Schematic diagram RV AC CONF-18k 48VDC-14.4k (A - SC-MR1207.003 - 1 - 03) - 1
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NOTES: 1. MUST MEET DELTA SPEC. 10000‐0162 2. Number of pages: 4 3. Model No: MR1207.003 REV. Change Description Date Drawn ISSUE NEW SPEC. 18.12.2018 Alf Torve 01 Added Key coding for 3x1Phase 05.02.2019 Oskar Hogganvik 02 ECN 103E‐193137 ‐ on sheets 2 & 3 third PE terminal added to X1 also AC terminals X1 & X2 updated to show 230VAC and 400Vac input configurations. 08.04.2019 Chris Lawson 03 ECN 103E195043‐ On sheet 2 neutral/live link added to terminal X2. Sheet 3 reconfigured for 3ph only with AC load output mcbs and neutral links added to terminal X2. Sheet 4 added for 3 x 1ph only with AC load output mcbs configuration. All sheets updated with SmartPack2 Touch. 10.05.2019 Chris Lawson D EL TA C O N FI D EN TI AL 00 Frame Name: DF-RCA4V-1R01.DOC PAGE 1 OF 4 X6 (PE) 03 AC Output (1 Phase 230Vac) X2 N L1 L2 L3 N N Temp. sense N L1 L1 L1 X4 2 3 4 5 6 X3 X1 1 2 N2 N1 3 4 5 6 7 N3 8 9 L11 10 11 L12 12 13 14 4 3 2 1 7 15 8 AC Input (3 Phase 400Vac) 6 PE X1 1 2 N 3 4 5 6 7 L1 8 9 10 11 12 13 12 L3 L2 14 10 5 11 16 9 15 14 13 15 8 2 1 Power Power + Power Input1 (CON1) 2 1 Power Power + Power Input2 (CON2) 9 8 7 6 5 4 3 2 1 Load fuse senseLoad fuse sense+ Battery fuse sense Battery fuse sense+ I sense 2I sense 2+ I sense 1 I sense 1+ System Ref Sense inputs (CON4) 6 5 4 3 2 1 Voltage sense 3Voltage sense 3+ Voltage sense 2Voltage sense 2+ Voltage sense 1Voltage sense 1+ Voltage sense (CON5) 1 RJ45 8 To be insulated in 308184 CAN 1 2 03 10 mm² key2 key1 key1 KEYING CODE 1 KEYING CODE 1 CAN RJ45 1 2 SYNC RJ45 1 2 PS2 Rectiverter shelf #347708 N L L 3 Phase key2 key1 KEYING CODE 2 3 x 1 Phase CAN RJ45 key2 key1 KEYING CODE 1 SYNC RJ45 O D EL N ~~~~ ~~ === ~~ + = R5 * Con21 CANgnd 1 2 NC 3 Config inputs (CON8) Input 3 Input 3 + Input 2 Input 2 + Input 1 Input 1 + 6 5 4 3 2 1 Signal Relays (CON9) Relay3 NO Relay3 C Relay3 NC Relay2 NO Relay2 C Relay2 NC Relay1 NO Relay1 C Relay1 NC 9 8 7 6 5 4 3 2 1 RS485 RJ45 0.5mm² SPD (Optional) 8 Test Battery Voltage Socket 9 DSUB-9 X5 - 1.0mm² A2 XF1 8 1 CAN 1 1 SYNC TERM PE C 3 x 1 Phase key2 ~~~~ ~~ === ~~ + = R5 * Con21 CANgnd TA 3 Phase C NO 0.5mm² N FI 0.5mm² N L L NC 2 0.5mm² CAN 2 2 PS1 N C NO + RJ45 4mm² PE 8 7 6 5 4 3 2 1 RS232 1 Rectiverter shelf #347708 LVD (CON3) LVD supply LVD supply + LVD 3 LVD 3 + LVD 2 LVD 2 + LVD 1 LVD 1 + Chassis Manual Bypass S1 L13 NC 1 A1 0.5mm² PE C NO 1 10mm² AC Input (3 x 1 Phase 230Vac) Customer connections 3x High Voltage (HV) Relay output T (+) N (-) N 2 2 To be insulated in 308184 1 ( CAN H ) 2 ( CAN L) CAN 2 3 ( GND_BC) 1.0mm² To be insulated in 308184 GND To be insulated in 308184 Ethernet (front ) WEB /S NMP (ENET) - (-) CU Rail SH1 4 03 USB ( side) Type A USB ( front ) Type A Micro SD 4 A3 + + - 6 RS232/ RS 485 RJ 11 Type 8 Option LVBD To be insulated in 308184 8 Ethernet (side) WEB / S NMP ( ENET ) LCD To be insulated in 308184 (+) CU Rail 1 2 SmartPack 2 Touch 242100. 