Modbus-Implementation-v364

POWER TECHNOLOGIES MEDIUM VOLTAGE PRODUCTS Modbus® Protocol Implementation for the ABB PCD/SCD PCD Software Version 3.64 SCD Software Version 3.70 Part Number: 1VTB300016 May 19, 2008 ABB Inc. Power Products Medium Voltage 655 Century Point Lake Mary, Florida 32746-2137 Telephone: (407)-732-2000 Fax: (407)-732-2132 Technical Support: (800)-929-7947 ABB CONFIDENTIAL – NOT TO BE COPIED WITHOUT PERMISSION PCD MODBUS® Protocol Implementation Details ABB Inc. (This page is intentionally blank.) 2 PCD MODBUS® Protocol Implementation Details ABB Inc. ABB Power Technologies Medium Voltage Products Technical Report Power Technologies Medium Voltage Products Dept. PTMV Title: Date Pages May 19, 2008 184 Modbus® Protocol Implementation for the ABB PCD/SCD Author(s) V. Gharpure Reviewed by Jay Vellore Approved by Harsh Karandikar Summary The purpose of this document is to describe the specific implementation of the Modbus Protocol on the ABB Power Control Device (PCD) and the Switch Control Device (SCD) This document, in conjunction with the Modicon Modbus Protocol Reference Guide (PI-MBUS-300), published by Modicon, Inc., provides complete information on how to communicate with the PCD/SCD via the Modbus Protocol. Rev. Revision Date Author Reviewed Approved 1.0 Initial Release 4/6/98 D. Uy D. Hart 1.1 1.2 1.3 1.4 1.5 8/24/98 1/12/98 4/19/99 8/17/99 4/20/2000 M. Egolf M. Egolf M. Egolf M. Egolf M. Egolf D. Hart D. Hart D. Hart D. Hart D. Hart 6/08/2001 V. Gharpure D. Uy K. Scherrer 1.7 1.8 PCD2000 Firmware V1.14 Support PCD2000 Firmware V1.15 Support PCD2000 Firmware V1.16 Support PCD2000 Firmware V1.20 Support PCD2000 Firmware V2.00 Support. Also support for the SCD2000 V1.00 Firmware has been added. PCD2000 Firmware V2.20 Support.(Loop control module functions) and MAV-3 Firmware V1.00 added. PCD2000 Firmware v2.30 – v2.60 support. PCD2000 Firmware v2.70 support. M. Egolf L. Park D. Uy D. Uy D. Uy D. Uy D. Uy 11/25/2002 07/17/2003 V. Gharpure V. Gharpure 1.9 PCD Firmware v2.82 support 02/23/2004 V. Gharpure 1.10 PCD Firmware v2.90 support 06/30/2004 V. Gharpure 1.11 PCD Firmware v3.00 and SCD v1.00 support 08/31/2004 V. Gharpure 1.12 PCD Firmware v3.64 and SCD v3.70 support 05/19/2008 V. Gharpure J. Vellore J. Vellore T. Fahey J. Vellore T. Fahey J. Vellore T. Fahey J. Vellore T. Fahey J. Vellore K. Scherrer V.R.V. Ramanan V.R.V. Ramanan V.R.V. Ramanan V.R.V. Ramanan Harsh Karandikar 1.6 3 PCD MODBUS® Protocol Implementation Details ABB Inc. Revision History REVISION 1.1 1.2 SECTION 3.1.1 3.1.3 4.1.1 4.1.3 5.1.8 5.1.8 5.1.8 5.2.1 5.2.1 5.2.1 5.2.1 5.3.2 6.1 6.1 6.1.8.1 6.1.8.1 6.1.8.1 6.1.8.1 6.1.8.2 6.1.8.2 6.1.8.2 6.1.8.2 6.1.8.3 6.1.8.3 6.1.8.3 6.1.8.3 6.1.9 3.1.1 3.1.3 4.1.1 4.1.3 5.1.2 5.1.8 5.1.8 5.2.1 5.3.2 5.3.10 5.3.11 5.3.12 5.3.13 5.3.14 6.1.8 6.1.9 6.1.20 6.1.27 DESCRIPTION Added registers 00107 through 00114 (27A, 27B, 27C, LOAC, and associated seal-ins) Added registers 00725 through 00732 (27A, 27B, 27C, LOAC, and associated seal-ins) Replaced UDI designation with RBI (register 10040) Added registers 10589 through 10590 (RBI) Added 27A, 27B, 27C, LOAC to register long word at 40903 Added RBI to register long word at 40907 Added register 40929 (Front Panel Status) Added definition to bits 2 and 3 of register 41158 Added 27A*, 27B*, 27C*, and LOAC* to the SET/RESET Mask table Added registers 41209 through 41214 (Block/Unblock control points) Added registers 41215 through 41220 (Alternate Settings Pulse On / Pulse Off control points) Added table of Operation Record Indices (Note: 27A, 27B, 27V, ACF, ACR and all the ALTx Pulse On/Off entries are new operations) Added Logical Input Indices ALT1Pon, ALTPoff, ALT2Pon, and ALT2Poff Added Logical Output Indices 27A, 27B, 27C, LOAC, and associated seal-ins Added registers 61110 through 61116 (Time-Curve Adders for Primary settings) Added registers 61117 through 61119 (Minimum Response for 46, 67P, & 67N) Added registers 61120 through 61121 (50P-3 & 50N-3 Time Delay) Modified registers 61095 through 61098 (Units changed from 0-60 cycles) Added registers 61238 through 61244 (Time-Curve Adders for ALT1 settings) Added registers 61245 through 61247 (Minimum Response for 46, 67P, & 67N) Added registers 61248 through 61249 (50P-3 & 50N-3 Time Delay) Modified registers 61223 through 61226 (Units changed from 0-60 cycles) Added registers 61366 through 61372 (Time-Curve Adders for ALT2 settings) Added registers 61373 through 61375 (Minimum Response for 46, 67P, & 67N) Added registers 61376 through 61377 (50P-3 & 50N-3 Time Delay) Modified registers 61351 through 61354 (Units changed from 0-60 cycles) Added Bit 15 definition to register 61426 (Breaker Fail Mode) Added registers 00115 and 00116 (TAGOPN and TAGCLS) Added registers 00741 through 00744 (TAGOPN and TAGCLS) Added registers 10041 through 10043 (OPNBLK, CLSBLK and TAGMSG) Added registers 10591 through 10596 (OPNBLK, CLSBLK and TAGMSG) Change definition of register 40144 from DSP version number to CT/PT calibrator version number Added TAGOPN and TAGCLS to register long word at 40903 Added OPNBLK, CLSBLK and TAGMSG to register long word at 40907 Added registers 41221 through 41226 (Tag / Untag control points) Added Operation Indices 238 through 243 Added Power Quality Records Added Power Quality Statistics Added Power Quality RMS Records Added Power Quality Control & Status Added Power Quality Informational Block Added more definitions to the Configuration Long Word table (2 new Phase and Neutral tap ranges). Also updated the Tap Range tables to reflect changes in the SEF pickup settings mechanism. Added register 61445 (Close Delay Time) Added some PQ trigger definitions to register 63211 Added Power Quality Settings 4 PCD MODBUS® Protocol Implementation Details ABB Inc. REVISION 1.3 SECTION 3.1.1 3.1.2 4.1.1 4.1.3 5.1.8 5.1.8 1.4 1.5 5.2.1 5.2.1 5.3.2 6.1 6.1 6.1 6.1.9 6.1.8.1 6.1.8.2 6.1.8.3 3.1.1 3.1.3 5.1.8 5.2 5.3.1 5.3.1 6.1 3.1.1 3.1.3 4.1.1 4.1.3 5.1.2 5.1.7 5.1.8 5.1.8 5.2.1 5.2.1 5.2.1 5.2.1 5.3.1 5.3.2 5.3.3 5.3.6 6.1 6.1 6.1.8 6.1.8 6.1.8.1 6.1.8.2 6.1.8.3 6.1.9 6.1.10 6.1.11 6.1.20 6.1.24 6.1.25 6.1.28 6.1.29 6.1.30 7.1 DESCRIPTION Added registers 00117 through 00124 (59A, 59B, 59C, 59-3P, 59A*, 59B*, 59C*, and 59-3P*) Added registers 00745 through 00760 (Status and Momentary versions of 3.1.1 above) Redefined registers 10040 through 10043 and added 10044 through 10046 (error correction) Redefined registers 10591 through 10596 and added 10597 through 10604 (error correction) Added 27C*, LOAC*, TAGOPN, TAGCLS, 59A, 59B, 59C, 59-3P, 59A, 59B, 59C, and 59-3P to register long word at 40903 Added ALT1Pon, ALT1Poff, ALT2Pon, ALT2Poff, OPNBLK, CLSBLK, and TAGMSG to register long word at 40907 Added items for bits 16 through 19 for registers 41196, 41197, 41200, and 41201 Correction: registers 41209 through 41226 were off by one count (changed to 41210 through 41227) Added alarm indices 108 through 111, 210 through 213, and 222 through 227 Added Logical Input Index after BFI (at index 38), shifted the other up one position Added Logical Input Indices OPNBLK, CLSBLK, and TAGMSG Added Logical Output Indices TAGOPN, TAGCLS, 59A, 59B, 59C, 59-3P, and associated seal-ins Curve Family (reg. 61424) was moved to 61444. Other moved up accordingly. Change range for registers 61110 to 61116 form 0.00 - 0.40 to 0.00 – 2.00 Change range for registers 61238 to 61244 form 0.00 - 0.40 to 0.00 – 2.00 Change range for registers 61366 to 61372 form 0.00 - 0.40 to 0.00 – 2.00 Added registers 00125 and 00126 (PTA and NTA) Added registers 00761 through 00764 (Status and Momentary versions of 3.1.1 above) Added long word register at 40931 (Target Alarms). (Page 35) Changed register number from 41409 to 41153 -- Security mask register, paragraph 3. Modified Lockout value fields on register 41411. Added table of Fault Type indices to document register 41410. Added PTA and NTA to table of Logical Output indices. Added logical output points 127 through 193. Added logical output points 765 through 898. Added logical input points 10047 through 10082. Added logical input points 10605 through 10676. Modified register definition (40169). Added counter registers 40782 to 40811. Added Registers 40933 through 40950. Added bit definitions in register pairs 40903-904 and 40907-908. Added Per Phase Trip / Close Control (Registers 41228-41233). Added Switch Open / Close Control (Registers 41234-41239), Added Source Transfer / Restoration Control (Registers 41240-41245). Added more Set / Reset Control Registers (Registers 41246-41257). Modified register 41410: Removed redundant Fault Type table and added "Fault Detected" element type. Added numerous operation indices. Also added table of value codes for per phase and switch operations. Added oscillographic Trigger Source bits definitions (register 41673). Reversed bits 0 and 1 of register 42051 (was incorrectly documented). Added logical input indices (46 through 81). Added logical output indices (126 through 188). Added Ext. Inverse and Very Inverse curve indices to ANSI Curve Type III catagory. Updated configuration table. Block is no longer supported (see sections 6.1.28 and 6.1.29). Block is no longer supported (see sections 6.1.28 and 6.1.29). Block is no longer supported (see sections 6.1.28 and 6.1.29). Added register 61446 (Recloser Mode). Added Counter registers 61556 through 61581. Added Alarm registers 61683 through 61687. Added oscillographic Trigger Source bits definitions (register 63211). Added note concerning obsolescence of the block at version V2.00. Added note concerning obsolescence of the block at version V2.00. Added Protection Settings. Added Recloser Settings (PCD2000 only). Added Fault Indicator / Sectionalizer / Source Transfer Settings (SCD2000 only). Added new IO mapping table for Single Phase PCD2000 support. 5 PCD MODBUS® Protocol Implementation Details ABB Inc. REVISION 1.6 1.7 SECTION 3.1.1 3.1.3 5.1.3 5.1.8 5.1.8 5.2.1 5.3.2 6.1.9 6.1.10 6.1.11 6.1.31 6.1.31 3.1.1 3.1.3 5.1.2 5.1.7 5.1.8 5.3.2 6.1.8 6.1.8.1 6.1.8.2 6.1.8.3 6.1.9 6.1.28 6.1.29 6.1.31 1.8 6.1.32 6.1.33 6.1.34 6.1.35 3.1.1 3.1.3 4.1 5.1.2 5.1.3 5.1.8 5.3.2 6.1 6.1.7 6.1.8.4 6.1.9 6.1.16 6.1.31 DESCRIPTION Added LCM Trip logical output points 194 – 195 Added LCM Trip logical output points 899 – 902 Added LCM voltage metering values 40342 – 40359 Added LCM Trip logical outputs 40939 bits 29 – 30 Added LCM Status output 40951 – 40952 Added LCM control inputs 41153 bit 12 and 41258 – 41263 Added LCM Trip / Close operation record points 244 – 245 Added Switch control points 61447 - 61451 Added / modified Fault indication / switch operation counters 61577 - 61585 Added MAV option to points 61683 – 61687 Removed unused “Programmable Alarm Names” block 64864 – 65030 Added LCM settings block 64864 – 64885 Added LCM Close output logicals (single bit data) 196 – 197 Added TAGBTN output logical (single bit data) for Hot tag button status 198 (Catalog numbers XR3X-XXXXXX-XXXX) Added LCM Midpoint operation output logical (single bit data) 199 - 200 Added LCM Close output logicals (two bit data) 903 – 906 Added TAGBTN output logical (two bit data) for Hot tag button status 907 - 908 (Catalog numbers XR3XXXXX-XX-XXXX) Added LCM Midpoint operation output logicals (two bit data) 909 – 912 Changed scaling factor for register 40146 Corrected register definitions 40808 - 40815 Added Sectionalizer step count register 40819 Added LCM close, Tag button status and LCM midpoint operation outputs to register 40939 (bits 24 – 28) Added Front Panel Tag enabled/disabled operation record indices 214 – 215 (Catalog numbers XR3X-XXXXXX-XXXX) Added LCM Midpoint / Reboot / FIFO operation record points 246 – 249 Added new recloser curves type V and VI (tables 6.1.8.3.1 and 6.1.8.3.2). Types I – IV curves are now obsolete. Corrected catalog number errors in table 6.1.8.4 Tap Settings. 67P high tap range entry corrected in first table of table 6.1.8.4 Tap Settings. Corrected definitions for options 5/6 for SEF model register 61075 Corrected definitions for options 5/6 for SEF model register 61203 Corrected definitions for options 5/6 for SEF model register 61331 Corrected definition of register 61425, bit 8. Bit15, Original State not available to users. Added zero sequence (SEF) CT ratio register to document (61429) Added note to describe group selection (Primary, Alt1 and Alt2). Replaced recloser types in registers 64487, 64492, 64505, 64510, 64515, 64531, 64538 Added registers 64645 – 64646 for 79C functions. Changed lower limits for registers 64882 - 64884 Added register 64886 Added registers 64992 – 65048, DNP Binary Inputs Assignable Class Settings (PCD Rev. 2.40 and above) Added registers 65120 – 65161, DNP Analog Inputs Assignable Class Settings (PCD Rev. 2.40 and above) Added registers 65248 – 65356, DNP Binary Inputs Assignable Point Index Settings Added registers 65376 – 65454, DNP Analog Inputs Assignable Point Index Settings Added logical outputs 201 – 209 Added logical outputs (two bit data) 913 – 930 Correction in description for registers 10015, 10016 Added register (40190) for UPS firmware, and a comment for catalog number (register 40133 – 40142) Added registers 40360 – 40362, correction in description for register 40340 Added logical outputs bits 15 – 23, register 40939 Added operations log #122, 195-198, 250, 251. Correction in description for log # 39, 248, 249 Added / updated several logical outputs (189 – 208). Most (189 – 199) should have been updated during previous version releases. Added range, step and scaling factors (already implemented) to the document Tap settings table errors fixed Added register # 61452 Added registers (62468 – 62470). Added ranges for all registers. Condition added for register 64885 (register not used for Tie point operation any more) 6 PCD MODBUS® Protocol Implementation Details ABB Inc. REVISION 1.9 1.10 SECTION 5.3.1 5.3.2 6.1.9 4.1.1 4.1.3 5.1.8 5.2.1 5.3.2 5.3.7 6.1 6.1.8.4 6.1.9 6.1.16 1.11 3.1.1 3.1.3 5.1.2 5.1.8 5.2.1 5.3.2 5.3.2 6.1 6.1.9 6.1.8.3.1 6.1.8.3.2 6.1.28 6.1.31 6.1.32 6.1.34 1.12 5.1.3 5.2.1 5.3.1 5.3.2 6.1.9 6.1.30 DESCRIPTION Fault records registers # 41443 onwards, definitions corrected to match firmware Operations records (#252 – 255) added. Note added for register 61429 Logical inputs RST_TA and RST_SA added Logical inputs RST_TA and RST_SA added Logical inputs RST_TA and RST_SA added “Note 1” added to long word descriptions for registers 41190 - 41201 Operations records (#256 – 259) added for LCM S1/S2 ON/OFF Load profile data header attribute list updated. Note for attribute definition exceptions / table added. Logical inputs RST_TA and RST_SA added New catalog numbers added for Voltage divider sensor option Voltage ratio upper limit changed to 32000 New settings added (register # 61453 – 61456). IEC protocol added to register 62440 Setting range changed for registers 62441, 42, 49, 50, 57, 59, 60, 64 Settings banks 1,2 added (210-211) Settings banks 1,2 added (931–934) Settings banks 1,2 added (Register 40129, bits 11-12) Communications error #15 added to register 40175 New registers added (40191, 40192) Settings banks 1,2 added (Register 40929-30, bits 14,15; Register 40939-40, bits 13-14) Settings banks 1,2 added (Register 41220, bits 4-5) New operations records added (375–386) New editor access codes description added Settings banks 1,2 added (209-210) New registers added to config settings (61457-61459) IEC curves added to recloser curve group IEC curves added to recloser curve group Settings bank2 added to protection groups, one typo corrected New LCM setting added (Register 64887) New registers added (65049-50), 65048 modified New registers added (65357-9), 65356 modified MAV reference removed from title, company address changed to Lake Mary, Florida. Comment added for metering values’ dependence on protection setting (RMS / Fundamental) Added one shot disable/enable, sectionalizer block/unblock functions, SCD only (41214) Added SCD fault type (41411) New operations records added (387 – 399). Added new functions (2, 3) to prog 2 button (61458) Added prog1 button function selection (61460) Corrected permitted range values (64736 and 64750) New setting added for volt drop percent (64762) The following are trademarks of AEG Schneider Automation, Inc.: Modicon® and Modbus® 7 PCD MODBUS® Protocol Implementation Details ABB Inc. (This page is intentionally blank.) 8 PCD MODBUS® Protocol Implementation Details ABB Inc. Table of Contents 1 INTRODUCTION........................................................................................................................................ 11 2 CONFIGURATION ...................................................................................................................................... 13 2.1 3 END-USER CONFIGURATION ................................................................................................................... 13 0X REGISTERS........................................................................................................................................... 15 3.1 FUNCTION CODE 1 (READ COIL STATUS) ............................................................................................... 15 3.1.1 Logical Output Block (Single Bit Data) ............................................................................................ 17 3.1.2 Physical Output Block (Single Bit Data)........................................................................................... 22 3.1.3 Logical Output Block (Two Bit Data with Momentary Change Detection) ...................................... 23 3.1.4 Physical Output Block (Two Bit Data with Momentary Change Detection) .................................... 32 4 1X REGISTERS........................................................................................................................................... 35 4.1 FUNCTION CODE 2 (READ INPUT STATUS)................................................................................................ 35 4.1.1 Logical Input Block (Single Bit Data) .............................................................................................. 35 4.1.2 Physical Input Block (Single Bit Data)............................................................................................. 37 4.1.3 Logical Input Block (Two Bit Data with Momentary Change Detection) ........................................ 38 4.1.4 Physical Input Block (Two Bit Data with Momentary Change Detection)....................................... 42 5 4X REGISTERS........................................................................................................................................... 45 5.1 FUNCTION CODE 3 (READ HOLDING REGISTER) .................................................................................... 45 5.1.1 User Programmable Register Block (Defaults)................................................................................ 46 5.1.2 System Status/Configuration Block ................................................................................................... 48 5.1.3 RMS Load Current/Angular Values Block/Other Primary Analog Quantities.................................. 50 5.1.4 RMS Demand Current/Real and Reactive Power Values Block........................................................ 52 5.1.5 RMS Peak Demand Current/Real, Reactive Power Values and Time Stamps Block ....................... 53 5.1.6 RMS Minimum Demand Current/Real, Reactive Power Values and Time Stamps Block ................. 55 5.1.7 Counters Block .................................................................................................................................. 57 5.1.8 Physical and Logical Input/Output State Block ................................................................................ 58 5.2 FUNCTION CODE 16 (PRESET MULTIPLE REGISTER) ............................................................................. 63 5.2.1 Control Mask Block (Read and Write) .............................................................................................. 64 5.3 FUNCTION CODE 23 (READ/WRITE 4X REGISTERS) .............................................................................. 71 5.3.1 Fault Record...................................................................................................................................... 71 5.3.2 Operation Record .............................................................................................................................. 73 5.3.3 Oscillographic Record Data Headers Block ..................................................................................... 81 5.3.4 Oscillographic Digital Records Block............................................................................................... 83 5.3.5 Oscillographic Analog Records Block .............................................................................................. 84 5.3.6 Oscillographic Control and Status Block.......................................................................................... 85 5.3.7 Load Profile Data Header................................................................................................................. 86 5.3.8 Load Profile Data Block.................................................................................................................... 87 5.3.9 Load Profile Control Block ............................................................................................................... 89 5.3.10 Power Quality Records...................................................................................................................... 90 5.3.11 Power Quality Statistics .................................................................................................................... 92 5.3.12 Power Quality RMS Records............................................................................................................. 93 5.3.13 Power Quality Control and Status Block .......................................................................................... 94 5.3.14 Power Quality Informational Block .................................................................................................. 95 6 6X REGISTERS........................................................................................................................................... 