48100-B1 power cable (1) OT terminal (M4, 2.5 mm2 or 0.0039 in.2) 1.6.1.2.14 EPS30-4815AF Power Cable An EPS30-4815AF power cable feeds AC power into an AC IMB03 cabinet. The maximum length of an EPS30-4815AF power cable is 6 m (19.68 ft). The following figure shows the exterior of an EPS30-4815AF power cable. The cross-sectional area of the wire is 1 mm2 (0.002 in.2). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 784 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE Colors and exteriors of cables may vary with countries and regions. Figure 1-394 Cable exterior 1.6.1.2.15 EPS4890 Power Cable An EPS4890 power cable feeds AC power into cabinets. EPS4890 power cables are used in the BTS3900 (Ver.B) AC cabinet and DBS3900 (ICR) cabinet. By using different power systems, a cabinet can support power inputs of 220 V AC singlephase and 220 V AC three-phase. The maximum length of an EPS4890 power cable is 15 m (49.21 ft). Exterior The wires in an EPS4890 power cable vary depending on the power input type. The following figure shows the exteriors of EPS4890 power cables. NOTE Colors and exteriors of cables may vary with countries and regions. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 785 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-395 Cable exterior (1) OT terminal (M6) Description The following table describes EPS4890 power cables. Table 1-480 Description Cable Exterior Cabinet Type Cable Wire Wire Color Cable Specificatio ns Illustratio n1 ● BTS390 0 (Ver.B) AC ● IMB03 cabinet in the DBS39 00 (ICR) scenari o EPS4890 power cable in the 220 V AC threephase scenario L1 Yellow L2 Green 2.5 mm2 (0.0039 in.2) L3 Red N Blue ● BTS390 0 EPS4890 power L Brown Illustratio n2 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 6 mm2 (0.009 in.2) 786 3900 & 5900 Series Base Station Cables Cable Exterior 1 3900 & 5900 Series Base Station Cables Cabinet Type Cable Wire Wire Color (Ver.B) AC ● IMB03 cabinet in the DBS39 00 (ICR) scenari o cable in the 220 V AC singlephase scenario N Blue Cable Specificatio ns 1.6.1.2.16 EPS24S48100DC Power Cable An EPS24S48100DC power cable feeds +24 V DC power into cabinets. EPS24S48100DC power cables are used in the following cabinets: BTS3900 (Ver.B) (+24 V DC), APM30H (Ver.B) (+24 V), and DBS3900 (ICR). The maximum length of an EPS24S48100DC power cable is 15 m (49.21 ft). Exterior The following figure shows the exterior of an EPS24S48100DC power cable. Figure 1-396 Cable exterior (1) OT terminal (M6) Description The following table describes an EPS24S48100DC power cable. Table 1-481 Description Wire Wire Color Cable Specifications RTN(+) Red NEG(-) Black 25 mm2 (0.039 in.2), two groups Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 787 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.6.1.2.17 ETP48400 Power Cable An ETP48400 power cable feeds AC power into the PDU05A-01 and ETP48400 in a BTS3900AL AC cabinet. Exterior The following figure shows the exterior of an ETP48400 power cable. Figure 1-397 Cable exterior (1) OT terminal (M6) (2) Cord end terminal Description The following table describes ETP48400 power cables. Table 1-482 Description Cable Wire Wire Color Cable Specifications ETP48400 power cable L Brown N Blue 6 mm2 (0.009 in. 2) 1.6.1.2.18 ETP48150-A3 Power Cable An ETP48150-A3 power cable feeds external AC power into a BTS3900 (Ver.C) cabinet. The maximum length of an ETP48150-A3 power cable is 15 m (49.21 ft). Exterior A BTS3900 cabinet can be supplied with 220 V AC single-phase or 220 V AC threephase power. The number of wires in an ETP48150-A3 power cable depends on the power system where the ETP48150-A3 is used. The following figure shows the exterior of an ETP48150-A3 power cable in the 220 V AC single-phase scenario as an example. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 788 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-398 Cable exterior (1) OT terminal (M6) Description The following table describes ETP48150-A3 power cables. Table 1-483 Description Cable Exterior Cable Wire Wire Color Cable Specifications Illustration 1 ETP48150A3 power cable in the 220 V AC three-phase scenario L1 Brown L2 Black 4 mm2 (0.006 in.2) L3 Gray N Blue ETP48150A3 power cable in the 220 V AC single-phase scenario L Blue N Brown PE Green and yellow Illustration 2 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 16 mm2 (0.025 in.2) 789 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.6.1.3 PDU Power Cables This section describes power cables for different models of PDUs. 1.6.1.3.1 PDU10D-01 Power Cable A PDU10D-01 power cable feeds power from power equipment into a PDU10D-01. The maximum length of a PDU10D-01 power cable is 15 m (49.21 ft). Exterior The PDU10D-01 power cables vary depending on cabinets and power equipment. The following figure shows the exteriors of PDU10D-01 power cables. NOTE Colors and exteriors of cables may vary with countries and regions. Figure 1-399 Cable exterior (1) OT terminal (M6) Issue 16 (2021-08-13) (2) OT terminal (M4) Copyright © Huawei Technologies Co., Ltd. 790 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description The following table describes PDU10D-01 power cables. Table 1-484 Description Cable Exterior Cabinet Type Power Equipment Wire Wire Color Cable Specificatio ns Illustratio n1 OMB (Ver.C) DC External power equipment RTN(+) Black NEG(-) Blue 16 mm2 (0.025 in.2) Illustratio n2 OMB (Ver.C) AC ETP48100-A1 in a cabinet RTN(+) Black NEG(-) Blue Illustratio n3 OMB (Ver.C) AC External power equipment in the 220 V AC singlephase scenario L Brown N Blue PE Green and yellow 16 mm2 (0.025 in.2) 4 mm2 (0.006 in.2) 1.6.1.3.2 PDU05A-01 Power Cable A PDU05A-01 power cable feeds AC power into the PDU05A-01 in a BTS3900AL AC cabinet. A PDU05A-01 supports 220 V AC single-phase, 220 V AC three-phase, and 110 V AC dual-live-wire. The maximum length of a PDU05A-01 power cable is 15 m (49.21 ft). Exterior The number of wires in a PDU05A-01 power cable varies depending on the power supplies. The following figure shows the exteriors of various PDU05A-01 power cables. NOTE Colors and exteriors of cables may vary with countries and regions. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 791 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-400 Cable exterior (1) Cord end terminal Description The following table describes PDU05A-01 power cables. Table 1-485 Description Cable Exterior Cable Wire Wire Color Cable Specification s Illustration 1 PDU05A-01 power cable in the 220 V AC three-phase scenario L1 Brown L2 Black 10 mm2 (0.016 in.2) L3 Gray N Blue PE Green and yellow L Brown Illustration 2 Issue 16 (2021-08-13) PDU05A-01 power cable in Copyright © Huawei Technologies Co., Ltd. 35 mm2 (0.054 in.2) 792 3900 & 5900 Series Base Station Cables Cable Exterior Illustration 3 1 3900 & 5900 Series Base Station Cables Cable Wire Wire Color the 220 V AC single-phase scenario N Blue PE Green and yellow PDU05A-01 power cable in the 110 V AC dual-live-wire scenario L1 Black L2 Red N White PE Green Cable Specification s 35 mm2 (0.054 in.2) 1.6.1.3.3 PDU03D-01 Power Cable A PDU03D-01 power cable feeds DC power from a BTS3900AL AC cabinet or external power equipment into a BTS3900AL DC cabinet. Exterior The PDU03D-01 power cables vary depending on the power supplies. The following figure shows the exteriors of various PDU03D-01 power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 793 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-401 Cable exterior (1) OT terminal (M6) (2) OT terminal (M8) (3) Power series 120 connector NOTE Colors of wires in a PDU03D-01 power cable vary depending on regions as follows: ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes PDU03D-01 power cables. Table 1-486 Description Cable Exterior Power Equipment Cable Specifications Illustration 1 Busbar in a BTS3900AL AC cabinet 25 mm2 (0.039 in.2), two groups, LSZHa Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 794 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Exterior Power Equipment Cable Specifications Illustration 2 LOAD2 terminal in a BTS3900AL AC cabinet 25 mm2 (0.039 in.2), one group, LSZHb Illustration 3 External power equipment 25 mm2 (0.039 in.2), three groups, LSZHc a: If the preceding power cables are not delivered by default, one group of 70 mm2 (0.108 in.2) PVC power cables or two groups of 25 mm2 (0.039 in.2) PVC power cables that are locally purchased can be the substitutes. b: If the preceding power cables are not delivered by default, one group of 25 mm2 (0.039 in.2) PVC power cables that are locally purchased can be the substitutes. c: If the preceding power cables are not delivered by default, the PVC power cables that are locally purchased and meet the requirements in both a and b can be the substitutes. 1.6.1.3.4 PDU08H-01 Power Cable A PDU08H-01 power cable feeds DC power into a PDU08H-01 from power equipment. A PDU08H-01 power cable is used in the MRE1000. Exterior The following figure shows the exterior of the PDU08H-01 power cable. Figure 1-402 PDU08H-01 power cable exterior (1) H4 connector (2) HVEPC connector Description The following table describes the PDU08H-01 power cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 795 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-487 PDU08H-01 power cable Cabinet Type Power Equipment Cable Specifications MRE1000 EPU03A-21 2x1.5 mm2 (2x0.002 in.2) 1.6.1.3.5 HSMU Power Cable for the PDU08H-01 An HSMU power cable for the PDU08H-01 connects the EPU03A-21 and the HSMU for the PDU08H-01 to supply power for the HSMU. Exterior The following figure shows the exterior of the HSMU power cable for the PDU08H-01. Figure 1-403 HSMU power cable for the PDU08H-01 (1) EPC4 connector Description The following table describes the HSMU power cable for the PDU08H-01. Table 1-488 HSMU power cable for the PDU08H-01 Cabinet Type Power Equipment Cable Specifications MRE1000 EPU03A-21 12AWG 1.6.1.4 Power Cables for Other Power Supply Devices This section describes power cables for other power supply devices. 1.6.1.4.1 Power Cable for a Junction Box The power cable for a junction box feeds AC power into the junction box from power equipment. The AC power is then converted by the junction box into four Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 796 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables AC outputs, which are provided for other components such as the heater or heating film. This section describes the specifications of power cables for junction boxes in different cabinets. Exterior The following figure shows the exteriors of power cables for junction boxes. NOTE Colors and exteriors of cables may vary with countries and regions. Figure 1-404 Cable exterior (1) OT terminal (M4) (2) Cord end terminal NOTE The L wire is brown and the N wire is blue, as shown in the preceding figure. Description The following table describes power cables for junction boxes. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 797 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-489 Description Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustratio n1 APM30H (Ver.B)/ APM30H (Ver.C)/ APM30H (Ver.D)/ APM30H (Ver.E)/ APM5930(AC) EPS 01/EPU03A/EPU05A 1.5 mm2 (0.0023 in.2) TMC11H TMC11H TMC11H TMC11H EPS 01/EPU03A/EPU05A in an APM30H, feeding power into the junction box in the APM30H 1.5 mm2 (0.0023 in.2) IBBS700D/IBBS700T EPU05A in an APM30H (Ver.D), feeding power into the junction box in the APM30H (Ver.D) 1.5 mm2 (0.0023 in.2) Illustratio n2 BTS3900AL AC PDU05A-01 2.5 mm2 (0.0039 in.2) Illustratio n3 BTS3900AL DC PDU05A-01 in a BTS3900AL AC cabinet, feeding power into the junction box in the BTS3900AL AC cabinet 2.5 mm2 (0.0039 in.2) Illustratio n3 IBBS700D/IBBS700T PDU05A-01 in a BTS3900AL AC cabinet, feeding power into the junction box in the BTS3900AL AC cabinet 2.5 mm2 (0.0039 in.2) Illustratio n3 IBBS300D EPU05A in an APM30H (Ver.D)/APM30H (Ver.E), feeding power into the junction box in the APM30H (Ver.D)/APM30H (Ver.E) 2.5 mm2 (0.0039 in.2) (Ver.B)/ (Ver.C)/ (Ver.D)/ (Ver.E) 1.6.1.4.2 PMU 15A Power Cable PMU 15A power cables feed power into the PMU 15A from the power equipment. They are used in the APM30H series cabinets. Exterior The following figure shows the exterior of PMU 15A power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 798 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-405 Exterior of PMU 15A power cables (1) 2-pin connector (2) EPC4 connector 1.6.1.4.3 Power Cable for a Power Distribution Box Power cables for power distribution boxes include the power cable between power equipment and the power distribution box in a storage battery cabinet (IBBS200D/ IBBS200T/IBBS20D/IBBS700D/IBBS700T/BBC5200D/BBC5200T/BBC5300D/ BBC5300T/BBC5200D-L/BBC5200T-L) and the power cable between the cascaded power distribution boxes in two storage battery cabinets. Exterior Power cables for power distribution boxes vary according to power equipment. The following figure shows the exteriors of the power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 799 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-406 Cable exterior (1) Power series 120 connector (2) OT terminal (M6) (3) Power series 175 connector (4) OT terminal (M8) - Issue 16 (2021-08-13) (5) EPC5 connector Copyright © Huawei Technologies Co., Ltd. 800 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE The colors of power cables for power distribution boxes in an IBBS200D (Ver.D)/IBBS200T (Ver.D)/IBBS200D (Ver.E)/IBBS200T (Ver.E)/BBC5200D/BBC5200T/BBC5300D/BBC5300T/ BBC5200D-L/BBC5200T-L/IBBS700D/IBBS700T vary depending on regions. ● In most regions, the RTN(+) and NEG(-) cables are red and black, respectively, as shown in the preceding figures. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes the power cables for power distribution boxes. Table 1-490 Cable description Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustration 1 IBBS200D (Ver.B)/IBBS200T (Ver.B) EPS01A/EPS01B/ EPS01C/EPS01D in an APM30H (Ver.B) 16 mm2 (0.025 in.2) Illustration 2 IBBS200D (Ver.C)/IBBS200T (Ver.C) EPU03A-02/ EPU03A-03/ EPU03A-04/ EPU03A-05 in an APM30H (Ver.C) 35 mm2 (0.054 in.2) Illustration 2 Storage battery compartment in an MRE1000 AC power distribution box in an MRE1000 25 mm2 (0.039 in.2) Illustration 3 IBBS200D (Ver.D)/IBBS200T (Ver.D) EPU05A-02/ EPU05A-03/ EPU05A-04/ EPU05A-05 in an APM30H (Ver.D) 35 mm2 (0.054 in.2), 3436 IBBS200D (Ver.E)/IBBS200T (Ver.E) ● EPU05A-06/ EPU05A-07/ EPU05A-08/ EPU05A-09 in an APM30H (Ver.E) 50 mm2 (0.078 in.2), super flexible, 125 ● Power distribution box in an IBBS200D (Ver.E)/ IBBS200T (Ver.E) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 801 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustration 3 BBC5200D/ BBC5200T/ BBC5300D/ BBC5300T ● EPU05A-11/ EPU05A-12 in an APM5930 APM5930(AC): 70 mm2 (0.11 in.2) BBC5200D-L ● EPU05A-11/ EPU05A-12 in an APM5930 Illustration 3 ● Power distribution box in a BBC5200D/ BBC5200T/ BBC5300D/ BBC5300T ● EPU05A-06/ EPU05A-07/ EPU05A-08/ EPU05A-09 in an APM30H (Ver.E) ● APM5930(AC): 70 mm2 (0.11 in.2) ● APM30H (Ver.E): 50 mm2 (0.078 in.2) ● Power distribution box in a BBC5200D/ BBC5200T Illustration 3 BBC5200T-L ● EPU05A-11/ EPU05A-12 in an APM5930 ● EPU05A-06/ EPU05A-07/ EPU05A-08/ EPU05A-09 in an APM30H (Ver.E) ● APM5930(AC): 70 mm2 (0.11 in.2) ● APM30H (Ver.E): 50 mm2 (0.078 in.2) ● APM30H (Ver.D): 35 mm2 (0.054 in.2) ● EPU05A-02/ EPU05A-03/ EPU05A-04/ EPU05A-05 in an APM30H (Ver.D) ● Power distribution box in a BBC5200T-L Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 802 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustration 3 IBBS700D/ IBBS700T ● EPU05A-02/ EPU05A-03/ EPU05A-04/ EPU05A-05 in an APM30H (Ver.D) 35 mm2 (0.054 in.2), 3436 ● ETP48400 in a BTS3900AL cabinet ● TP48600A Illustration 4 IBBS20D ● OPM50M 10 mm2 (0.016 in.2) ● ETP48100-A1 in an OMB (Ver.C) Illustration 5 IBBS20D ETP48100-B1 in an IMB03 10 mm2 (0.016 in.2) 1.6.1.4.4 Power Cable for the DC Junction Box in an RFC A power cable for the DC junction box in an RFC feeds -48 V DC power into the DC junction box in an RFC. Exterior Depending on the power supply supported by an RFC, there are three types of power cables for the DC junction box in an RFC. The following figure shows the exteriors of the power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 803 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-407 Cable exterior (1) OT terminal (M6) (2) Power series 120 connector NOTE Colors of wires in a power cable for the DC junction box in an RFC (Ver.D) or RFC (Ver.E) vary depending on the region as follows: ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes power cables for the DC junction box in an RFC. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 804 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-491 Description Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustration 1 RFC (Ver.C), RFC (Ver.D), or RFC (Ver.E) in a DC scenario External power equipment 35 mm2 (0.054 in.2), one group; 16 mm2 (0.025 in.2), two groups Illustration 2 RFC (Ver.C) in an AC scenario EPU03A-02 or EPU03A-04 in an APM30H (Ver.C) 25 mm2 (0.039 in.2), one group Illustration 3 RFC (Ver.D) in an AC scenario EPU05A-02 or EPU05A-04 in an APM30H (Ver.D) 25 mm2 (0.039 in.2), one group RFC (Ver.E) in an AC scenario EPU05A-06 or EPU05A-08 in an APM30H (Ver.E) 25 mm2 (0.039 in.2), one group 1.6.1.4.5 Power Cable for the DC Junction Box in a BTS3900AL The power cable for the DC junction box in a BTS3900AL connects the PDU03D-01 to the DC junction box in the BTS3900AL DC cabinet and feeds DC power into the DC junction box. Exterior The following figure shows the exterior of a power cable for the DC junction box in a BTS3900AL. Figure 1-408 Power cable for the DC junction box in a BTS3900AL (1) OT terminal (M8) Issue 16 (2021-08-13) (2) OT terminal (M6) Copyright © Huawei Technologies Co., Ltd. 805 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE The color of the power cable for the DC junction box in a BTS3900AL varies depending on the region. ● In most regions, the RTN(+) wire is black, and the NEG(-) wire is blue, as shown in Figure 1-408. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes a power cable for the DC junction box in a BTS3900AL. Table 1-492 Description Cable Wire Cable Specifications Power cable for the DC junction box in a BTS3900AL NEG(-): W1 and W2 16 mm2 (0.025 in.2) RTN(+): W3 35 mm2 (0.054 in.2) 1.6.1.4.6 Power Cables Between Cascaded DC Junction Boxes in Different IBBS300Ds/IBBS300Ts/BBC5300Ds/BBC5300Ts Power cables between cascaded DC junction boxes in different IBBS300Ds/ IBBS300Ts/BBC5300Ds/BBC5300Ts are used to connect the DC junction boxes in two IBBS300Ds/IBBS300Ts/BBC5300Ds/BBC5300Ts, including power cables for cascaded cabinets and power cables for cascaded fans or thermoelectric coolers (TECs). Power Cables Between Cascaded Cabinets Power cables between cascaded IBBS300Ds/IBBS300Ts/BBC5300Ds/BBC5300Ts connect the DC junction boxes in two IBBS300Ds/IBBS300Ts/BBC5300Ds/ BBC5300Ts to provide power for the second cabinet. The following figure shows the exteriors of power cables between cascaded cabinets. Figure 1-409 Exteriors of power cables between cascaded cabinets (1) OT terminal (M8) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 806 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE The RTN(+) and NEG(-) wires are red and black, respectively, as shown in the preceding figure. The following table lists specifications of the power cables between cascaded IBBS300Ds/IBBS300Ts/BBC5300Ds/BBC5300Ts. Table 1-493 Description Cabinet Type Power Equipment Cable Specifications IBBS300D/ IBBS300T/ BBC5300D/ BBC5300T DC junction box in a cabinet 35 mm2 (0.054 in.2), one group Power Cables Between Cascaded Fans/TECs Power cables between cascaded fans in IBBS300Ds/BBC5300Ds or between cascaded TECs in IBBS300Ts/BBC5300Ts connect the DC junction boxes in the two cabinets to provide power for the fan or TEC in the second cabinet, respectively. The following figure shows the exteriors of such power cables. Figure 1-410 Exteriors of power cables between cascaded fans or TECs (1) OT terminal (M4) NOTE The RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. The following table lists specifications of the power cables between cascaded fans in IBBS300Ds/BBC5300Ds and the power cables between cascaded TECs in IBBS300Ts/BBC5300Ts. Table 1-494 Description Cabinet Type Power Equipment Cable Specifications IBBS300D/ IBBS300T/ BBC5300D/ BBC5300T DC junction box in a cabinet 2.5 mm2 (0.004 in.2), one group Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 807 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.6.1.4.7 Power Cable Between Cascaded IBBS20Ds The power distribution boxes in two IBBS20D cabinets are cascaded by a power cable, which feeds power from one power distribution box into the other. Exterior The following figure shows the exterior of a power cable between cascaded IBBS20D cabinets. Figure 1-411 Cable exterior (1) OT terminal (M6) NOTE Colors and exteriors of cables may vary with countries and regions. Description The following table describes power cables between cascaded IBBS20Ds. Table 1-495 Description Cabinet Type Power Equipment Cable Specifications IBBS20D Power distribution box in a cabinet 10 mm2 (0.016 in.2), one group 1.6.1.4.8 IBBS20L Power Cable and Power Cable Between Cascaded IBBS20Ls An IBBS20L power cable is used to connect an IBBS20L to upper-level equipment. A power cable between IBBS20Ls is used to connect two IBBS20Ls and feed power from one into another. Exterior The following figure shows an IBBS20L power cable and a power cable between cascaded IBBS20Ls. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 808 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-412 Cable exterior (1) OT terminal (M6) NOTE The RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. Description The following table lists the specifications of an IBBS20L power cable. Table 1-496 Description Cable type Power Equipment Cable Specifications IBBS20L power cable OPM50M 10 mm2 (0.016 in.2), one group Power cable between cascaded IBBS20Ls Upper-level IBBS20L 10 mm2 (0.016 in.2), one group 1.6.1.4.9 IBBS20L-E Power Cable The IBBS20L-E power cable connects an upper-level power supply device to the IBBS20L-E. Exterior The following figures show the exteriors of IBBS20L-E power cables. Figure 1-413 DC power cable exterior Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 809 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-414 AC power cable exterior (1) Fast connector Description The following table lists the specifications of an IBBS20L-E power cable. Table 1-497 Description Cable Type Power Equipment Cable Specifications IBBS20L-E power cable OPM30M 10 mm2 (0.016 in.2), one group 1.6.1.4.10 APM30 Input Power Cable An input power cable for the APM30 feeds external AC power into the power system of the APM30. Different power systems enable a cabinet to support power supplies of 220 V AC single-phase, 220 V AC three-phase, and 110 V or 120 V dual-live-wire. Exterior The following figure shows the exterior of an input power cable in a 220 V AC single-phase scenario. Figure 1-415 220 V AC single-phase input power cable (1) OT terminal Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 810 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE Different types of AC input power cables consist of different numbers of core wires. The preceding figure shows an input power cable in a 220 V AC single-phase scenario. Description The following table describes different types of AC input power cables. Table 1-498 Description of AC input power cables Cable Wire Wire Color Cross-Sectional Area of the Cable and Size of the OT Terminal 220 V AC threephase power cable L1 Brown L2 Black 6 mm2 (0.009 in.2), M6 L3 Gray N Blue L Brown N Blue L1 Black L2 Red N White 220 V AC singlephase power cable 110 V AC duallive-wire 25 mm2 (0.039 in.2), M6 25 mm2 (0.039 in.2), M6 NOTE The colors and structures of cables delivered by Huawei vary with countries and regions. Cables purchased at local markets must comply with local rules and regulations. 1.6.1.4.11 TMC Input Power Cable The type of input power cable for the TMC depends on the power supply to the TMC. Input Power Cable for the TMC In a BTS3900A or DBS3900 supplied with AC power, the TMC is powered by the APM30, and the maximum length of the input power cable is 15 m (49.21 ft) or 10 m (32.81 ft). The following figure shows the exterior of an input power cable for the TMC. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 811 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-416 Input power cable for the TMC (1) (1) EPC4 connector (2) OT terminal [4 mm2 (0.006 in.2), M6] In a BTS3900A or DBS3900 using -48 V DC power, when the TMC is used as a power cabinet, if the TMC is powered by the external power device, the maximum length of the input power cable is 10 m (32.81 ft). The following figure shows the exterior of an input power cable for the TMC. Figure 1-417 Input power cable for the TMC (2) (1) OT terminal [35 mm2 (0.054 in.2), one group or 16 mm2 (0.025 in.2), two groups, M6] In a BTS3900A or DBS3900 using -48 V DC power, when the TMC is used as a transmission cabinet, if the TMC is powered by the external power device, the maximum length of the input power cable is 15 m (49.21 ft) or 10 m (32.81 ft). The following figure shows the exterior of an input power cable for the TMC. Figure 1-418 Input power cable for the TMC (3) (1) OT terminal [4 mm2 (0.006 in.2), M6] Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 812 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description The following table describes an input power cable for the TMC. Table 1-499 Input power cable for the TMC Cable Wire Wire Color Input power cable for the TMC RTN(+) Black NEG(-) Blue 1.6.1.4.12 TMC11H Input Power Cable The type of input power cable for the TMC11H depends on the power supply to the TMC11H. Input Power Cable for the TMC11H (1) In a BTS3900A or DBS3900 supplied with AC power, the TMC11H is powered by the APM30H, and the maximum length of the input power cable is 15 m (49.21 ft) or 10 m (32.81 ft). The following figure shows the exterior of an input power cable for the TMC11H. Figure 1-419 Input power cable for the TMC11H (1) (1) EPC4 connector (2) OT terminal The following table lists the cable specifications. Table 1-500 Input power cable for the TMC11H (1) Cable Wire Wire Color Cross-Sectional Area of the Wire and Aperture of the OT Terminal Input power cable for the TMC11H (1) RTN(+) Black 4 mm2 (0.006 in.2), M6 NEG(-) Blue Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 813 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Input Power Cable for the TMC11H (2) In -48 V DC scenarios, if the TMC11H is powered by the external power equipment, the maximum length of the input power cable is 10 m (32.81 ft). The following figure shows the exterior of an input power cable for the TMC11H. Figure 1-420 Input power cable for the TMC11H (2) (1) OT terminal The following table lists the cable specifications. Table 1-501 Input power cable for the TMC11H (2) Cable Wire Wire Color Cross-Sectional Area of the Wire and Aperture of the OT Terminal Input power cable for the TMC11H (2) RTN(+) Black NEG(-) Blue 35 mm2 (0.054 in.2), one group or 16 mm2 (0.025 in.2), two groups, M6 Input Power Cable for the TMC11H (3) When the TMC11H is used as a transmission cabinet, the specifications of its power cable are as follows: In a BTS3900A or DBS3900 supplied with -48 V DC power, if the TMC11H is powered by the external power equipment, the maximum length of the input power cable is 15 m (49.21 ft) or 10 m (32.81 ft). The following figure shows the exterior of an input power cable for the TMC11H. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 814 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-421 Input power cable for the TMC11H (3) (1) OT terminal [4 mm2 (0.006 in.2), M6] 1.6.1.4.13 Storage Battery Power Cable Storage battery power cables connect storage batteries to power equipment. The power cable between storage batteries and the power distribution box, power cable between storage batteries and the EPU, and copper bars between storage batteries are involved in cable connections. Storage battery power cables are used in any of the following cabinets: IBBS200D, IBBS200T, IBBS300D, IBBS300T, BBC5200D, BBC5200T, BBC5200D-L, BBC5200T-L, BBC5300D, BBC5300T, IBBS20D, IBBS700D, IBBS700T, BTS3900AL, IMS06, and MRE1000 NOTE Colors of storage battery power cables vary depending on regions. ● In most regions, the RTN(+) and NEG(-) cables are red and black, respectively, as shown in the following figures. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Power Cables Between Storage Battery Packs and Power Distribution Boxes When storage batteries are installed in an IBBS200D (Ver.B)/(Ver.C)/(Ver.D)/ (Ver.E), IBBS200T (Ver.B)/(Ver.C)/(Ver.D)/(Ver.E), BBC5200D, BBC5200T, BBC5200DL, BBC5200T-L, IBBS20D, IBBS700D, and IBBS700T, storage battery power cables are those between storage battery packs and power distribution boxes. The following figure shows the exteriors of storage battery power cables between storage battery packs and power distribution boxes. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 815 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-422 Cable exterior (1) OT terminal (M6) (2) OT terminal (M8) The following table describes storage battery power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 816 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-502 Cable description Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustration 1 in Figure 1-422 ● IBBS700D/ IBBS700T Power distribution box in a storage battery cabinet 35 mm2 (0.054 in.2) ● IBBS200D (Ver.C)/ IBBS200T (Ver.C) ● IBBS200D (Ver.D)/ IBBS200T (Ver.D) ● IBBS200D (Ver.E)/ IBBS200T (Ver.E) (connecting storage batteries to the power distribution box on the inner right wall of a cabinet) ● BBC5200D/ BBC5200T (connecting storage batteries to the power distribution box on the inner right wall of a cabinet) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 817 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Exterior Cabinet Type Power Equipment Cable Specifications Illustration 2 in Figure 1-422 IBBS200D (Ver.E)/ IBBS200T (Ver.E) (connecting storage batteries to the power distribution box on the top of a cabinet) Power distribution box in a storage battery cabinet 35 mm2 (0.054 in.2) Power distribution box in a storage battery cabinet 16 mm2 (0.025 in.2) Power distribution box in a storage battery cabinet 10 mm2 (0.016 in.2) BBC5200D/ BBC5200T (connecting storage batteries to the power distribution box on the top of a cabinet) IBBS200D (Ver.B)/ IBBS200T (Ver.B) BBC5200D-L/ BBC5200T-L IBBS20D Power Cables Between Storage Battery Packs and an EPU or Busbar When storage batteries are installed in a BTS3900AL, an IMS06, or an MRE1000, storage battery power cables connect the storage battery packs to the power equipment. The storage battery power cables used in a BTS3900AL or an IMS06 are shown in Figure 1-423. The storage battery power cables used in an MRE1000 are shown in Figure 1-424. Figure 1-423 Cable exterior (in a BTS3900AL/IMS06) (1) OT terminal (M8) Issue 16 (2021-08-13) (2) OT terminal (M6) Copyright © Huawei Technologies Co., Ltd. 818 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-424 Cable exterior (in an MRE1000) (1) OT terminal (M6) The following table describes storage battery power cables. Table 1-503 Cable description Cable Exterior Cabinet Type Power Equipment Cable Specifications Figure 1-423 IMS06 EPU05A-02 35 mm2 (0.054 in.2) BTS3900AL Busbar 35 mm2 (0.054 in.2) MRE1000 AC power distribution box in an MRE1000 25 mm2 (0.039 in.2) Figure 1-424 When storage batteries are installed in an IBBS300D/IBBS300T/BBC5300D/ BBC5300T, storage battery power cables include power cables for a storage battery cabinet and power cables for storage battery packs. The following figure shows the exteriors of storage battery power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 819 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-425 Cable exterior (1) OT terminal (M6) (2) OT terminal (M8) The following table describes storage battery power cables. Table 1-504 Cable description Cable Exterior Cable Cabinet Type Connection Cable Specification s Illustration 1 in Figure 1-425 Storage battery power cable IBBS300D/ IBBS300T From the positive pole of a DC junction box to the corresponding circuit breaker 35 mm2 (0.054 in.2) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 820 3900 & 5900 Series Base Station Cables Cable Exterior 1 3900 & 5900 Series Base Station Cables Cabinet Type Connection Cable Specification s Illustration 2 in Figure 1-425 IBBS300D/ IBBS300T From a circuit breaker to the positive pole of the storage battery pack 35 mm2 (0.054 in.2) Illustration 3 in Figure 1-425 IBBS300D/ IBBS300T From the negative pole of a DC junction box to the negative pole of the storage battery pack 35 mm2 (0.054 in.2) From the positive and negative poles of a DC junction box to the EPU 50 mm2 (0.078 in.2), 3436 Illustration 4 in Figure 1-425 Cable BBC5300D/ BBC5300T BBC5300D/ BBC5300T Power cable for the storage battery cabinet IBBS300D/ IBBS300T Copper Bars Between Storage Batteries Copper bars between storage batteries are delivered with the storage batteries. The following figure shows the exterior of a copper bar. Figure 1-426 Copper bar between storage batteries 1.6.1.4.14 Lithium Battery Activation Cable Lithium battery activation cables connect lithium batteries to the power distribution box, feeding the activation current into the lithium batteries to activate the lithium batteries. Exterior The following figure shows the exterior of lithium battery activation cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 821 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-427 Exterior of lithium battery activation cables (1) 2-pin connector (2) OT terminal (M4, 6 mm2 or 0.009 in.2) 1.6.2 Power Cables for Monitoring Devices This section describes power cables for all monitoring devices. 1.6.2.1 CMUEA Power Cable A CMUEA power cable feeds -48 V DC power into the CMUEA on the front door of a cabinet from the power distribution box in an IBBS700D. The following figure shows the exterior of a CMUEA power cable. Figure 1-428 Cable exterior (1) 3V3 connector Issue 16 (2021-08-13) (2) Bare wire Copyright © Huawei Technologies Co., Ltd. 822 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.6.2.2 CMUF Power Cable A CMUF power cable feeds DC power into a CMUF from power equipment. This section describes the specifications of various CMUF power cables when a CMUF is configured in different cabinets. Exterior Figure 1-429 and Figure 1-430 show the exteriors of CMUF power cables. Figure 1-429 Cable exterior (most regions) (1) 3V3 connector (2) EPC4 connector (3) Bare wire Figure 1-430 Cable exterior (UK) (1) 3V3 connector Issue 16 (2021-08-13) (2) EPC4 connector Copyright © Huawei Technologies Co., Ltd. 823 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description The following table describes CMUF power cables. Table 1-505 Description Cable Exterior Cabinet Type Power Equipment Description Illustration 1 in Figure 1-429 BTS3900AL DCDU-12C in the equipment compartment in a BTS3900AL In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively. Figure 1-430 BTS3900AL DCDU-12C in the equipment compartment in a BTS3900AL In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Illustration 2 in Figure 1-429 IBBS700T Power distribution box in an IBBS700T - 1.6.2.3 CMUG Power Cable A CMUG power cable feeds -48 V DC power from a power distribution box into a CMUG. The IBBS20D needs to be configured with CMUG power cables. Exterior The following figure shows the exterior of a CMUG power cable. Figure 1-431 Cable exterior (1) 2-pin connector Issue 16 (2021-08-13) (2) OT terminal (M4) Copyright © Huawei Technologies Co., Ltd. 824 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE The RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. Description The following table describes a CMUG power cable. Table 1-506 Description Cabinet Name Power Equipment Cable Specifications IBBS20D Power distribution box in an IBBS20D 1.5 mm2 (0.002 in.2), one group 1.6.2.4 CCU Power Cable A CCU power cable feeds -48 V DC power from a DCDU-12C into a CCU. The IBBS700D, BTS3900AL, and IBBS700T need to be configured with CCU power cables. Exterior The following figure shows the exterior of a CCU power cable. Figure 1-432 Cable exterior (1) EPC4 connector Description The following table describes a CCU power cable. Table 1-507 Description Cabinet Name Power Equipment BTS3900AL DCDU-12C in a BTS3900AL IBBS700D Power distribution box in an IBBS700D Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 825 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cabinet Name Power Equipment IBBS700T Power distribution box in an IBBS700T 1.6.2.5 CCU01D-03 Power Cable A CCU01D-03 power cable feeds -48 V DC power from a DC junction box into a CCU01D-03. The IBBS300D and IBBS300T need to be configured with CCU01D-03 power cables. Exterior The following figure shows the exterior of a CCU01D-03 power cable. Figure 1-433 Cable exterior (1) 3V3 connector (2) OT terminal (M4) Description The following table describes CCU01D-03 power cables. Table 1-508 Description Cabinet Name Power Equipment IBBS300D/IBBS300T DC junction box in an IBBS300D or IBBS300T 1.6.2.6 HEUA Power Cable An HEUA power cable feeds power from the EPS30-4815AF in an OMB into an HEUA. The following figure shows the exterior of an HEUA power cable. NOTE An HEUA power cable is a Y-shaped cable. The cable connects to an HEUA and a BBU at the end with two 3V3 connectors and feeds power into the HEUA and BBU. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 826 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-434 Cable exterior (1) 3V3 connector (2) H4 connector 1.6.2.7 HEUB Power Cable An HEUB power cable feeds power from the PDU10D-01 in an OMB (Ver.C) into an HEUB. Exterior The following figure shows the exterior of an HEUB power cable. Figure 1-435 Cable exterior (1) 3V3 connector (2) EPC4 connector Description The following table describes an HEUB power cable. Table 1-509 Description Wire X1 End X2 End W1 X1.A1 X2.B1 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 827 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Wire X1 End X2 End W2 X1.A3 X2.B2 1.6.3 Power Cables for Temperature Control Devices This section describes power cables for all temperature control devices. 1.6.3.1 Power Cables for Fan Assemblies This section describes power cables for different models of fan assemblies. 1.6.3.1.1 FAN Power Cable A FAN power cable feeds -48 V DC power into the FAN in the BTS3900 (Ver.B) or BTS3900L (Ver.B) cabinet. Exterior The following figure shows the exterior of a FAN power cable. Figure 1-436 Cable exterior (1) 3V3 connector (2) Parallel terminal Description The following table describes a FAN power cable. Table 1-510 Description X1 End X2 End X1.A3 X2.B1 X1.A1 X2.B2 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 828 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.6.3.1.2 FAN 01A Power Cable A FAN 01A power cable feeds -48 V DC power into the FAN 01A in an RFC (Ver.B). Exterior The following figure shows the exterior of a FAN 01A power cable. Figure 1-437 Power cable exterior (1) 3V3 connector (2) Parallel terminal Description The following table describes a FAN 01A power cable. Table 1-511 Description Wire X1 End X2 End W1 X1.A1 X2.B2 W2 X1.A3 X2.B1 1.6.3.1.3 FAN 01B Power Cable A FAN 01B power cable feeds -48 V DC power into the FAN 01B in an RFC (Ver.C). Exterior The following figure shows the exterior of a FAN 01B power cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 829 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-438 Cable exterior (1) 3V3 connector (2) Female fast connector (pressfit type) NOTE The colors of FAN 01B power cables vary depending on regions. ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes a FAN 01B power cable. Table 1-512 Description Wire X1 End X2 End W1 X1.A1 X2.B1 W2 X1.A3 X2.B2 1.6.3.1.4 FAN 01C Power Cable A FAN 01C power cable feeds -48 V DC power into a FAN 01C in an RFC (Ver.D). Exterior The colors of FAN 01C power cables vary depending on regions. ● In most regions, the RTN(+) and NEG(-) wires are black, as shown in Figure 1-439. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively, as shown in Figure 1-440. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 830 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-439 Cable exterior (most regions) (1) 3V3 connector (2) EPC4 connector Figure 1-440 Cable exterior (UK) (1) 3V3 connector (2) EPC4 connector Description The following table describes a FAN 01C power cable. Table 1-513 Description Wire X1 End X2 End W1 X1.A1 X2.B1 W2 X1.A3 X2.B2 1.6.3.1.5 FAN 01D Power Cable A FAN 01D power cable feeds -48 V DC power into the FAN 01D in an RFC (Ver.E). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 831 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Exterior The RTN(+) and NEG(-) wires of a FAN 01D power cable are black, as shown in the following figure. Figure 1-441 Cable exterior (1) 3V3 connector (2) EPC4 connector Description The following table describes a FAN 01D power cable. Table 1-514 Description Wire X1 End X2 End W1 X1.A1 X2.B1 W2 X1.A3 X2.B2 1.6.3.1.6 FAN 02A Power Cable A FAN 02A power cable feeds -48 V DC power into the FAN 02A in an APM30H (Ver.B) or TMC11H (Ver.B). Exterior The FAN 02A in an APM30H (Ver.B) is powered by the EPS 01A or EPS 01. The following figure shows the exterior of a FAN 02A power cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 832 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-442 Cable exterior (1) (1) 3V3 connector (2) Female fast connector (pressfit type) The FAN 02A in a TMC11H (Ver.B) is powered by the DCDU-03C. The following figure shows the exterior of a FAN 02A power cable. Figure 1-443 Cable exterior (2) (1) 3V3 connector (2) OT terminal (M4) 1.6.3.1.7 FAN 02B Power Cable A FAN 02B power cable feeds -48 V DC power into the FAN 02B in an APM30H (Ver.C) or TMC11H (Ver.C). Exterior The following figure shows the exterior of a FAN 02B power cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 833 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-444 Cable exterior (1) 3V3 connector (2) Female fast connector (pressfit type) NOTE The colors of FAN 02B power cables vary depending on regions. ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes a FAN 02B power cable. Table 1-515 Description Wire X1 End X2 End W1 X1.A3 X2.B1 W2 X1.A1 X2.B2 1.6.3.1.8 FAN 02D Power Cable A FAN 02D power cable feeds -48 V DC power into the FAN 02D in an APM30H (Ver.D) or TMC11H (Ver.D). Exterior The colors of FAN 02D power cables vary depending on regions. ● In most regions, the RTN(+) and NEG(-) wires are black respectively, as shown in Figure 1-445. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively, as shown in Figure 1-446. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 834 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-445 Cable exterior (most regions) (1) 3V3 connector (2) EPC4 connector Figure 1-446 Cable exterior (UK) (1) 3V3 connector (2) EPC4 connector Description The following table describes a FAN 02D power cable. Table 1-516 Description Wire X1 End X2 End W1 X1.A1 X2.B1 W2 X1.A3 X2.B2 1.6.3.1.9 FAN 03B Power Cable A FAN 03B power cable feeds -48 V DC power into the FAN 03B in a BTS3900 (Ver.C) or BTS3900L (Ver.C) cabinet. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 835 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Exterior The following figure shows the exterior of a FAN 03B power cable. Figure 1-447 Cable exterior (1) 3V3 connector (2) Female fast connector (pressfit type) NOTE The colors of FAN 03B power cables vary depending on regions. ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes a FAN 03B power cable. Table 1-517 Description Wire X1 End X2 End W1 X1.A3 X2.B1 W2 X1.A1 X2.B2 1.6.3.1.10 FAN 03C Power Cable A FAN 03C power cable feeds -48 V DC power into the FAN 03C in a BTS3900 (Ver.D) or BTS3900L (Ver.D) cabinet. Exterior The following figure shows the exterior of a FAN 03C power cable when the FAN 03C is used for the BTS3900L (Ver.D) in most regions or BTS3900 (Ver.D). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 836 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-448 Cable exterior (1) 3V3 connector (2) EPC4 connector The following figure shows the exterior of a FAN 03C power cable when the FAN 03C is used for the BTS3900L (Ver.D) in the UK. Figure 1-449 Cable exterior (UK) (1) 3V3 connector (2) EPC4 connector Description The following table describes a FAN 03C power cable. Table 1-518 Description Wire X1 End X2 End W1 X1.A1 X2.B2 W2 X1.A3 X2.B1 1.6.3.1.11 FAN 02E Power Cable A FAN 02E power cable feeds -48 V DC power into the FAN 02E in an APM30H (Ver.E) or TMC11H (Ver.E). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 837 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Exterior The RTN(+) and NEG(-) wires of a FAN 02E power cable are black, as shown in the following figure. Figure 1-450 Cable exterior (1) 3V3 connector (2) EPC4 connector Description The following table describes a FAN 02E power cable. Table 1-519 Description Wire X1 End X2 End W1 X1.A1 X2.B1 W2 X1.A3 X2.B2 1.6.3.1.12 FAN02G Power Cable A FAN02G power cable feeds -48 V DC power into the FAN02G in an APM5930. Exterior The following figures show the two exteriors of FAN02G power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 838 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-451 Cable exterior (1) (1) EPC4 connector (2) Bare wire Figure 1-452 Cable exterior (2) (1) SPC1 connector (2) Bare wire Description The following table describes FAN02G power cables. Table 1-520 Description Wire One End The Other End W1 X1.A1 X2 W2 X1.A2 X3 1.6.3.1.13 FAN02H Power Cable A FAN02H power cable feeds -48 V DC power into the FAN02H in an APM30H (Ver.E) or TMC11H (Ver.E). Exterior The following figure shows the exterior of a FAN02H power cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 839 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-453 Cable exterior (1) EPC4 connector (2) Bare wire Description The following table describes a FAN02H power cable. Table 1-521 Description Wire One End The Other End W1 X1.A1 X2 W2 X1.A2 X3 1.6.3.1.14 FAU03D-03 Power Cable An FAU03D-03 power cable feeds -48 V DC power into the FAU03D-03. The following figure shows the exterior of the FAU03D-03 power cable used in an AC cabinet. Figure 1-454 FAU03D-03 power cable (1) 3V3 connector (2) SPC1 connector The following figure shows the exterior of the FAU03D-03 power cable used in a DC cabinet. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 840 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-455 FAU03D-03 power cable (1) 3V3 connector (2) EPC4 connector 1.6.3.1.15 FAU03D-02 Power Cable An FAU03D-02 power cable feeds -48 V DC power into the FAU03D-02. Exterior The following figure shows the exterior of an FAU03D-02 power cable. Figure 1-456 Cable exterior (1) 3V3 connector (2) EPC4 connector Description The following table describes an FAU03D-02 power cable. Table 1-522 FAU03D-02 power cable Wire X1 End X2 End W1 A3 B1 W2 A1 B2 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 841 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.6.3.1.16 FAU03D-01 Power Cable An FAU03D-01 power cable feeds DC power into the FAU03D-01 in a BTS3900AL (Ver.A) cabinet. Exterior The colors of FAU03D-01 power cables vary depending on regions. ● In most regions, the RTN(+) and NEG(-) wires are black respectively, as shown in Figure 1-457. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively, as shown in Figure 1-458. Figure 1-457 Cable exterior (most regions) (1) 3V3 connector (2) EPC4 connector Figure 1-458 Cable exterior (UK) (1) 3V3 connector (2) EPC4 connector 1.6.3.1.17 FAU02D-15 Power Cable An FAU02D-15 power cable feeds -48 V DC power into the FAU02D-15. Exterior The following figure shows the exterior of an FAU02D-15 power cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 842 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-459 Exterior of an FAU02D-15 power cable (1) 3V3 connector (2) EPC4 connector Cable Description The following table describes the FAU02D-15 power cable. Table 1-523 FAU02D-15 power cable Cable X1 End X2 End W1 A3 B1 W2 A1 B2 1.6.3.1.18 FAU01D-05 Power Cable An FAU01D-05 power cable feeds -48 V DC power into the FAU01D-05. Exterior The following figure shows the exterior of an FAU01D-05 power cable. Figure 1-460 Cable exterior (1) 3V3 connector Issue 16 (2021-08-13) (2) EPC4 connector Copyright © Huawei Technologies Co., Ltd. 843 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description The following table describes an FAU01D-05 power cable. Table 1-524 FAU01D-05 power cable Wire X1 End X2 End W1 A1 - W2 A3 + 1.6.3.1.19 FAN 03D Power Cable A FAN 03D power cable feeds -48 V DC power into a FAN 03D. Exterior The following figure shows the exterior of a FAN 03D power cable. Figure 1-461 FAN 03D power cable (1) 3V3 connector (2) EPC4 connector Description The following table describes a FAN 03D power cable. Table 1-525 FAN 03D power cable Wire X1 End X2 End W1 A3 B1 W2 A1 B2 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 844 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.6.3.2 Transfer Power Cable for the Fan Assembly A transfer power cable for the fan assembly connects the FAU01D-05 and fans in the MRE1000. Exterior The following figure shows the exterior of a transfer power cable for the fan assembly. Figure 1-462 Cable exterior (1) H4 connector Description The following table describes the transfer power cable for the fan assembly. Table 1-526 Transfer power cable for the fan assembly Wire X1 End X2 End W1 X1.1 X2.1 W2 X1.2 X2.2 W3 X1.3 X2.3 W4 X1.4 X2.4 1.6.3.3 Power Cable for an AC Heater The power cable for an AC heater feeds AC power into the AC heater in an APM30H, TMC11H, or MRE1000 from power equipment. Power Cable for an AC Heater Exterior The following figure shows the exterior of a power cable for an AC heater. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 845 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE Colors and exteriors of cables may vary with countries and regions. Figure 1-463 Power cable for an AC heater (1) C13 connector (2) OT terminal (M4) NOTE The L wire, PE wire, and N wire of a power cable for an AC heater are brown, green and yellow, and blue, respectively, as shown in the preceding figure. Description The following table describes a power cable for an AC heater. Table 1-527 Cable description Cabinet Type Power Equipment Cable Specif icatio ns APM30H (Ver.D), APM30H (Ver.B), APM30H (Ver.C), or APM30H (Ver.E) EPS or EPU in the cabinet 1.5 mm2 (0.002 3 in.2) TMC11H (Ver.D), TMC11H (Ver.B), TMC11H (Ver.C), or TMC11H (Ver.E) serving as a transmission cabinet in AC scenarios EPS or EPU in an APM30H (feeding power into the AC junction box in a TMC11H) 1.5 mm2 (0.002 3 in.2) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 846 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cabinet Type Power Equipment Cable Specif icatio ns TMC11H (Ver.D), TMC11H (Ver.B), TMC11H (Ver.C), or TMC11H (Ver.E) serving as a power cabinet in DC scenarios External power equipment 1.5 mm2 (0.002 3 in.2) MRE1000 AC power distribution box in an MRE1000 1.5 mm2 (0.002 3 in.2) Power Transfer Cable for an AC Heater The power transfer cable for an AC heater feeds AC power into the AC heater from the EPU in an APM30 (Ver.D_A1) by connecting the AC power output terminal on the EPU to the transfer terminal on the AC heater. The following figure shows a power transfer cable for an AC heater in an APM30 (Ver.D_A1). Figure 1-464 Power transfer cable for an AC heater (1) OT terminal (M4, 1 mm2 or 0.0016 in.2) (2) Cord end terminal 1.6.3.4 Power Cable for a Heating Film A power cable for a heating film connects the junction box on the inner left side of an APM30H/APM5930(AC) to the junction box for the heating film in an IBBS200D/BBC5200D/BBC5300D and supplies power to the heating film. Exterior The following figure shows the exterior of a power cable for a heating film. NOTE Colors and exteriors of cables may vary with countries and regions. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 847 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-465 Cable exterior (1) OT terminal (M4) NOTE The L wire and N wire of a power cable for a heating film are brown and blue, respectively, as shown in the preceding figure. Description The following table describes a power cable for a heating film. Table 1-528 Cable description Cabinet Type Power Equipment Cable Specific ations IBBS200D (Ver.D), IBBS200D (Ver.B), IBBS200D (Ver.C), or IBBS200D (Ver.E) EPS or EPU in an APM30H. The EPS or EPU feeds power first into the AC junction box in the APM30H and then into the junction box for the heating film in an IBBS200D. 1.5 mm2 (0.0023 in.2) BBC5200D or BBC5300D EPU in an APM5930(AC). The EPU feeds power first into the AC junction box in the APM5930(AC) and then into the junction box for the heating film in a BBC5200D or BBC5300D. 1.5 mm2 (0.0023 in.2) 1.6.3.5 Power Cables for the Temperature Control System Power cables for the temperature control system connect the power distribution box in the IBBS700D or IBBS700T, feeding DC power into the fan mounting frame in the IBBS700D or the TEC in the IBBS700T and the CCU. Exterior The following figure shows the exterior of a power cable for the temperature control system. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 848 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-466 Cable exterior (1) EPC4 connector Description The following table describes the power cable for the temperature control system. Table 1-529 Cable description Wire X1 End X2 End W1 X1.A1 X2.A1 W2 X1.A2 X2.A2 1.6.3.6 HAU01A-01 Power Cable An HAU01A-01 power cable feeds AC power into an HAU01A-01 from the AC junction box in a BTS3900AL/IBBS300D/IBBS700D/BBC5200D-L. Exterior The following figure shows the exterior of an HAU01A-01 power cable. Figure 1-467 Cable exterior (1) C13 straight female connector Issue 16 (2021-08-13) (2) OT terminal (M4) Copyright © Huawei Technologies Co., Ltd. 849 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description The following table describes an HAU01A-01 power cable. Table 1-530 Description Wire Wire Color Cable Specifications L Brown 1.5 mm2 (0.0023 in.2) PE Green and yellow N Blue 1.6.3.7 HAU03A-02 Power Cable An HAU03A-02 power cable feeds AC power into an HAU03A-02 from the AC junction box in a BBC5200D-L. Exterior The following figure shows the exterior of an HAU03A-02 power cable. Figure 1-468 Cable exterior (1) C13 straight female connector (2) OT terminal (M4) Description The following table describes an HAU03A-02 power cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 850 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-531 Description Wire Wire Color Cable Specifications L Brown 1.5 mm2 (0.0023 in.2) PE Green and yellow N Blue 1.6.3.8 Fan Power Cables in an IBBS200D Fan power cables in an IBBS200D include the fan input power cable and fan power transfer cable, feeding power into the fan in the IBBS200D. Fan Input Power Cable in an IBBS200D Exterior The fan input power cable in an IBBS200D connects power equipment to the power distribution box in the IBBS200D, as shown in the following figure. Figure 1-469 Cable exterior (1) Female fast connector (pressfit type) Issue 16 (2021-08-13) (2) OT terminal (M4) Copyright © Huawei Technologies Co., Ltd. (3) EPC4 connector 851 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE The colors of fan input power cables in an IBBS200D (Ver.D), IBBS200D (Ver.C), or IBBS200D (Ver.E) vary depending on regions as follows: ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes fan input power cables in IBBS200Ds. Table 1-532 Cable description Cable Exterior Cabinet Type Power Equipment Cable Specification s Illustration 1 IBBS200D (Ver.B) EPS 01A, EPS 01C, EPS 01B, or EPS 01D in an APM30H (Ver.B) 2.5 mm2 (0.0039 in.2) Illustration 1 IBBS200D (Ver.C) EPU03A-02, EPU03A-04, EPU03A-03, or EPU03A-05 in an APM30H (Ver.C) 2.5 mm2 (0.0039 in.2) Illustration 2 IBBS200D (Ver.D) EPU05A-02, EPU05A-04, EPU05A-03, or EPU05A-05 in an APM30H (Ver.D) 2.5 mm2 (0.0039 in.2) IBBS200D (Ver.E) EPU05A-06, EPU05A-08, EPU05A-07, or EPU05A-09 in an APM30H (Ver.E) 2.5 mm2 (0.0039 in.2) Fan Power Transfer Cable in an IBBS200D Exterior The fan power transfer cable in an IBBS200D connects the power distribution box in the IBBS200D to the fan mounting frame on the cabinet door. The exteriors of fan power transfer cables in IBBS200Ds vary depending on cabinet versions, as shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 852 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-470 Cable exterior (1) 3V3 connector (2) OT terminal (M6) (3) OT terminal (M4) Description The following table describes fan power transfer cables in IBBS200Ds. Table 1-533 Cable description Cabl e Exte rior Cabinet Type Power Equipme nt Cable Color Cable Specifications Illust ratio n1 IBBS200D (Ver.B) Power distributio n box in a cabinet The RTN(+) and NEG(-) wires are black and blue, respectively. ● OT terminal (M4), 1.5 mm2 (0.0023 in.2) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. ● OT terminal (M6), 6 mm2 (0.009 in.2) 853 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cabl e Exte rior Cabinet Type Power Equipme nt Cable Color Cable Specifications Illust ratio n1 IBBS200D (Ver.C) Power distributio n box in a cabinet ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively. ● OT terminal (M4), 1.5 mm2 (0.0023 in.2) ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Illust ratio n2 IBBS200D (Ver.D) or IBBS200D (Ver.E) Power distributio n box in a cabinet Both the RTN(+) and NEG(-) wires are black. ● OT terminal (M6), 6 mm2 (0.009 in.2) 2.5 mm2 (0.0039 in. 2) 1.6.3.9 BBC5200D Fan/BBC5200D-L Fan/BBC5200T TEC/BBC5200T-L Air Conditioner Power Cable A BBC5200D/BBC5200D-L fan power cable feeds power into the BBC5200D/ BBC5200D-L fan, and a BBC5200T TEC/BBC5200T-L air conditioner power cable feeds power into the BBC5200T TEC/BBC5200T-L air conditioner. This section describes the BBC5200D/BBC5200D-L fan power cable, power cable between two cascaded BBC5200D/BBC5200D-L fans, BBC5200T TEC/BBC5200T-L air conditioner power cable, and power cable between two cascaded BBC5200T TECs/BBC5200T-L air conditioners. Exterior The BBC5200D fan power cable, BBC5200T TEC power cable, power cable between cascaded BBC5200D fans, and power cable between cascaded BBC5200T TECs have the same exterior, as shown in the following figure. Figure 1-471 Cable exterior (1) SPC1 connector Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 854 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The BBC5200T-L air conditioner power cable and power cable between cascaded BBC5200T-L air conditioners have the same exterior, as shown in the following figure. Figure 1-472 Cable exterior (1) Cord end terminal NOTE ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes the BBC5200D/BBC5200D-L fan power cable, power cable between two cascaded BBC5200D/BBC5200D-L fans, BBC5200T TEC/ BBC5200T-L air conditioner power cable, and power cable between two cascaded BBC5200T TECs/BBC5200T-L air conditioners. Table 1-534 Cable description Cable Cabinet Type Power Equipment Cable Specifications BBC5200D/ BBC5200D-L fan power cable BBC5200D/ BBC5200D-L ● EPU05A-11/12 in an APM5930(AC) 2.5 mm2 (0.004 in.2), one group Power cable between cascaded BBC5200D/ BBC5200D-L fans BBC5200D/ BBC5200D-L Issue 16 (2021-08-13) ● EPU05A-06/ EPU05A-07/ EPU05A-08/ EPU05A-09 in an APM30H (Ver.E) Power distribution box in a BBC5200D/ BBC5200D-L Copyright © Huawei Technologies Co., Ltd. 855 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Cabinet Type Power Equipment BBC5200T TEC/ BBC5200T-L air conditioner power cable BBC5200T/ BBC5200T-L ● EPU05A-11/12 in an APM5930(AC) Cable Specifications ● EPU05A-06/ EPU05A-07/ EPU05A-08/ EPU05A-09 in an APM30H (Ver.E) ● EPU05A-02/ EPU05A-03/ EPU05A-04/ EPU05A-05 in an APM30H (Ver.D) Power cable between cascaded BBC5200T TECs/ BBC5200T-L air conditioners BBC5200T/ BBC5200T-L Power distribution box in a BBC5200T/ BBC5200T-L 1.6.3.10 Fan Power Cables in an IBBS300D The fan power cables in an IBBS300D connect power equipment in the APM30H or BTS3900AL cabinet to the DC junction box in the IBBS300D, feeding power into the fan in the IBBS300D. Exterior The following figure shows the exterior of fan power cables in an IBBS300D. Figure 1-473 Fan power cables in an IBBS300D (1) EPC4 connector Issue 16 (2021-08-13) (2) OT terminal (M4) Copyright © Huawei Technologies Co., Ltd. 856 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE Colors of wires in an IBBS300D fan power cable vary depending on regions as follows: ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes the fan power cables in an IBBS300D. Table 1-535 Cable description Cabinet Type Power Equipment Cable Specifications IBBS300D Power equipment in an APM30H or BTS3900AL cabinet 2.5 mm2 (0.0039 in.2), one group 1.6.3.11 BBC5300D Fan or BBC5300T TEC Power Cable A BBC5300D fan power cable feeds power into the BBC5300D fan, and a BBC5300T TEC power cable feeds power into the BBC5300T TEC. Exterior A BBC5300D fan power cable has the same exterior as a BBC5300T TEC power cable. The following figure shows the cable exterior. Figure 1-474 Cable exterior (1) SPC1 connector (2) OT terminal (M4) NOTE ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 857 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description The following table describes a BBC5300D fan power cable and a BBC5300T TEC power cable. Table 1-536 Cable description Cable Cabinet Type Power Equipment Cable Specifications BBC5300D fan power cable BBC5300D EPU05A-11 or EPU05A-12 in an APM5930(AC) 2.5 mm2 (0.004 in.2), one group BBC5300T TEC power cable BBC5300T EPU05A-11 or EPU05A-12 in an APM5930(AC) 1.6.3.12 TEC Power Cables in an IBBS200T TEC power cables in an IBBS200T include the TEC input power cable and TEC power transfer cable, feeding power into the TEC in the IBBS200T. TEC Input Power Cable in an IBBS200T Exterior The TEC input power cable in an IBBS200T connects power equipment to the power distribution box in the IBBS200T. The exteriors of TEC input power cables in IBBS200Ts vary depending on cabinet versions, as shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 858 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-475 Cable exterior (1) Female fast connector (pressfit type) (2) OT terminal (M4) (3) EPC4 connector NOTE The colors of TEC input power cables in an IBBS200T (Ver.D), IBBS200T (Ver.C), or IBBS200T (Ver.E) vary depending on regions as follows: ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes TEC input power cables in IBBS200Ts. Table 1-537 Cable description Cable Exterior Cabinet Type Power Equipment Cable Specification s Illustration 1 IBBS200T (Ver.B) EPS 01A, EPS 01C, EPS 01B, or EPS 01D in an APM30H (Ver.B) 2.5 mm2 (0.0039 in.2) Illustration 1 IBBS200T (Ver.C) EPU03A-02, EPU03A-04, EPU03A-03, or EPU03A-05 in an APM30H (Ver.C) 2.5 mm2 (0.0039 in.2) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 859 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Exterior Cabinet Type Power Equipment Cable Specification s Illustration 2 IBBS200T (Ver.D) EPS05A-02, EPS05A-04, EPS05A-03, or EPS05A-05 in an APM30H (Ver.D) 2.5 mm2 (0.0039 in.2) IBBS200T (Ver.E) EPS05A-06, EPS05A-08, EPS05A-07, or EPS05A-09 in an APM30H (Ver.E) 2.5 mm2 (0.0039 in.2) TEC Power Transfer Cable in an IBBS200T Exterior The TEC power transfer cable in an IBBS200T connects the power distribution box in the IBBS200T to the TEC on the cabinet door. TEC power transfer cables in IBBS200Ts are divided into two types in terms of power equipment, as shown in the following figure. Figure 1-476 Cable exterior (1) 3V3 connector (2) OT terminal (M6) (3) OT terminal (M4) Description The following table describes TEC power transfer cables in IBBS200Ts. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 860 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-538 Cable description Cabl e Exte rior Cabinet Type Power Equipm ent Cable Color Cable Specifications Illust ratio n1 IBBS200D (Ver.B) Power distribu tion box in a cabinet The RTN(+) and NEG(-) wires are black and blue, respectively. ● OT terminal (M4), 1.5 mm2 (0.0023 in.2) Power distribu tion box in a cabinet ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively. Illust ratio n1 IBBS200D (Ver.C) ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Illust ratio n2 IBBS200D (Ver.D) or IBBS200D (Ver.E) Power distribu tion box in a cabinet Both the RTN(+) and NEG(-) wires are black. ● OT terminal (M6), 6 mm2 (0.009 in.2) ● OT terminal (M4), 1.5 mm2 (0.0023 in.2) ● OT terminal (M6), 6 mm2 (0.009 in.2) 2.5 mm2 (0.0039 in.2) 1.6.3.13 TEC Power Cables in an IBBS300T The TEC power cables in an IBBS300T connect power equipment in the APM30H or BTS3900AL cabinet to the DC junction box in the IBBS300T, feeding power into the TEC in the IBBS300T. Exterior The following figure shows the exterior of TEC power cables in an IBBS300T. Figure 1-477 TEC power cables in an IBBS300T (1) EPC4 connector Issue 16 (2021-08-13) (2) OT terminal (M4) Copyright © Huawei Technologies Co., Ltd. 861 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE Colors of wires in an IBBS300T TEC power cable vary depending on regions as follows: ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes TEC power cables in IBBS300Ts. Table 1-539 Cable description Cabinet Type Power Equipment Cable Specifications IBBS300T Power equipment in an APM30H or BTS3900AL cabinet 2.5 mm2 (0.0039 in.2), one group 1.6.3.14 Power Cable for a Heat Exchanger in the Front Door A power cable for a heat exchanger in the front door connects power equipment to the heat exchanger in the front door of a BTS3012AE (Ver.D_Z) cabinet. The power cables can be classified into AC power cables and DC power cables in terms of cabinet types. Exterior ● Figure 1-478 shows the exterior of a power cable for a heat exchanger in the front door when the cabinet is supplied with AC power. ● Figure 1-479 shows the exterior of a power cable for a heat exchanger in the front door when the cabinet is supplied with DC power. Figure 1-478 Cable exterior (1) (1) Common connector Issue 16 (2021-08-13) (2) OT terminal (M6) Copyright © Huawei Technologies Co., Ltd. 862 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE The L wire, N wire, and PE wire of a power cable for a heat exchanger in the front door are brown, blue, and green and yellow, respectively, as shown in the preceding figure. Figure 1-479 Cable exterior (2) (1) 3-pin connector (2) EPC4 connector NOTE The RTN(+) and NEG(-) wires of a power cable for a heat exchanger in the front door are black, as shown in the preceding figure. Description The following table describes power cables for heat exchangers in the front doors. Table 1-540 Cable description Cable Exterior Cabinet Type Power Equipment Figure 1-478 BTS3012AE (Ver.D_Z) AC EPU05A-02 or EPU05A-04 Figure 1-479 BTS3012AE (Ver.D_Z) AC EPU05A-02 or EPU05A-04 BTS3012AE (Ver.D_Z) DC DCDU-12C 1.6.4 Power Cables for Other Devices This section describes power cables for devices other than power supply devices, monitoring devices, and temperature control devices. 