510 (-) Bat CU Rail 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Alarm 1-NO Alarm 1-C Alarm 1-NC Alarm 2-NO Alarm 2-C Alarm 2-NC Alarm 3-NO Alarm 3-C Alarm 3-NC Alarm 4-NO Alarm 4-C Alarm 4-NC Alarm 5-NO Alarm 5-C Alarm 5-NC Alarm 6-NO Alarm 6-C Alarm 6-NC X2 Option L1 242100.601 Smartpack2 Basic Industrial N L1 L2 L3 D EN TI AL N Config input 1 Config input 1 + Config input 2 Config input 2 + Config input 3 Config input 3 + Config input 4 Config input 4 + Config input 5 Config input 5 + Config input 6 Config input 6 + AC Output (3 Phase 400Vac) Configurable Inputs Alarm Outputs PS3 Rectiverter shelf #347708 PE N N L 3 Phase key2 key1 KEYING CODE 3 3 x 1 Phase ~~~~ ~~ L === ~~ + = R5 * Con21 CANgnd key2 key1 KEYING CODE 1 CAN RJ45 1 2 SYNC RJ45 1 2 1 8 DC-Output and Battery I/O Monitor Type 2 242100.502 8 Date Design 18.12.2018 NOTE: 1. KEYING CODE in PS1 to PS3 are to be either 3ph+N AC input configuration or 3x 1ph AC input. 2. Make sure Phase order is correct. See Doc No. 2268675 «Rectiverter systems Engineering guidelines» for details. 3. It is critical to connect AC input N-wires at terminal 4, 6 and 8 at 3x 1-phase AC input configuration. CAN 0 2 Approved Draw altono altono Scale - IFS Schematic diagram - AC Distribution at Breakers: See page 3 & 4 Copyright Eltek. All rights reserved RCV IBB 1 or 3‐ph 24kW MBP 48Vdc Part no. Sym. 03 Alternation 103E195043 Date/Sign 10.05.2019 / chlagb Format A3 Page Drawing no. 2 of 4 SC-MR1207.003 Rev. 03 X6 (PE) AC Output (3 Phase 400Vac) 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Option N L1 L2 L3 Configurable 3-Phase Output breakers. 6 x 3 pole (54mm) positions (Q1, Q2, Q3…….) X2 03 N N Temp. sense N L1 L2 L3 X4 2 3 4 5 6 X3 LVD (CON3) LVD supply LVD supply + LVD 3 LVD 3 + LVD 2 LVD 2 + LVD 1 LVD 1 + 8 7 6 5 4 3 2 1 Config inputs (CON8) Input 3 Input 3 + Input 2 Input 2 + Input 1 Input 1 + 6 5 4 3 2 1 Signal Relays (CON9) Relay3 NO Relay3 C Relay3 NC Relay2 NO Relay2 C Relay2 NC Relay1 NO Relay1 C Relay1 NC 9 8 7 6 5 4 3 2 1 RS485 RJ45 2 1 7 8 AC Input (3 Phase 400Vac) 6 PE 1 2 3 4 5 6 7 8 9 10 11 12 13 14 5 11 12 L3 L2 10 16 9 15 14 13 15 8 To be insulated in 308184 0.5mm² N L key1 KEYING CODE 1 CAN RJ45 1 2 SYNC RJ45 1 2 SYNC TERM PS2 Rectiverter shelf #347708 PE N L 3 Phase key2 key1 KEYING CODE 2 3 x 1 Phase key2 key1 KEYING CODE 1 1 2 SYNC RJ45 1 2 Voltage sense 3Voltage sense 3+ Voltage sense 2Voltage sense 2+ Voltage sense 1Voltage sense 1+ Voltage sense (CON5) RJ45 CAN 1 RJ45 C NO NC 3 0.5mm² 0.5mm² SPD (Optional) 8 Test Battery Voltage Socket 9 DSUB-9 X5 CAN 2 2 O ~~~~ ~~ === ~~ + = R5 * Con21 CANgnd CAN RJ45 6 5 4 3 2 1 - 1.0mm² A2 XF1 8 1 CAN 1 1 D EL N L Sense inputs (CON4) C key1 KEYING CODE 1 ~~~~ ~~ === ~~ + = R5 * Con21 CANgnd key2 Load fuse senseLoad fuse sense+ Battery fuse sense Battery fuse sense+ I sense 2I sense 2+ I sense 