97 9 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1 FUNCTION CODE 20 (READ GENERAL REFERENCE) FUNCTION CODE 21 (WRITE GENERAL REFERENCE).........................................................................................................................................................97 6.1.1 Programmable Input Select, Index, and Feedback Masks...............................................................107 6.1.2 Programmable Input Input Invert, AND/OR Select, & Output Invert Mask....................................109 6.1.3 Programmable User Defined Input Names .....................................................................................111 6.1.4 Programmable Output Select and Index..........................................................................................112 6.1.5 Programmable Output Input Invert, AND/OR Select, & Output Invert Mask .................................114 6.1.6 Programmable Output User Defined Strings ..................................................................................116 6.1.7 Programmable Output Delays.........................................................................................................117 6.1.8 Relay Settings...................................................................................................................................118 6.1.8.1. Primary Settings Group................................................................................................................122 6.1.8.2. Alternate 1 Settings Group ...........................................................................................................124 6.1.8.3. Alternate 2 Settings Group ...........................................................................................................126 6.1.9 Configuration Settings .....................................................................................................................128 6.1.10 Counter Settings...............................................................................................................................130 6.1.11 Alarm Settings..................................................................................................................................131 6.1.12 Real Time Clock...............................................................................................................................132 6.1.13 ULO Connection Settings and User Names.....................................................................................133 6.1.14 ULI User Names ..............................................................................................................................134 6.1.15 FLI User Names and Indices ...........................................................................................................135 6.1.16 Communications Settings.................................................................................................................137 6.1.17 Modbus Global Register Mapping Block.........................................................................................139 6.1.18 User Definable Register Configuration Block.................................................................................140 6.1.19 Miscellaneous Settings.....................................................................................................................145 6.1.20 Oscillographics Data Capture Settings ...........................................................................................146 6.1.21 Programmable Curve Parameters...................................................................................................147 6.1.22 Programmable Curve Data Settings................................................................................................148 6.1.23 Programmable Curve Pointer Table Settings..................................................................................150 6.1.24 Breaker Failure Unit Settings..........................................................................................................152 6.1.25 Master Trip Output Assignment.......................................................................................................153 6.1.26 Load Profile Attribute Assignment (Future) ....................................................................................154 6.1.27 Power Quality Settings......................................................................................................................155 6.1.28 Protection Settings (PCD2000 Revision V2.00 and above, also SCD where applicable).....................157 6.1.29 Recloser Settings (PCD Revision V2.00 and above)...........................................................................160 6.1.30 Fault Indicator / Sectionalizer Settings (SCD only.).........................................................................162 6.1.31 Loop Control Module Settings.........................................................................................................163 6.1.32 DNP Binary Inputs Assignable Class Settings (PCD Rev. 2.40 and above) ...................................164 6.1.33 DNP Analog Inputs Assignable Class Settings (PCD Rev. 2.40 and above)...................................168 6.1.34 DNP Binary Inputs Assignable Point Index Settings.......................................................................171 6.1.35 DNP Analog Inputs Assignable Point Index Settings ......................................................................178 7 CATALOG DEPENDENCIES..................................................................................................................183 7.1 I/O MAPPING WITH RESPECT TO DIFFERENT CATALOG TYPES ...........................................................183 7.1.1 SCD and PCD Catalogued for Three Phase Operation (xxxx-xxxx-xx-x0xx)..................................183 7.1.2 PCD Catalogued for Single Phase Operation (xxxx-xxxx-x1-x1xx) ................................................184 10 PCD MODBUS® Protocol Implementation Details ABB Inc. 1 Introduction The purpose of this document is to describe the specific implementation of the Modicon Modbus protocol on the ABB Power Control Device (PCD) and the Switch Control Device (SCD). This document, in conjunction with the Modicon Modbus Protocol Reference Guide (PI-MBUS-300), published by Modicon, Inc., provides complete information on how to communicate with the PCD/SCD via the Modbus Protocol. Historically, the PCD/SCD product family is a descendent of the ABB DPU-2000R. The PCD software is based on the DPU-2000R software version 1.81 and includes the basic point set of the DPU up to that point. In the field, this means that replacing a DPU-2000R with a PCD should require minimal configuration changes or application changes to the master computer. The SCD is based on the same platform and firmware application as the PCD with enhancements supporting load break switch control. Most of the registers are common between the PCD and SCD and, where different, are appropriately designated. The PCD supports serial Modbus ASCII and Modbus RTU. The front panel optical port always communicates in Modbus ASCII mode. The rear panel RS232, RS485 or fiber optic ports can be switched to either Modbus mode or DNP 3.0 (through a catalog option) through the front panel or through configuration software. 11 PCD MODBUS® Protocol Implementation Details ABB Inc. (This page is intentionally blank.) 12 PCD MODBUS® Protocol Implementation Details ABB Inc. 2 Configuration 2.1 End-User Configuration Through the front panel interface of the PCD, various operating parameters may be changed by the end-user. The parameters that directly or indirectly configure the operation of the Modbus driver are listed in the table below and described in subsequent sections. The parameters are stored in nonvolatile memory and are therefore preserved even when the PCD is powered-down. The front panel of the PCD has a UNICOM II™ port and is always communicating in the Modbus ASCII protocol. Label Unit Address FP Baud FP Frame RP Baud RB Frame RP Protocol Description network address serial baud rate Range Units 0-FFF (hex) address 300, 1200, baud 2400, 4800, 9600 parity, data bits, stop bits N,8,1 N,8,2 parity,bits, bits serial baud rate 300, 1200, 2400, baud 4800, 9600, 19200 parity, data bits, stop bits N, 8, 1 E, 8, 1 parity,bits, O, 8, 1 bits N, 8, 2, E, 7, 1 O, 7, 1 N, 7, 2. protocol selection ASCII (Modbus) RTU (Modbus) DNP3.0* Table 1: Front Panel End-User Configuration Options Default 1 9600 N,8,1 9600 N, 8, 1 RTU *DNP 3.0 is available as a catalog option on the PCD Unit Address – This parameter specifies the “network” address of the PCD with respect to all other devices communicating on the same physical network as the PCD. The value is specified in hexadecimal on the front panel, and may range from between 0 and hex FFF, inclusive. Changing this value will cause a “warm” restart of the DNP 3.0 communication process. RP Baud – The serial baud rate for DNP communications. It can be set to one of: 300, 1200, 2400, 4800, 9600, or 19200. Changing this value will cause a “warm” restart of the DNP 3.0 communication process. RP Frame – The description of the parity, number of data bits, and number of stop bits. The possible values are “N, 8, 1,” “E, 8, 1,” “O, 8, 1.” “N, 8, 2,” “E, 7, 1,” “O, 7, 1,” and “N, 7, 2.” Typically, most DNP 3.0 devices use “N, 8, 1” - no parity, 8 data bits, and 1 stop bit. Changing this value will cause a “warm” restart of the DNP 3.0 communication process. RP Protocol – This parameter specifies the communication protocol selection for Rear Port 1. It has three possible values: ASCII (for ASCII mode Modbus), RTU (for RTU mode Modbus), and DNP 3.0. 13 PCD MODBUS® Protocol Implementation Details ABB Inc. (This page is intentionally blank.) 14 PCD MODBUS® Protocol Implementation Details ABB Inc. 3 0x Registers 3.1 FUNCTION CODE 1 (READ COIL STATUS) The output and input data blocks are split into two data types single bit data and two bit data. The single bit data allows the master to poll the present state of an input or output. The two bit data type assigns two bits of data for each input or output. The first bit is the present state of the input or output and the second bit is a momentary change status bit. The momentary change status bit contains information in that the input or output transitioned between two state from the last time that data was polled. This allows the master to detect if it missed any change in state of the input or output between polling sequences. Single bit data is packed in consecutive order from the start register and one bit per I/O contains the present state. The following example is for a master poll of Register 00009 collecting 16 Coils. The slave device’s logic is such that the 50N2 and 67P are the only outputs that are turned on. The following 16 bit register response will be generated from the slave PCD. high byte Coil 16 15 14 13 12 11 10 9 bit position Binary data 7 6 5 4 3 2 1 0 1 0 0 0 0 0 low byte 24 23 22 21 20 19 18 17 0 7 6 5 4 3 2 1 0 1 0 0 0 0 0 0 0 0 Now if the read coil status used the two bit register, the master would poll for Register 00529 collecting 32 Coils. If the slave device’s logic is such that the 50N2 and 67P are the only outputs that are turned on and since the last poll, the state of the 67P transitioned from On to Off back to On again. The following two 16 bit register response will be generated. 15 PCD MODBUS® Protocol Implementation Details ABB Inc. First register High byte Coil 536 535 534 533 532 531 530 529 Bit position 7 6 5 4 3 2 1 0 Binary data 0 0 0 0 0 0 0 1 Low byte Coil 544 543 542 541 540 539 538 537 Bit position 7 6 5 4 3 2 1 0 Binary data 0 0 1 1 0 0 0 0 High byte Coil 552 551 550 549 548 547 546 545 Bit position 7 6 5 4 3 2 1 0 Binary data 0 0 0 0 0 0 0 0 Low byte Coil 560 559 558 557 556 555 554 553 Bit position 7 6 5 4 3 2 1 0 Binary data 0 0 1 1 0 0 0 0 Second register In the example above, bit positions 5 and 4 in the low byte of the first register are both set. Bit position 4 indicates the present state of the 67P output, a one indicates it is on. Bit position 5 is the momentary change detect for 67P, it is also set indicating that the output transitioned through multiple changes since the last polling sequence of that register. Once a coil is read using the two bit data register method the momentary change bit is cleared within the slave device. Furthermore, the momentary bit cannot be read without its respective logical bit being read at the same time and viceversa. 16 PCD MODBUS® Protocol Implementation Details ABB Inc. 3.1.1 Logical Output Block (Single Bit Data) (Note: * means Sealed In output) REGISTER NMEMONIC DESCRIPTION 00001 00002 TRIP CLOSE Main Trip Output Main Close Output PRODUCT PCD PCD 00003 ALARM Self Test Alarm Output PCD 00004 27 Undervoltage Alarm (any phase) ALL 00005 46 Negative Sequence Overcurrent Alarm ALL 00006 50P1 50P-1 Trip Alarm PCD 00007 50N1 50N-1 Trip Alarm PCD 00008 50P2 50P-2 Trip Alarm PCD 00009 50N2 50N-2 Trip Alarm PCD 00010 50P3 50P-3 Trip Alarm PCD 00011 50N3 50N-3 Trip Alarm PCD 00012 51P 51P Trip Alarm PCD 00013 51N 51N Trip Alarm PCD 00014 59 Overvoltage Alarm (any phase) ALL 00015 67P 67P Trip Alarm PCD 00016 67N 67N Trip Alarm PCD 00017 81S-1 First Step Underfrequency Shed Alarm ALL 00018 81R-1 First Step Underfrequency Restore Alarm ALL 00019 PATA Phase A Target Alarm ALL 00020 PBTA Phase B Target Alarm ALL 00021 PCTA Phase C Target Alarm ALL 00022 TCFA Trip Circuit Failure Alarm ALL 00023 TCC Tap Change Cutout Contact PCD 00024 79DA Recloser Disabled Alarm PCD 00025 PUA Pickup Alarm ALL 00026 79LOA Lockout Alarm (Three phase mode) PCD 00027 BFA Breaker Fail Alarm (Three phase mode) PCD 00028 PDA Phase Demand Alarm ALL 00029 NDA Neutral Demand Alarm ALL 00030 BFUA Blown Fuse Alarm PCD 00031 KSI KSI Summation Alarm ALL 00032 79CA1 Reclose Counter 1 Alarm PCD 00033 HPFA High Power Factor Alarm ALL 00034 LPFA Low Power Factor Alarm ALL 00035 OCTC Overcurrent Trip Counter Alarm ALL 00036 50-1D 50-1 Disable Alarm PCD 00037 50-2D 50-2 Disable Alarm PCD 00038 STC Settings Table Changed Alarm PCD 00039 ZSC Zone Sequence Coordination Enabled Alarm PCD 00040 PH3-D Phase Units Disabled Alarm PCD 00041 GRD-D Neutral Units Disabled Alarm PCD 00042 32PA 67P Zone Pickup Alarm PCD 00043 32NA 67N Zone Pickup Alarm PCD 00044 27-3P Undervoltage Alarm (Any phase) ALL 00045 VARDA VAR Demand Alarm ALL 00046 79CA2 Reclose Counter 1 Alarm PCD 00047 TRIPA Phase A Trip Output PCD 00048 TRIPB Phase B Trip Output PCD 00049 TRIPC Phase C Trip Output PCD 00050 27* Undervoltage Alarm (any phase) (Seal-in) ALL 17 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER NMEMONIC DESCRIPTION 00051 00052 46* 50P1* 46 Trip Alarm (Seal-in) 50P-1 Trip Alarm (Seal-in) PRODUCT ALL PCD 00053 50N1* 50N-1 Trip Alarm (Seal-in) PCD 00054 50P2* 50P-2 Trip Alarm (Seal-in) PCD 00055 50N2* 50N-2 Trip Alarm (Seal-in) PCD 00056 50P3* 50P-3 Trip Alarm (Seal-in) PCD 00057 50N3* 50N-3 Trip Alarm (Seal-in) PCD 00058 51P* 51P Trip Alarm (Seal-in) PCD 00059 51N* 51N Trip Alarm (Seal-in) PCD 00060 59* Overvoltage Alarm (any phase) (Seal-in) ALL 00061 67P* 67P Trip Alarm (Seal-in) PCD 00062 67N* 67N Trip Alarm (Seal-in) PCD 00063 81S-1* First Step Underfreq. Shed Alarm (Seal-in) ALL 00064 81R-1* First Step Overfreq. Restore Alarm (Seal-in) ALL 00065 81O-1* First Step Overfrequency Alarm (Seal-in) ALL 00066 27-3P* Undervoltage Alarm (Any phase) (Seal-in) ALL 00067 TRIPA* Phase A Trip Output (Seal-in) PCD 00068 TRIPB* Phase B Trip Output (Seal-in) PCD 00069 TRIPC* Phase C Trip Output (Seal-in) PCD 00070 ULO1 User Logical Output 1 ALL 00071 ULO2 User Logical Output 2 ALL 00072 ULO3 User Logical Output 3 ALL 00073 ULO4 User Logical Output 4 ALL 00074 ULO5 User Logical Output 5 ALL 00075 ULO6 User Logical Output 6 ALL 00076 ULO7 User Logical Output 7 ALL 00077 ULO8 User Logical Output 8 ALL 00078 ULO9 User Logical Output 9 ALL 00079 PVARA Positive VAR Alarm ALL ALL 00080 NVARA Negative VAR Alarm 00081 LOADA Load Current Alarm ALL 00082 81O-1 First Step Overfrequency Alarm ALL 00083 81O-2 Second Step Overfrequency Alarm ALL 00084 81S-2 Second Step Underfrequency Shed Alarm ALL 00085 81R-2 Second Step Overfrequency Restore Alarm ALL 00086 81O-2* Second Step Underfrequency Shed Alarm (Seal-in) ALL 00087 81S-2* Second Step Underfrequency Shed Alarm (Seal-in) ALL 00088 81R-2* Second Step Overfrequency Restore Alarm (Seal-in) ALL 00089 CLTA Cold Load Timer Active Alarm PCD 00090 Watt1 Positive Watt Alarm 1 ALL 00091 Watt2 Positive Watt Alarm 2 ALL 00092 79CA1* Reclose Counter 1 Alarm (Seal-in) PCD 00093 79CA2* Reclose Counter 2 Alarm (Seal-in) PCD 00094 SEF* Sensitive Earth Fault Trip Output (Seal-in) PCD 00095 SEF Sensitive Earth Fault Trip Output PCD 00096 BZONE Bus Zone Pickup Alarm ALL 00097 BF Trip Breaker Failure Module: Trip Output PCD 00098 BF ReTrip Breaker Failure Module: Retrip Output PCD 00099 BF Trip* Breaker Failure Module: Trip Output (Seal-in) PCD 00100 BF ReTrip* Breaker Failure Module: Retrip Output (Seal-in) PCD 00101 32P Phase Directional Alarm PCD 00102 32N Neutral Directional Alarm PCD 18 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER NMEMONIC DESCRIPTION 00103 00104 32P* 32N* Phase Directional Alarm (Seal-in) Neutral Directional Alarm (Seal-in) PRODUCT PCD PCD 00105 BFA* Breaker Fail Alarm (Three phase mode) (Seal-in) PCD 00106 RBA Remote Blocked Alarm ALL 00107 27A Phase A Undervoltage Alarm ALL 00108 27B Phase B Undervoltage Alarm ALL 00109 27C Phase C Undervoltage Alarm ALL 00110 LOAC Loss Of AC Alarm ALL 00111 27A* Phase A Undervoltage Alarm (Seal-in) ALL 00112 27B* Phase B Undervoltage Alarm (Seal-in) ALL 00113 27C* Phase C Undervoltage Alarm (Seal-in) ALL 00114 LOAC* Loss Of AC Alarm (Seal-in) ALL 00115 TAGOPN Tag Open Output ALL 00116 TAGCLS Tag Close Output ALL 00117 59A Phase A Overvoltage Alarm ALL 00118 59B Phase B Overvoltage Alarm ALL 00119 59C Phase C Overvoltage Alarm ALL 00120 59-3P Overvoltage Alarm (Three phase) ALL 00121 59A* Phase A Overvoltage Alarm (Seal-in) ALL 00122 59B* Phase B Overvoltage Alarm (Seal-in) ALL 00123 59C* Phase C Overvoltage Alarm (Seal-in) ALL 00124 59-3P* Overvoltage Alarm (Three phase) (Seal-in) ALL 00125 PTA Phase Target Alarm ALL 00126 NTA Neutral Target Alarm ALL 00127 CLOSEA Phase A Close (Single phase mode only) PCD 00128 CLOSEB Phase B Close (Single phase mode only) PCD 00129 CLOSEC Phase C Close (Single phase mode only) PCD 00130 FAILA Phase A Pole Failure (Single phase mode only) PCD 00131 FAILB Phase B Pole Failure (Single phase mode only) PCD 00132 FAILC Phase C Pole Failure (Single phase mode only) PCD 00133 50-1A Phase A 50P-1 Trip Alarm PCD 00134 50-1B Phase B 50P-1 Trip Alarm PCD 00135 50-1C Phase C 50P-1 Trip Alarm PCD 00136 50-1A* Phase A 50P-1 Trip Alarm (Seal-in) PCD 00137 50-1B* Phase B 50P-1 Trip Alarm (Seal-in) PCD 00138 50-1C* Phase C 50P-1 Trip Alarm (Seal-in) PCD 00139 50-2A Phase A 50P-2 Trip Alarm PCD 00140 50-2B Phase B 50P-2 Trip Alarm PCD 00141 50-2C Phase C 50P-2 Trip Alarm PCD 00142 50-2A* Phase A 50P-2 Trip Alarm (Seal-in) PCD 00143 50-2B* Phase B 50P-2 Trip Alarm (Seal-in) PCD 00144 50-2C* Phase C 50P-2 Trip Alarm (Seal-in) PCD 00145 50-3A Phase A 50P-3 Trip Alarm PCD 00146 50-3B Phase B 50P-3 Trip Alarm PCD 00147 50-3C Phase C 50P-3 Trip Alarm PCD 00148 50-3A* Phase A 50P-3 Trip Alarm (Seal-in) PCD 00149 50-3B* Phase B 50P-3 Trip Alarm (Seal-in) PCD 00150 50-3C* Phase C 50P-3 Trip Alarm (Seal-in) PCD 00151 51A Phase A 51P Trip Alarm PCD 00152 51B Phase B 51P Trip Alarm PCD 00153 51C Phase C 51P Trip Alarm PCD 00154 51A* Phase A 51P Trip Alarm (Seal-in) PCD 19 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER NMEMONIC DESCRIPTION 00155 00156 51B* 51C* Phase B 51P Trip Alarm (Seal-in) Phase C 51P Trip Alarm (Seal-in) PRODUCT PCD PCD 00157 67A Phase A 67P Trip Alarm PCD 00158 67B Phase B 67P Trip Alarm PCD 00159 67C Phase C 67P Trip Alarm PCD 00160 67A* Phase A 67P Trip Alarm (Seal-in) PCD 00161 67B* Phase B 67P Trip Alarm (Seal-in) PCD 00162 67C* Phase C 67P Trip Alarm (Seal-in) PCD 00163 LOCKA Phase A Lockout (Single Phase Only) PCD 00164 LOCKB Phase B Lockout (Single Phase Only) PCD 00165 LOCKC Phase B Lockout (Single Phase Only) PCD 00166 SW1 Trip Switch 1 Open SCD 00167 SW1 Close Switch 1 Close SCD 00168 SW1 Fail Switch 1 Failure SCD 00169 SW2 Trip Switch 2 Open SCD 00170 SW2 Close Switch 2 Close SCD 00171 SW2 Fail Switch 2 Failure SCD 00172 SW3 Trip Switch 3 Open SCD 00173 SW3 Close Switch 3 Close SCD 00174 SW3 Fail Switch 3 Failure SCD 00175 SW4 Trip Switch 4 Open SCD 00176 SW4 Close Switch 4 Close SCD 00177 SW4 Fail Switch 4 Failure SCD 00178 FLTDET Fault detected SCD 00179 FLTDET* Fault Detected (seal-in) SCD 00180 SW1A Switch 1 Operations Alarm SCD 00181 SW2A Switch 2 Operations Alarm SCD 00182 SW3A Switch 3 Operations Alarm SCD 00183 SW4A Switch 4 Operations Alarm SCD 00184 SW1A* Switch 1 Operations Alarm (seal-in) SCD 00185 SW2A* Switch 2 Operations Alarm (seal-in) SCD 00186 SW3A* Switch 3 Operations Alarm (seal-in) SCD 00187 SW4A* Switch 4 Operations Alarm (seal-in) SCD 00188 SECALM Sectionalizer Blocked Alarm SCD 00189 OSALRM Sectionalizer One-Shot Enabled Alarm SCD 00190 PSXFER Pri to Sec Source Xfer in progress SCD 00191 SPXFER Sec to Pri Source Xfer in progress SCD 00192 PSXFER* Sealin for PSXFER SCD 00193 SPXFER* Sealin for SPXFER SCD 00194 LCMTRIP Trip due to LCM PCD 00195 LCMTRIP* Sealin for LCMTRIP PCD 00196 LCMCLOSE Close due to LCM PCD 00197 LCMCLOSE* Sealin for LCMCLOSE PCD 00198 TAGBTN Hot tag button status PCD 00199 LCMMIDPOINT LCM Midpoint operation PCD 00200 LCMMIDPOINT* Sealin for LCM Midpoint operation PCD 00201 ISD_TRIPA Trip phase A signal to ISD PCD 00202 ISD_TRIPB Trip phase B signal to ISD PCD 00203 ISD_TRIPC Trip phase C signal to ISD PCD 00204 ISD_TRIG Trigger signal to ISD PCD 00205 CPU_BATT_FAIL Replace CPU Battery PCD 00206 BATT_FAIL Battery failure PCD 20 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER NMEMONIC DESCRIPTION 00207 00208 PRIM_ACTIVE ALT1_ACTIVE Primary protection settings group active Alt1 protection settings group active 00209 ALT2_ACTIVE Alt2 protection settings group active PCD 00210 BANK_1 Bank1 settings active PCD 00211 BANK_2 Bank2 settings active PCD 21 PRODUCT PCD PCD PCD MODBUS® Protocol Implementation Details ABB Inc. 3.1.2 Physical Output Block (Single Bit Data) REGISTER NMEMONIC DESCRIPTION 00257 00258 OUT32 OUT31 Physical Output 32 Physical Output 31 PRODUCT ALL ALL 00259 OUT30 Physical Output 30 ALL 00260 OUT29 Physical Output 29 ALL 00261 OUT28 Physical Output 28 ALL 00262 OUT27 Physical Output 27 ALL 00263 OUT26 Physical Output 26 ALL 00264 OUT25 Physical Output 25 ALL 00265 OUT24 Physical Output 24 ALL 00266 OUT23 Physical Output 23 ALL 00267 OUT22 Physical Output 22 ALL 00268 OUT21 Physical Output 21 ALL 00269 OUT20 Physical Output 20 ALL 00270 OUT19 Physical Output 19 ALL 00271 OUT18 Physical Output 18 ALL 00272 OUT17 Physical Output 17 ALL 00273 OUT16 Physical Output 16 ALL 00274 OUT15 Physical Output 15 ALL 00275 OUT14 Physical Output 14 ALL 00276 OUT13 Physical Output 13 ALL 00277 OUT12 Physical Output 12 ALL 00278 OUT11 Physical Output 11 ALL 00279 OUT10 Physical Output 10 ALL 00280 OUT9 Physical Output 9 ALL 00281 OUT8 Physical Output 8 ALL 00282 OUT7 Physical Output 7 ALL 00283 OUT6 Physical Output 6 ALL 00284 OUT5 Physical Output 5 ALL 00285 OUT4 Physical Output 4 ALL 00286 OUT3 Physical Output 3 ALL 00287 OUT2 Physical Output 2 ALL 00288 OUT1 Physical Output 1 