1.6.4.1 EMUA or EMUB Power Cable An EMUA or EMUB power cable feeds -48 V DC power into the EMUA or EMUB. This section describes the specifications of EMUA or EMUB power cables in different cabinets. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 863 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Exterior The exteriors of EMUA or EMUB power cables vary depending on cabinets and power equipment. The following figure shows the exteriors of EMUA or EMUB power cables. Figure 1-480 Cable exterior (1) EPC4 connector Issue 16 (2021-08-13) (2) Cord end terminal (3) Female fast connector (pressfit type) (4) OT terminal (M4) Copyright © Huawei Technologies Co., Ltd. (5) SPC1 connector 864 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE The colors of EMUA or EMUB power cables in APM30H (Ver.C), TMC11H (Ver.C), APM30H (Ver.D), TMC11H (Ver.D), APM30H (Ver.E), TMC11H (Ver.E), BTS3900AL (Ver.A), and APM5930 cabinets vary depending on regions. ● In most regions, the RTN(+) and NEG(-) wires are black and blue, respectively, as shown in the preceding figure. ● In the UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. Description The following table describes EMUA or EMUB power cables. Table 1-541 Cable description Cable Exterior Cabinet Type Power Equipment Illustration 1 APM30H (Ver.D) EPU05A-02, EPU05A-04, EPU05A-03, or EPU05A-05 in the cabinet Illustration 1 APM30H (Ver.E) EPU05A-06, EPU05A-08, EPU05A-07, or EPU05A-09 in the cabinet Illustration 1 TMC11H (Ver.D) or TMC11H (Ver.E) DCDU-12B or DCDU-12C in the cabinet Illustration 1 BTS3900AL (Ver.A) DCDU-12C in the cabinet Illustration 1 BTS3012AE (Ver.D_Z) DC DCDU-12C in the cabinet Illustration 1 BTS3012AE (Ver.D_Z) AC EPU05A-02 or EPU05A-04 in the cabinet Illustration 2 APM30H (Ver.B) EPS 01A, EPS 01C, EPS 01B, or EPS 01D in the cabinet Illustration 2 APM30H (Ver.C) EPU03A-02, EPU03A-04, EPU03A-03, or EPU03A-05 in the cabinet Illustration 3 TMC11H (Ver.B) DCDU-03B or DCDU-03C in the cabinet Illustration 3 TMC11H (Ver.C) DCDU-11B or DCDU-11C in the cabinet Illustration 4 APM5930(AC) EPU05A-11 or EPU05A-12 in the cabinet APM5930(DC) DCDU15D in the cabinet Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 865 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.6.4.2 BBU Power Cable A BBU power cable feeds power into a BBU from power equipment. The maximum length of a BBU power cable is 20 m (65.62 ft). BBU3900/BBU3910 Power Cable The exteriors of BBU3900 and BBU3910 power cables vary depending on cabinets and power equipment, as shown in the following figure. Figure 1-481 Exteriors of BBU3900 and BBU3910 power cables (1) 3V3 connector (2) OT terminal (M4) (3) H4 connector (4) Female fast connector (pressfit type) (5) Parallel terminal (6) EPC4 connector (7) EPC5 connector - The following table describes BBU3900 and BBU3910 power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 866 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-542 Cable description Cable Exterio r Cabinet Type Power Equipment Cable Specifications Illustrat ion 1 TMC11H (Ver.B) DCDU-03B or DCDU-03C in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 2 IMB03 EPS30-4815AF in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 3 OMB EPS30-4815AF in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 4 BTS3900 (Ver.C) DCDU-11A in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 4 BTS3900L (Ver.C) DCDU-11A in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 4 APM30H (Ver.B) EPS 01A, EPS 01C, EPS 01B, or EPS 01D in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 4 APM30H (Ver.C) EPU03A-03, EPU03A-05, EPU03A-02, or EPU03A-04 in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 4 TMC11H (Ver.C) DCDU-11B or DCDU-11C in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 5 BTS3900 (Ver.B) DCDU-01 in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 5 BTS3900L (Ver.B) DCDU-01 in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 6 OMB (Ver.C) PDU10D-01 in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 6 BTS3900 (Ver.D) DCDU-12A in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 6 BTS3900L (Ver.D) DCDU-12A in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 6 BTS3900AL (Ver.A) DCDU-12C in the equipment compartment of the cabinet 2.5 mm2 (0.0039 in. 2), one group Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 867 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cable Exterio r Cabinet Type Power Equipment Cable Specifications Illustrat ion 6 APM30H (Ver.D) EPU05A-02, EPU05A-04, EPU05A-03, or EPU05A-05 in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 6 APM30H (Ver.E) EPU05A-06, EPU05A-08, EPU05A-07, or EPU05A-09 in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 6 TMC11H (Ver.D) or TMC11H (Ver.E) DCDU-12B or DCDU-12C in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 6 IBC10 DCDU-12C in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 7 BTS3900L (Ver.D) DCDU-12A in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 7 BTS3900AL (Ver.A) DCDU-12C in the equipment compartment of the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 7 APM30H (Ver.D) EPU05A-02, EPU05A-04, EPU05A-03, or EPU05A-05 in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 7 APM30H (Ver.E) EPU05A-06, EPU05A-08, EPU05A-07, or EPU05A-09 in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 7 TMC11H (Ver.D) or TMC11H (Ver.E) DCDU-12B or DCDU-12C in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 7 MRE1000 EPU03A-21 in the cabinet 2.5 mm2 (0.0039 in. 2), one group Illustrat ion 8 ILC29 DCDU-12B providing LOAD0 to LOAD5 ports 2.5 mm2 (0.0039 in. 2), one group Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 868 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables NOTE ● In most regions except UK and China, the RTN(+) and NEG(-) wires are black and blue, respectively. ● In UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. ● In China, the RTN(+) and NEG(-) wires are red and blue, respectively. BBU5900 Power Cable The following figure shows the exterior of a BBU5900 power cable when the BBU5900 uses dual power supplies. Figure 1-482 Exterior of a BBU5900 power cable (dual power supplies) (1) HDEPC connector (2) EPC4 connector (3) SPC1 connector The following table describes BBU5900 power cables. Table 1-543 Cable description Cabinet Type Power Equipment Cable Specifications BTS3900 (Ver.E_A~D) DCDU-12A, DCDU-12B, or EPU02D-02 in the cabinet 2x4 mm2 (2x0.0062 in.2), two groups DCDU-12A, DCDU-12B, or EPU02D-02 in the cabinet 2x4 mm2 (2x0.0062 in.2), two groups BTS5900 (Ver.A) BTS3900L (Ver.E_B~D) BTS5900L (Ver.A) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 869 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Cabinet Type Power Equipment Cable Specifications APM30H (Ver.E) EPU05A in the cabinet 2x4 mm2 (2x0.0062 in.2), two groups APM5930(DC) DCDU-12B or DCDU-12C in the cabinet 2x4 mm2 (2x0.0062 in.2), two groups ILC29 (Ver.E) DCDU-12B in the cabinet 2x4 mm2 (2x0.0062 in.2), two groups IMB05 DCDU-12B or EPU02D-02 in the cabinet 2x4 mm2 (2x0.0062 in.2), two groups APM5930(AC) TMC11H (Ver.E) DCDU-12B or DCDU15D in the cabinet BBU3910A/BBU3910C Power Cable The following figure shows the exterior of a BBU3910A/BBU3910C power cable. Figure 1-483 Exterior of a BBU3910A/BBU3910C power cable (1) EPC4 connector The following table describes BBU3910A/BBU3910C power cables. Table 1-544 Cable description Wire Wire Color in the North America Wire Color in Europe Wire Color in the UK Wire Color in China Cable Specifications RTN(+) Black Brown Blue Red NEG(-) Blue Blue Gray Blue 2.5 mm2 (0.0039 in. 2), one group BBU5900A Power Cable The following figure shows the exterior of a BBU5900A power cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 870 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-484 Exterior of a BBU5900A power cable (1) EPC7 connector (2) SPC1 connector (3) AC-EPC1 connector The following table describes BBU5900A power cables. Table 1-545 Cable description Sce nari o Wire Wire Color in the North America Wire Color in Europe Wire Color in the UK Wire Color in China Cable Specificatio ns DC scen ario RTN(+ ) Black Brown Blue Red NEG() Blue Blue Gray Blue 6 mm2 (0.009 in.2) or 10 AWG, one group AC scen ario L Black Brown Brown Brown N White Blue Blue Blue Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 2.5 mm2 (0.0039 in.2) or 14 AWG 871 3900 & 5900 Series Base Station Cables Sce nari o 1 3900 & 5900 Series Base Station Cables Wire Wire Color in the North America Wire Color in Europe Wire Color in the UK Wire Color in China PE Green Green and yellow Green and yellow Green and yellow Cable Specificatio ns 1.6.4.3 RFU Power Cable RFU power cables feed power into RFUs from power equipment. This section describes the specifications of RFU power cables in different cabinets. Exterior RFU power cables vary depending on cabinets and power equipment, as shown in the following figure. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 872 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-485 Cable exterior (1) 3V3 connector (2) EPC4 connector (3) Parallel terminal (4) Female fast connector (pressfit type) Description The following table describes RFU power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 873 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-546 Cable description Cable Exterior Cabinet Type Power Equipment Illustration 1 BTS3900AL (Ver.A) DCDU-12C in the RF compartment of the cabinet BTS3900 (Ver.D) or BTS5900 (Ver.A) DCDU-12A in the cabinet RFC (Ver.D) or RFC (Ver.E) DCDU-12A in the cabinet BTS3900L (Ver.D) or BTS5900L (Ver.A) DCDU-12A in the cabinet BTS3012AE (Ver.D_Z) DCDU-12A in the cabinet BTS3900AL (Ver.A) DCDU-12C in the RF compartment of the cabinet BTS3900L (Ver.D) or BTS5900L (Ver.A) DCDU-12A in the cabinet RFC (Ver.D) or RFC (Ver.E) DCDU-12A in the cabinet ● BTS3900 (Ver.B) DCDU-01 in the cabinet Illustration 2a Illustration 3 ● RFC (Ver.B) ● BTS3900L (Ver.B) Illustration 4 ● BTS3900 (Ver.C) DCDU-11A in the cabinet ● RFC (Ver.C) ● BTS3900L (Ver.C) a: The connectors at both ends of the cable in illustration 1 are the same as those in illustration 2, but the color of the cable in illustration 1 is different from that in illustration 2. ● Illustration 1 shows the cable used in most regions. The RTN(+) and NEG(-) wires are black. ● Illustration 2 shows the cable used in the UK. The RTN(+) wire is blue, and the NEG(-) wire is gray. 1.6.4.4 RRU Power Cable RRU power cables feed power into RRUs. This section describes the specifications of RRU power cables when different types of power equipment are used. Exterior The following figure shows the exteriors of RRU power cables. Cable connectors at RRU sides vary depending on RRU models. For details on cable connectors, see the related RRU installation guide. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 874 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-486 Cable exteriors Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 875 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables (1) Female fast connector (2) EPC4 connector (pressfit type) (3) EPC5 connector (4) EPC11 connector (5) OT terminal (M4) (6) Cord end terminal (7) SPC1 connector (8) Bare wire - NOTE ● The colors of RRU power cables vary depending on regions. ● In most regions except UK and China, the RTN(+) and NEG(-) wires are black and blue, respectively. ● In UK, the RTN(+) and NEG(-) wires are blue and gray, respectively. ● In China, the RTN(+) and NEG(-) wires are red and blue, respectively. ● Colors and exteriors of cables may vary with countries and regions. Cable Type RRU power cables vary according to power equipment. The following table describes different types of RRU power cables. Table 1-547 Types of RRU power cables Cable Exterior Cabinet Type Power Equipment Illustration 1 TMC11H (Ver.C) DCDU-11B Illustration 1 APM30H (Ver.B) EPS 01A, EPS 01C, EPS 01B, or EPS 01D Illustration 1 APM30H (Ver.C) EPU03A-02, EPU03A-04, EPU03A-03, or EPU03A-05 Illustration 2 TMC11H (Ver.D) or TMC11H (Ver.E) DCDU-12B providing "LOAD6" to "LOAD9" ports OMB (Ver.C) PDU10D-01 providing "LOAD6" to "LOAD9" ports Illustration 2 APM5930(DC) DCDU15D or DCDU-12B providing "LOAD0" to "LOAD5" ports Illustration 3 TMC11H (Ver.D) PDU10D-01 providing "LOAD0" to "LOAD5" ports Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 876 3900 & 5900 Series Base Station Cables Cable Exterior 1 3900 & 5900 Series Base Station Cables Cabinet Type Power Equipment OMB (Ver.C) DCDU-12B providing "LOAD0" to "LOAD5" ports APM30H (Ver.D) EPU05A-03 or EPU05A-05 providing "RRU0" to "RRU5" ports APM30H (Ver.E) EPU05A-06, EPU05A-07, EPU05A-08, or EPU05A-09 MRE1000 EPU03A-21 IMB05 or ILC29 DCDU-12B providing "LOAD0" to "LOAD5" ports or EPU02D-02, EPU02S-02, EPU02B, or EPU02S providing "LOAD0" and "LOAD1" ports Illustration 4 TMC11H (Ver.B) DCDU-03B Illustration 5 APM30H (Ver.D) ODM06D TMC11H (Ver.E) in a DBS3900 configured with 16 to 21 RRUs in DC scenarios ODM06D Illustration 6 APM5930(AC) EPU05A-11 or EPU05A-12 Illustration 7 APM5930(AC), APM5930(DC), APM30H (Ver.E), APM30H (Ver.D), TMC11H (Ver.E), TMC11H (Ver.D), BTS3900 (Ver.D), BTS3900L (Ver.D), BTS5900 (Ver.A), BTS5900L (Ver.A), BTS3900AL DC, BTS3900AL, AC IMB03, IMB05, or 19-inch rack DCDU16D providing "LOAD0" to "LOAD2" ports NOTE The specifications of RRU power cables vary depending on RRU models. For details on the specifications of RRU power cables, see the related RRU hardware description and RRU installation guide. For example, for the RRU5909s, see RRU5909s Hardware Description and RRU5909s Installation Guide. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 877 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.6.4.5 SOU Power Cable The power cable for a service outlet unit (SOU) feeds AC power from the AC OUTPUT port on the EPU, EPS, or AC power distribution box into the SOU. Exterior The following figure shows the exterior of an SOU power cable. NOTE Colors and exteriors of cables may vary with countries and regions. Figure 1-487 Cable exterior (1) C13 connector (2) OT terminal (M4) Description The following table describes an SOU power cable. Table 1-548 Cable description Wire Color Silkscreen Cable Specifications W1 Brown L 2.5 mm2 (0.004 in.2) W2 Green and yellow PE W3 Blue N 1.6.4.6 SPD Power Cable A power cable for a surge protective device (SPD) feeds AC power into the AC surge protection box in an OMB (Ver.C). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 878 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Exterior The following figure shows the exterior of an SPD power cable. Figure 1-488 Cable exterior (1) Cord end terminal (2) OT terminal (M4, 4 mm2 or 0.006 in.2) 1.6.4.7 Power Cable for an AC Surge Protection Box A power cable for an AC surge protection box feeds external AC power into an OMB or MRE1000. The cabinet can be supplied with 220 V AC single-phase or 110 V AC dual-live-wire power. The maximum length of a power cable for an AC surge protection box is 6 m (19.69 ft). Exterior The following figure shows the exterior of a power cable for an AC surge protection box. NOTE Colors and exteriors of cables may vary with countries and regions. Figure 1-489 Cable exterior (1) OT terminal Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 879 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description The following table describes a power cable for the AC surge protection box. Table 1-549 Cable description Cable Wire Color 220 V AC single-phase power cable L Brown N Blue PE Green and yellow L1 Brown L2 Blue PE Green and yellow 110 V AC dual-live-wire 1.6.4.8 Power Cable for the AC Power Distribution Box in the MRE1000 The power cable for the AC power distribution box in the MRE1000 connects the external AC power supply and the AC power distribution box in the MRE1000. The maximum length of a power cable for the AC power distribution box in the MRE1000 is 15 m (49.21 ft). Exterior The following figure shows the exterior of the power cable for the AC power distribution box in the MRE1000. Figure 1-490 Cable exterior (1) OT terminal (M6) Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 880 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description The following table describes the power cable for the AC power distribution box in the MRE1000. Table 1-550 Cable description Cable Wire Color 220 V AC single-phase power cable L Brown N Blue PE Green and yellow L1 Black L2 Red N White PE Green 110 V AC dual-live-wire 1.6.4.9 GATM Power Cable A GATM power cable feeds power into a GATM. This section describes the specifications of GATM power cables in different cabinets. Exterior The exteriors of GATM power cables vary depending on cabinets and power equipment. The following figure shows the exteriors of GATM power cables. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 881 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-491 Cable exterior (1) 3V3 connector Issue 16 (2021-08-13) (2) EPC4 connector (3) Parallel terminal Copyright © Huawei Technologies Co., Ltd. (4) OT terminal (M4) 882 3900 & 5900 Series Base Station Cables (5) Female fast connector (pressfit type) 1 3900 & 5900 Series Base Station Cables - - - Description The following table describes GATM power cables. Table 1-551 Cable description Cable Exterior Cabinet Type Power Equipment Illustration 1 BTS3900 (Ver.D) or BTS3900L (Ver.D) DCDU-12A in the cabinet BTS5900 (Ver.A) or BTS5900L (Ver.A) Illustration 1 TMC11H (Ver.D) or TMC11H (Ver.E) DCDU-12C in the cabinet Illustration 1 APM30H (Ver.D) EPU05A-02 or EPU05A-04 in an APM30H, or DCDU-12A in an RFC Illustration 1 APM30H (Ver.E) EPU05A-06 or EPU05A-08 in an APM30H, or DCDU-12A in an RFC Illustration 2a BTS3900L (Ver.D) DCDU-12A in the cabinet Illustration 2a TMC11H (Ver.D) or TMC11H (Ver.E) DCDU-12C in the cabinet Illustration 2 APM30H (Ver.D) EPU05A-02 or EPU05A-04 in an APM30H, or DCDU-12A in an RFC Illustration 2 APM30H (Ver.E) EPU05A-06 or EPU05A-08 in an APM30H, or DCDU-12A in an RFC Illustration 3 BTS3900 (Ver.B) or BTS3900L (Ver.B) DCDU-01 in the cabinet APM30H (Ver.B) DCDU-01 in the RFC Illustration 4 TMC11H (Ver.B) DCDU-03C in the cabinet Illustration 5 BTS3900 (Ver.C) or BTS3900L (Ver.C) DCDU-11A in the cabinet Illustration 5 TMC11H (Ver.C) DCDU-11C in the cabinet Illustration 5 APM30H (Ver.C) DCDU-11A in an RFC Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 883 3900 & 5900 Series Base Station Cables Cable Exterior 1 3900 & 5900 Series Base Station Cables Cabinet Type Power Equipment a: The connectors at both ends of the cable in illustration 1 are the same as those in illustration 2, but the color of the cable in illustration 1 is different from that in illustration 2. ● Illustration 1 shows the cable used in most regions. The RTN(+) and NEG(-) wires are black. ● Illustration 2 shows the cable used in the UK. The RTN(+) wire is blue, and the NEG(-) wire is gray. 1.6.4.10 ODM06D Power Cable The ODM06D power cable feeds power from power equipment into an ODM06D. Exterior The following figure shows the exterior of an ODM06D power cable. Figure 1-492 ODM06D power cable (1) OT terminal (2) Cord end terminal Description An ODM06D power cable consists of two wires. The following table describes an ODM06D power cable. Table 1-552 ODM06D power cable Wire Color RTN(+) Brown NEG(-) Blue Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 884 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.7 Transmission Cables This section describes the exteriors, functions, and pin assignment of transmission cables in a cabinet. 1.7.1 E1/T1 Cable An E1/T1 cable transfers baseband signals from the BBU to the external transmission equipment. The maximum length of an E1/T1 cable is 50 m (164.04 ft). Exterior E1/T1 cables are classified into 75-ohm E1 coaxial cables, 120-ohm E1 twisted pair cables, and 100-ohm T1 twisted pair cables. The E1/T1 cable has a DB26 male connector at one end. You need to add a connector to the other end of the cable onsite based on actual conditions. Figure 1-493 shows the exterior of an E1/T1 cable for the BBU3910, BBU3900, or BBU5900. Figure 1-494 shows the exterior of an E1/T1 cable for the BBU3910A. The 75-ohm E1 coaxial cable is used as an example. Figure 1-493 E1/T1 cable for the BBU3910, BBU3900, or BBU5900 (1) DB26 male connector Figure 1-494 E1/T1 cable for the BBU3910A (1) DB26 male connector Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 885 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The following table lists the types of connectors at both ends of a 75-ohm E1 coaxial cable. Table 1-553 Types of connectors at both ends of a 75-ohm E1 coaxial cable Cable Connector at One End Connector at the Other End 75-ohm E1 coaxial cable DB26 male connector L9 male connector L9 female connector SMB female connector BNC male connector SMZ male connector SMZ female connector Cable Description Table 1-554, Table 1-555, and Table 1-556 describe E1/T1 cables. Table 1-554 75-ohm E1 coaxial cable X1 End Wire Type(1) Coaxial No. Description(2) X1.1 Tip 1 RX1+ RX0+ X1.2 Ring RX1- RX0- X1.3 Tip RX2+ RX1+ X1.4 Ring RX2- RX1- X1.5 Tip RX3+ RX2+ X1.6 Ring RX3- RX2- X1.7 Tip RX4+ RX3+ X1.8 Ring RX4- RX3- X1.19 Tip TX1+ TX0+ X1.20 Ring TX1- TX0- X1.21 Tip TX2+ TX1+ X1.22 Ring TX2- TX1- X1.23 Tip TX3+ TX2+ Issue 16 (2021-08-13) 3 5 7 2 4 6 Copyright © Huawei Technologies Co., Ltd. 886 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables X1 End Wire Type(1) X1.24 Ring X1.25 Tip X1.26 Ring Coaxial No. 8 Description(2) TX3- TX2- TX4+ TX3+ TX4- TX3- NOTE (1) "Tip" refers to the wire in an E1 coaxial cable. "Ring" refers to the external conductor of an E1 coaxial cable. (2) The number can start from 1 or 0. Table 1-555 120-ohm E1 twisted pair cable X1 End Color Wire Type Description X.1 Blue Twisted pair RX1+ X.2 White X.3 Orange X.4 White X.5 Green X.6 White X.7 Brown X.8 White X.19 Gray X.20 White X.21 Blue X.22 Red X.23 Orange X.24 Red X.25 Green X.26 Red Issue 16 (2021-08-13) RX1Twisted pair RX2+ RX2- Twisted pair RX3+ RX3- Twisted pair RX4+ RX4- Twisted pair TX1+ TX1- Twisted pair TX2+ TX2- Twisted pair TX3+ TX3- Twisted pair Copyright © Huawei Technologies Co., Ltd. TX4+ TX4- 887 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-556 100-ohm T1 twisted pair cable X1 End Color Wire Type Description X.1 Blue and white Twisted pair RX1+ X.2 White and blue X.3 Orange and white X.4 White and orange X.5 Green and white X.6 White and green X.7 Brown and white X.8 White and brown X.19 Gray and white X.20 White and gray X.21 Blue and red X.22 Red and blue X.23 Orange and red X.24 Red and orange X.25 Green and red X.26 Red and green RX1Twisted pair RX2+ RX2- Twisted pair RX3+ RX3- Twisted pair RX4+ RX4- Twisted pair TX1+ TX1- Twisted pair TX2+ TX2- Twisted pair TX3+ TX3- Twisted pair TX4+ TX4- 1.7.2 E1/T1 Surge Protection Transfer Cable An E1/T1 surge protection transfer cable is an optional cable. It connects the UELP to the main control board or transmission board. An E1/T1 surge protection transfer cable used in a BTS3900C, or in an OMB or OMB (Ver.C) cabinet configured for the DBS3900 is 0.65 m (2.13 ft) long. An E1/T1 surge protection transfer cable used in a BTS3900A, BTS3900AL, or in an APM, TMC series, or battery cabinet configured for the DBS3900 is 1.2 m (3.94 ft) long. Exterior The following figure shows the exterior of an E1/T1 surge protection transfer cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 888 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-495 E1/T1 surge protection transfer cable (1) DB25 male connector (2) DB26 male connector Description The following table describes an E1/T1 surge protection transfer cable. Table 1-557 E1/T1 surge protection transfer cable X1 End X2 End Wire Type X2.2 X1.20 Twisted pair X2.3 X1.19 X2.4 X1.4 X2.5 X1.3 X2.6 X1.22 X2.7 X1.21 X2.8 X1.6 X2.9 X1.5 X2.10 X1.24 X2.11 X1.23 X2.12 X1.8 X2.13 X1.7 X2.14 X1.1 X2.15 X1.2 X2.24 X1.25 X2.25 X1.26 Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. Twisted pair Twisted pair Twisted pair Twisted pair Twisted pair Twisted pair Twisted pair 889 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.7.3 FE/GE Optical Fiber An FE/GE optical fiber transfers optical signals between the BBU and the transmission equipment. The typical length of an FE/GE optical fiber is 10 m (32.81 ft), 20 m (65.62 ft), or 30 m (98.42 ft). Exterior The FE/GE optical fiber has a DLC connector at one end and an FC connector, SC connector, or LC connector at the other end, as shown in the following figure. Figure 1-496 Exterior of an FE/GE optical fiber (1) DLC connector (2) Breakout cable (3) Label on the breakout cable (4) FC connector (5) LC connector (6) SC connector NOTICE The connection between the BBU and transmission equipment must comply with the following rules: ● The TX port on the BBU must be connected to the RX port on the transmission equipment. ● The RX port on the BBU must be connected to the TX port on the transmission equipment. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 890 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.7.4 Interconnection Cable Between FE/GE Electrical Ports In a base station using IP-based co-transmission, an interconnection cable is used to connect the FE/GE electrical ports on the main control boards of different modes. Exterior The following figure shows the exterior of an interconnection cable between FE/GE electrical ports. Figure 1-497 Interconnection cable between FE/GE electrical ports (1) RJ45 connector 1.7.5 Interconnection Cable Between FE/GE Optical Ports In a base station using IP-based co-transmission, an interconnection cable is used to connect the FE/GE optical ports on the main control boards of different modes. Exterior The following figure shows the exterior of an interconnection cable between FE/GE optical ports. Figure 1-498 Interconnection cable between FE/GE optical ports (1) LC connector 1.7.6 FE/GE Ethernet Cable An FE/GE Ethernet cable connects a BBU to the external transmission equipment through routing equipment. It transmits baseband signals. The maximum length of an FE/GE Ethernet cable is 50 m (164.04 ft). Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 891 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Exterior An FE/GE Ethernet cable is a shielded straight-through cable, as shown in the following figure. Figure 1-499 FE/GE Ethernet cable (1) RJ45 connector Description The following table describes an FE/GE Ethernet cable. Table 1-558 FE/GE Ethernet cable X1 End X2 End Color Wire Type X1.2 X2.2 Orange Twisted pair X1.1 X2.1 White and orange X1.6 X2.6 Green X1.3 X2.3 White and green X1.4 X2.4 Blue X1.5 X2.5 White and blue X1.8 X2.8 Brown X1.7 X2.7 White and brown Twisted pair Twisted pair Twisted pair 1.7.7 FE/GE Surge Protection Transfer Cable An FE/GE surge protection transfer cable is an optional cable. It connects the UFLP to the main control board. FE/GE surge protection transfer cables used in a BTS3900A, BTS3900AL, or in an APM, TMC series, or battery cabinet configured for the DBS3900 are 1.0 m (3.28 ft) long. FE/GE surge protection transfer cables used in a BTS3900C, or in an OMB or OMB (Ver.C) cabinet configured for the DBS3900 are 0.8 m (2.62 ft) long. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 892 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Exterior The following figure shows the exterior of an FE/GE surge protection transfer cable. Figure 1-500 FE/GE surge protection transfer cable (1) RJ45 connector Description The following table describes an FE/GE surge protection transfer cable. Table 1-559 FE/GE surge protection transfer cable X1 X2 Color Wire Type X1.2 X2.2 Orange X1.1 X2.1 White Twisted pair X1.6 X2.6 Green X1.3 X2.3 White X1.4 X2.4 Blue X1.5 X2.5 White X1.8 X2.8 Brown X1.7 X2.7 White Twisted pair Twisted pair Twisted pair 1.8 Signal Cables This section describes the exteriors, functions, and pin assignment of signal cables. 1.8.1 Signal Cables for Power Devices This section describes signal cables for all power devices. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 893 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables 1.8.1.1 PMU-CCU Monitoring Signal Cable A PMU-CCU monitoring signal cable connects the PMU and CCU. It transmits the RS485 signals collected by the PMU to the CCU, which then forwards the signals to the BBU. Exterior The PMU-CCU monitoring signal cable is black. Its exterior is shown in the following figure. Figure 1-501 PMU-CCU monitoring signal cable (1) RJ45 connector Description The following table describes a PMU-CCU monitoring signal cable. Table 1-560 PMU-CCU monitoring signal cable X1 End X2 End Color Wire Type X1.1 X2.1 White X1.2 X2.2 Orange Twist ed pair X1.3 X2.3 White X1.4 X2.4 Green X1.5 X2.5 White X1.6 X2.6 Blue X1.7 X2.7 White X1.8 X2.8 Brown Twist ed pair Twist ed pair Twist ed pair 1.8.1.2 PMU 11A-CMUEA Monitoring Signal Cable The PMU 11A-CMUEA monitoring signal cable connects the PMU and the CMUEA in the FAN 02D. It transmits the RS485 signals collected by the PMU to the BBU through the CMUEA. This monitoring signal cable is 1.1 m (3.61 ft) long. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 894 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Exterior The following figure shows the exterior of a PMU 11A-CMUEA monitoring signal cable. Figure 1-502 PMU 11A-CMUEA monitoring signal cable (1) RJ45 connector Description The following table describes a PMU 11A-CMUEA monitoring signal cable. Table 1-561 PMU 11A-CMUEA monitoring signal cable X1 End X2 End Wire Type X1.1 X2.1 Twisted pair X1.2 X2.2 X1.3 X2.3 X1.6 X2.6 X1.4 X2.4 X1.5 X2.5 X1.7 X2.7 X1.8 X2.8 Twisted pair Twisted pair Twisted pair 1.8.1.3 PMU 01B-BBU Monitoring Signal Cable A PMU 01B-BBU monitoring signal cable reports environment variables and alarms from the PMU 01B in the BTS3900 cabinet to the BBU. Exterior The following figure shows the exterior of a PMU 01B-BBU monitoring signal cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 895 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-503 PMU 01B-BBU monitoring signal cable (1) RJ45 connector Description The following table describes a PMU 01B-BBU monitoring signal cable. Table 1-562 PMU 01B-BBU monitoring signal cable X1 End X2 End Color Wire Type X1.1 X2.1 White Twisted pair X1.2 X2.2 Orange X1.3 X2.3 White X1.6 X2.6 Green X1.5 X2.5 White X1.4 X2.4 Blue X1.7 X2.7 White X1.8 X2.8 Brown Twisted pair Twisted pair Twisted pair 1.8.1.4 PMU 11A-BBU Monitoring Signal Cable A PMU 11A-BBU monitoring signal cable reports environment variables and alarms collected by the PMU 11A in the cabinet to the BBU. Exterior The following figure shows the exterior of a PMU 11A-BBU monitoring signal cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 896 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-504 PMU 11A-BBU monitoring signal cable (1) RJ45 connector Description The following table describes a PMU 11A-BBU monitoring signal cable. Table 1-563 PMU 11A-BBU monitoring signal cable X1 End X2 End Color Wire Type X1.1 X2.1 White Twisted pair X1.2 X2.2 Orange X1.3 X2.3 White X1.6 X2.6 Green X1.5 X2.5 White X1.4 X2.4 Blue X1.7 X2.7 White X1.8 X2.8 Brown Twisted pair Twisted pair Twisted pair 1.8.1.5 PMU 12A-BBU Monitoring Signal Cable A PMU 12A-BBU monitoring signal cable reports environment variables and alarms collected by the PMU 12A to the BBU. Exterior The following figure shows the exterior of a PMU 12A-BBU monitoring signal cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 897 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-505 PMU 12A-BBU monitoring signal cable (1) RJ45 connector Description The following table describes a PMU 12A-BBU monitoring signal cable. Table 1-564 PMU 12A-BBU monitoring signal cable X1 End X2 End Wire Type X1.1 X2.1 Twisted pair X1.2 X2.2 X1.3 X2.3 X1.6 X2.6 X1.4 X2.4 X1.5 X2.5 X1.7 X2.7 X1.8 X2.8 Twisted pair Twisted pair Twisted pair 1.8.1.6 PMU 15A-BBU Monitoring Signal Cable A PMU 15A-BBU monitoring signal cable connects the PMU 15A and the BBU. It reports alarm information from the PMU 15A to the BBU. Exterior The following figure shows the exterior of a PMU 15A-BBU monitoring signal cable. Figure 1-506 PMU 15A-BBU monitoring signal cable Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 898 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables (1) RJ45 connector Description The following table describes a PMU 15A-BBU monitoring signal cable. Table 1-565 PMU 15A-BBU monitoring signal cable X1 End X2 End Wire Type X1.1 X2.1 Twisted pair X1.2 X2.2 X1.3 X2.3 X1.6 X2.6 X1.4 X2.4 X1.5 X2.5 X1.7 X2.7 X1.8 X2.8 Twisted pair Twisted pair Twisted pair 1.8.1.7 PMU-CMUA Monitoring Signal Cable A PMU-CMUA monitoring signal cable connects the PMU and CMUA and transmits the RS485 signals collected by the PMU to the CMUA, which then forwards the signals to the BBU. The PMU-CMUA monitoring signal cable is 0.6 m (1.97 ft) long. Exterior The following figure shows the exterior of a PMU-CMUA monitoring signal cable. Figure 1-507 Exterior of a PMU-CMUA monitoring signal cable (1) RJ45 connector Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 899 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description The following table describes the PMU-CMUA monitoring signal cable. Table 1-566 PMU-CMUA monitoring signal cable X1 End X2 End Wire Type X1.1 X2.1 Twisted pair X1.2 X2.2 X1.3 X2.3 X1.6 X2.6 X1.4 X2.4 X1.5 X2.5 X1.7 X2.7 X1.8 X2.8 Twisted pair Twisted pair Twisted pair 1.8.1.8 PMU-CMUE Monitoring Signal Cable A PMU-CMUE monitoring signal cable connects the PMU and CMUE in the APM30H and transmits the RS485 signals collected by the PMU to the CMUE, which then forwards the signals to the BBU. The PMU-CMUE monitoring signal cable is 0.6 m (1.97 ft) long. Exterior The following figure shows the exterior of a PMU-CMUE monitoring signal cable. Figure 1-508 Exterior of a PMU-CMUE monitoring signal cable (1) RJ45 connector Description The following table describes the PMU-CMUE monitoring signal cable. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 900 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Table 1-567 PMU-CMUE monitoring signal cable X1 End X2 End Wire Type X1.1 X2.1 Twisted pair X1.2 X2.2 X1.3 X2.3 X1.6 X2.6 X1.4 X2.4 X1.5 X2.5 X1.7 X2.7 X1.8 X2.8 Twisted pair Twisted pair Twisted pair 1.8.1.9 EPU02D or EPU02D-02 Monitoring Signal Cable The EPU02D or EPU02D-02 monitoring signal cables include the monitoring signal cables between the EPU02D or EPU02D-02 and operator-provided monitoring equipment, between the EPU02D or EPU02D-02 and the BBU, and between cascaded EPU02Ds or EPU02D-02s. NOTE The monitoring signal cable between the EPU02D or EPU02D-02 and the BBU connects the PMU 12A to the BBU. For details, see 1.8.1.5 PMU 12A-BBU Monitoring Signal Cable. Exterior The monitoring signal cable between the EPU02D or EPU02D-02 and operatorprovided monitoring equipment reports one channel of dry-contact alarms of the EPU02D or EPU02D-02 to the operator-provided monitoring equipment. The following figure shows the exterior of this cable. Figure 1-509 EPU02D or EPU02D-02 monitoring signal cable (1) RJ45 connector Issue 16 (2021-08-13) (2) Bare wire Copyright © Huawei Technologies Co., Ltd. 901 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables The monitoring signal cable between cascaded EPU02Ds or EPU02D-02s connects the two PMU 12As in the cascaded EPU02Ds or EPU02D-02s. The following figure shows the exterior of this cable. Figure 1-510 EPU02D or EPU02D-02 monitoring signal cable (1) RJ45 connector Description The following table describes the monitoring signal cable between the EPU02D or EPU02D-02 and the operator-provided monitoring equipment. Table 1-568 Cable description X1 End Color Wire Type X1.2 Orange Twisted pair X1.1 White X1.6 Green X1.3 White X1.4 Blue X1.5 White X1.8 Brown X1.7 White Twisted pair Twisted pair Twisted pair The following table describes the monitoring signal cable between cascaded EPU02Ds or EPU02D-02s. Table 1-569 Cable description X1 End X2 End Color Wire Type X1.1 X2.1 White Twisted pair X1.2 X2.2 Orange Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 902 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables X1 End X2 End Color Wire Type X1.3 X2.3 White Twisted pair X1.6 X2.6 Green X1.5 X2.5 White X1.4 X2.4 Blue X1.7 X2.7 White X1.8 X2.8 Brown Twisted pair Twisted pair 1.8.1.10 Monitoring Signal Cable for the AC Power Distribution Box in an MRE1000 A monitoring signal cable for the AC power distribution box in an MRE1000 connects the AC power distribution box and the CCUB to report the alarms of the AC power distribution box to the CCUB, which then reports the alarms to the BBU. Exterior The following figure shows the exterior of a monitoring signal cable for the AC power distribution box in an MRE1000. Figure 1-511 Cable exterior (1) Cord end terminal (2) Bare wire 1.8.1.11 HSMU Monitoring Signal Cable for the PDU08H-01 An HSMU monitoring signal cable for the PDU08H-01 connects the EPU03A-21 and PDU08H-01. It transmits the monitoring signals of the PDU08H-01 to the EPU03A-21, which then forwards the signals to the CCUB. Exterior The following figure shows the exterior of an HSMU monitoring signal cable for the PDU08H-01. Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 903 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Figure 1-512 HSMU monitoring signal cable for the PDU08H-01 (1) RJ45 connector (2) Cord end terminal Description The following table describes an HSMU monitoring signal cable for the PDU08H-01. Table 1-570 HSMU monitoring signal cable for the PDU08H-01 X1 End The Other End Color Wire Type X1.8 X2 Brown Twisted pair X1.7 X3 White 1.8.1.12 PMU 11A-HEUB Monitoring Signal Cable A PMU 11A-HEUB monitoring signal cable connects the PMU 11A and the HEUB. It reports monitoring information from the PMU 11A to the BBU. Exterior The following figure shows the exterior of a PMU 11A-HEUB monitoring signal cable. Figure 1-513 PMU 11A-HEUB monitoring signal cable (1) RJ45 connector Issue 16 (2021-08-13) Copyright © Huawei Technologies Co., Ltd. 904 3900 & 5900 Series Base Station Cables 1 3900 & 5900 Series Base Station Cables Description The following table describes the PMU 11A-HEUB monitoring signal cable. Table 1-571 PMU 11A-HEUB monitoring signal cable X1 End X2 End Color Wire Type X1.1 X2.1 White Twisted pair X1.2 X2.2 Orange X1.3 X2.3 White X1.6 X2.6 Green X1.5 X2.5 White X1.4 X2.4 Blue X1.7 X2.7 White X1.8 X2.8 Brown Twisted pair Twisted pair Twisted pair 1.8.1.13 PMIU-CCUB Monitoring Signal Cable A PMIU-CCUB monitoring si

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