1 I sense 1+ System Ref RS232 TA key2 3 x 1 Phase NC 2 + PS1 3 Phase 9 8 7 6 5 4 3 2 1 1 8 Rectiverter shelf #347708 L Power Input2 (CON2) 03 4mm² N Power Power + 2 8 PE 2 1 1 8 10 mm² C NO 0.5mm² N FI X1 L1 N Power Input1 (CON1) (-) 03 3 Power Power + D EN TI AL Manual Bypass S1 2 1 242100.601 Smartpack2 Basic Industrial Chassis 4 NC 1 A1 0.5mm² 10mm² C NO 1 10mm² 10mm² L1 L2 L3 Customer connections 3x High Voltage (HV) Relay output T 2 2 To be insulated in 308184 1 ( CAN H ) 2 ( CAN L) CAN 2 3 ( GND_BC) 1.0mm² To be insulated in 308184 GND To be insulated in 308184 Ethernet (front ) WEB/S NMP (ENET) - (-) CU Rail SH1 4 03 USB ( side) Type A USB ( front ) Type A Micro SD 4 A3 + + - 6 RS232/RS 485 RJ 11 Type 8 Option LVBD To be insulated in 308184 Ethernet (side) WEB / S NMP ( ENET ) LCD To be insulated in 308184 (+) CU Rail 8 SmartPack 2 Touch 242100. 510 (-) Bat CU Rail 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Alarm 1-NO Alarm 1-C Alarm 1-NC Alarm 2-NO Alarm 2-C Alarm 2-NC Alarm 3-NO Alarm 3-C Alarm 3-NC Alarm 4-NO Alarm 4-C Alarm 4-NC Alarm 5-NO Alarm 5-C Alarm 5-NC Alarm 6-NO Alarm 6-C Alarm 6-NC 2 Config input 1 Config input 1 + Config input 2 Config input 2 + Config input 3 Config input 3 + Config input 4 Config input 4 + Config input 5 Config input 5 + Config input 6 Config input 6 + 1 (+) Option X7 (N) Configurable Inputs Alarm Outputs PS3 1 Rectiverter shelf #347708 PE N N L 3 Phase 3 x 1 Phase key2 key2 key1 key1 KEYING CODE 3 ~~~~ ~~ L === ~~ + = R5 * Con21 CANgnd KEYING CODE 1 CAN RJ45 1 2 SYNC RJ45 1 2 8 CAN 0 DC-Output and Battery I/O Monitor Type 2 242100.502 2 8 Date Design 18.12.2018 Approved Draw altono altono Scale - IFS Schematic diagram NOTE: 1. KEYING CODE in PS1 to PS3 are to be either 3ph+N AC input configuration or 3x 1ph AC input. 2. Make sure Phase order is correct. See Doc No. 2268675 «Rectiverter systems Engineering guidelines» for details. 3. It is critical to connect AC input N-wires at terminal 4, 6 and 8 at 3x 1-phase AC input configuration. RCV IBB 3‐ph 24kW MBP 48Vdc with load MCBs - AC Bulk feed: See page 2 Sym. 03 Alternation 103E195043 Date/Sign 10.05.2019 / chlagb Format A3 Copyright Eltek. All rights reserved Part no. Page Drawing no. 3 of 4 SC-MR1207.003 Rev. 03 X6 (PE) AC Output (1 Phase 230Vac) 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 N Configurable 1 Phase Output breakers. 18 x 1 pole (18mm) positions (Q1, Q2, Q3…….) X2 N N Option L1 Temp. sense N L1 L1 L1 X4 2 3 4 5 6 X3 LVD (CON3) LVD supply LVD supply + LVD 3 LVD 3 + LVD 2 LVD 2 + LVD 1 LVD 1 + 8 7 6 5 4 3 2 1 Config inputs (CON8) Input 3 Input 3 + Input 2 Input 2 + Input 1 Input 1 + 6 5 4 3 2 1 Signal Relays (CON9) Relay3 NO Relay3 C Relay3 NC Relay2 NO Relay2 C Relay2 NC Relay1 NO Relay1 C Relay1 NC 9 8 7 6 5 4 3 2 1 RS485 RJ45 AC Input (3 x 1 Phase 230Vac) 6 PE X1 1 2 N1 3 4 5 N2 6 7 L11 N3 8 9 10 11 L12 12 13 L13 14 5 11 12 10 16 9 15 14 13 15 8 8 To be insulated