ALL 22 PCD MODBUS® Protocol Implementation Details ABB Inc. 3.1.3 Logical Output Block (Two Bit Data with Momentary Change Detection) Note: The momentary bit cannot be read without its respective logical bit being read at the same time and vice-versa. REGISTER NMEMONIC DESCRIPTION 00513 00514 TRIP Main Trip Output 00515 CLOSE Main Close Output 00516 00517 ALARM Self Test Alarm Output 27 Undervoltage Alarm (any phase) 00518 00519 00520 00521 46 Negative Sequence Overcurrent Alarm 50P1 50P-1 Trip Alarm 50N1 50N-1 Trip Alarm 50P2 50P-2 Trip Alarm 50N2 50N-2 Trip Alarm 50P3 50P-3 Trip Alarm 50N3 50N-3 Trip Alarm 51P 51P Trip Alarm 51N 51N Trip Alarm 59 Overvoltage Alarm (any phase) 00522 00523 00524 00525 00526 00527 00528 00529 00530 00531 00532 00533 00534 00535 00536 00537 00538 00539 00540 00541 67P 67P Trip Alarm 00542 00543 67N 67N Trip Alarm 81S-1 First Step Underfrequency Shed Alarm 00544 00545 00546 00547 81R-1 First Step Underfrequency Restore Alarm PATA Phase A Target Alarm PBTA Phase B Target Alarm PCTA Phase C Target Alarm TCFA Trip Circuit Failure Alarm TCC Tap Change Cutout Contact 79DA Recloser Disabled Alarm 00548 00549 00550 00551 00552 00553 00554 00555 00556 00557 00558 00559 00560 23 ATTRIBUTE PRODUCT Status Momentary PCD PCD Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status ALL Momentary ALL Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status PCD Momentary PCD Status PCD Momentary PCD PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 00561 00562 00563 NMEMONIC PUA DESCRIPTION Pickup Alarm 79LOA Lockout Alarm (Three phase mode) 00564 00565 BFA Breaker Fail Alarm (Three phase mode) PDA Phase Demand Alarm 00566 00567 00568 00569 NDA Neutral Demand Alarm BFUA Blown Fuse Alarm KSI KSI Summation Alarm 00570 00571 00572 00573 00574 00575 79CA1 Reclose Counter 1 Alarm HPFA High Power Factor Alarm 00576 00577 00578 00579 LPFA Low Power Factor Alarm OCTC Overcurrent Trip Counter Alarm 50-1D 50-1 Disable Alarm 50-2D 50-2 Disable Alarm STC Settings Table Changed Alarm ZSC Zone Sequence Coordination Enabled Alarm PH3-D Phase Units Disabled Alarm GRD-D Neutral Units Disabled Alarm 32PA 67P Zone Pickup Alarm 32NA 67N Zone Pickup Alarm 27-3P Undervoltage Alarm (Any phase) 00580 00581 00582 00583 00584 00585 00586 00587 00588 00589 00590 00591 00592 00593 00594 00595 00596 00597 00598 00599 00600 00601 VARDA VAR Demand Alarm 79CA2 Reclose Counter 1 Alarm TRIPA Phase A Trip Output TRIPB Phase B Trip Output TRIPC Phase C Trip Output 27* Undervoltage Alarm (any phase) (Seal-in) 00602 00603 00604 00605 00606 00607 00608 00609 00610 00611 00612 24 ATTRIBUTE PRODUCT Status Momentary ALL ALL Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status ALL Momentary ALL Status PCD Momentary PCD Status ALL Momentary ALL Status PCD Momentary PCD Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status ALL Momentary ALL Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 00613 00614 00615 NMEMONIC 46* DESCRIPTION 46 Trip Alarm (Seal-in) 50P1* 50P-1 Trip Alarm (Seal-in) 00616 00617 50N1* 50N-1 Trip Alarm (Seal-in) 50P2* 50P-2 Trip Alarm (Seal-in) 50N2* 50N-2 Trip Alarm (Seal-in) 50P3* 50P-3 Trip Alarm (Seal-in) 50N3* 50N-3 Trip Alarm (Seal-in) 51P* 51P Trip Alarm (Seal-in) 51N* 51N Trip Alarm (Seal-in) 59* Overvoltage Alarm (any phase) (Seal-in) 00618 00619 00620 00621 00622 00623 00624 00625 00626 00627 00628 00629 00630 00631 00632 00633 67P* 67P Trip Alarm (Seal-in) 67N* 67N Trip Alarm (Seal-in) 81S-1* First Step Underfreq. Shed Alarm (Seal-in) 00634 00635 00636 00637 00638 00639 81R-1* First Step Overfreq. Restore Alarm (Seal-in) 81O-1* First Step Overfrequency Alarm (Seal-in) 27-3P* Undervoltage Alarm (Any phase) (Seal-in) TRIPA* Phase A Trip Output (Seal-in) TRIPB* Phase B Trip Output (Seal-in) TRIPC* Phase C Trip Output (Seal-in) ULO1 User Logical Output 1 00640 00641 00642 00643 00644 00645 00646 00647 00648 00649 00650 00651 00652 00653 ULO2 User Logical Output 2 ULO3 User Logical Output 3 ULO4 User Logical Output 4 ULO5 User Logical Output 5 ULO6 User Logical Output 6 ULO7 User Logical Output 7 00654 00655 00656 00657 00658 00659 00660 00661 00662 00663 00664 25 ATTRIBUTE PRODUCT Status Momentary ALL ALL Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 00665 00666 00667 NMEMONIC ULO8 DESCRIPTION User Logical Output 8 ULO9 User Logical Output 9 00668 00669 PVARA Positive VAR Alarm NVARA Negative VAR Alarm LOADA Load Current Alarm 81O-1 First Step Overfrequency Alarm 81O-2 Second Step Overfrequency Alarm 81S-2 Second Step Underfrequency Shed Alarm 81R-2 Second Step Overfrequency Restore Alarm 81O-2* Second Step Underfrequency Shed Alarm (Seal-in) 81S-2* Second Step Underfrequency Shed Alarm (Seal-in) 81R-2* Second Step Overfrequency Restore Alarm (Seal-in) CLTA Cold Load Timer Active Alarm Watt1 Positive Watt Alarm 1 00670 00671 00672 00673 00674 00675 00676 00677 00678 00679 00680 00681 00682 00683 00684 00685 00686 00687 00688 00689 00690 00691 00692 00693 Watt2 Positive Watt Alarm 2 79CA1* Reclose Counter 1 Alarm (Seal-in) 79CA2* Reclose Counter 2 Alarm (Seal-in) SEF* Sensitive Earth Fault Trip Output (Seal-in) SEF Sensitive Earth Fault Trip Output BZONE Bus Zone Pickup Alarm 00694 00695 00696 00697 00698 00699 00700 00701 00702 00703 00704 00705 BF Trip Breaker Failure Module: Trip Output BF ReTrip Breaker Failure Module: Retrip Output BF Trip* Breaker Failure Module: Trip Output (Seal-in) BF ReTrip* Breaker Failure Module: Retrip Output (Seal-in) 32P Phase Directional Alarm 32N Neutral Directional Alarm 00706 00707 00708 00709 00710 00711 00712 00713 00714 00715 00716 26 ATTRIBUTE PRODUCT Status Momentary ALL ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status PCD Momentary PCD Status ALL Momentary ALL Status ALL Momentary ALL Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 00717 00718 00719 NMEMONIC 32P* DESCRIPTION Phase Directional Alarm (Seal-in) 32N* Neutral Directional Alarm (Seal-in) 00720 00721 BFA* Breaker Fail Alarm (Three phase mode) (Sealin) RBA Remote Blocked Alarm 00722 00723 00724 00725 27A Phase A Undervoltage Alarm 27B Phase B Undervoltage Alarm 27C Phase C Undervoltage Alarm LOAC Loss Of AC Alarm 27A* Phase A Undervoltage Alarm (Seal-in) 27B* Phase B Undervoltage Alarm (Seal-in) 27C* Phase C Undervoltage Alarm (Seal-in) LOAC* Loss Of AC Alarm (Seal-in) TAGOPN Tag Open Output TAGCLS Tag Close Output 59A Phase A Overvoltage Alarm 59B Phase B Overvoltage Alarm 59C Phase C Overvoltage Alarm 59-3P Overvoltage Alarm (Three phase) 59A* Phase A Overvoltage Alarm (Seal-in) 59B* Phase B Overvoltage Alarm (Seal-in) 59C* Phase C Overvoltage Alarm (Seal-in) 59-3P* Overvoltage Alarm (Three phase) (Seal-in) PTA Phase Target Alarm NTA Neutral Target Alarm CLOSEA Phase A Close (Single phase mode only) CLOSEB Phase B Close (Single phase mode only) 00726 00727 00728 00729 00730 00731 00732 00733 00734 00735 00736 00737 00738 00739 00740 00741 00742 00743 00744 00745 00746 00747 00748 00749 00750 00751 00752 00753 00754 00755 00756 00757 00758 00759 00760 00761 00762 00763 00764 00765 00766 00767 00768 27 ATTRIBUTE PRODUCT Status Momentary PCD PCD Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status PCD Momentary PCD Status PCD Momentary PCD PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 00769 00770 00771 NMEMONIC CLOSEC DESCRIPTION Phase C Close (Single phase mode only) FAILA Phase A Pole Failure (Single phase mode only) 00772 00773 FAILB Phase B Pole Failure (Single phase mode only) FAILC Phase C Pole Failure (Single phase mode only) 50-1A Phase A 50P-1 Trip Alarm 50-1B Phase B 50P-1 Trip Alarm 50-1C Phase C 50P-1 Trip Alarm 50-1A* Phase A 50P-1 Trip Alarm (Seal-in) 50-1B* Phase B 50P-1 Trip Alarm (Seal-in) 50-1C* Phase C 50P-1 Trip Alarm (Seal-in) 50-2A Phase A 50P-2 Trip Alarm 50-2B Phase B 50P-2 Trip Alarm 50-2C Phase C 50P-2 Trip Alarm 50-2A* Phase A 50P-2 Trip Alarm (Seal-in) 50-2B* Phase B 50P-2 Trip Alarm (Seal-in) 50-2C* Phase C 50P-2 Trip Alarm (Seal-in) 50-3A Phase A 50P-3 Trip Alarm 50-3B Phase B 50P-3 Trip Alarm 50-3C Phase C 50P-3 Trip Alarm 50-3A* Phase A 50P-3 Trip Alarm (Seal-in) 50-3B* Phase B 50P-3 Trip Alarm (Seal-in) 50-3C* Phase C 50P-3 Trip Alarm (Seal-in) 51A Phase A 51P Trip Alarm 51B Phase B 51P Trip Alarm 51C Phase C 51P Trip Alarm 51A* Phase A 51P Trip Alarm (Seal-in) 00774 00775 00776 00777 00778 00779 00780 00781 00782 00783 00784 00785 00786 00787 00788 00789 00790 00791 00792 00793 00794 00795 00796 00797 00798 00799 00800 00801 00802 00803 00804 00805 00806 00807 00808 00809 00810 00811 00812 00813 00814 00815 00816 00817 00818 00819 00820 28 ATTRIBUTE PRODUCT Status Momentary PCD PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 00821 00822 00823 NMEMONIC 51B* DESCRIPTION Phase B 51P Trip Alarm (Seal-in) 51C* Phase C 51P Trip Alarm (Seal-in) 00824 00825 67A Phase A 67P Trip Alarm 67B Phase B 67P Trip Alarm 67C Phase C 67P Trip Alarm 67A* Phase A 67P Trip Alarm (Seal-in) 67B* Phase B 67P Trip Alarm (Seal-in) 67C* Phase C 67P Trip Alarm (Seal-in) LOCKA Phase A Lockout (Single Phase Only) LOCKB Phase B Lockout (Single Phase Only) LOCKC Phase C Lockout (Single Phase Only) SW1 Trip Switch 1 Open SW1 Close Switch 1 Close SW1 Fail Switch 1 Failure SW2 Trip Switch 2 Open SW2 Close Switch 2 Close SW2 Fail Switch 2 Failure SW3 Trip Switch 3 Open SW3 Close Switch 3 Close SW3 Fail Switch 3 Failure SW4 Trip Switch 4 Open SW4 Close Switch 4 Close SW4 Fail Switch 4 Failure FLTDET Fault detected FLTDET* Fault detected (Seal-in) SW1A Switch 1 Operations Alarm 00826 00827 00828 00829 00830 00831 00832 00833 00834 00835 00836 00837 00838 00839 00840 00841 00842 00843 00844 00845 00846 00847 00848 00849 00850 00851 00852 00853 00854 00855 00856 00857 00858 00859 00860 00861 00862 00863 00864 00865 00866 00867 00868 00869 00870 00871 00872 29 ATTRIBUTE PRODUCT Status Momentary PCD PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 00873 00874 00875 NMEMONIC SW2A DESCRIPTION Switch 2 Operations Alarm SW3A Switch 3 Operations Alarm 00876 SW4A Switch 4 Operations Alarm SW1A* Switch 1 Operations Alarm (seal-in) SW2A* Switch 2 Operations Alarm (seal-in) SW3A* Switch 3 Operations Alarm (seal-in) SW4A* Switch 4 Operations Alarm (seal-in) SECALM Sectionalizer Blocked Alarm OSALRM Sectionalizer One-Shot Enabled Alarm PSXFER Pri to Sec Source Xfer in progress SPXFER Sec to Pri Source Xfer in progress PSXFER* Sealin for PSXFER SPXFER* Sealin for SPXFER LCMTRIP Trip due to LCM LCMTRIP* Sealin for LCMTRIP LCMCLOSE Close due to LCM LCMCLOSE* Sealin for LCMCLOSE TAGBTN Hot tag button status LCMMIDPOINT LCM Midpoint operation 00911 LCMMIDPOINT* Sealin for LCM Midpoint operation 00912 00913 ISD_TRIPA 00914 00915 00877 00878 00879 00880 00881 00882 00883 00884 00885 00886 00887 00888 00889 00890 00891 00892 00893 00894 00895 00896 00897 00898 00899 00900 00901 00902 00903 00904 00905 00906 00907 1 00908 1 00909 00910 ATTRIBUTE PRODUCT Status Momentary SCD SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Trip phase A signal to ISD Momentary Status PCD PCD ISD_TRIPB Trip phase B signal to ISD Momentary Status PCD PCD 00916 00917 ISD_TRIPC Trip phase C signal to ISD Momentary Status PCD PCD 00918 00919 ISD_TRIG Trigger signal to ISD Momentary Status PCD PCD 00920 00921 CPU_BATT_FAIL Replace CPU Battery Momentary Status PCD PCD 00922 00923 BATT_FAIL Battery failure Momentary Status PCD PCD Momentary PCD 00924 30 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 00925 00926 00927 NMEMONIC PRIM_ACTIVE DESCRIPTION Primary protection settings group active ALT1_ACTIVE Alt1 protection settings group active 00928 00929 ALT2_ACTIVE Alt2 protection settings group active BANK1_ACTIVE Bank1 protection settings active BANK2_ACTIVE Bank2 protection settings active 00930 00931 00932 00933 00934 ATTRIBUTE PRODUCT Status Momentary PCD PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Notes: 1. These are available only on PCDs with style chart numbers XR3X-XXXX-XX-XXXX. 31 PCD MODBUS® Protocol Implementation Details ABB Inc. 3.1.4 Physical Output Block (Two Bit Data with Momentary Change Detection) Note: The momentary bit cannot be read without its respective logical bit being read at the same time and vice-versa. REGISTER NMEMONIC DESCRIPTION 01025 OUT32 Physical Output 32, Status PRODUCT ALL 01026 OUT32 Physical Output 32, Momentary ALL 01027 OUT31 Physical Output 31, Status ALL 01028 OUT31 Physical Output 31, Momentary ALL 01029 OUT30 Physical Output 30, Status ALL 01030 OUT30 Physical Output 30, Momentary ALL 01031 OUT29 Physical Output 29, Status ALL 01032 OUT29 Physical Output 29, Momentary ALL 01033 OUT28 Physical Output 28, Status ALL 01034 OUT28 Physical Output 28, Momentary ALL 01035 OUT27 Physical Output 27, Status ALL 01036 OUT27 Physical Output 27, Momentary ALL 01037 OUT26 Physical Output 26, Status ALL 01038 OUT26 Physical Output 26, Momentary ALL 01039 OUT25 Physical Output 25, Status ALL 01040 OUT25 Physical Output 25, Momentary ALL 01041 OUT24 Physical Output 24, Status ALL 01042 OUT24 Physical Output 24, Momentary ALL 01043 OUT23 Physical Output 23, Status ALL 01044 OUT23 Physical Output 23, Momentary ALL 01045 OUT22 Physical Output 22, Status ALL 01046 OUT22 Physical Output 22, Momentary ALL 01047 OUT21 Physical Output 21, Status ALL 01048 OUT21 Physical Output 21, Momentary ALL 01049 OUT20 Physical Output 20, Status ALL 01050 OUT20 Physical Output 20, Momentary ALL 01051 OUT19 Physical Output 19, Status ALL 01052 OUT19 Physical Output 19, Momentary ALL 01053 OUT18 Physical Output 18, Status ALL 01054 OUT18 Physical Output 18, Momentary ALL 01055 OUT17 Physical Output 17, Status ALL 01056 OUT17 Physical Output 17, Momentary ALL 01057 OUT16 Physical Output 16, Status ALL 01058 OUT16 Physical Output 16, Momentary ALL 01059 OUT15 Physical Output 15, Status ALL 01060 OUT15 Physical Output 15, Momentary ALL 01061 OUT14 Physical Output 14, Status ALL 01062 OUT14 Physical Output 14, Momentary ALL 01063 OUT13 Physical Output 13, Status ALL 01064 OUT13 Physical Output 13, Momentary ALL 01065 OUT12 Physical Output 12, Status ALL 01066 OUT12 Physical Output 12, Momentary ALL 01067 OUT11 Physical Output 11, Status ALL 01068 OUT11 Physical Output 11, Momentary ALL 32 PCD MODBUS® Protocol Implementation Details ABB Inc. 01069 OUT10 Physical Output 10, Status ALL 01070 OUT10 Physical Output 10, Momentary ALL 01071 OUT9 Physical Output 9, Status ALL 01072 OUT9 Physical Output 9, Momentary ALL 01073 OUT8 Physical Output 8, Status ALL 01074 OUT8 Physical Output 8, Momentary ALL 01075 OUT7 Physical Output 7, Status ALL 01076 OUT7 Physical Output 7, Momentary ALL 01077 OUT6 Physical Output 6, Status ALL 01078 OUT6 Physical Output 6, Momentary ALL 01079 OUT5 Physical Output 5, Status ALL 01080 OUT5 Physical Output 5, Momentary ALL 01081 OUT4 Physical Output 4, Status ALL 01082 OUT4 Physical Output 4, Momentary ALL 01083 OUT3 Physical Output 3, Status ALL 01084 OUT Physical Output 3, Momentary ALL 01085 OUT2 Physical Output 2, Status ALL 01086 OUT2 Physical Output 2, Momentary ALL 01087 OUT1 Physical Output 1, Status ALL 01088 OUT1 Physical Output 1, Momentary ALL 33 PCD MODBUS® Protocol Implementation Details ABB Inc. (This page is intentionally blank.) 34 PCD MODBUS® Protocol Implementation Details ABB Inc. 4 1X REGISTERS 4.1 4.1.1 FUNCTION CODE 2 (READ INPUT STATUS) Logical Input Block (Single Bit Data) REGISTER NMEMONIC DESCRIPTION 10001 52a 52a Contact Input PRODUCT 10002 52b 52b Contact Input PCD 10003 43a 43a Contact Input (Recloser Disable) PCD 10004 PH3 Phase Torque Control PCD 10005 GRD Neutral Torque Control PCD 10006 SCC Springs Charged Contact Input PCD 10007 79S Single Shot Reclose Initiate Input PCD PCD 10008 79M Mult-shot Reclose Initiate Input PCD 10009 TCM Trip Coil Monitor Input PCD 10010 50-1 50-1 Torque Control (Phase and Neutral) PCD 10011 50-2 50-2 Torque Control (Phase and Neutral) PCD 10012 50-3 50-3 Torque Control (Phase and Neutral) PCD 10013 ALT1 Alternate Setting Group 1 Enable ALL 10014 ALT2 Alternate Setting Group 2 Enable ALL 10015 ECI1 Event Capture Initiate 1 ALL 10016 ECI2 Event Capture Initiate 2 ALL 10017 WCI Waveform Capture Initiate ALL 10018 ZSC Zone Sequence Control Enable PCD 10019 OPEN Open Breaker Initiate PCD 10020 CLOSE Close Breaker Initiate PCD 10021 46 46 Torque Control ALL 10022 67P 67P Torque Control PCD 10023 67N 67N Torque Control PCD 10024 ULI1 User Logical Input 1 ALL 10025 ULI2 User Logical Input 2 ALL 10026 ULI3 User Logical Input 3 ALL 10027 ULI4 User Logical Input 4 ALL 10028 ULI5 User Logical Input 5 ALL 10029 ULI6 User Logical Input 6 ALL 10030 ULI7 User Logical Input 7 ALL 10031 ULI8 User Logical Input 8 ALL 10032 ULI9 User Logical Input 9 ALL 10033 CRI Clear Reclose and Overcurrent Counters ALL 10034 ARCI Automatic Reclose Inhibit PCD 10035 TARC Trip and Reclose Initiate PCD 10036 SEFTC Sensitive Earth Torque Control ALL 10037 ExtBFI External Breaker Failure Initiate PCD 10038 BFI Breaker Failure Initiate PCD 10039 RBI Remote Block Input ALL 35 PCD MODBUS® Protocol Implementation Details ABB Inc. 10040 ALT1Pon ALT1 Pulse On Input 10041 ALT1Poff ALT1 Pulse Off Input ALL ALL 10042 ALT2Pon ALT2 Pulse On Input ALL 10043 ALT2Poff ALT2 Pulse Off Input ALL 10044 OPNBLK Open Control Block Input ALL 10045 CLSBLK Close Control Block Input ALL 10046 TAGMSG Tag Message Enable Input ALL 10047 52aA Phase A 52a Contact (Single Phase Only) PCD 10048 52aB Phase B 52a Contact (Single Phase Only) PCD 10049 52aC Phase C 52a Contact (Single Phase Only) PCD 10050 52bA Phase A 52b Contact (Single Phase Only) PCD 10051 52bB Phase B 52b Contact (Single Phase Only) PCD 10052 52bC Phase C 52b Contact (Single Phase Only) PCD 10053 TRIPA Phase A Trip Initiate (Single Phase Only) PCD 10054 TRIPB Phase B Trip Initiate (Single Phase Only) PCD 10055 TRIPC Phase C Trip Initiate (Single Phase Only) PCD 10056 CLOSEA Phase A Close Initiate (Single Phase Only) PCD 10057 CLOSEB Phase B Close Initiate (Single Phase Only) PCD 10058 CLOSEC Phase C Close Initiate (Single Phase Only) PCD 10059 SW1-52a Switch 1 52a Contact SCD 10060 SW1-52b Switch 1 52b Contact SCD 10061 SW2-52a Switch 2 52a Contact SCD 10062 SW2-52b Switch 2 52b Contact SCD 10063 SW3-52a Switch 3 52a Contact SCD 10064 SW3-52b Switch 3 52b Contact SCD 10065 SW4-52a Switch 4 52a Contact SCD 10066 SW4-52b Switch 4 52b Contact SCD 10067 OPEN1 Switch 1 Open Initiate SCD SCD 10068 CLOSE1 Switch 1 Close Initiate 10069 OPEN2 Switch 2 Open Initiate SCD 10070 CLOSE2 Switch 2 Close Initiate SCD 10071 OPEN3 Switch 3 Open Initiate SCD SCD 10072 CLOSE3 Switch 3 Close Initiate 10073 OPEN4 Switch 4 Open Initiate SCD 10074 CLOSE4 Switch 4 Close Initiate SCD 10075 SECBLK Sectionalize Block SCD 10076 OSLIM Sectionalize One-Shot Limit SCD 10077 FLTDET Fault Detector Block SCD 10078 XFERBLK Source Transfer Block SCD 10079 XFERPS Source Transfer P→S Initiate SCD 10080 XFERSP Source Transfer S→P Initiate SCD 10081 RSTRPS Restoration P→S Initiate SCD 10082 RSTRSP Restoration S→P Initiate SCD 10083 RST_TA Reset target alarms ALL 10084 RST_SA Reset seal in alarms ALL 36 PCD MODBUS® Protocol Implementation Details ABB Inc. 4.1.2 Physical Input Block (Single Bit Data) REGISTER NMEMONIC DESCRIPTION PRODUCT 10257 IN32 Physical Input 32 ALL 10258 IN31 Physical Input 31 ALL 10259 IN30 Physical Input 30 ALL 10260 IN29 Physical Input 29 ALL 10261 IN28 Physical Input 28 ALL 10262 IN27 Physical Input 27 ALL 10263 IN26 Physical Input 26 ALL 10264 IN25 Physical Input 25 ALL 10265 IN24 Physical Input 24 ALL 10266 IN23 Physical Input 23 ALL 10267 IN22 Physical Input 22 ALL 10268 IN21 Physical Input 21 ALL 10269 IN20 Physical Input 20 ALL 10270 IN19 Physical Input 19 ALL 10271 IN18 Physical Input 18 ALL 10272 IN17 Physical Input 17 ALL 10273 IN16 Physical Input 16 ALL 10274 IN15 Physical Input 15 ALL 10275 IN14 Physical Input 14 ALL 10276 IN13 Physical Input 13 ALL 10277 IN12 Physical Input 12 ALL 10278 IN11 Physical Input 11 ALL 10279 IN10 Physical Input 10 ALL 10280 IN9 Physical Input 9 ALL 10281 IN8 Physical Input 8 ALL 10282 IN7 Physical Input 7 ALL 10283 IN6 Physical Input 6 ALL 10284 IN5 Physical Input 5 ALL 10285 IN4 Physical Input 4 ALL 10286 IN3 Physical Input 3 ALL 10287 IN2 Physical Input 2 ALL 10288 IN1 Physical Input 1 ALL 37 PCD MODBUS® Protocol Implementation Details ABB Inc. 4.1.3 Logical Input Block (Two Bit Data with Momentary Change Detection) Note: The momentary bit cannot be read without its respective logical bit being read at the same time and vice-versa. REGISTER NMEMONIC DESCRIPTION 10513 52a 52a Contact Input 52b 52b Contact Input 43a 43a Contact Input (Recloser Disable) PH3 Phase Torque Control GRD Neutral Torque Control SCC Springs Charged Contact Input 79S Single Shot Reclose Initiate Input 79M Mult-shot Reclose Initiate Input TCM Trip Coil Monitor Input 50-1 50-1 Torque Control (Phase and Neutral) 10514 10515 10516 10517 10518 10519 10520 10521 10522 10523 10524 10525 10526 10527 10528 10529 10530 10531 10532 10533 50-2 50-2 Torque Control (Phase and Neutral) 10534 10535 50-3 50-3 Torque Control (Phase and Neutral) 10536 10537 ALT1 Alternate Setting Group 1 Enable 10538 10539 ALT2 Alternate Setting Group 2 Enable 10540 10541 ECI1 Event Contact Initiate 1 10542 10543 ECI2 Event Contact Initiate 1 10544 10545 WCI Waveform Capture Initiate 10546 10547 ZSC Zone Sequence Control Enable OPEN Open Breaker Initiate CLOSE Close Breaker Initiate 46 46 Torque Control 10548 10549 10550 10551 10552 10553 10554 10555 67P 67P Torque Control 10556 38 ATTRIBUTE PRODUCT Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status PCD Momentary PCD PCD MODBUS® Protocol Implementation Details ABB Inc. 10557 67N 67N Torque Control 10558 10559 ULI1 User Logical Input 1 10560 10561 ULI2 User Logical Input 2 10562 10563 ULI3 User Logical Input 3 10564 10565 ULI4 User Logical Input 4 10566 10567 ULI5 User Logical Input 5 10568 10569 ULI6 User Logical Input 6 10570 10571 ULI7 User Logical Input 7 10572 10573 ULI8 User Logical Input 8 10574 10575 ULI9 User Logical Input 9 10576 10577 CRI Clear Reclose and Overcurrent Counters 10578 10579 ARCI Automatic Reclose Inhibit 10580 10581 TARC Trip and Reclose Initiate 10582 10583 SEFTC Sensitive Earth Torque Control 10584 10585 ExtBFI External Breaker Failure Initiate 10586 10587 BFI Breaker Failure Initiate 10588 10589 RBI Remote Block Input 10590 10591 ALT1Pon ALT1 Pulse On Input 10592 10593 ALT1Poff ALT1 Pulse Off Input 10594 10595 ALT2Pon ALT2 Pulse On Input 10596 10597 ALT2Poff ALT2 Pulse Off Input 10598 10599 OPNBLK Open Control Block Input CLSBLK Close Control Block Input TAGMSG Tag Message Enable Input 52aA Phase A 52a Contact (Single Phase Only) 10600 10601 10602 10603 10604 10605 39 Status PCD Momentary PCD Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status PCD Momentary PCD Status PCD Momentary PCD Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status PCD PCD MODBUS® Protocol Implementation Details ABB Inc. 10606 10607 52aB Phase B 52a Contact (Single Phase Only) 52aC Phase C 52a Contact (Single Phase Only) 52bA Phase A 52b Contact (Single Phase Only) 52bB Phase B 52b Contact (Single Phase Only) 52bC Phase C 52b Contact (Single Phase Only) TRIPA Phase A Trip Initiate (Single Phase Only) TRIPB Phase B Trip Initiate (Single Phase Only) TRIPC Phase C Trip Initiate (Single Phase Only) CLOSEA Phase A Close Initiate (Single Phase Only) CLOSEB Phase B Close Initiate (Single Phase Only) CLOSEC Phase C Close Initiate (Single Phase Only) SW1-52a Switch 1 52a Contact Input SW1-52b Switch 1 52b Contact Input SW2-52a Switch 2 52a Contact Input SW2-52b Switch 2 52b Contact Input SW3-52a Switch 3 52a Contact Input SW3-52b Switch 3 52b Contact Input SW4-52a Switch 4 52a Contact Input SW4-52b Switch 4 52b Contact Input OPEN1 Switch 1 Open Initiate CLOSE1 Switch 1 Close Initiate 10608 10609 10610 10611 10612 10613 10614 10615 10616 10617 10618 10619 10620 10621 10622 10623 10624 10625 10626 10627 10628 10629 10630 10631 10632 10633 10634 10635 10636 10637 10638 10639 10640 10641 10642 10643 10644 10645 10646 10647 10648 10649 OPEN2 Switch 2 Open Initiate 10650 10651 CLOSE2 Switch 2 Close Initiate 10652 10653 OPEN3 Switch 3 Open Initiate 10654 40 Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status PCD Momentary PCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD PCD MODBUS® Protocol Implementation Details ABB Inc. 10655 CLOSE3 Switch 3 Close Initiate 10656 10657 OPEN4 Switch 4 Open Initiate 10658 10659 CLOSE4 Switch 4 Close Initiate 10660 10661 SECBLK Sectionalize Block 10662 10663 OSLIM Sectionalize One-Shot Limit 10664 10665 FLTDET Fault Detector Block 10666 10667 XFERBLK Source Transfer Block 10668 10669 XFERPS Source Transfer P→S Initiate 10670 10671 XFERSP Source Transfer S→P Initiate 10672 10673 RSTRPS Restoration P→S Initiate 10674 10675 RSTRSP Restoration S→P Initiate 10676 10677 RST_TA Reset target alarns 10678 10679 RST_SA Reset seal-in alarms 10680 41 Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status SCD Momentary SCD Status ALL Momentary ALL Status ALL Momentary ALL PCD MODBUS® Protocol Implementation Details ABB Inc. 4.1.4 Physical Input Block (Two Bit Data with Momentary Change Detection) Note: The momentary bit cannot be read without its respective logical bit being read at the same time and vice-versa. REGISTER NMEMONIC DESCRIPTION 01025 01026 IN32 Physical Input 32 01027 IN31 Physical Input 31 01028 01029 IN30 Physical Input 30 IN29 Physical Input 29 IN28 Physical Input 28 IN27 Physical Input 27 IN26 Physical Input 26 IN25 Physical Input 25 IN24 Physical Input 24 IN23 Physical Input 23 IN22 Physical Input 22 IN21 Physical Input 21 IN20 Physical Input 20 IN19 Physical Input 19 IN18 Physical Input 18 IN17 Physical Input 17 IN16 Physical Input 16 IN15 Physical Input 15 IN14 Physical Input 14 IN13 Physical Input 13 IN12 Physical Input 12 IN11 Physical Input 11 IN10 Physical Input 10 IN9 Physical Input 9 01030 01031 01032 01033 01034 01035 01036 01037 01038 01039 01040 01041 01042 01043 01044 01045 01046 01047 01048 01049 01050 01051 01052 01053 01054 01055 01056 01057 01058 01059 01060 01061 01062 01063 01064 01065 01066 01067 01068 01069 01070 01071 01072 42 ATTRIBUTE PRODUCT Status Momentary ALL ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL PCD MODBUS® Protocol Implementation Details ABB Inc. 01073 IN8 Physical Input 8 Status 01074 01075 IN7 Physical Input 7 IN6 Physical Input 6 IN5 Physical Input 5 IN4 Physical Input 4 IN3 Physical Input 3 IN2 Physical Input 2 IN1 Physical Input 1 01076 01077 01078 01079 01080 01081 01082 01083 01084 01085 01086 01087 01088 43 ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL Status ALL Momentary ALL PCD MODBUS® Protocol Implementation Details ABB Inc. (This page is intentionally blank.) 44 PCD MODBUS® Protocol Implementation Details ABB Inc. 5 4X REGISTERS 5.1 FUNCTION CODE 3 (READ HOLDING REGISTER) MODBUS Data Type Definitions Byte 3 Byte 2 Byte 1 Byte 0 0 1 2 3 Register Offsets of Signed/Unsigned Long Byte 1 Byte 0 0 1 Register Offsets of Signed/Unsigned Short Data Type Definitions Number of 8-bit bytes Value Ranges Unsigned Byte 1 (0 to +255) Signed Byte 1 (-128 to +127) Unsigned Short 2 (0 to +65535) Signed Short 2 (-32,768 to +32767) Unsigned Long 4 (0 to +4,294,967,295) Signed Long 4 (-2,147,483,648 to +2,147,483,647) Note: Data Byte Order follows the Low Address-High Byte, High Address -Low Byte Convention. 45 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.1.1 User Programmable Register Block (Defaults) A User programmable registers may contain any valid Modbus register addressed value in the following data formats. For example, register 40002 contains secondary phase A Amperes scaled into 12 bits using the Offset Binary Data type. To set up the 40002 register, the user configures the data type (Offset Bipolar), the number of bits using from the 16 bit register (12 bits), the source register (40257 which is a 16 bit unsigned value), the number of bits to use starting from the source register base (16 bits), the Full Scale or Scale factor to apply to the source register (10) and the type of scaling to be performed on the source register (Current). As per defaults, when the 40002 register contains a value of 2047, the secondary current is ZERO and when the register contains a value of 4097, the secondary current is 10 Amps. 40002: Offset Bipolar(12) 40257(16) 10 (Current) Load Current-A Data Type Definitions Number of 8-bit bytes Value Ranges Offset Bipolar Bipolar 2 only using N Bits 2 only using N Bits Unipolar Negative Unipolar 2 only using N Bits 2 only using N Bits (0 to +2 -1) where 0 = -FS, 2 -1 = 0 and 2 -1 = +FS N-1 N-1 N-1 N-1 (-2 to + 2 -1)where -2 = -FS, 0 = 0 and 2 -1 = +FS N N (0 to 2 -1) where 0 = 0 and 2 -1 = +FS N N (0 to 2 -1) where 0 = 0 and 2 -1 = -FS N N-1 N Register Type: Unipolar, Negative Unipolar, Bipolar, Offset Bipolar Register Justification: LSB, MSB. Register Size: 16, 12, 8, 4, 2 bits Source Register: Any valid 0/1/4xxxxx Register Source Size/Type: 16, 32 bits/Signed, Unsigned Full Scale/Scale Range: 1 to 65535 Scale Type: Current, Voltage, Power, Normal, Remainder where Offset Bipolar Current: Register Value = (2N-1*Source Value / [FS*CT Ratio])+2N-1-1 Offset Bipolar Voltage: Register Value = (2N-1*Source Value / [FS*PT Ratio])+2N-1-1 Offset Bipolar Power: Register Value = (2N-1*Source Value / [FS*CT Ratio*PT Ratio])+2N-1-1 Uni/Neg Uni/Bipolar Normal: Register Value = Source Value / Scale Uni/Neg Uni/Bipolar Remainder: Register Value = Remainder of [Source Value / Scale] Note : The values at saturation will be 2N -1 where N is the register size in bits. PROGRAMMABLE REGISTER 40001: 40002: 40003: 40004: 40005: 40006: 40007: 40008: 40009: 40010: 40011: 40012: 40013: 40014: 40015: 40016: 40017: 40018: 40019: REGISTER TYPE (BITS) START REGISTER (BITS/TYPE) FS OR SCALE (TYPE) DESCRIPTION Unipolar(16,LSB) Offset Bipolar (12,LSB) Offset Bipolar (12,LSB) Offset Bipolar 12,LSB) Offset Bipolar (12,LSB) Offset Bipolar (12,LSB) Offset Bipolar (12,LSB) Offset Bipolar (12,LSB) Offset Bipolar (12,LSB) Offset Bipolar (12,LSB) Offset Bipolar (12,LSB) Offset Bipolar (12,LSB) Offset Bipolar (12,LSB) Offset Bipolar (12,LSB) Offset Bipolar (12,LSB) Unipolar (16,LSB) Unipolar (16,LSB) Offset Bipolar (12,LSB) Unipolar (16,LSB) 40129(16/Unsigned) 40257(16/Unsigned) 40259(16/Unsigned) 40261(16/Unsigned) 40265(32/Unsigned) 40268(32/Unsigned) 40271(32/Unsigned) 40289(32/Signed) 40297(32/Signed) 40283(32/Signed) 40285(32/Signed) 40287(32/Signed) 40291(32/Signed) 40293(32/Signed) 40295(32/Signed) 40158(16/Unsigned) 40160(16/Unsigned) 40261(16/Unsigned) 40305(32/Signed) 1 (Normal) 10 (Current) 10 (Current) 10 (Current) 150 (Voltage) 150 (Voltage) 150 (Voltage) 3000 (Power) 3000 (Power) 1000 (Power) 1000 (Power) 1000 (Power) 1000 (Power) 1000 (Power) 1000 (Power) 1 (Normal) 1 (Normal) 10 (Current) 10000 (Normal) Relay Status Load Current A Load Current B Load Current C Voltage VAN Voltage VBN Voltage VCN 3 Phase Watts 3 Phase VARs Phase A Watts Phase B Watts Phase C Watts Phase A VARs Phase B VARs Phase C VARs Phase CT Ratio PT Ratio Load Current N +3 Phase kWatthours (high) 46 PCD MODBUS® Protocol Implementation Details ABB Inc. 40020: 40021: 40022: 40023: 40024: 40025: 40026: 40027: 40028-32 Unipolar (16,LSB) Neg Unipolar (16,LSB) Neg Unipolar (16,LSB) Unipolar (16,LSB) Unipolar (16,LSB) Neg Unipolar (16,LSB) Neg Unipolar (16,LSB) Unipolar (16,LSB) 40305(32/Signed) 40305(32/Signed) 40305(32/Signed) 40313(32/Signed) 40313(32/Signed) 40313(32/Signed) 40313(32/Signed) 40327(16/Unsigned) 47 10000 (Remainder) 10000 (Normal) 10000 (Remainder) 10000 (Normal) 10000 (Remainder) 10000 (Normal) 10000 (Remainder) 1 (Normal) +3 Phase kWatthours (Low) -3 Phase kWatthours (High) -3 Phase kWatthours (Low) +3 Phase kVARhours (High) +3 Phase kVARhours (Low) -3 Phase kVARhours (High) -3 Phase kVARhours (Low) System Frequency Spares PCD MODBUS® Protocol Implementation Details ABB Inc. 5.1.2 System Status/Configuration Block REGISTER DATA SIZE 40129 Unsigned Short 40130-131: Unsigned Long 40132 Unsigned Short 40133-142 40143 40144 40145 40146 40147-148 40149-157 40158 40159 40160 40161 40162 40163 40164 40165 40166 40167 40168 40169 20 Char String (NULL Term) Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Long SCALE 100 10 10 100 1 18 Char String(NULL Term) Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short 1 1 1 1 1 1 1 1 1 DESCRIPTION Relay Status Bit 15-13: Spare Bit 12: Settings Bank2 active Bit 11: Settings Bank1 active Bit 10: New Minimum Demand Value Bit 9: New Peak Demand Value Bit 8: New Operation Recorded Bit 7: Control Power Cycled Bit 6: New Fault Recorded Bit 5: Alternate 2 Settings Active Bit 4: Alternate 1 Settings Active Bit 3: Remote Edit Disable Bit 2: Local Settings Changed Bit 1: Contact Input Changed Bit 0: Selftest Status Diagnostic Status Flag Bit 31-16: Spare Bit 15: DSP COP FAILURE Bit 14: DSP +5V FAILURE Bit 13: DSP +/-15V FAILURE Bit 12: SPARE Bit 11: DSP ADC FAILURE Bit 10: DSP EXT RAM FAILURE Bit 9: DSP INT RAM FAILURE Bit 8: DSP ROM FAILURE Bit 7: Spare Bit 6: Spare Bit 5: Spare Bit 4: Spare Bit 3: CPU EEPROM FAILURE Bit 2: CPU NVRAM FAILURE Bit 1: CPU EPROM FAILURE Bit 0: CPU RAM FAILURE Relay Configuration Bit 15-2: Spare Bit 1: 0=kWhr/kVARhr,1=MWhr/MVARhr Bit 0: 0= Wye PT, 1=Delta PT 1 Catalog Number CPU Software Version Number CT/PT Calibration Software Version Number Front Panel Controller Software Version Number Auxiliary Communication Software Version Num Serial Number Unit Name Phase CT Ratio Neutral CT Ratio PT Ratio Last Power Fail Timestamp Year Last Power Fail Timestamp Month Last Power Fail Timestamp Day Last Power Fail Timestamp Hours Last Power Fail Timestamp Minutes Last Power Fail Timestamp Seconds Last Power Fail Timestamp Milliseconds Last Power Fail Type Last Power Fail State Machine Current State Bits 0 to 4 : Phase A Recloser State 0 Pole Closed State 1 Pole Opening State 2 Pole Fail to Open State 3 Open Synchronizing State 4 Pole Open State 5 Pole Locked Out State 48 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DATA SIZE SCALE 40170-171 Unsigned Long 1 40172 Unsigned Short 1 40173 Unsigned Short 1 40174 40175 Unsigned Short Unsigned Short 1 1 40176-177 40178-179 40180-181 40182-183 40184-185 40186-187 40188-189 40190 40191 40192 Unsigned Long Unsigned Long Unsigned Long Unsigned Long Unsigned Long Unsigned Long Unsigned Long Unsigned Short Unsigned Short Unsigned Short 1 1 1 1 1 1 1 100 1 1 Note: DESCRIPTION 6 Pole Closing State 7 Pole Failed to Close State 8 Pole Indeterminate State 9 Control Switch Failure State 10 Pole Failed in Closed State 11 Original Mode Fail Closing State 12 Original Mode Fail to Close State 13 Original Mode Indeterm. State 14 Diagnostics Failure State Bits 5 to 9 : Phase B Recloser (same state list as above) Bits 10 to 14 : Phase C Recloser (same state list as above) Bit 15 : 0 = Three Phase Mode, 1 = Single Phase Mode Fast Status Response Bit 31-23: Spare Bit 22: 1= One or More Unreported Operations Records Bit 21-16: Division Code = 00101 binary Bit 15-10: Product Code = 001110 binary Bit 9-8: Spare Bit 7-6: Reserved for Corporate Status Bit 5: Reserved for Local Operator Action Bit 4-0: Spare Last Communications Error Comm Port Type 2=RS232,3=RS485 Last Communications Error Command (MODBUS Function Code) Last Communications Error Register Register Last Communications Error Type 1 Invalid password 2 Checksum Error 3 The block/register or range are invalid 4 Block/Register attempted to be accessed invalid 5 Range of data attempted to be accessed invalid 6 Invalid Data 7 Settings being edited elsewhere in unit or remote edit disabled 8 A write to one settings group attempted while actively editing another 9 Breaker state invalid 10 Data entered is below minimum 11 Data entered is above maximum allowed 12 Data entered is out of step 13 Local input block 14 Data not available 15 Destination address out or bound / not suported 32 Reference Type or File Number invalid 33 Too many registers for modbus protocol 34 Invalid Function code 35 Invalid Record control Editor Write Mask 1 Editor Write Mask 2 Physical Input Availability Mask Physical Output Availability Mask Physical Input Lock Mask* Physical Output Lock Mask* Feedback Allocation Mask UPS Firmware version number CT board ID number VD board ID number * is Currently not Supported 1. Refer to the PCD instruction manual for allowable catalog numbers 49 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.1.3 RMS Load Current/Angular Values Block/Other Primary Analog Quantities (The metered current / voltage will be RMS or Fundamental values, depending on the configuration setting, register 61425, bit 0) REGISTER 40257 40258: 40259 40260 40261 40262 40263 40264 40265-266 40267 40268-269 40270 40271-272 40273 40274-275 40276 40277-278 40279 40280-281 40282 40283-284 40285-286 40287-288 40289-290 40291-292 40293-294 40295-296 40297-298 40299-300 40301-302 40303-304 40305-306 40307-308 40309-310 40311-312 40313-314 40315 40316 40317 40318 40319 40320 40321-322 40323 40324-325 40326 40327 40328 DATA SIZE Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Long Unsigned Short Unsigned Long Unsigned Short Unsigned Long Unsigned Short Unsigned Long Unsigned Short Unsigned Long Unsigned Short Unsigned Long Unsigned Short Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Long Unsigned Short Unsigned Long Unsigned Short Unsigned Short Unsigned Short SCALE 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 100 40329-330 40331 40332-333 40334 40335 40336 Unsigned Long Unsigned Short Unsigned Long Unsigned Short Signed Short Unsigned Short 1 1 1 1 100 DESCRIPTION Load Current-A Load Current-A Angle Load Current-B Load Current-B Angle Load Current-C Load Current-C Angle Load Current-N Load Current-N Angle Voltage VAN Voltage VAN Angle Voltage VBN Voltage VBN Angle Voltage VCN Voltage VCN Angle Voltage VAB Voltage VAB Angle Voltage VBC Voltage VBC Angle Voltage VCA Voltage VCA Angle kWatts A kWatts B kWatts C 3 Phase kWatts kVARs A kVARs B kVARs C 3 Phase kVARs kWatt Hours A kWatt Hours B kWatt Hours C kWatt Hours 3 Phase kVAR Hours A kVAR Hours B kVAR Hours C kVAR Hours 3 Phase Zero Sequence Current (computed) Zero Sequence Current Angle (computed) Positive Sequence Current Positive Sequence Current Ang1e Negative Sequence Current Negative Sequence Current Angle Positive Sequence Voltage Magnitude Positive Sequence Voltage Angle Negative Sequence Voltage Magnitude Negative Sequence Voltage Angle System Frequency Power Factor Bit 15-9: Not used Bit 8: 0=Positive, 1=Negative Bit 7: 0=Leading, 1=Lagging Bit 6-0: Power Factor Value (x100) Zero Sequence Current Mag (measured) Zero Sequence Current Angle (measured) Zero Sequence Voltage Mag (measured) Zero Sequence Voltage Angle (measured) Power Factor Power Factor Status Bit 0: 0=Leading, 1=Lagging 50 PCD MODBUS® Protocol Implementation Details ABB Inc. 40337 40338 40339 40340 40341 40342-3 40344 40345-6 40347 40348-9 40350 40351-2 40353 40354-5 40356 40357-58 40359 40360 40361 40362 Unsigned Short Unsigned Short Unsigned Short Signed Short Unsigned Short Unsigned Long Unsigned Short Unsigned Long Unsigned Short Unsigned Long Unsigned Short Unsigned Long Unsigned Short Unsigned Long Unsigned Short Unsigned Long Unsigned Short Unsigned Short Unsigned Short Unsigned Short 10 100 100 100 100 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 100 100 100 Fault Distance UPS: Battery Charging Voltage (Volts * 100) UPS: Battery Charging Current (Amps * 100) UPS: Cabinet Temperature (deg. C * 100) UPS: Battery Test Delta Voltage (Volts * 100)* Voltage Source 1, Phase A magnitude 3 Voltage Source 1, Phase A angle Voltage Source 1, Phase B magnitude 3 Voltage Source 1, Phase B angle Voltage Source 1, Phase C magnitude 3 Voltage Source 1, Phase C angle Voltage Source 2, Phase A magnitude 3 Voltage Source 2, Phase A angle Voltage Source 2, Phase B magnitude 3 Voltage Source 2, Phase B angle Voltage Source 2, Phase C magnitude 3 Voltage Source 2, Phase C angle 4 UPS: Input voltage (Volts * 100) 4 UPS: External capacitor voltage (volts * 100) 4 UPS: Board ambient temperature (°C * 100) * A delta voltage of 9900 (99.00 V) indicates a bad battery or no battery connected. Note: A battery test sequence is initiated as follows: 1) 2) Issue a write to Bit 7 in registers 41158/41159 to start the test (function 16 command). Read register 40341; if the value is 65535 the test is not yet complete. If a test not complete response continues for more than 5 seconds then reissue the battery test (step 1 above). Do Not initiate the test sequence at a rate of more then once per minute since battery damage may occur. These registers are not supported as yet, and will return a value of zero. These registers are valid only when register 40190 returns a value of 200 or greater. 3) 4) 51 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.1.4 RMS Demand Current/Real and Reactive Power Values Block REGISTER 40385 40386 40387 40388 40389-390 40391-392 40393-394 40395-396 40397-398 40399-400 40401-402 40403-404 DATA SIZE Unsigned Short Unsigned Short Unsigned Short Unsigned Short Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long Signed Long SCALE 1 1 1 1 1 1 1 1 1 1 1 1 DESCRIPTION Demand Current-A Demand Current-B Demand Current-C Demand Current-N Demand kWatts-A Demand kWatts-B Demand kWatts-C 3 Phase Demand kWatts Demand kVARs-A Demand kVARs-B Demand kVARs-C 3 Phase Demand kVARs 52 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.1.5 RMS Peak Demand Current/Real, Reactive Power Values and Time Stamps Block REGISTER 40513-516 40517-520 40521-524 40525-528 40529-533 40534-538 40539-543 40544-548 40549-553 40554-558: DATA SIZE Unsigned Short Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Short Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Short Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Short Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte SCALE 1 1 1 1 1 1 1 1 1 1 DESCRIPTION Peak Demand Current-A Peak Demand Current-A Year Peak Demand Current-A Month Peak Demand Current-A Day Peak Demand Current-A Hour Peak Demand Current-A Minute Spare Peak Demand Current-B Peak Demand Current-B Year Peak Demand Current-B Month Peak Demand Current-B Day Peak Demand Current-B Hour Peak Demand Current-B Minute Spare Peak Demand Current-C Peak Demand Current-C Year Peak Demand Current-C Month Peak Demand Current-C Day Peak Demand Current-C Hour Peak Demand Current-C Minute Spare Peak Demand Current-N Peak Demand Current-C Year Peak Demand Current-C Month Peak Demand Current-N Day Peak Demand Current-N Hour Peak Demand Current-N Minute Spare Peak Demand KWatts-A Peak Demand KWatts-A Year Peak Demand KWatts-A Month Peak Demand KWatts-A Day Peak Demand KWatts-A Hour Peak Demand KWatts-A Minute Spare Peak Demand KWatts-B Peak Demand KWatts-B Year Peak Demand KWatts-B Month Peak Demand KWatts-B Day Peak Demand KWatts-B Hour Peak Demand KWatts-B Minute Spare Peak Demand KWatts-C Peak Demand KWatts-C Year Peak Demand KWatts-C Month Peak Demand KWatts-C Day Peak Demand KWatts-C Hour Peak Demand KWatts-C Minute Spare 3 Phase Peak Demand KWatts 3 Phase Peak Demand KWatts Year 3 Phase Peak Demand KWatts Month 3 Phase Peak Demand KWatts Day 3 Phase Peak Demand KWatts Hour 3 Phase Peak Demand KWatts Minute Spare Peak Demand KVARs-A Peak Demand KVARs-A Year Peak Demand KVARs-A Month Peak Demand KVARs-A Day Peak Demand KVARs-A Hour Peak Demand KVARs-A Minute Spare Peak Demand KVARs-B Peak Demand KVARs-B Year 53 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 40559-563: 40564-568 DATA SIZE Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte SCALE 1 1 DESCRIPTION Peak Demand KVARs-B Month Peak Demand KVARs-B Day Peak Demand KVARs-B Hour Peak Demand KVARs-B Minute Spare Peak Demand KVARs-C Peak Demand KVARs-C Year Peak Demand KVARs-C Month Peak Demand KVARs-C Day Peak Demand KVARs-C Hour Peak Demand KVARs-C Minute Spare 3 Phase Peak Demand KWatts 3 Phase Peak Demand KVARs Year 3 Phase Peak Demand KVARs Month 3 Phase Peak Demand KVARs Day 3 Phase Peak Demand KVARs Hour 3 Phase Peak Demand KVARs Minute Spare 54 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.1.6 RMS Minimum Demand Current/Real, Reactive Power Values and Time Stamps Block REGISTER 40641-644: 40641-648: 40649-652 40653-656 40657-661 40662-666 40667-671 40672-676: 40677-681 40682-686: DATA SIZE Unsigned Short Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Short Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Short Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Short Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte SCALE 1 1 1 1 1 1 1 1 1 1 DESCRIPTION Minimum Demand Current-A Minimum Demand Current-A Year Minimum Demand Current-A Month Minimum Demand Current-A Day Minimum Demand Current-A Hour Minimum Demand Current-A Minute Spare Minimum Demand Current-B Minimum Demand Current-B Year Minimum Demand Current-B Month Minimum Demand Current-B Day Minimum Demand Current-B Hour Minimum Demand Current-B Minute Spare Minimum Demand Current-C Minimum Demand Current-C Year Minimum Demand Current-C Month Minimum Demand Current-C Day Minimum Demand Current-C Hour Minimum Demand Current-C Minute Spare Minimum Demand Current-N Minimum Demand Current-N Year Minimum Demand Current-N Month Minimum Demand Current-N Day Minimum Demand Current-N Hour Minimum Demand Current-N Minute Spare Minimum Demand KWatts-A Minimum Demand KWatts-A Year Minimum Demand KWatts-A Month Minimum Demand KWatts-A Day Minimum Demand KWatts-A Hour Minimum Demand KWatts-A Minute Spare Minimum Demand KWatts-B Minimum DemaNd KWatts-B Year Minimum Demand KWatts-B Month Minimum Demand KWatts-B Day Minimum Demand KWatts-B Hour Minimum Demand KWatts-B Minute Spare Minimum Demand KWatts-C Minimum DemaNd KWatts-C Year Minimum Demand KWatts-C Month Minimum Demand KWatts-C Dy Minimum Demand KWatts-C Hour Minimum Demand KWatts-C Minute Spare 3 Phase Minimum Demand KWatts 3 Phase Minimum Demand KWatts Year 3 Phase Minimum Demand KWatts Month 3 Phase Minimum Demand KWatts Day 3 Phase Minimum Demand KWatts Hour 3 Phase