in 308184 10 mm² 0.5mm² N key2 key1 key1 KEYING CODE 1 KEYING CODE 1 CAN RJ45 1 2 SYNC RJ45 1 2 PS2 N L 3 Phase key2 key1 KEYING CODE 2 3 x 1 Phase ~~~~ ~~ === ~~ + = R5 * Con21 CANgnd key2 key1 KEYING CODE 1 CAN RJ45 1 2 SYNC RJ45 1 2 Load fuse senseLoad fuse sense+ Battery fuse sense Battery fuse sense+ I sense 2I sense 2+ I sense 1 I sense 1+ System Ref Sense inputs (CON4) 6 5 4 3 2 1 Voltage sense 3Voltage sense 3+ Voltage sense 2Voltage sense 2+ Voltage sense 1Voltage sense 1+ Voltage sense (CON5) 1 RJ45 CAN 1 2 1 RJ45 C NO NC 3 0.5mm² 0.5mm² SPD (Optional) 8 Test Battery Voltage Socket 9 DSUB-9 X5 CAN 2 2 O D EL Rectiverter shelf #347708 N L 9 8 7 6 5 4 3 2 1 - 1.0mm² A2 XF1 8 2 CAN 1 To be insulated in 308184 2 1.0mm² 1 ( CAN H ) 2 ( CAN L) CAN 2 3 ( GND_BC) To be insulated in 308184 8 SmartPack 2 Touch 242100. 510 1 1 SYNC TERM PE Power Input2 (CON2) C 3 x 1 Phase key2 ~~~~ ~~ L === ~~ + = R5 * Con21 CANgnd TA 3 Phase NC 2 + PS1 Rectiverter shelf #347708 L Power Power + RS232 8 4mm² N 2 1 03 8 PE C NO 0.5mm² (-) 1 7 8 Power Input1 (CON1) N FI 2 Power Power + D EN TI AL Manual Bypass S1 2 1 242100.601 Smartpack2 Basic Industrial Chassis 3 NC 1 A1 0.5mm² 4 C NO 1 10mm² 10mm² 10mm² Customer connections 3x High Voltage (HV) Relay output T GND Ethernet (side) WEB / S NMP (ENET ) 6 RS232/RS 485 RJ 11 Type LCD 4 03 USB ( side) Type A Ethernet (front ) USB ( front ) WEB/S NMP ( ENET) Type A Micro SD To be insulated in 308184 (+) CU Rail 8 To be insulated in 308184 Option LVBD - To be insulated in 308184 (-) CU Rail A3 + + SH1 4 (-) Bat CU Rail 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Alarm 1-NO Alarm 1-C Alarm 1-NC Alarm 2-NO Alarm 2-C Alarm 2-NC Alarm 3-NO Alarm 3-C Alarm 3-NC Alarm 4-NO Alarm 4-C Alarm 4-NC Alarm 5-NO Alarm 5-C Alarm 5-NC Alarm 6-NO Alarm 6-C Alarm 6-NC 2 Config input 1 Config input 1 + Config input 2 Config input 2 + Config input 3 Config input 3 + Config input 4 Config input 4 + Config input 5 Config input 5 + Config input 6 Config input 6 + 1 (+) Option X7 (N) Configurable Inputs Alarm Outputs PS3 Rectiverter shelf #347708 1 PE N N L 3 Phase 3 x 1 Phase key2 key2 key1 key1 KEYING CODE 3 ~~~~ ~~ L === ~~ + = R5 * Con21 CANgnd KEYING CODE 1 CAN RJ45 1 2 SYNC RJ45 1 2 8 DC-Output and Battery CAN 0 I/O Monitor Type 2 242100.502 2 8 Date Design 18.12.2018 Approved Draw altono altono Scale - IFS Schematic diagram NOTE: 1. KEYING CODE in PS1 to PS3 are to be either 3ph+N AC input configuration or 3x 1ph AC input. 2. Make sure Phase order is correct. See Doc No. 2268675 «Rectiverter systems Engineering guidelines» for details. 3. It is critical to connect AC input N-wires at terminal 4, 6 and 8 at 3x 1-phase AC input configuration. RCV IBB 3 x 1‐ph 24kW MBP 48Vdc with load MCBs - AC Bulk feed: See page 2 Sym. 03 Alternation 103E195043 Date/Sign 10.05.2019 / chlagb Format A3 Copyright Eltek. All rights reserved Part no. - Page Drawing no. 4 of 4 SC-MR1207.003 Rev. 03