Minimum Demand KWatts Minute Spare Minimum Demand KVARs-A Minimum Demand KVARs-A Year Minimum Demand KVARs-A Month Minimum Demand KVARs-A Day Minimum Demand KVARs-A Hour Minimum Demand KVARs-A Minute Spare Minimum Demand KVARs-B Minimum Demand KVARs-B Year 55 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 40687-691 40692-696 DATA SIZE Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Signed Long Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte Unsigned Byte SCALE 1 1 DESCRIPTION Minimum Demand KVARs-B Month Minimum Demand KVARs-B Day Minimum Demand KVARs-B Hour Minimum Demand KVARs-B Minute Spare Minimum Demand KVARs-C Minimum Demand KVARs-C Year Minimum Demand KVARs-C Month Minimum Demand KVARs-C Day Minimum Demand KVARs-C Hour Minimum Demand KVARs-C Minute Spare 3 Phase Minimum Demand KVARs 3 Phase Minimum Demand KVARs Year 3 Phase Minimum Demand KVARs Month 3 Phase Minimum Demand KVARs Day 3 Phase Minimum Demand KVARs Hour 3 Phase Minimum Demand KVARs Minute Spare 56 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.1.7 Counters Block REGISTER 40769 40770 DATA SIZE Unsigned Short Unsigned Short SCALE 1 1 DESCRIPTION Unreported Operations Counter Unreported Fault Counter DEVICE ALL ALL 40771 Unsigned Short 1 Sum of Fault Currents, A 40772 Unsigned Short 1 Sum of Fault Currents, B ALL 40773 Unsigned Short 1 Sum of Fault Currents, C ALL 40774 Unsigned Short 1 Overcurrent Trip Counter PCD 40775 Unsigned Short 1 Breaker Operations Counter PCD 40776 Unsigned Short 1 Recloser Counter 1 PCD 40777 Unsigned Short 1 Recloser Counter 2 PCD 40778 Unsigned Short 1 Stage 1 Reclose Counter PCD 40779 Unsigned Short 1 Stage 2 Reclose Counter PCD 40780 Unsigned Short 1 Stage 3 Reclose Counter PCD 40781 Unsigned Short 1 Stage 4 Reclose Counter PCD 40782 Unsigned Short 1 Phase A Overcurrent Trip Counter PCD 40783 Unsigned Short 1 Phase B Overcurrent Trip Counter PCD 40784 Unsigned Short 1 Phase C Overcurrent Trip Counter PCD 40785 Unsigned Short 1 Neutral Overcurrent Trip Counter PCD 40786 Unsigned Short 1 Phase A, Total Pole Operations Counter PCD 40787 Unsigned Short 1 Phase A, Total Reclose Counter 1 PCD 40788 Unsigned Short 1 Phase A, Total Reclose Counter 2 PCD 40789 Unsigned Short 1 Phase A, Stage 1 Reclose Counter PCD 40790 Unsigned Short 1 Phase A, Stage 2 Reclose Counter PCD 40791 Unsigned Short 1 Phase A, Stage 3 Reclose Counter PCD 40792 Unsigned Short 1 Phase A, Stage 4 Reclose Counter PCD 40793 Unsigned Short 1 Phase B, Total Pole Operations Counter PCD 40794 Unsigned Short 1 Phase B, Total Reclose Counter 1 PCD 40795 Unsigned Short 1 Phase B, Total Reclose Counter 2 PCD 40796 Unsigned Short 1 Phase B, Stage 1 Reclose Counter PCD 40797 Unsigned Short 1 Phase B, Stage 2 Reclose Counter PCD 40798 Unsigned Short 1 Phase B, Stage 3 Reclose Counter PCD 40799 Unsigned Short 1 Phase B, Stage 4 Reclose Counter PCD 40800 Unsigned Short 1 Phase C, Total Pole Operations Counter PCD 40801 Unsigned Short 1 Phase C, Total Reclose Counter 1 PCD 40802 Unsigned Short 1 Phase C, Total Reclose Counter 2 PCD 40803 Unsigned Short 1 Phase C, Stage 1 Reclose Counter PCD 40804 Unsigned Short 1 Phase C, Stage 2 Reclose Counter PCD 40805 Unsigned Short 1 Phase C, Stage 3 Reclose Counter PCD 40806 Unsigned Short 1 Phase C, Stage 4 Reclose Counter PCD 40807 Unsigned Short 1 Fault Indications Counter SCD 40808 Unsigned Short 1 Ph A Faults detected counter SCD ALL 40809 Unsigned Short 1 Ph B Faults detected counter SCD 40810 Unsigned Short 1 Ph C Faults detected counter SCD 40811 Unsigned Short 1 Ph N Faults detected counter SCD 40812 Unsigned Short 1 Switch 1 Operations Counter SCD 40813 Unsigned Short 1 Switch 2 Operations Counter SCD 40814 Unsigned Short 1 Switch 3 Operations Counter SCD 40815 Unsigned Short 1 Switch 4 Operations Counter SCD 40816 - 8 40819 Reserved Unsigned short 1 Sectionalizer step count 57 SCD PCD MODBUS® Protocol Implementation Details ABB Inc. 5.1.8 Physical and Logical Input/Output State Block Note: * Indicates Sealed In output. REGISTER 40897-898 40899-900 40901-902 40903-904 DATA SIZE Unsigned Long Unsigned Long Unsigned Long Unsigned Long DESCRIPTION Logical Output 0-31 Bit 31: TRIP Bit 30: CLOSE Bit 29: ALARM Bit 28: 27-1P Bit 27: 46 Bit 26: 50P-1 Bit 25: 50N-1 Bit 24: 50P-2 Bit 23: 50N-2 Bit 22: 50P-3 Bit 21: 50N-3 Bit 20: 51P Bit 19: 51N Bit 18: 59 Bit 17: 67P Bit 16: 67N Logical Output 32-63 Bit 31: HPFA Bit 30: LPFA Bit 29: OCTC Bit 28: 50-1D Bit 27: 50-2D Bit 26: STC Bit 25: ZSC Bit 24: PH3-D Bit 23: GRD-D Bit 22: 32PA Bit 21: 32NA Bit 20: 27-3P Bit 19: VARDA Bit 18: 79CA2 Bit 17: TRIPA Bit 16: TRIPB Logical Output 64-95 Bit 31: 81O-1* Bit 30: 27-3P* Bit 29: TRIPA* Bit 28: TRIPB* Bit 27: TRIPC* Bit 26: ULO1 Bit 25: ULO2 Bit 24: ULO3 Bit 23: ULO4 Bit 22: ULO5 Bit 21: ULO6 Bit 20: ULO7 Bit 19: ULO8 Bit 18: ULO9 Bit 17: PVARA Bit 16: NVARA Logical Output 96-127 Bit 31: BF Trip Bit 30: BF Retrip Bit 29: BF Trip* Bit 28: BF Retrip* Bit 27: 32P Bit 26: 32N Bit 25: 32P* Bit 24: 32N* Bit 23: BFA* Bit 22: RBA Bit 21: 27A Bit 20: 27B Bit 19: 27C 58 Bit 15: Bit 14: Bit 13: Bit 12: Bit 11: Bit 10: Bit 9: Bit 8: Bit 7: Bit 6: Bit 5: Bit 4: Bit 3: Bit 2: Bit 1: Bit 0: 81S-1 81R-1 PATA PBTA PCTA TCFA TCC 79DA PUA 79LOA BFA PDA NDA BFUA KSI 79CA1 Bit 15: Bit 14: Bit 13: Bit 12: Bit 11: Bit 10: Bit 9: Bit 8: Bit 7: Bit 6: Bit 5: Bit 4: Bit 3: Bit 2: Bit 1: Bit 0: TRIPC 27-1P* 46* 50P-1* 50N-1* 50P-2* 50N-2* 50P-3* 50N-3* 51P* 51N* 59* 67P* 67N* 81S-1* 81R-1* Bit 15: Bit 14: Bit 13: Bit 12: Bit 11: Bit 10: Bit 9: Bit 8: Bit 7: Bit 6: Bit 5: Bit 4: Bit 3: Bit 2: Bit 1: Bit 0: LOADA 81O-1 81O-2 81S-2 81R-2 81O-2* 81S-2* 81R-2* CLTA Watt1 Watt2 79CA1* 79CA2* SEF* SEF alarm PUA w/out SEF Bit 15: Bit 14: Bit 13: Bit 12: Bit 11: Bit 10: Bit 9: Bit 8: Bit 7: Bit 6: Bit 5: Bit 4: Bit 3: 27C* LOAC* TAGOPN TAGCLS 59A 59B 59C 59-3P 59A* 59B* 59C* 59-3P* PTA PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 40905-906 40907-908 40909-910 40911-912 40913 DATA SIZE Unsigned Long Unsigned Long Unsigned Long Unsigned Long Unsigned Long DESCRIPTION Bit 18: LOAC Bit 17: 27A* Bit 16: 27B* Logical Input 0-31 Bit 31: 52a Bit 30: 52b Bit 29: 43a Bit 28: PH3 Bit 27: GRD Bit 26: SCC Bit 25: 79s Bit 24: 79m Bit 23: TCM Bit 22: 50-1 Bit 21: 50-2 Bit 20: 50-3 Bit 19: ALT1 Bit 18: ALT2 Bit 17: ECI1 Bit 16: ECI2 Logical Input 32-63 Bit 31: CRI Bit 30: ARCI Bit 29: TARC Bit 28: SEF TC Bit 27: Ext BFI Bit 26: BFI Bit 25: RBI Bit 24: ALT1Pon Bit 23: ALT1Poff Bit 22: ALT2Pon Bit 21: ALT2Poff Bit 20: OPNBLK Bit 19: CLSBLK Bit 18: TAGMSG Bit 17: 52aA Bit 16: 52aB Logical Input 64-95 Bit 31: SW4-52a Bit 30: SW4-52b Bit 29: OPEN1 Bit 28: CLOSE1 Bit 27: OPEN2 Bit 26: CLOSE2 Bit 25: OPEN3 Bit 24: CLOSE3 Bit 23: OPEN4 Bit 22: CLOSE4 Bit 21: SECBLK Bit 20: OSLIM Bit 19: FLTDET Bit 18: XFERBLK Bit 17: XFERPS Bit 16: XFERSP Logical Input 96-127 (Reserved) Physical Output Bit 31: OUT32 Bit 30: OUT31 Bit 29: OUT30 Bit 28: OUT29 Bit 27: OUT28 Bit 26: OUT27 Bit 25: OUT26 Bit 24: OUT25 Bit 23: OUT24 Bit 22: OUT23 Bit 21: OUT22 Bit 20: OUT21 59 Bit 2: Bit 1: Bit 0: NTA CLOSEA CLOSEB Bit 15: Bit 14: Bit 13: Bit 12: Bit 11: Bit 10: Bit 9: Bit 8: Bit 7: Bit 6: Bit 5: Bit 4: Bit 3: Bit 2: Bit 1: Bit 0: WCI ZSC OPEN CLOSE 46 67P 67N ULI1 ULI2 ULI3 ULI4 ULI5 ULI6 ULI7 ULI8 ULI9 Bit 15: Bit 14: Bit 13: Bit 12: Bit 11: Bit 10: Bit 9: Bit 8: Bit 7: Bit 6: Bit 5: Bit 4: Bit 3: Bit 2: Bit 1: Bit 0: 52aC 52bA 52bB 52bC TRIPA TRIPB TRIPC CLOSEA CLOSEB CLOSEC SW1-52a SW1-52B SW2-52a SW2-52b SW3-52a SW3-52b Bit 15: Bit 14: Bit 13: Bit 12: Bit 11: Bit 10: Bit 9: Bit 8: Bit 7: Bit 6: Bit 5: Bit 4: Bit 3: Bit 2: Bit 1: Bit 0: RSTRPS RSTRSP RST_TA RST_SA Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Bit 15: Bit 14: Bit 13: Bit 12: Bit 11: Bit 10: Bit 9: Bit 8: Bit 7: Bit 6: Bit 5: Bit 4: OUT16 OUT15 OUT14 OUT13 OUT12 OUT11 OUT10 OUT9 OUT8 OUT7 OUT6 OUT5 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DATA SIZE 40915 Unsigned Long 40917 40919 Unsigned Long Unsigned Long 40921 40923: Unsigned Long Unsigned Long 40925 40927 Unsigned Long Unsigned Long DESCRIPTION Bit 19: OUT20 Bit 3: OUT4 Bit 18: OUT19 Bit 2: OUT3 Bit 17: OUT18 Bit 1: OUT2 Bit 16: OUT17 Bit 0: OUT1 Physical Input Bit 31: IN32 Bit 15: IN16 Bit 30: IN31 Bit 14: IN15 Bit 29: IN30 Bit 13: IN14 Bit 28: IN29 Bit 12: IN13 Bit 27: IN28 Bit 11: IN12 Bit 26: IN27 Bit 10: IN11 Bit 25: IN26 Bit 9: IN10 Bit 24: IN25 Bit 8: IN9 Bit 23: IN24 Bit 7: IN8 Bit 22: IN23 Bit 6: IN7 Bit 21: IN22 Bit 5: IN6 Bit 20: IN21 Bit 4: IN5 Bit 19: IN20 Bit 3: IN4 Bit 18: IN19 Bit 2: IN3 Bit 17: IN18 Bit 1: IN2 Bit 16: IN17 Bit 0: IN1 Force Physical Input Select Status (Bit State: 0=Normal, 1=Forced) Force Physical Input Select Status (Bit State: 0=Open, 1=Closed) Bit 31: IN32 Bit 15: IN16 Bit 30: IN31 Bit 14: IN15 Bit 29: IN30 Bit 13: IN14 Bit 28: IN29 Bit 12: IN13 Bit 27: IN28 Bit 11: IN12 Bit 26: IN27 Bit 10: IN11 Bit 25: IN26 Bit 9: IN10 Bit 24: IN25 Bit 8: IN9 Bit 23: IN24 Bit 7: IN8 Bit 22: IN23 Bit 6: IN7 Bit 21: IN22 Bit 5: IN6 Bit 20: IN21 Bit 4: IN5 Bit 19: IN20 Bit 3: IN4 Bit 18: IN19 Bit 2: IN3 Bit 17: IN18 Bit 1: IN2 Bit 16: IN17 Bit 0: IN1 Force Physical Output Select Status (Bit State: 0=Normal, 1=Forced) Force Physical Output Select Status (Bit State: 0=Deasserted, 1=Asserted) Bit 31: OUT32 Bit 15: OUT16 Bit 30: OUT31 Bit 14: OUT15 Bit 29: OUT30 Bit 13: OUT14 Bit 28: OUT29 Bit 12: OUT13 Bit 27: OUT28 Bit 11: OUT12 Bit 26: OUT27 Bit 10: OUT11 Bit 25: OUT26 Bit 9: OUT10 Bit 24: OUT25 Bit 8: OUT9 Bit 23: OUT24 Bit 7: OUT8 Bit 22: OUT23 Bit 6: OUT7 Bit 21: OUT22 Bit 5: OUT6 Bit 20: OUT21 Bit 4: OUT5 Bit 19: OUT20 Bit 3: OUT4 Bit 18: OUT19 Bit 2: OUT3 Bit 17: OUT18 Bit 1: OUT2 Bit 16: OUT17 Bit 0: OUT1 Force Logical Input Select Status (Bit State: 0=Normal, 1=Forced) Force Logical Input Select Status (Bit State: 0=On, 1=Off) Bit 31: FLI32 Bit 15: FLI16 Bit 30: FLI31 Bit 14: FLI15 Bit 29: FLI30 Bit 13: FLI14 Bit 28: FLI29 Bit 12: FLI13 Bit 27: FLI28 Bit 11: FLI12 Bit 26: FLI27 Bit 10: FLI11 Bit 25: FLI26 Bit 09: FLI10 Bit 24: FLI25 Bit 08: FLI09 60 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DATA SIZE 40929 Unsigned Long 40931 Unsigned Long 40933 Unsigned Long 40935 Unsigned Long DESCRIPTION Bit 23: FLI24 Bit 07: FLI08 Bit 22: FLI23 Bit 06: FLI07 Bit 21: FLI22 Bit 05: FLI06 Bit 20: FLI21 Bit 04: FLI05 Bit 19: FLI20 Bit 03: FLI04 Bit 18: FLI19 Bit 02: FLI03 Bit 17: FLI18 Bit 01: FLI02 Bit 16: FLI17 Bit 00: FLI01 Front Panel Function Status (Bit State: 0=On, 1=Off) Bit 31: Spare Bit 15: Bank2 Active Bit 30: Spare Bit 14: Bank1 Active Bit 29: Spare Bit 13: Spare Bit 28: Spare Bit 12: Spare Bit 27: Spare Bit 11: Spare Bit 26: ALT2 Pending Bit 10: Spare Bit 25: ALT1 Pending Bit 09: Spare Bit 24: Primary Pending Bit 08: Spare Bit 23: Spare Bit 07: Spare Bit 22: Spare Bit 06: Spare Bit 21: Spare Bit 05: Spare Bit 20: Spare Bit 04: Spare Bit 19: Spare Bit 03: Reclose Block Bit 18: ALT2 Active Bit 02: SEF Block Bit 17: ALT1 Active Bit 01: Ground Block Bit 16: Primary Active Bit 00: Remote Block Target Status (Bit State: 0=On, 1=Off) Bit 31: Spare Bit 15: Spare Bit 30: Spare Bit 14: Spare Bit 29: Spare Bit 13: Spare Bit 28: Spare Bit 12: Spare Bit 27: Spare Bit 11: Spare Bit 26: Frequency Bit 10: Spare Bit 25: SEF Bit 09: Spare Bit 24: Directional Bit 08: Spare Bit 23: Neg. Seq. Bit 07: Spare Bit 22: Inst. Trip Bit 06: Spare Bit 21: Time Trip Bit 05: Spare Bit 20: PTA Bit 04: Spare Bit 19: NTA Bit 03: PUTN Bit 18: PCTA Bit 02: PUTC Bit 17: PBTA Bit 01: PUTB Bit 16: PATA Bit 00: PUTA Breaker Status Bit 31: Spare Bit 15: Spare Bit 30: Spare Bit 14: Spare Bit 29: Spare Bit 13: Spare Bit 28: Spare Bit 12: Spare Bit 27: Spare Bit 11: Spare Bit 26: Spare Bit 10: Spare Bit 25: Spare Bit 09: Spare Bit 24: Spare Bit 08: ΦC: 1=Lockout Bit 23: Spare Bit 07: ΦB: 1=Lockout Bit 22: Spare Bit 06: ΦA: 1=Lockout Bit 21: Spare Bit 05: ΦC: 1=Failed Bit 20: Spare Bit 04: ΦB: 1=Failed Bit 19: Spare Bit 03: ΦA: 1=Failed Bit 18: Spare Bit 02: ΦC: 1=Open Bit 17: Spare Bit 01: ΦB: 1=Open Bit 16: Spare Bit 00: ΦA: 1=Open Logical Output 128-159 Bit 31: CLOSEC Bit 15: 50-3A Bit 30: FAILA Bit 14: 50-3B Bit 29: FAILB Bit 13: 50-3C Bit 28: FAILC Bit 12: 50-3A* Bit 27: 50-1A Bit 11: 50-3B* Bit 26: 50-1B Bit 10: 50-3C* Bit 25: 50-1C Bit 9: 51A 61 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DATA SIZE 40937 Unsigned Long 40939 Unsigned Long 40941 40943 40945 40947 40949 40951-2 Unsigned Long Unsigned Long Unsigned Long Unsigned Long Unsigned Long Unsigned Long DESCRIPTION Bit 24: 50-1A* Bit 8: 51B Bit 23: 50-1B* Bit 7: 51C Bit 22: 50-1C* Bit 6: 51A* Bit 21: 50-2A Bit 5: 51B* Bit 20: 50-2B Bit 4: 51C* Bit 19: 50-2C Bit 3: 67A Bit 18: 50-2A* Bit 2: 67B Bit 17: 50-2B* Bit 1: 67C Bit 16: 50-2C* Bit 0: 67A* Logical Output 160-191 Bit 31: 67B* Bit 15: SW4FAIL Bit 30: 67C* Bit 14: FLTDET Bit 29: LOCKA Bit 13: FLTDET* Bit 28: LOCKB Bit 12: SW1ALM Bit 27: LOCKC Bit 11: SW2ALM Bit 26: SW1OPEN Bit 10: SW3ALM Bit 25: SW1CLOSE Bit 9: SW4ALM Bit 24: SW1FAIL Bit 8: SW1ALM* Bit 23: SW2OPEN Bit 7: SW2ALM* Bit 22: SW2CLOSE Bit 6: SW3ALM* Bit 21: SW2FAIL Bit 5: SW4ALM* Bit 20: SW3OPEN Bit 4: SECALM Bit 19: SW3CLOSE Bit 3: OSALM Bit 18: SW3FAIL Bit 2: PSXFER Bit 17: SW4OPEN Bit 1: SPXFER Bit 16: SW4CLOSE Bit 0: PSXFER* Logical Output 192-223 Bit 31: SPXFER* Bit 15: ALT2_ACTIVE Bit 30: LCMTRIP Bit 14: Bank1 active Bit 29: LCMTRIP* Bit 13: Bank2 active Bit 28: LCMCLOSE Bit 12: Reserved Bit 27: LCMCLOSE* Bit 11: Reserved Bit 26: TAGBTN Bit 10: Reserved Bit 25: LCMMIDPOINT Bit 9: Reserved Bit 24: LCMMIDPOINT* Bit 8: Reserved Bit 23: ISD_TRIPA Bit 7: Reserved Bit 22: ISD_TRIPB Bit 6: Reserved Bit 21: ISD_TRIPC Bit 5: Reserved Bit 20: ISD_TRIG Bit 4: Reserved Bit 19: CPU_BATT_FAIL Bit 3: Reserved Bit 18: BATT_FAIL Bit 2: Reserved Bit 17: PRIM_ACTIVE Bit 1: Reserved Bit 16: ALT1_ACTIVE Bit 0: Reserved Logical Output 224-255 (Reserved) Logical Input 128-159 (Reserved) Logical Input 160-191 (Reserved) Logical Input 192-223 (Reserved) Logical Input 224-255 (Reserved) LCM Status Bit 31: LCM Reset: 0 = Yes, 1 = No Bit 30: Source 1 Phase A: 0 = De-energized, 1 = Energized Bit 29: Source 1 Phase B: 0 = De-energized, 1 = Energized Bit 28: Source 1 Phase C: 0 = De-energized, 1 = Energized Bit 27: Source 2 Phase A: 0 = De-energized, 1 = Energized Bit 26: Source 2 Phase B: 0 = De-energized, 1 = Energized Bit 25: Source 2 Phase C: 0 = De-energized, 1 = Energized Bit 24: Source I: 0 = Disabled, 1 = Enabled Bit 23: Source II: 0 = Disabled, 1 = Enabled Bit 22: LCM Test Mode: 0 = Off, 1 = On Bits 21 - 00: Spare 62 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.2 FUNCTION CODE 16 (PRESET MULTIPLE REGISTER) The control mask block allows a master device to write data to the Modbus interface to perform the desired control function. The block is a set of bit masks and an execute register that allows the master different levels of security for device control. This allows the master to verify the integrity of the data transmission by reading (function code 3) the register confirming that the correct data was written. The functions designated by * are sealed in alarms and can only be cleared, an attempt to set these alarms will have no impact on their state. There are six control blocks that a user can write to currently. We will take the example where a user needs to Initiate Trip in the Initiate Input block. The block on which the user wants to operate has to be unprotected before it is written into. There are two ways to unprotect the control blocks and initiate the command on the control block. 1) Through setting the Security Mask: The security mask (register 41153) is a read only register and the user cannot write to it. To set the Security Mask, the user has to write to the register 62598. So, the first step in our case of initiating a Trip is to set bit 0 on the security mask. Thus writing a hex 0001 into register 62598 will give the user access to the Initiate Input control block. With this bit set, the user does not have to enter a password into registers 41411 and 41412. register 41158 register 41159 register 41154 hex 0001 hex 0001 hex 0001 selects the trip initiate input confirms Trip Initiate allows slave to Execute on the data if the block is Through writing password into registers 41155 and 41156: This method is straight forward and the access to the block is obtained by writing the relay password into the block. Now with the block available to operate on, the master writes the following data to registers: register 41155 register 41156 register 41158 register 41159 register 41154 hex xxxx hex xxxx hex 0001 hex 0001 hex 0001 password (high) to the block (Relay or Test password) password (low) to the block (Relay or Test password) selects the trip initiate input confirms Trip Initiate allows slave to Execute on the data if the block is Note that Execute is the last write to the block. The above data may be sent all in one command or it may be written in three different commands. An example of how set/reset logical outputs is shown below. The master writes the following data to registers register 41189 register 41193 hex 8010 hex 0010 selects the 27-3P seal in alarm and the ULO8 user logical resets 27-3P seal in alarm and sets ULO8 user logical Now, the master can confirm the data written above by issuing a read holding register command to registers 41444 and 41448 prior to sending the execute data register for that block. The following write to register 41440 will allow the slave to carry out the actions set up in the above registers. register 41184 hex 0001 allows the data from registers 41189 & 41193 to be executed by the slave device. 63 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.2.1 Control Mask Block (Read and Write) REGISTER 41153 DATA SIZE Unsigned Short 41154 41155 41157 41158 Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Short 41159 Unsigned Short REGISTER 41160 41161 41163 41164 41166 DATA SIZE Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Long Unsigned Long 41168 Unsigned Long 41156 41162 DESCRIPTION Security Mask (Read Only, See Register 62598 for setup) (bit state:0=Block Password Required, 1=Block Unprotected) Bit 15: Spare Bit 7: Spare Bit 14: Spare Bit 6: Spare Bit 13: Spare Bit 5: Pulse Outputs Bit 12: LCM Control Inputs Bit 4: Set Reset Outputs Bit 11: Spare Bit 3: Force logical Input Bit 10: Spare Bit 2: Force Physical Output Bit 9: Spare Bit 1: Force Physical Input Bit 8: Spare Bit 0: Initiate Input Execute on Initiate Input Registers (0=No Action,1=Execute) Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Change Initiate Input Mask (bit state:0=No change, 1=Change) Bit 15: Spare Bit 7: UPS Bat. Test Bit 14: Spare Bit 6: Spare Bit 13: Spare Bit 5: Close Initiate (Independent of 43A) Bit 12: Reset Energy Meters Bit 4: Spare Bit 11: Reset Relay Status Bit 3: Reclose Unblock Bit 10: Reset Min/Max Demands Bit 2: Reclose Block Bit 9: Reset Alarms Bit 1: Close Initiate (Based on State of 43A) Bit 8: Reset LED Targets Bit 0: Trip Initiate Confirmation Initiate Input Mask (bit state:0=No change, 1=Change) Confirm change initiate input mask by sending an duplicate copy to this register. DESCRIPTION Execute on Force Physical Input Registers (0=No Action, 1=Execute) Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Force Physical Input Change Mask (bit state:0=No change, 1=Change) Force Physical Input Normal State Mask (bit state:0=Normal State, 1=Normal State Override) Force Physical Input Forcing State Mask (bit state:0=Force Reset State, 1=Force Set State) Bit 31: IN32 Bit 15: IN16 Bit 30: IN31 Bit 14: IN15 Bit 29: IN30 Bit 13: IN14 Bit 28: IN29 Bit 12: IN13 Bit 27: IN28 Bit 11: IN12 Bit 26: IN27 Bit 10: IN11 Bit 25: IN26 Bit 9: IN10 Bit 24: IN25 Bit 8: IN9 Bit 23: IN24 Bit 7: IN8 Bit 22: IN23 Bit 6: IN7 Bit 21: IN22 Bit 5: IN6 Bit 20: IN21 Bit 4: IN5 Bit 19: IN20 Bit 3: IN4 Bit 18: IN19 Bit 2: IN3 Bit 17: IN18 Bit 1: IN2 Bit 16: IN17 Bit 0: IN1 64 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 41170 DATA SIZE Unsigned Short DESCRIPTION Execute on Force Physical Output Registers (0=No Action, 1=Execute) 41171 41173 41174 high byte low byte high byte low byte Unsigned Short Unsigned Long 41176 Unsigned Long 41178 Unsigned Long Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Force Physical Output Change Mask (bit state:0=No change, 1=Change) Force Physical Output Normal State Mask (bit state:0=Normal State, 1=Normal State Override) Force Physical Output Forcing State Mask (bit state:0=Force Reset State, 1=Force Set State) Bit 31: OUT32 Bit 23: OUT24 Bit 15: OUT16 Bit 7: OUT8 Bit 30: OUT31 Bit 22: OUT23 Bit 14: OUT15 Bit 6: OUT7 Bit 29: OUT30 Bit 21: OUT22 Bit 13: OUT14 Bit 5: OUT6 Bit 28: OUT29 Bit 20: OUT21 Bit 12: OUT13 Bit 4: OUT5 Bit 27: OUT28 Bit 19: OUT20 Bit 11: OUT12 Bit 3: OUT4 Bit 26: OUT27 Bit 18: OUT19 Bit 10: OUT11 Bit 2: OUT3 Bit 25: OUT26 Bit 17: OUT18 Bit 09: OUT10 Bit 1: OUT2 Bit 24: OUT25 Bit 16: OUT17 Bit 08: OUT9 Bit 0: OUT1 REGISTER 41180 41181 41183 41184 DATA SIZE Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Short 41185 Unsigned Short 41186 Unsigned Short 41187 Unsigned Short 41188 Unsigned Short 41189 Unsigned Short 41172 41182 DESCRIPTION Execute on Force Logical Input Registers (0=No Action, 1=Execute) Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Force Logical Input Change Mask (Bit 31-16) (bit state:0=No change, 1=Change) Force Logical Input Change Mask (Bit 15-0) (bit state:0=No change, 1=Change) Force Logical Input Normal State Mask (Bit 31-16) (bit state:0=Normal State, 1=Normal State Override) Force Logical Input Normal State Mask (Bit 15-0) (bit state:0=Normal State, 1=Normal State Override) Force Logical Input Forcing State Mask (Bit 31-16) (bit state:0=Force Reset State, 1=Force Set State) Force Logical Input Forcing State Mask (Bit 15-0) (bit state:0=Force Reset State, 1=Force Set State) Bit 31: FLI32 Bit 23: FLI24 Bit 15: FLI16 Bit 07: FLI08 Bit 30: FLI31 Bit 22: FLI23 Bit 14: FLI15 Bit 06: FLI07 Bit 29: FLI30 Bit 21: FLI22 Bit 13: FLI14 Bit 05: FLI06 Bit 28: FLI29 Bit 20: FLI21 Bit 12: FLI13 Bit 04: FLI05 Bit 27: FLI28 Bit 19: FLI20 Bit 11: FLI12 Bit 03: FLI04 Bit 26: FLI27 Bit 18: FLI19 Bit 10: FLI11 Bit 02: FLI03 Bit 25: FLI26 Bit 17: FLI18 Bit 09: FLI10 Bit 01: FLI02 Bit 24: FLI25 Bit 16: FLI17 Bit 08: FLI09 Bit 00: FLI01 65 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 41190 41191 41193 41194 41195 DATA SIZE Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Short Unsigned Short 41196 41197 Unsigned Short Unsigned Short 41198 41199 Unsigned Short Unsigned Short 41200 41201 Unsigned Short Unsigned Short 41192 DESCRIPTION Execute on Set/Reset Masks Word 1 and Word 2 Registers Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Set/Reset Change Mask Long Word 1(Bit 31-16) Set/Reset Change Mask Long Word 1(Bit 15-0) (bit state:0=No change, 1=Change) Set/Reset Change Mask Long Word 2(Bit 31-16) Set/Reset Change Mask Long Word 2(Bit 15-0) (bit state:0=No change, 1=Change) Set/Reset State Mask Long Word 1(Bit 31-16) Set/Reset State Mask Long Word 1(Bit 15-0) (bit state:0=Reset, 1=Set) Set/Reset State Mask Long Word 2(Bit 31-16) Set/Reset State Mask Long Word 2(Bit 15-0) (bit state:0=Reset, 1=Set) SET/RESET MASK LONG WORD 1 Bit 31: 27* Bit 15: Bit 30: 46* Bit 14: 1 Bit 29: 50P1* Bit 13: Bit 28: 50N1* Bit 12: 1 Bit 27: 50P2* Bit 11: Bit 26: 50N2* Bit 10: 1 Bit 25: 50P3* Bit 09: Bit 24: 50N3* Bit 08: 1 Bit 23: 51P* Bit 07: Bit 22: 51N* Bit 06: Bit 21: 59* Bit 05: 1 Bit 20: 67P* Bit 04: Bit 19: 67N* Bit 03: Bit 18: 81S-1* Bit 02: Bit 17: 81R-1* Bit 01: Bit 16: 81O-1* Bit 00: SET/RESET MASK LONG WORD 2 Bit 31: 79CA1* Bit 15: Bit 30: 79CA2* Bit 14: Bit 29: SEF* Bit 13: Bit 28: BF Trip* Bit 12: Bit 27: BF Retrip* Bit 11: Bit 26: 32P* Bit 10: Bit 25: 32N* Bit 09: Bit 24: BFA* Bit 08: Bit 23: 27A* Bit 07: Bit 22: 27B* Bit 06: Bit 21: 27C* Bit 05: Bit 20: LOAC* Bit 04: Bit 19: 59A* Bit 03: Bit 18: 59B* Bit 02: Bit 17: 59C* Bit 01: Bit 16: 59-3P* Bit 00: 27-3P* TRIPA* TRIPB* TRIPC* ULO1 ULO2 ULO3 ULO4 ULO5 ULO6 ULO7 ULO8 ULO9 81O-2* 81S-2* 81R-2* 50-1A* 50-1B* 50-1C* 50-2A* 50-2B* 50-2C* 50-3A* 50-3B* 50-3C* 51A* 51B* 51C* 67A* 67B* 67C* Note: * You can only Reset "*" outputs. Trying to set these will have no affect on the state of the sealed in alarms. Note: 1 (50P1*, 50P2*, 50P3*, 51P*, 67P*) are “read only” bits. They can not be reset independently. They are derived from the respective three-phase seal-in signals (bits 1 – 15 of long word 2). They will be reset when the individual three-phase bits are set 66 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 41202 41203 41205 41206 DATA SIZE Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Long 41208 Unsigned Long 41204 DESCRIPTION Execute on Momentary Output Contact Registers (0=No Action,1=Execute) Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Momentary Output Contact State Mask (bit state:0=No change, 1=Pulse Contact) Confirmation Momentary Output Contact State Mask (bit state:0=No change, 1=Pulse Contact) Momentary Output Contact State Mask Bit 31: OUT32 Bit 15: OUT16 Bit 30: OUT31 Bit 14: OUT15 Bit 29: OUT30 Bit 13: OUT14 Bit 28: OUT29 Bit 12: OUT13 Bit 27: OUT28 Bit 11: OUT12 Bit 26: OUT27 Bit 10: OUT11 Bit 25: OUT26 Bit 9: OUT10 Bit 24: OUT25 Bit 8: OUT9 Bit 23: OUT24 Bit 7: OUT8 Bit 22: OUT23 Bit 6: OUT7 Bit 21: OUT22 Bit 5: OUT6 Bit 20: OUT21 Bit 4: OUT5 Bit 19: OUT20 Bit 3: OUT4 Bit 18: OUT19 Bit 2: OUT3 Bit 17: OUT18 Bit 1: OUT2 Bit 16: OUT17 Bit 0: OUT1 Note: This register group sets the appropriate physical output contact momentarily for the configured breaker failed to trip time. 67 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 41210 41211 41213 41214 DATA SIZE Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Short 41215 Unsigned Short 41212 DESCRIPTION Execute on Function Block Control Registers (0=No Action,1=Execute) Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Block / Unblock Initiate State Mask (bit state:0=No change, 1=Change) Bit 15: Spare Bit 7: Spare Bit 14: Spare Bit 6: Spare Bit 13: Spare Bit 5: SEF Unblock Bit 12: Spare Bit 4: SEF Block Bit 11: One shot disable* Bit 3: Ground Unblock Bit 10: One shot enable* Bit 2: Ground Block Bit 9: Sect. unblock* Bit 1: Reclose Unblock Bit 8: Sect. block* Bit 0: Reclose Block Confirmation Block / Unblock Initiate Mask (bit state:0=No change, 1=Change) Confirm change initiate input mask by sending an duplicate copy to this register. Note: * - For SCD only REGISTER 41216 41217 41219 41220 DATA SIZE Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Short 41221 Unsigned Short REGISTER DATA SIZE DESCRIPTION 41222 41223 41225 41226 Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Short 41227 Unsigned Short Execute on Function Block Control Registers (0=No Action,1=Execute) Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Tag / Untag Initiate Mask (bit state:0=No change, 1=Change) Bit 15: Spare Bit 7: Spare Bit 14: Spare Bit 6: Spare Bit 13: Spare Bit 5: Spare Bit 12: Spare Bit 4: Spare Bit 11: Spare Bit 3: Close Untag Bit 10: Spare Bit 2: Close Tag Bit 9: Spare Bit 1: Open Untag Bit 8: Spare Bit 0: Open Tag Confirmation Set / Clear Initiate Mask (bit state:0=No change, 1=Change) Confirm change initiate input mask by sending an duplicate copy to this register. 41218 41224 DESCRIPTION Execute on Function Block Control Registers (0=No Action,1=Execute) Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Set / Clear Alternate Settings Initiate Mask (bit state:0=No change, 1=Change) Bit 15: Spare Bit 7: Spare Bit 14: Spare Bit 6: Spare Bit 13: Spare Bit 5: Select Settings Bank2 Bit 12: Spare Bit 4: Select Settings Bank1 Bit 11: Spare Bit 3: ALT2 Pulse Off Bit 10: Spare Bit 2: ALT2 Pulse On Bit 9: Spare Bit 1: ALT1 Pulse Off Bit 8: Spare Bit 0: ALT1 Pulse On Confirmation Set / Clear Initiate Mask (bit state:0=No change, 1=Change) Confirm change initiate input mask by sending an duplicate copy to this register. 68 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DATA SIZE DESCRIPTION 41228 41229 41231 41232 Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Short 41233 Unsigned Short Execute Trip / Close Control (0=No Action,1=Execute) Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Trip / Close Initiate Mask (bit state:0=No change, 1=Change) Bit 15: Spare Bit 7: Spare Bit 14: Spare Bit 6: Spare Bit 13: Spare Bit 5: Close Phase C Bit 12: Spare Bit 4: Close Phase B Bit 11: Spare Bit 3: Close Phase A Bit 10: Spare Bit 2: Trip Phase C Bit 9: Spare Bit 1: Trip Phase B Bit 8: Spare Bit 0: Trip Phase A Confirmation Set / Clear Initiate Mask (bit state:0=No change, 1=Change) Confirm change initiate input mask by sending an duplicate copy to this register. REGISTER DATA SIZE DESCRIPTION 41234 41235 41237 41238 Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Short 41239 Unsigned Short Execute Open / Close Control (0=No Action,1=Execute) Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Open / Close Initiate Mask (bit state:0=No change, 1=Change) Bit 15: Reserved Bit 7: Reserved Bit 14: Reserved Bit 6: Reserved Bit 13: Reserved Bit 5: Reserved Bit 12: Reserved Bit 4: Reserved Bit 11: Close Switch 4 Bit 3: Open Switch 4 Bit 10: Close Switch 3 Bit 2: Open Switch 3 Bit 9: Close Switch 2 Bit 1: Open Switch 2 Bit 8: Close Switch 1 Bit 0: Open Switch 1 Confirmation Set / Clear Initiate Mask (bit state:0=No change, 1=Change) Confirm change initiate input mask by sending an duplicate copy to this register. REGISTER DATA SIZE DESCRIPTION 41240 41241 41243 41244 Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Short 41245 Unsigned Short Execute Source Transfer / Restoration Control (0=No Action,1=Execute) Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Transfer / Restore Initiate Mask (bit state:0=No change, 1=Change) Bit 15: Reserved Bit 7: Reserved Bit 14: Reserved Bit 6: Reserved Bit 13: Reserved Bit 5: Reserved Bit 12: Reserved Bit 4: Reserved Bit 11: Reserved Bit 3: Restore S→P Bit 10: Reserved Bit 2: Restore P→S Bit 9: Reserved Bit 1: Transfer S→P Bit 8: Reserved Bit 0: Transfer P→S Confirmation Set / Clear Initiate Mask (bit state:0=No change, 1=Change) Confirm change initiate input mask by sending an duplicate copy to this register. 41230 41236 41242 69 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 41246 41247 41248 41249 41250 41251 41252 41253 41254 41255 41256 41257 DATA SIZE Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short Unsigned Short DESCRIPTION Execute on Set/Reset Masks Word 3 and Word 4 Registers Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare Set/Reset Change Mask Long Word 3 (Bit 31-16) Set/Reset Change Mask Long Word 3 (Bit 15-0) (0=No change, 1=Change) Set/Reset Change Mask Long Word 4 (Bit 31-16) Set/Reset Change Mask Long Word 4 (Bit 15-0) (0=No change, 1=Change) Set/Reset State Mask Long Word 3 (Bit 31-16) Set/Reset State Mask Long Word 3 (Bit 15-0) (0=Reset, 1=Set) Set/Reset State Mask Long Word 4 (Bit 31-16) Set/Reset State Mask Long Word 4 (Bit 15-0) (0=Reset, 1=Set) SET/RESET MASK LONG WORD 3 Bit 31: FLTDET* Bit 15: Bit 30: SW1* Bit 14: Bit 29: SW2* Bit 13: Bit 28: SW3* Bit 12: Bit 27: SW4* Bit 11: Bit 26: Reserved Bit 10: Bit 25: Reserved Bit 9: Bit 24: Reserved Bit 8: Bit 23: Reserved Bit 7: Bit 22: Reserved Bit 6: Bit 21: Reserved Bit 5: Bit 20: Reserved Bit 4: Bit 19: Reserved Bit 3: Bit 18: Reserved Bit 2: Bit 17: Reserved Bit 1: Bit 16: Reserved Bit 0: SET/RESET MASK LONG WORD 4 Bit 31: Reserved Bit 15: Bit 30: Reserved Bit 14: Bit 29: Reserved Bit 13: Bit 28: Reserved Bit 12: Bit 27: Reserved Bit 11: Bit 26: Reserved Bit 10: Bit 25: Reserved Bit 9: Bit 24: Reserved Bit 8: Bit 23: Reserved Bit 7: Bit 22: Reserved Bit 6: Bit 21: Reserved Bit 5: Bit 20: Reserved Bit 4: Bit 19: Reserved Bit 3: Bit 18: Reserved Bit 2: Bit 17: Reserved Bit 1: Bit 16: Reserved Bit 0: Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Note: You can only Reset "*" outputs. Trying to set these will have no affect on the state of the sealed in alarms. REGISTER 41258 41259 41260 41261 41262 41263 DATA SIZE Unsigned Short high byte low byte high byte low byte Unsigned Short Unsigned Short Unsigned Short DESCRIPTION Execute Relay or Test Password Character 1 Relay or Test Password Character 2 Relay or Test Password Character 3 Relay or Test Password Character 4 Spare LcmControl Initiate Mask LcmControl duplicate mask Bit 15: Source I 0 = No action, 1 = Enabled Bit 14: Source I 0 = No action, 1 = Disabled Bit 13: Source II 0 = No action, 1 = Enabled Bit 12: Source II 0 = No action, 1 = Disabled Bit 11: LCM Test Mode 0 = No action, 1 = Enabled Bit 10: LCM Test Mode 0 = No action, 1 = Disabled Bit 09: LCM Reset 0 = No action, 1 = Reset Bit 08 - 00: Spare 70 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3 5.3.1 FUNCTION CODE 23 (READ/WRITE 4X REGISTERS) Fault Record REGISTER 41409 DATA SIZE Unsigned Word SCALE 1 41410 Unsigned Word 1 41411 Unsigned Word 1 DESCRIPTION Data Control 1=First record 2=Next record 3=Oldest Unreported record High Byte (Phase Mask) Bit 0 : Phase A Fault Bit 1 : Phase B Fault Bit 2 : Phase C Fault Bits 3-7 : Spares Low Byte (Fault Type Element) 0 : 51P Fault 1 : 51N Fault 2 : 50P-1 Fault 3 : 50N-1 Fault 4 : 50P-2 Fault 5 : 50N-2 Fault 6 : 50P-3 Fault 7 : 50N-3 Fault 8 : 67P Fault 9 : 67N Fault 10 : 46 Fault 11 : 81 Fault 12 : Zone Sequence Step 13 : ECI1 Event 14 : ECI2 Event 15 : SEF Fault 16 : Fault Detected Active Set and Recl Seq Value Definition 16 SCD 17 Primary - 1 18 Primary - 2 19 Primary -3 20 Primary - 4 31 Primary - Lockout 33 34 35 36 47 41412 41413 41414 41415 41416 41417 41418 41419 41420 41421 41422 41423 41424 41425 41426 Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word 1 1 1 1 1 1 1 1 x x x x 1 1 1 65 66 67 68 79 Fault Number Year Month Day Hours Minutes Seconds Milliseconds Ia (Scale at register 41424) Ib (Scale at register 41424) Ic (Scale at register 41424) In (Scale at register 41424) Current ( I ) Scale x Ia Angle Ib Angle 71 Alt1 - 1 Alt1 - 2 Alt1 - 3 Alt1 - 4 Alt1 - Lockout Alt2 - 1 Alt2 - 2 Alt2 - 3 Alt2 - 4 Alt2 – Lockout PCD MODBUS® Protocol Implementation Details ABB Inc. 41427 41428 41429 41430 41431 41432 41433 41434 41435 41436 41437 41438 41439 41440 41441 41442 41443 41444 41445 41446-41447 41448-41449 41450-41451 41452 Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Long Unsigned Long Unsigned Long Unsigned Word 1 1 1 1 1 1 1 1 100 100 100 1 1 1 100 100 1 1 10 1000 1000 1000 1 Ic Angle In Angle Zero Seq I (Mag) Pos Seq I (Mag) Neg Seq I (Mag) Zero Seq I (Ang) Pos Seq I (Ang) Neg Seq I (Ang) KVab/KVan (Mag) KVbc/KVbn (Mag) KVca/KVcn (Mag) Vab/Van (Ang) Vbc/Vbn (Ang) Vca/Vcn (Ang) Pos Seq KV (Mag) Neg Seq KV (Mag) Pos Seq V (Ang) Neg Seq V (Ang) Fault Location Fault Impedance, Real Breaker Operate Time Relay Operate Time Record Status Bit 0: 0=Wye, 1=Delta Bit 1: 0=Fault, 1=Event Capture 72 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.2 Operation Record REGISTER 41537 DATA SIZE Unsigned Word SCALE 1 41538 41539 41540 41541 41542 41543 41544 41545 41546 41547 Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word 1 1 1 1 1 1 1 1 1 1 DESCRIPTION Data Control 1=First record 2=Next record 3=Oldest Unreported record Year Month Day Hours Minutes Seconds Milliseconds Message # Value Operation Number (Index) Operation Record Indices INDEX 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 DEFINITION 51P Trip 51N Trip 50P-1 Trip 50N-1 Trip 50P-2 Trip 50N-2 Trip 50P-3 Trip 50N-3 Trip 67P Trip 67N Trip 46 Trip 27-1P Alarm 59 Alarm 79V Block 81S-1 Trip 81R-1 Restore 81V Block TOC Pickup-No Trip 27-3P Alarm SEF Trip External Trip External Close Breaker Opened Breaker Closed Open Trip Contact Recloser Lockout Direct Trip Direct Close MDT Close Ext. Trip and ARC Reclose Initiated CB Failed to Trip CB Failed to Close CB Pops Open CB Pops Close CB State Unknown CB Stuck Closed Ext. Trip CB Stuck Springs Discharged Current detected in breaker Manual Trip VALUE CODE Type 1 Undefined Type 1 Undefined Type 1 Undefined Type 1 Undefined Type 1 Undefined Undefined Type 2 Type 2 Type 2 Undefined Undefined Type 2 Undefined Type 2 Undefined Type 1 Type 1 Type 1 Type 1 Type 1 Type 1 Type 1 Type 1 Undefined Undefined Type 1 Type 1 Type 1 Type 1 Type 1 Type 1 Type 1 Type 1 Undefined Undefined Type 1 73 PRODUCT PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD ALL ALL ALL PCD ALL ALL ALL ALL ALL PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD ALL PCD PCD MODBUS® Protocol Implementation Details ABB Inc. 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 Manual Close Ground TC Enabled Ground TC Disabled Phase TC Enabled Phase TC Disabled Primary Set Active ALT1 Set Active ALT2 Set Active Zone Step Recloser Enabled Recloser Disabled Zone Sequence Enabled Zone Sequence Disabled 50P/N-1 Disabled 50P/N-2 Disabled 50P/N-3 Disabled 50P/N-1 Enabled 50P/N-2 Enabled 50P/N-3 Enabled 81S-2 Trip 81R-2 Restore 81O-1 Overfrequency 81O-2 Overfrequency 27A Alarm 27B Alarm 27C Alarm AC Failure Alarm AC Restoration Alarm Reserved Blown Fuze Alarm Overcurrent Trip Counter Alarm Accumulated KSI Alarm 79 Counter 1 Alarm Phase Demand Alarm Neutral Demand Alarm Low PF Alarm High PF Alarm Trip Coil Failure Alarm kVAR Demand Alarm 79 Counter 2 Alarm Positive kVAR Alarm Negative kVAR Alarm Load Alarm Cold Load Alarm Positive Watt Alarm 1 Positive Watt Alarm 2 32P Trip 32N Trip Reserved Event Capture #1 Event Capture #2 Waveform Capture BFT Operation ReTrip Operation External BFI Enabled External BFI Disabled BFI Enabled BFI Disabled Reserved ROM Failure RAM Failure Self Test Failed EEPROM Failure Type 1 Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Type 2 Type 2 Type 2 Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Type 3 Undefined 74 PCD PCD PCD PCD PCD ALL ALL ALL PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL PCD ALL PCD ALL ALL ALL ALL PCD ALL PCD ALL ALL ALL PCD ALL ALL ALL ALL ALL ALL ALL ALL PCD PCD PCD PCD PCD PCD ALL PCD PCD ALL ALL PCD MODBUS® Protocol Implementation Details ABB Inc. 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 BATRAM Failure DSP Failure Control Power Fail Editor Access 59A Alarm 59B Alarm 59C Alarm 59-3P Alarm Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Battery failure Reserved Reserved Reserved Reserved Reserved Springs Charged Springs Discharged 79S Input Enabled 79S Input Disabled 79M Input Enabled 79M Input Disabled TCM Input Closed TCM Input Opened ALT1 Input Enabled ALT1 Input Disabled ALT2 Input Enabled ALT2 Input Disabled External Trip Enabled External Trip Disabled Event Capture 1 Initiated Event Capture 1 Reset Event Capture 2 Initiated Event Capture 2 Reset Waveform Capture Initiated Waveform Capture Reset External Close Enabled External Close Disabled 52a Closed 52a Opened 52b Closed 52b Opened 43a Closed 43a Opened 46 Unit Enabled 46 Unit Disabled 67P Unit Enable 67P Unit Disabled 67N Unit Enabled 67N Unit Disabled ULI1 Input Closed ULI1 Input Opened ULI2 Input Closed ULI2 Input Opened ULI3 Input Closed Undefined Undefined Undefined Type 4 Type 2 Type 2 Type 2 Type 2 Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Type 1 Type 1 Undefined Undefined Undefined Undefined Undefined Undefined Type 1 Type 1 Type 1 Type 1 Type 1 Type 1 Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined 75 ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL PCD / SCD ALL ALL ALL ALL ALL PCD PCD PCD PCD PCD PCD PCD PCD ALL ALL ALL ALL PCD PCD ALL ALL ALL ALL ALL ALL PCD PCD PCD PCD PCD PCD PCD PCD ALL ALL PCD PCD PCD PCD ALL ALL ALL ALL ALL PCD MODBUS® Protocol Implementation Details ABB Inc. 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 1 214 1 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 ULI3 Input Opened ULI4 Input Closed ULI4 Input Opened ULI5 Input Closed ULI5 Input Opened ULI6 Input Closed ULI6 Input Opened ULI7 Input Closed ULI7 Input Opened ULI8 Input Closed ULI8 Input Opened ULI9 Input Closed ULI9 Input Opened CRI Input Closed CRI Input Opened ARC Blocked ARC Enabled TARC Input Opened SEF Enabled SEF Disabled RBI Enabled RBI Disabled Ground Functions Suppressed Ground Functions Unsuppressed Reserved Reserved SCADA Issued Trip SCADA Issued Close SCADA recloser block SCADA recloser unblock SCADA ground block SCADA ground unblock Reserved Front Panel: Reclose Block On Front Panel: Reclose Block Off Front Panel: SEF Block On Front Panel: SEF Block Off Front Panel: Remote Block On Front Panel: Remote Block Off Front Panel: Ground Block On Front Panel: Ground Block Off Front Panel: ALT1 Enabled Front Panel: ALT1 Disabled Front Panel: Prog1 Enable Front Panel: Prog1 Disable Front Panel: Prog2 Enable Front Panel: Prog2 Disable Front Panel: Tag Enabled Front Panel: Tag Disabled Reserved Reserved Reserved Reserved Trip Reasserted Close Reasserted Re-Trip Successful Re-Close Successful Re-Trip Unsuccessful Re-Close Unsuccessful Protection Enabled Protection Disabled Breaker Failure Initiated Trip Breaker Failure Initiated Close Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Type 1 Type 1 Type 1 Type 1 Type 1 Type 1 Undefined Undefined Type 1 Type 1 76 ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL PCD PCD PCD ALL ALL ALL ALL PCD PCD ALL ALL PCD PCD PCD PCD PCD PCD ALL PCD PCD ALL ALL ALL ALL PCD PCD ALL ALL ALL ALL ALL ALL PCD PCD ALL ALL ALL ALL PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD MODBUS® Protocol Implementation Details ABB Inc. 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 ALT1 Pulse On Enabled ALT1 Pulse Off Enabled ALT2 Pulse On Enabled ALT2 Pulse Off Enabled ALT1 Pulse On Disabled ALT1 Pulse Off Disabled ALT2 Pulse On Disabled ALT2 Pulse Off Disabled Tag Open Block Enable Tag Open Block Disable Tag Close Block Enable Tag Close Block Disable Tag Message Enable Tag Message Disable LCM Trip LCM Close LCM Midpoint Operation LCM Reboot Loop communication not OK Loop communication OK Replace CPU Battery LCM reset Fault Test Start Fault Test End SCADA SEF Block SCADA SEF Unblock LCM active, source 1 ON LCM active, source 1 OFF LCM active, source 2 ON LCM active, source2 OFF Switch Open Switch Open Failure Switch Open After Failure Switch Close Switch Close Failure Switch Close After Failure Switch OK in Open State Switch OK in Closed State Switch State Unknown Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Switch 1 52a Contact Closed Switch 1 52a Contact Opened Switch 2 52a Contact Closed Switch 2 52a Contact Opened Switch 3 52a Contact Closed Switch 3 52a Contact Opened Switch 4 52a Contact Closed Switch 4 52a Contact Opened Switch 1 52b Contact Closed Switch 1 52b Contact Opened Switch 2 52b Contact Closed Switch 2 52b Contact Opened Switch 3 52b Contact Closed Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined 77 ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD ALL ALL ALL ALL ALL ALL SCD SCD SCD SCD SCD SCD SCD SCD SCD ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD PCD MODBUS® Protocol Implementation Details ABB Inc. 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 Switch 3 52b Contact Opened Switch 4 52b Contact Closed Switch 4 52b Contact Opened Reserved Reserved Reserved Reserved Switch 1 Direct Open Contact Closed Switch 1 Direct Open Contact Opened Switch 2 Direct Open Contact Closed Switch 2 Direct Open Contact Opened Switch 3 Direct Open Contact Closed Switch 3 Direct Open Contact Opened Switch 4 Direct Open Contact Closed Switch 4 Direct Open Contact Opened Switch 1 Direct Close Contact Closed Switch 1 Direct Close Contact Opened Switch 2 Direct Close Contact Closed Switch 2 Direct Close Contact Opened Switch 3 Direct Close Contact Closed Switch 3 Direct Close Contact Opened Switch 4 Direct Close Contact Closed Switch 4 Direct Close Contact Opened Reserved Reserved Reserved Reserved Fault Detector Enabled Fault Detector Disabled Fault Detected Sectionalize Step Sectionalize Open Sectionalizer Blocked Sectionalize Unblock Sectionalizer Reset Switch 1 Operations Alarm Switch 2 Operations Alarm Switch 3 Operations Alarm Switch 4 Operations Alarm One Shot Clear One Shot Set Reserved Reserved Reserved Reserved Reserved Reserved Front Panel: One Shot Control Cleared Front Panel: One Shot Control Set Front Panel: Sectionalizer Block Set Front Panel: Sectionalizer Block Cleared Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved 78 Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined SCD SCD SCD ALL ALL ALL ALL SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD ALL ALL ALL ALL SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD ALL ALL ALL ALL ALL ALL SCD SCD SCD SCD ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL PCD MODBUS® Protocol Implementation Details ABB Inc. 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 Reserved Reserved Reserved Reserved Primary to Secondary Source Transfer Initiated Primary to Secondary Source Transfer Completed Secondary to Primary Source Transfer Initiated Secondary to Primary Source Transfer Completed Primary to Secondary Restoration Initiated Primary to Secondary Restoration Completed Secondary to Primary Restoration Initiated Secondary to Primary Restoration Completed Source Transfer Failed Source Transfer Blocked Source Transfer Unblocked Source Transfer Armed Source Transfer Disarmed Source Transfer Initiated Open Source Transfer Initiated Close Transfer block input asserted Transfer block input deasserted Transfer primary to secondary input asserted Transfer primary to secondary input deasserted Transfer secondary to primary input asserted Transfer secondary to primary input deasserted Restore primary to secondary input asserted Restore primary to secondary input deasserted Restore secondary to primary input asserted Restore secondary to primary input deasserted Settings bank1 active Settings bank2 active Diagnostics record LCM source 1 enabled LCM source 1 disabled LCM source 2 enabled LCM source 2 disabled PROG1 logical OFF PROG1 logical ON PROG2 logical OFF PROG2 logical ON PROG2 switch mode OFF PROG2 switch mode ON SCADA switch mode OFF SCADA switch mode ON Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Notes: 1: These are available only on PCDs with catalog numbers XR3X-XXXX-XX-XXXX. 79 ALL ALL ALL ALL SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD ALL ALL ALL PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD MODBUS® Protocol Implementation Details ABB Inc. Value codes types: Some operation records have a value field with specific 'type' information. The table below shows currently defined values. Undefined value fields nominally return zero. Value Type 1 2 3 Value Code 0 1 2 3 - 4 - Description Three phase operation Phase A operation Phase B operation Phase C operation Secondary voltage value (Volts) Self Test failure code Bit 15: DSP COP Bit 7: System Boot Failure Bit 14: DSP Program Runaway Bit 6: Spare Bit 13: DSP +5V Power Fail Bit 5: Spare Bit 12: DSP ±15V Power Fail Bit 4: Spare Bit 11: DSP Spare Bit 3: CPU EEPROM Bit 10: DSP Ext. RAM Bit 2: CPU NVRAM Bit 9: DSP Int. RAM Bit 1: CPU Flash Bit 8: DSP ROM Bit 0: CPU RAM Editor access code (Firmware versions 2.9 and below) Bit 15: Comm. Settings Edit Bit7: Clock Settings Edit Bit 14: Alarm Settings Edit Bit 6: Spare Bit 13: Counter Settings Edit Bit 5: Edit via Rear Port Bit 12: Config. Settings Edit Bit 4: Edit via Front Port Bit 11: ALT2 Settings Edit Bit 3: Edit via Front Panel MMI Bit 10 ALT1 Settings Edit Bit 2: Local Edit Disabled Bit 9: Primary Settings Edit Bit 1: Remote Edit Disabled Bit 8: Programmable IO Edit Bit 0: Not Used Editor access code (Firmware versions 3.0 and above, and SCD version 1.0) Bit 15: Not used Bit7: LCM Edit Bit 14: Not used Bit 6: Programmable curve Edit Bit 13: General Edit Bit 5: Alarms Edit Bit 12: Bank2, ALT2 Edit Bit 4: Configuration Edit Bit 11: Bank2, ALT1 Edit Bit 3: ALT2 Edit Bit 10 Bank2, Primary Edit Bit 2: ALT1 Edit Bit 9: Programmable I/O Edit Bit 1: Primary Edit Bit 8: Communications Edit Bit 0: Front panel MMI used 80 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.3 Oscillographic Record Data Headers Block REGISTER 41665 41666 41667 DATA SIZE Unsigned Word Unsigned Word Unsigned Word SCALE 1 1 1 41668 Unsigned Word 1 41669 41670 41671 41672 41673 Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word 1 1 1 1 1 41674 Unsigned Word 1 41675 41676 41677 41678 41679 41680 41681 41682 41683 41684 41685 41686 41687 41688 41689 Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 DESCRIPTION Record Number Cycles per Record Record Size = 0: 1 Record 1: 2 Record 3: 4 Records 4: 8 Records Mode Bit 0 : Single-shot mode (0=off,1=on) Bit 1 : Append record mode (0=off, 1=on) Trigger Position Analog Quantity Select Spare Spare Trigger Source Bit 0 : Trip Issued Signal (PCD) Bit 1 : Breaker Open (PCD) Bit 2 : External (WCI) (PCD / SCD) Bit 3 : 32P (PCD / SCD) Bit 4 : 32N (PCD / SCD) Bit 5 : PFLT (SCD) Bit 6 : NFLT (SCD) Bit 7 : SFLT (SCD) Bit 8 : PQ Sags (PCD / SCD) Bit 9 : PQ Swells (PCD / SCD) Bit 10 : PQ Interruptions (PCD / SCD) Bit 11 : PQ Undervoltage (PCD / SCD) Bit 12 : PQ Overvoltage (PCD / SCD) Bit 13 : PQ TDD (PCD / SCD) Bit 14 : PQ THD (PCD / SCD) Bit 15 : Spare Trigger Source (Low Word) Bit 0 : 50N-1 (PCD) Bit 1 : 50N-2 (PCD) Bit 2 : 50N-3 (PCD) Bit 3 : 51N (PCD) Bit 4 : 50P-1 (PCD) Bit 5 : 50P-2 (PCD) Bit 6 : 50P-3 (PCD) Bit 7 : 51P (PCD) Bit 8: 67P (PCD) Bit 9: 67N (PCD) Bit 10: 46 (PCD / SCD) Bit 11: 27 (PCD / SCD) Bit 12: 59 (PCD / SCD) Bit 13: 79 (PCD) Bit 14: 81S (PCD / SCD) Bit 15: 81R (PCD / SCD) Year Month Day Hours Minutes Seconds Milliseconds Channel 1 Scale Channel 2 Scale Channel 3 Scale Channel 4 Scale Channel 5 Scale Channel 6 Scale Channel 7 Scale Channel 8 Scale 81 PCD MODBUS® Protocol Implementation Details ABB Inc. 41690 41691 41692 41693 41694 41695 41696 41697 Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word 1 Channel 9 Scale Channel 10 Scale Channel 11 Scale Channel 12 Scale Channel 13 Scale Channel 14 Scale Channel 15 Scale Channel 16 Scale Note: Analog Quantity Select Mask is currently not supported. Also, the three trigger word registers 41671 thru 41672 are currently not supported. 82 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.4 Oscillographic Digital Records Block REGISTER 41793 41794 41795 41796 41797 41798 41799 41800 41801 41802 41803 41804 41805 41806 41807 41808 41809 41810-41824 41825-41839 41840-41854 DATA SIZE Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word SCALE 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 DESCRIPTION Record Number Cycle Number First Qtr Cycle: Phase Scale 1 First Qtr Cycle: Phase Scale 2 First Qtr Cycle: Neutral Scale 1 First Qtr Cycle: Neutral Scale 2 First Qtr Cycle: Spare Scale First Qtr Cycle: Spare Scale First Qtr Cycle: Input Status (High Word) First Qtr Cycle: Input Status (Low Word) First Qtr Cycle: Output Status (High Word) First Qtr Cycle: Output Status (Low Word) First Qtr Cycle: Pickup Status (High Word) First Qtr Cycle: Pickup Status (Low Word) First Qtr Cycle: Fault Status (High Word) First Qtr Cycle: Fault Status (Low Word) First Qtr Cycle: Reserved Second Qtr Cycle (15 words as above) Third Qtr Cycle (15 words as above) Forth Qtr Cycle (15 words as above) 83 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.5 Oscillographic Analog Records Block REGISTER 41921 41922 41923 41924 41925 41926 41927 41928 41929 41930 41931 41932 41933 41934 41935 41936 41937 41938 41939 41940 41941 41942 41943 41944 41945 41946 41947 41948 41949 41950 41951 41952 41953 41954 41955 DATA SIZE Unsigned Word Unsigned Word Unsigned Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word Signed Word SCALE 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 DESCRIPTION Record Number Cycle Number Analog Quantity Sample 0 Sample 1 Sample 2 Sample 3 Sample 4 Sample 5 Sample 6 Sample 7 Sample 8 Sample 9 Sample 10 Sample 11 Sample 12 Sample 13 Sample 14 Sample 15 Sample 16 Sample 17 Sample 18 Sample 19 Sample 20 Sample 21 Sample 22 Sample 23 Sample 24 Sample 25 Sample 26 Sample 27 Sample 28 Sample 29 Sample 30 Sample 31 84 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.6 Oscillographic Control and Status Block REGISTER 42049 DATA SIZE Unsigned Word SCALE 1 42050 Unsigned Word 1 42051 Unsigned Word 1 42052 42053 Unsigned Word Unsigned Word 1 1 DESCRIPTION Start / Stop Accumulation 0 = Stop 1 = Start Record Size 0: 1 Record 1: 2 Records 2: 4 Records 3: 8 Records Mode Bit 0 : Single-shot mode (0=off,1=on) Bit 1 : Append record mode (0=off, 1=on) Records Remaining (single-shot mode) State of Accumulation 1 = Running 0 = Stopped 85 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.7 Load Profile Data Header REGISTER 42177 DATA SIZE Unsigned Word 42178 42179 42180 42181 42182 42183 42184 42185 42186 42187 42188 42189 42190 42191 42192 42193 42194 42195 42196 42197 42198 42199 42200 Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word SCALE 1 DESCRIPTION Data Control 1= All Data 2= Last Data Year Month Day Hours Minutes Column 1 Attribute Number Column 2 Attribute Number Column 3 Attribute Number Column 4 Attribute Number Column 5 Attribute Number Column 6 Attribute Number Column 7 Attribute Number Column 8 Attribute Number Column 9 Attribute Number Column 1 Attribute Scale Column 2 Attribute Scale Column 3 Attribute Scale Column 4 Attribute Scale Column 5 Attribute Scale Column 6 Attribute Scale Column 7 Attribute Scale Column 8 Attribute Scale Column 9 Attribute Scale Attribute description for firmware versions <= 2.60 and >= 2.90 ATTRIBUTE # DESCRIPTION DYNAMIC SCALE 0 Demand kW-A 122 1 Demand kW-B 122 2 Demand kW-C 122 3 Demand kVAR-A 122 4 Demand kVAR-B 122 5 Demand kVAR-C 122 6 Van 10 7 Vbn 10 8 Vcn 10 9 Demand kW-3P 367 10 Demand kVAR-3P 367 11 Demand Ia 1 12 Demand Ib 1 13 Demand Ic 1 14 Demand In 1 15 Vab 10 16 Vbc 10 17 Vca 10 18 Power factor 1 19 Power factor type 1 Attribute description for firmware versions >= 2.70 and <= 2.82 ATTRIBUTE # DESCRIPTION DYNAMIC SCALE 0 Power factor 1 1 Power factor type 1 2 Demand Ia 1 3 Demand Ib 1 4 Demand Ic 1 5 Demand In 1 6 and over Same as above 86 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.8 Load Profile Data Block REGISTER 42305 DATA SIZE Unsigned Word 42306 42307 42308 42309 42310 42311 42312 42313 42314 42315 42316 42317 42318 42319 42320 42321 42322 42323 42324 42325 42326 42327 42328 42329 42330 42331 42332 42333 42334 42335 42336 42337 42338 42339 42340 42341 42342 42343 42344 42345 42346 42347 42348 42349 42350 42351 42352 42353 42354 42355 42356 42357 42358 42359 42360 Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word SCALE DESCRIPTION Data Control 1= Next Data 2= Last Data Demand Interval (5/15/30/60 Minutes) Record Number Total Number of Data Bytes (1 through 126) Year Month Day Hours Minutes Data Block 0 Data Block 1 Data Block 2 Data Block 3 Data Block 4 Data Block 5 Data Block 6 Data Block 7 Data Block 8 Data Block 9 Data Block 10 Data Block 11 Data Block 12 Data Block 13 Data Block 14 Data Block 15 Data Block 16 Data Block 17 Data Block 18 Data Block 19 Data Block 20 Data Block 21 Data Block 22 Data Block 23 Data Block 24 Data Block 25 Data Block 26 Data Block 27 Data Block 28 Data Block 29 Data Block 30 Data Block 31 Data Block 32 Data Block 33 Data Block 34 Data Block 35 Data Block 36 Data Block 37 Data Block 38 Data Block 39 Data Block 40 Data Block 41 Data Block 42 Data Block 43 Data Block 44 Data Block 45 Data Block 46 87 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 42361 42362 42363 42364 42365 42366 42367 42368 42369 42370 42371 42372 42373 42374 42375 42376 42377 DATA SIZE Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word SCALE DESCRIPTION Data Block 47 Data Block 48 Data Block 49 Data Block 50 Data Block 51 Data Block 52 Data Block 53 Data Block 54 Data Block 55 Data Block 56 Data Block 57 Data Block 58 Data Block 59 Data Block 60 Data Block 61 Data Block 62 Data Block 63 Each data block is a two byte word formatted as follows: Bits 0-13 : Data Value Bit 14 : Sign Bit (1=multiply bits 0-13 by -1) Bit 15 : Scale Bit (0=multiply bits 0-13 by 1, 1=multiply bits 0-13 by attribute scale) Example: Report column 1 is profiling attribute #0 (Demand kW-A) and has a dynamic scale = 122 DATA BINARY PATTERN SCALE REPORTED VALUE WORD 8,000 0001111101000000 1 8,000 kW 24,384 0101111101000000 -1 -8,000 kW 16,776 0100000011000100 122 23,912 kW 49,384 1100000011000100 -122 -23,912 kW 88 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.9 Load Profile Control Block REGISTER 42433 DATA SIZE Unsigned Word SCALE 1 DESCRIPTION Start / Stop Accumulation 0 = Stop 1 = Start 89 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.10 Power Quality Records REGISTER 42561 42562 42563 42564 42565 42566 42567 42568 42569 42570 42571 42572 DATA SIZE Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word SCALE 1 1 1 1 1 1 1 1 1 1 1 1 42573 42574 Unsigned Word Unsigned Long Word Unsigned Word Unsigned Word Unsigned Long Word Unsigned Word Unsigned Word 1 1 DESCRIPTION Record Index (1 = latest record) Year (4 digit) Month Day Hour Minutes Seconds Milliseconds Duration (Milliseconds, high word) Duration (Milliseconds, low word) Event Classification Code (see table below) Operation Type (see tables below) Bits 0-3: Event Quantity Bits 4-5: System Configuration Bit 14: Early Termination Flag Bit 15: Test Record Flag Operation Number (1~999) Pre Event Current (Primary Amps) 1 1 1 Pre Event Voltage (PU Voltage x10000) Post Event Voltage (PU Voltage x10000) Status 1 1 RMS Record Sample Count RMS Record Available Types Bit 0: Voltage Record Bit 1: Current Record Bit 2: THD Record Bit 3: TDD Record 42576 42577 42578 42580 42581 CODE # 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 CLASSIFICATION Swell, Instantaneous Swell, Momentary Swell, Temporary Swell, t > t(max) Sag, Instantaneous Sag, Momentary Sag, Temporary Sag, t > t(max) Interruption, Momentary Interruption, Temporary Interruption, Sustained Interruption, t > t(max) Overvoltage Overvoltage, t > t(max) Undervoltage Undervoltage, t > t(max) Current TDD Voltage THD 90 PCD MODBUS® Protocol Implementation Details ABB Inc. CODE # 0 1 2 3 4-15 PHASE Van / Vab / Ia Vbn / Vbc / Ib Vcn / Vca / Ic Phase Minimum/Maximum Spare CODE # 0 1 2 3 CONFIGURATION 69V Wye 120V Wye 120V Delta 208V Delta 91 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.11 Power Quality Statistics REGISTER DATA SIZE SCALE DESCRIPTION 42689 42690 42691 42692 42693 42694 42695 42696 42697-42711 42712 42713-42727 42728 42729-42743 42744 42745-42759 42760 42761-42775 42776 42777-42791 42792 42793 42794 42795 42796 Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Data Control (1=Read Only, 2=Read and Reset Counters) Counter Last Reset, Year (4 digit) Counter Last Reset, Month Counter Last Reset, Day Counter Last Reset, Hour Counter Last Reset, Minutes Counter Last Reset, Seconds Swell Counter, Instantaneous Swell Worst Case Record, Instananeous Swell Counter, Momentary Swell Worst Case Record, Momentary Swell Counter, Temporary Swell Worst Case Record, Temporary Sag Counter, Instantaneous Sag Worst Case Record, Instananeous Sag Counter, Momentary Sag Worst Case Record, Momentary Sag Counter, Temporary Sag Worst Case Record, Temporary Interruption Counter, Momentary Interruption Counter, Temporary Interruption Counter, Sustained Overvoltage Counter Undervoltage Counter Worst Case Record Format REGISTER Reg + 0 Reg + 1 Reg + 2 Reg + 3 Reg + 4 Reg + 5 Reg + 6 Reg + 7 Reg + 8 Reg + 9 Reg + 10 DATA SIZE Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word SCALE 1 1 1 1 1 1 1 1 1 1 1 Reg + 11 Unsigned Long Word Unsigned Word Unsigned Word 1 DESCRIPTION Year Month Day Hours Minutes Seconds Milliseconds Duration (Milliseconds, high word) Duration (Milliseconds, low word) Event Classification Code (see table in 5.3.10) Operation Type (see tables in 5.3.10) Bits 0-3: Event Quantity Bits 4-5: System Configuration Bit 14: Early Termination Flag Bit 15: Test Record Flag Pre-event Current (Primary Amps) 1 1 Pre-event Quantity Post-event Quantity Reg + 13 Reg + 14 Quantity defined as: a) b) c) Voltage (PU Voltage x10000) Current TDD (Percent x10) Voltage THD (Percent x10) 92 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.12 Power Quality RMS Records REGISTER DATA SIZE SCALE DESCRIPTION 42817 Unsigned Word 1 42818 42819 Unsigned Word Unsigned Word 1 1 42820 42821 . . . 42919 Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word 1 1 1 1 1 1 Record Number (Must match an Existing PQ Operation Number) Record Type (0=Vx, 1=Ix, 2=THD, 3=TDD) Block Number (0 = First Block, Each Block = 100 Sample Values) Sample 0 Sample 1 . . . Sample 99 Sample Value Format Parameter Voltage (Vx) Bit Field 0 to 12 13 to 15 Definition Magnitude Time Base Current (Ix) 0 to 9 10 to 12 Magnitude Current Base 13 to 15 Time Base 93 Values 5200 counts = 1.00 Per Unit 0 0.25 Cycles 1 0.50 Cycles 2 1.00 Cycles 3 2.00 Cycles 4 4.00 Cycles 5 8.00 Cycles 6 16.0 Cycles 7 32.0 Cycles 400 counts = 1.00 Per Unit 0 Primary Settings Group 1 Alternate 1 Settings Group 2 Alternate 2 Settings Group 3 to 7 Reserved As defined in voltage above PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.13 Power Quality Control and Status Block REGISTER DATA SIZE SCALE DESCRIPTION 42945 Unsigned Word 1 42946 42947 42948 42949 42950 42951 42952 Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word Unsigned Word 1 1 *256 *256 *256 *256 1 Start / Stop PQ Record Accumulation (0=Stop, 1=Start, 2=Start w/record clear) Accumulation Status (0=Stopped, 1=Running) Number of Records Logged Current Scale : Primary Settings Current Scale : Alternate 1 Settings Current Scale : Alternate 2 Settings Voltage Scale (RMS Record) Scale Status (0=OK, 1=Out of Date) 94 PCD MODBUS® Protocol Implementation Details ABB Inc. 5.3.14 Power Quality Informational Block REGISTER DATA SIZE SCALE DESCRIPTION 43073 43074 43075 43076 Unsigned Word Unsigned Word Unsigned Word Unsigned Long Word 1 1 1 1 43078 43079 43080 Unsigned Word Unsigned Word Unsigned Word *100 1 1 Host Product Code: PCD = 1 PQ Variant Code PQ Library Revision Code PQ Library Unit Availability Code Bit 0: Sag Unit Bit 1: Swell Unit Bit 2: Interruption Unit Bit 3: Undervoltage Unit Bit 4: Overvoltage Unit Bit 5: Voltage THD Unit Bit 6: Current TDD Unit Bit 7: RMS Profiling Unit Bit 8-29: Spares Bit 30-3: Standard (00=IEEE) System Frequency (60 Hz = 6000) Acquisition rate in Samples per cycle Samples per RMS quantity (Base) 95 PCD MODBUS® Protocol Implementation Details ABB Inc. (This page is intentionally blank.) 96 PCD MODBUS® Protocol Implementation Details ABB Inc. 6 6x Registers 6.1 FUNCTION CODE 20 (READ GENERAL REFERENCE) FUNCTION CODE 21 (WRITE GENERAL REFERENCE) Programmable Input Definitions: Physical Input: The opto-isolated binary input that allows external control by physically wiring the input terminals of the PCD. Physical inputs are labeled (IN1, IN2, IN3, ..., IN32). Logical Input: An input equated by the Boolean combination of the physical inputs. These inputs are used by the PCD's state machine and control subroutines. Logical Inputs are labeled (PH3, GRD, TCM, ...). See later in this paragraph for additional labels. Active Open: This defines the type of connection from the physical input or inputs and means the physical state of the opto-isolator's logic is inverted. Example: if the voltage across IN1's terminals equals zero, then the Boolean equation will evaluate this term as a logical one. Likewise, when a voltage is applied to IN1, the Boolean equation will evaluate this term as a logical zero. Active Closed: This defines the type of connection from the physical input or inputs and means that the physical state of the opto-isolator's logic is the non-inverted. Example: if a voltage is applied across IN1's terminals, then the Boolean equation will evaluate this term as a logical one. Likewise, when no voltage is applied to IN1, the Boolean equation will evaluate this term as a logical zero. Example of a Boolean input equation: Logical 50-1 = ORed Physical IN1 + IN2 + IN3 Logical GRD = ANDed Physical IN1 * IN2 * IN3 Input Select: The physical inputs are associated with a bit mask to determine which inputs are used when resolving the logical input's Boolean equation. If the appropriate bit is set, the term will be included as part of the equation. Likewise, a cleared bit indicates that the physical input term will be ignored. The bit assignment mask for the physical inputs are as follows: IN1 … … IN32 Æ . . Æ Bit 0 … … Bit 31 Negated AND Input: This is a bit mask that indicates if a selected input is inverted based on the active open or closed state. The bit mask uses the same associated physical inputs pattern as in the Input Select data. AND/OR Select: The combination of the physical inputs' state used to resolve the Boolean equation allows for the algebraic ANDing or ORing of all of the selected physical inputs. 97 PCD MODBUS® Protocol Implementation Details ABB Inc. User Definable Names: Physical inputs, IN1 - IN32, have memory allocated for an eight character (NULL is implied in character 9) user definable strings. Four protocol commands are required to view or change the PCD’s programmable input setting tables. The command order for viewing these tables can be retrieved in any sequence, but when the settings are sent to the PCD, the commands must be sent in the following sequence: Receive Programmable Input Select and Index data. Receive Programmable Negated AND Input data. Receive Programmable Input AND/OR Select data. Receive Programmable Input User Defined Name data. Up to 32 logical inputs may be selected at any one time. The protocol document refers to these generic logical inputs as INPUT1 - INPUT32. Example: We want the PH3 logical input to be the combination of the physical inputs IN4 AND NOT IN3 and ALT1 logical input to be the combination of the physical inputs IN1 OR IN3 OR NOT IN5. PH3 = IN4 * !IN3 ALT1 = IN1 + IN3 + !IN5 First, generic inputs must be selected to setup the logic equation and for this case INPUT3 is used for PH3 and INPUT8 is used for ALT1. Note, any inputs 1-32 could be valid selections. The data values required for these selections use the INDEX table defined in the protocol document. 98 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 60009 HEX DATA 0xFFF3 60070 60019 0x0300 0xFFEA 60072 60133 0x000C 0xFFFB 60143 0xFFEF 60193 0x0004 60195 0x0000 COMMENT No physicals selected for INPUT3 Input Select high word. Selects IN3 and IN4 bits for INPUT3 Input Select low word. Assigning PH3 offset to INPUT3 for Input Index high word. No physicals selected for INPUT8 Input Select high word. Selects IN1, IN3 and IN5 bit for INPUT8 Input Select low word. Assigning ALT1 offset to INPUT8 for Input Index low byte No physical's logic inverted for INPUT3 Negated AND Input high word Inverts IN3's logical state for INPUT3 Negated AND Input low word. Inverts IN5's logical state for INPUT8 Negated AND Input low word. No physical's logic inverted for INPUT8 Negated AND Input high word. Boolean combination of INPUT3 selected physical logic are ANDed, all others are ORed together. INPUT1,-15 outputs not inverted. Bit = 0, Physical Input is selected. Bit = 1, Physical Input is not selected. Low byte consists of bits 0 through 7. High byte consists of bits 8 through 15. Index byte is the offset into the PCD's logical input structure. Example: We want the CLOSE logical output to be the combination of the physical inputs IN2 AND NOT IN3. CLOSE = IN2 * !IN3 First, generic inputs must be selected to setup the logic equation and for this case OUTPUT1 is used for CLOSE. Note, any outputs 1-32 could be valid selections. The data values required for these selections use the INDEX table defined in the protocol document. 99 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 60517 HEX DATA 0xFFF9 60581 60641 0x0100 0xFFFB 60705 0x0001 60707 6076860771 60896 0x0000 “ NAME” COMMENT No physicals selected for OUTPUT1 Output Select high word. Selects IN2 and IN3 bits for OUTPUT1 Output Select low word. Assigning CLOSE offset to OUTPUT1 for Output Index high word. Inverts IN3's logical state for OUTPUT1 Negated AND Input low byte Boolean combination of OUTPUT1 selected physical logic are ANDed, all others are ORed together. OUTPUT1 selected physical output logic not inverted. OUTPUT1 8 ASCII character output strings. 0x01 Programmable OUTPUT1 delay. Bit = 0, Physical Input is selected. Bit = 1, Physical Input is not selected. Low byte consists of bits 0 through 7. High byte consists of bits 8 through 15. Index byte is the offset into the PCD's logical output structure. Logical Input Indices INDEX 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 INPUT 52A 52B 43A PH3 GRD SCC 79S 79M TCM 50-1 50-2 50-3 ALT1 ALT2 ECI1 ECI2 WCI ZSC Open Close 46 67P 67N ULI1 ULI2 ULI3 ULI4 ULI5 ULI6 ULI7 ULI8 ULI9 CRI ARCI TARC SEF Ext BFI BFI RBI ALT1Pon DEFINITION Breaker Position - Closed/Opened Breaker Position - Opened/Closed Reclose Function - Enabled/Disabled Phase Torque Control Ground Torque Control Spring Charging Contact Single Shot Reclosing Multi Shot Reclosing Trip Coil Monitoring Instantaneous 50P-1 50N-1 Instantaneous 50P-2 50N-2 Instantaneous 50P-3 50N-3 Enables ALT1 settings table Enables ALT2 settings table Event Capture Initiated data in fault record Event Capture Initiated data in fault record Waveform Capture Initiated Zone Sequence Coordination Trip initiated Close Initiated Enables 46 Function Enables 67P Function Enables 67N Function User Logical Input Asserts ULO1 User Logical Input Asserts ULO2 User Logical Input Asserts ULO3 User Logical Input Asserts ULO4 User Logical Input Asserts ULO5 User Logical Input Asserts ULO6 User Logical Input Asserts ULO7 User Logical Input Asserts ULO8 User Logical Input Asserts ULO9 Resets Overcurrent Trip And all Recloser Counters Timed Reclose Block Initiate Trip and Automatic Reclose Sensitive Earth Fault Enable External Started Input Breaker Fail Initiate Remote Block Initiate Alternate Settings 1 Pulse On 100 PRODUCT PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD ALL ALL ALL ALL ALL PCD PCD PCD ALL PCD PCD ALL ALL ALL ALL ALL ALL ALL ALL ALL PCD PCD PCD ALL PCD PCD ALL ALL PCD MODBUS® Protocol Implementation Details ABB Inc. 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 Notes: ALT1Poff ALT2Pon ALT2Poff OPNBLK CLSBLK TAGMSG 52aA 52aB 52aC 52bA 52bB 52bC TRIPA TRIPB TRIPC CLOSEA CLOSEB CLOSEC SW1-52a SW1-52b SW2-52a SW2-52b SW3-52a SW3-52b SW4-52a SW4-52b OPEN1 CLOSE1 OPEN2 CLOSE2 OPEN3 CLOSE3 OPEN4 CLOSE4 SECBLK OSLIM FLTDET XFERBLK XFERPS XFERSP RSTRPS RSTRSP RST_TA RST_SA Alternate Settings 1 Pulse Off Alternate Settings 2 Pulse On Alternate Settings 2 Pulse Off Tag Open Block Tag Close Block Tag Message Phase A 52a Contact Input Phase B 52a Contact Input Phase C 52a Contact Input Phase A 52b Contact Input Phase B 52b Contact Input Phase C 52b Contact Input Phase A Direct Trip Input Phase B Direct Trip Input Phase C Direct Trip Input Phase A Direct Close Input Phase B Direct Close Input Phase C Direct Close Input Switch 1 52a Contact Input Switch 1 52b Contact Input Switch 2 52a Contact Input Switch 2 52b Contact Input Switch 3 52a Contact Input Switch 3 52b Contact Input Switch 4 52a Contact Input Switch 4 52b Contact Input Switch 1 Open Initiate Switch 1 Close Initiate Switch 2 Open Initiate Switch 2 Close Initiate Switch 3 Open Initiate Switch 3 Close Initiate Switch 4 Open Initiate Switch 4 Close Initiate Sectionalize Block Sectionalize One-shot Limit Fault Detector Enable Source Transfer Block Source Transfer Initiate P→S Source Transfer Initiate S→P Source Restoration Initiate P→S Source Restoration Initiate S→P Reset target alarms Reset seal-in alarms 1 Single Phase mode only when available 101 ALL ALL ALL ALL ALL ALL 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD ALL ALL PCD MODBUS® Protocol Implementation Details ABB Inc. Logical Output Indices INDEX 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 OUTPUT TRIP CLOSE ALARM 27-1P 46 50P-1 50N-1 50P-2 50N-2 50P-3 50N-3 51P 51N 59 67P 67N 81S-1 81R-1 PATA PBTA PCTA TCFA TCC 79DA PUA 79LOA BFA PDA NDA BFUA KSI 79CA-1 HPFA LPFA OCTC 50-1D 50-2D STC ZSC PH3-D GRD-D 32PA 32NA 27-3P VarDA 79CA-2 TRIPA TRIPB TRIPC 27-1P* 46* 50P-1* 50N-1* 50P-2* 50N-2* 50P-3* 50N-3* 51P* 51N* DEFINITION Fixed Trip Fixed Close Self Check Alarm Undervoltage (any phase) Negative Sequence Overcurrent Phase Inst. Overcurrent Neutral Inst. Overcurrent Phase Inst. Overcurrent Neutral Inst. Overcurrent Phase Inst. Overcurrent Neutral Inst. Overcurrent Phase Time Overcurrent Neutral Time Overcurrent Overvoltage (any phase) Directional Overcurrent (positive sequence) Directional Overcurrent (negative sequence) Frequency Shed (First stage) Frequency Restore (First stage) Phase A Target Phase B Target Phase C Target Trip Circuit Fail Tap Changer Cutout Recloser Disable Overcurrent Pickup Recloser Lockout Breaker Fail Phase Peak Demand Neutral Peak Demand Blown Fuse KiloAmp Summation Reclose Counter1 High Power Factor Low Power Factor Overcurrent Trip Counter 50-1 Element Disable 50-2 Element Disable Setting Table Change Zone Sequence Phase Torque Control Disable Neutral Torque Control Disable Directional Pickup (pos seq) Directional Pickup (neg seq) Undervoltage (all phases) VAR Demand Alarm Reclose Counter 2 Single Pole Trip Phase A Single Pole Trip Phase B Single Pole Trip Phase C Undervoltage (any phase) (seal-in) Negative Sequence Overcurrent (seal-in) Phase Inst. Overcurrent (seal-in) Neutral Inst. Overcurrent (seal-in) Phase Inst. Overcurrent (seal-in) Neutral Inst. Overcurrent (seal-in) Phase Inst. Overcurrent (seal-in) Neutral Inst. Overcurrent (seal-in) Phase Time Overcurrent (seal-in) Neutral Time Overcurrent (seal-in) 102 PRODUCT PCD PCD ALL ALL ALL PCD PCD PCD PCD PCD PCD PCD PCD ALL PCD PCD ALL ALL ALL ALL ALL PCD PCD PCD ALL PCD PCD ALL ALL ALL ALL PCD ALL ALL PCD PCD PCD ALL PCD PCD PCD ALL ALL ALL ALL PCD PCD PCD PCD ALL ALL PCD PCD PCD PCD PCD PCD PCD PCD PCD MODBUS® Protocol Implementation Details ABB Inc. 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 59* 67P* 67N* 81S-1* 81R-1* 81O-1* 27-3P* TRIPA* TRIPB* TRIPC* ULO1 ULO2 ULO3 ULO4 ULO5 ULO6 ULO7 ULO8 ULO9 PVArA NVArA LOADA 81O-1 81O-2 81S-2 81R-2 81O-2* 81S-2* 81R-2* CLTA PWatt1 PWatt2 79CA1* 79CA2* SEF* SEF BZA BF Trip BF Retrip BF Trip* BF Retrip* 32P 32N 32P* 32N* BFA* RBA 27A 27B 27C LOAC 27A* 27B* 27C* LOAC* TAGOPN TAGCLS 59A 59B 59C 59-3P 59A* 59B* Overvoltage (any phase) (seal-in) Directional Overcurrent (positive sequence) Directional Overcurrent (negative sequence) Frequency Shed (First stage) Frequency Restore (First stage) Over Frequency (First stage) Undervoltage (all phases) (seal-in) Single Pole Trip Phase A (seal-in) Single Pole Trip Phase B (seal-in) Single Pole Trip Phase C (seal-in) User Logical Output 1 User Logical Output 2 User Logical Output 3 User Logical Output 4 User Logical Output 5 User Logical Output 6 User Logical Output 7 User Logical Output 8 User Logical Output 9 Positive Var Negative Var Load Current Over Frequency (First Stage) Over Frequency (2nd Stage) Frequency Shed (2nd Stage) Frequency Restore (2nd Stage) Over Frequency (2nd Stage) (seal-in) Frequency Shed (2nd Stage) (seal-in) Frequency Restore (2nd Stage) (seal-in) Cold Load Timer Positive Watt Alarm 1 Positive Watt Alarm 2 Recloser Counter 1 Alarm (seal-in) Recloser Counter 2 Alarm (seal-in) Sensitive Earth Fault Trip (seal-in) Sensitive Earth Fault Trip Bus Zone Alarm Breaker Fail Trip Breaker Fail Re-Trip Breaker Fail Trip (seal-in) Breaker Fail Re-Trip (seal-in) Phase Directionality Alarm Neutral Directionality Alarm Phase Directionality Alarm Neutral Directionality Alarm (seal-in) Breaker Failure Alarm (seal-in) Remote Blocked Alarm Phase A Undervoltage Alarm Phase B Undervoltage Alarm Phase C Undervoltage Alarm Loss of AC Alarm Phase A Undervoltage Alarm (seal-in) Phase B Undervoltage Alarm (seal-in) Phase C Undervoltage Alarm (seal-in) Loss of AC Alarm (seal-in) Tag Open Tag Close 59A Phase A Overvoltage Alarm 59B Phase B Overvoltage Alarm 59C Phase C Overvoltage Alarm 59-3P 3 Phase Overvoltage Alarm 59A Phase A Overvoltage Alarm (seal-in) 59B Phase B Overvoltage Alarm (seal-in) 103 ALL PCD PCD ALL ALL ALL ALL PCD PCD PCD ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL PCD ALL ALL PCD PCD ALL ALL PCD PCD PCD PCD PCD ALL ALL ALL ALL PCD ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL PCD MODBUS® Protocol Implementation Details ABB Inc. 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 59C* 59-3P* PTA NTA CLOSEA CLOSEB CLOSEC FAILA FAILB FAILC 50_1A 50_1B 50_1C 50_1A* 50_1B* 50_1C* 50_2A 50_2B 50_2C 50_2A* 50_2B* 50_2C* 50_3A 50_3B 50_3C 50_3A* 50_3B* 50_3C* 51A 51B 51C 51A* 51B* 51C* 67A 67B 67C 67A* 67B* 67C* 79LOAA 79LOAB 79LOAC SW1OPEN SW1CLOSE SW1FAIL SW2OPEN SW2CLOSE SW2FAIL SW3OPEN SW3CLOSE SW3FAIL SW4OPEN SW4CLOSE SW4FAIL FLTDET FLTDET* SW1A SW2A SW3A SW4A SW1A* SW2A* 59C Phase C Overvoltage Alarm (seal-in) 59-3P 3 Phase Overvoltage Alarm (seal-in) Phase Target Alarm Neutral Target Alarm Phase A Close Output Phase B Close Output Phase C Close Output Phase A Pole Failure Output Phase B Pole Failure Output Phase C Pole Failure Output Phase A 50-1 Trip Output Phase B 50-1 Trip Output Phase C 50-1 Trip Output Phase A 50-1 Trip Output (seal-in) Phase B 50-1 Trip Output (seal-in) Phase C 50-1 Trip Output (seal-in) Phase A 50-2 Trip Output Phase B 50-2 Trip Output Phase C 50-2 Trip Output Phase A 50-2 Trip Output (seal-in) Phase B 50-2 Trip Output (seal-in) Phase C 50-2 Trip Output (seal-in) Phase A 50-3 Trip Output Phase B 50-3 Trip Output Phase C 50-3 Trip Output Phase A 50-3 Trip Output (seal-in) Phase B 50-3 Trip Output (seal-in) Phase C 50-3 Trip Output (seal-in) Phase A 51 Trip Output Phase B 51 Trip Output Phase C 51 Trip Output Phase A 51 Trip Output (seal-in) Phase B 51 Trip Output (seal-in) Phase C 51 Trip Output (seal-in) Phase A 67 Trip Output Phase B 67 Trip Output Phase C 67 Trip Output Phase A 67 Trip Output (seal-in) Phase B 67 Trip Output (seal-in) Phase C 67 Trip Output (seal-in) Phase A Lockout Phase B Lockout Phase C Lockout Switch 1 Open Output Switch 1 Close Output Switch 1 Failure Output Switch 2 Open Output Switch 2 Close Output Switch 2 Failure Output Switch 3 Open Output Switch 3 Close Output Switch 3 Failure Output Switch 4 Open Output Switch 4 Close Output Switch 4 Failure Output Fault Detected Output Fault Detected Output (seal-in) Switch 1 Operations Alarm Switch 2 Operations Alarm Switch 3 Operations Alarm Switch 4 Operations Alarm Switch 1 Operations Alarm (seal-in) Switch 2 Operations Alarm (seal-in) 104 ALL ALL ALL ALL 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD 1 PCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD SCD PCD MODBUS® Protocol Implementation Details ABB Inc. 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 Notes: SW3A* SW4A* SECALM OSALRM PSXFER SPXFER PSXFER* SPXFER* LCMTRIP LCMTRIP* LCMCLOSE LCMCLOSE* TAGBUTTON LCMMIDPOINT LCMMIDPOINT* ISD_TRIPA ISD-TRIPB ISD_TRIPC ISD_TRIG CPU_BATT_FAIL BATT_FAIL PRIM_ACTIVE ALT1_ACTIVE ALT2_ACTIVE BANK1_ACTIVE BANK2_ACTIVE Switch 3 Operations Alarm (seal-in) Switch 4 Operations Alarm (seal-in) Sectionalize Block Alarm Sectionalize One-shot Active Alarm Primary to secondary transfer Secondary to primary transfer Primary to secondary transfer (Seal-in) Secondary to primary transfer (Seal-in) Trip due to LCM Trip due to LCM (Seal-in) Close due to LCM Close due to LCM (Seal-in) Hot tag button status LCM midpoint operation LCM midpoint operation (Seal-in) Trip phase A signal to ISD Trip phase B signal to ISD Trip phase C signal to ISD Trigger signal to ISD Replace CPU Battery Battery failure Primary protection settings group active Alt1 protection settings group active Alt2 protection settings group active Bank1 settings active Bank2 settings active 1 Single Phase mode only when available 105 SCD SCD SCD SCD SCD SCD SCD SCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD ALL ALL PCD MODBUS® Protocol Implementation Details ABB Inc. Bit Mapping for the Select and Input Inversion Masks (Programmable Inputs) Bit 0 1 . . 30 31 Physical Input IN1 IN2 . . FB2 FB1 Bit Mapping for the Select and Input Inversion Masks (Programmable Outputs) Bit 0 1 . . 30 31 Logical Output IN1 IN2 .. .. FB2 FB1 NOTE: All models have same physical output mapping however, the number of physical outputs available on the unit depends on the IO module population of the unit. 106 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.1 Programmable Input Select, Index, and Feedback Masks NOTE: All models have same physical input mapping however, the number of physical inputs available on the unit depends on the IO module population of the unit. REGISTER 60000 60001 60002 60003 60004 60005 60006 60007 60008 60009 60010 60011 60012 60013 60014 60015 60016 60017 60018 60019 60020 60021 60022 60023 60024 60025 60026 60027 60028 60029 60030 60031 60032 60033 60034 60035 60036 60037 60038 60039 60040 60041 60042 60043 60044 60045 60046 60047 60048 60049 60050 60051 high byte low byte high byte low byte DEFINTION Spare Execute Register for Program Inputs (registers 6000160511) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) INPUT1 Select Mask, High Word INPUT1 Select Mask, Low Word INPUT2 Select Mask, High Word INPUT2 Select Mask, Low Word INPUT3 Select Mask, High Word INPUT3 Select Mask, Low Word INPUT4 Select Mask, High Word INPUT4 Select Mask, Low Word INPUT5 Select Mask, High Word INPUT5 Select Mask, Low Word INPUT6 Select Mask, High Word INPUT6 Select Mask, Low Word INPUT7 Select Mask, High Word INPUT7 Select Mask, Low Word INPUT8 Select Mask, High Word INPUT8 Select Mask, Low Word INPUT9 Select Mask, High Word INPUT9 Select Mask, Low Word INPUT10 Select Mask, High Word INPUT10 Select Mask, Low Word INPUT11 Select Mask, High Word INPUT11 Select Mask, Low Word INPUT12 Select Mask, High Word INPUT12 Select Mask, Low Word INPUT13 Select Mask, High Word INPUT13 Select Mask, Low Word INPUT14 Select Mask, High Word INPUT14 Select Mask, Low Word INPUT15 Select Mask, High Word INPUT15 Select Mask, Low Word INPUT16 Select Mask, High Word INPUT16 Select Mask, Low Word INPUT17 Select Mask, High Word INPUT17 Select Mask, Low Word INPUT18 Select Mask, High Word INPUT18 Select Mask, Low Word INPUT19 Select Mask, High Word INPUT19 Select Mask, Low Word INPUT20 Select Mask, High Word INPUT20 Select Mask, Low Word INPUT21 Select Mask, High Word INPUT21 Select Mask, Low Word INPUT22 Select Mask, High Word INPUT22 Select Mask, Low Word INPUT23 Select Mask, High Word INPUT23 Select Mask, Low Word INPUT24 Select Mask, High Word 107 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 60052 60053 60054 60055 60056 60057 60058 60059 60060 60061 60062 60063 60064 60065 60066 60067 60068 60069 high byte low byte 60070 high byte low byte 60071 high byte low byte 60072 high byte low byte 60073 high byte low byte 60074 high byte low byte 60075 high byte low byte 60076 high byt low byte e 60077 high byte low byte 60078 high byte low byte 60079 high byte low byte 60080 high byte low byte 60081 high byte low byte 60082 high byte low byte 60083 high byte low byte 60084 high byte low byte 60085 60086 DEFINTION INPUT24 Select Mask, Low Word INPUT25 Select Mask, High Word INPUT25 Select Mask, Low Word INPUT26 Select Mask, High Word INPUT26 Select Mask, Low Word INPUT27 Select Mask, High Word INPUT27 Select Mask, Low Word INPUT28 Select Mask, High Word INPUT28 Select Mask, Low Word INPUT29 Select Mask, High Word INPUT29 Select Mask, Low Word INPUT30 Select Mask, High Word INPUT30 Select Mask, Low Word INPUT31 Select Mask, High Word INPUT31 Select Mask, Low Word INPUT32 Select Mask, High Word INPUT32 Select Mask, Low Word INPUT1 Index byte INPUT2 Index byte INPUT3 Index byte INPUT4 Index byte INPUT5 Index byte INPUT6 Index byte INPUT7 Index byte INPUT8 Index byte INPUT9 Index byte INPUT10 Index byte INPUT11 Index byte INPUT12 Index byte INPUT13 Index byte INPUT14 Index byte INPUT15 Index byte INPUT16 Index byte INPUT17 Index byte INPUT18 Index byte INPUT19 Index byte INPUT20 Index byte INPUT21 Index byte INPUT22 Index byte INPUT23 Index byte INPUT24 Index byte INPUT25 Index byte INPUT26 Index byte INPUT27 Index byte INPUT28 Index byte INPUT29 Index byte INPUT30 Index byte INPUT31 Index byte INPUT32 Index byte Feedback Term Mask, bits 31-16 Feedback Term Mask, bits 15-0 Bit = 0 : Feedback Term Bit = 1 : Normal Input Term 108 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.2 Programmable Input Input Invert, AND/OR Select, & Output Invert Mask Input Inversion: AND/OR Selection: Output Inversion: REGISTER 60128 60129 60130 60131 60132 60133 60134 60135 60136 60137 60139 60138 60140 60141 60142 60143 60144 60145 60146 60147 60148 60149 60150 60151 60152 60153 60154 60155 60156 60157 60158 60159 60160 60161 60162 60163 60164 60165 60166 60167 60168 60169 60170 60171 60172 60173 60174 60175 60176 60177 60178 60179 60180 60181 Bit = 0, Input Inverted. Bit = 1, Input Normal. Bit = 0, Selected inputs are ORed together. Bit = 1, Selected inputs are ANDed together. Bit = 0, Normal Bit = 1, Inverted DEFINTION IN1 Input Inversion Mask, High Word IN1 Input Inversion Mask, Low Word IN2 Input Inversion Mask, High Word IN2 Input Inversion Mask, Low Word IN3 Input Inversion Mask, High Word IN3 Input Inversion Mask, Low Word IN4 Input Inversion Mask, High Word IN4 Input Inversion Mask, Low Word IN5 Input Inversion Mask, High Word IN5 Input Inversion Mask, Low Word IN6 Input Inversion Mask, High Word IN6 Input Inversion Mask, Low Word IN7 Input Inversion Mask, High Word IN7 Input Inversion Mask, Low Word IN8 Input Inversion Mask, High Word IN8 Input Inversion Mask, Low Word IN9 Input Inversion Mask, High Word IN9 Input Inversion Mask, Low Word IN10 Input Inversion Mask, High Word IN10 Input Inversion Mask, Low Word IN11 Input Inversion Mask, High Word IN11 Input Inversion Mask, Low Word IN12 Input Inversion Mask, High Word IN12 Input Inversion Mask, Low Word IN13 Input Inversion Mask, High Word IN13 Input Inversion Mask, Low Word IN14 Input Inversion Mask, High Word IN14 Input Inversion Mask, Low Word IN15 Input Inversion Mask, High Word IN15 Input Inversion Mask, Low Word IN16 Input Inversion Mask, High Word IN16 Input Inversion Mask, Low Word IN17 Input Inversion Mask, High Word IN17 Input Inversion Mask, Low Word IN18 Input Inversion Mask, High Word IN18 Input Inversion Mask, Low Word IN19 Input Inversion Mask, High Word IN19 Input Inversion Mask, Low Word IN20 Input Inversion Mask, High Word IN20 Input Inversion Mask, Low Word IN21 Input Inversion Mask, High Word IN21 Input Inversion Mask, Low Word IN22 Input Inversion Mask, High Word IN22 Input Inversion Mask, Low Word IN23 Input Inversion Mask, High Word IN23 Input Inversion Mask, Low Word IN24 Input Inversion Mask, High Word IN24 Input Inversion Mask, Low Word IN25 Input Inversion Mask, High Word IN25 Input Inversion Mask, Low Word IN26 Input Inversion Mask, High Word IN26 Input Inversion Mask, Low Word IN27 Input Inversion Mask, High Word IN27 Input Inversion Mask, Low Word 109 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 60182 60183 60184 60185 60186 60187 60188 60189 60190 60191 60192 60193 60194 60195 DEFINTION IN28 Input Inversion Mask, High Word IN28 Input Inversion Mask, Low Word IN29 Input Inversion Mask, High Word IN29 Input Inversion Mask, Low Word IN30 Input Inversion Mask, High Word IN30 Input Inversion Mask, Low Word IN31 Input Inversion Mask, High Word IN31 Input Inversion Mask, Low Word IN32 Input Inversion Mask, High Word IN32 Input Inversion Mask, Low Word Programmable Input AND/OR Selection bits 31-16 Programmable Input AND/OR Selection bits 15-0 Programmable Input Output Invert Mask bits 31-16* Programmable Input Output Invert Mask bits 15-0* * Currently not supported. 110 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.3 Programmable User Defined Input Names User definable 8 ASCII character input strings. Byte 9 is an implied NULL. REGISTER 60256-60259 60260-60263 60264-60267 60268-60271 60272-60275 60276-60279 60280-60283 60284-60287 60288-60291 60292-60295 60296-60299 60300-60303 60304-60307 60308-60311 60312-60315 60316-60319 60320-60323 60324-60327 60328-60331 60332-60335 60336-60339 60340-60343 60344-60347 60348-60351 60352-60355 60356-60359 60360-60363 60364-60367 60368-60371 60372-60375 60376-60379 60380-60383 DEFINTION IN1 Character String 8 bytes IN2 Character String 8 bytes IN3 Character String 8 bytes IN4 Character String 8 bytes IN5 Character String 8 bytes IN6 Character String 8 bytes IN7 Character String 8 bytes IN8 Character String 8 bytes IN9 Character String 8 bytes IN10 Character String 8 bytes IN11 Character String 8 bytes IN12 Character String 8 bytes IN13 Character String 8 bytes IN14 Character String 8 bytes IN15 Character String 8 bytes IN16 Character String 8 bytes IN17 Character String 8 bytes IN18 Character String 8 bytes IN19 Character String 8 bytes IN20 Character String 8 bytes IN21 Character String 8 bytes IN22 Character String 8 bytes IN23 Character String 8 bytes IN24 Character String 8 bytes IN25 Character String 8 bytes IN26 Character String 8 bytes IN27 Character String 8 bytes IN28 Character String 8 bytes IN29 Character String 8 bytes IN30 Character String 8 bytes IN31 Character String 8 bytes IN32 Character String 8 bytes 111 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.4 Programmable Output Select and Index Bit = 0, Physical Output is selected. Bit = 1, Physical Output is not selected. REGISTER 60512 60513 60514 60515 60516 60517 60518 60519 60520 60521 60522 60523 60524 60525 60526 60527 60528 60529 60530 60531 60532 60533 60534 60535 60536 60537 60538 60539 60540 60541 60542 60543 60544 60545 60546 60547 60548 60549 60550 60551 60552 60553 60554 60555 60556 60557 60558 60559 60560 60561 60562 60563 60564 high byte low byte high byte low byte DEFINTION Spare Execute Register for Program Outputs (registers 6051361023) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) OUTPUT1 Select Mask bits 31-16 OUTPUT1 Select Mask bits 15-0 OUTPUT2 Select Mask bits 31-16 OUTPUT2 Select Mask bits 15-0 OUTPUT3 Select Mask bits 31-16 OUTPUT3 Select Mask bits 15-0 OUTPUT4 Select Mask bits 31-16 OUTPUT4 Select Mask bits 15-0 OUTPUT5 Select Mask bits 31-16 OUTPUT5 Select Mask bits 15-0 OUTPUT6 Select Mask bits 31-16 OUTPUT6 Select Mask bits 15-0 OUTPUT7 Select Mask bits 31-16 OUTPUT7 Select Mask bits 15-0 OUTPUT8 Select Mask bits 31-16 OUTPUT8 Select Mask bits 15-0 OUTPUT9 Select Mask bits 31-16 OUTPUT9 Select Mask bits 15-0 OUTPUT10 Select Mask bits 31-16 OUTPUT10 Select Mask bits 15-0 OUTPUT11 Select Mask bits 31-16 OUTPUT11 Select Mask bits 15-0 OUTPUT12 Select Mask bits 31-16 OUTPUT12 Select Mask bits 15-0 OUTPUT13 Select Mask bits 31-16 OUTPUT13 Select Mask bits 15-0 OUTPUT14 Select Mask bits 31-16 OUTPUT14 Select Mask bits 15-0 OUTPUT15 Select Mask bits 31-16 OUTPUT15 Select Mask bits 15-0 OUTPUT16 Select Mask bits 31-16 OUTPUT16 Select Mask bits 15-0 OUTPUT17 Select Mask bits 31-16 OUTPUT17 Select Mask bits 15-0 OUTPUT18 Select Mask bits 31-16 OUTPUT18 Select Mask bits 15-0 OUTPUT19 Select Mask bits 31-16 OUTPUT19 Select Mask bits 15-0 OUTPUT20 Select Mask bits 31-16 OUTPUT20 Select Mask bits 15-0 OUTPUT21 Select Mask bits 31-16 OUTPUT21 Select Mask bits 15-0 OUTPUT22 Select Mask bits 31-16 OUTPUT22 Select Mask bits 15-0 OUTPUT23 Select Mask bits 31-16 OUTPUT23 Select Mask bits 15-0 OUTPUT24 Select Mask bits 31-16 OUTPUT24 Select Mask bits 15-0 112 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 60565 60566 60567 60568 60569 60570 60571 60572 60573 60574 60575 60576 60577 60578 60579 60580 60581 high byte low byte 60582 high byte low byte 60583 high byte low byte 60584 high byte low byte 60585 high byte low byte 60586 high byte low byte 60587 high byte low byte 60588 high byte low byte 60589 high byte low byte 60590 high byte low byte 60591 high byte low byte 60592 high byte low byte 60593 high byte low byte 60594 high byte low byte 60595 high byte low byte 60596 high byte low byte DEFINTION OUTPUT25 Select Mask bits 31-16 OUTPUT25 Select Mask bits 15-0 OUTPUT26 Select Mask bits 31-16 OUTPUT26 Select Mask bits 15-0 OUTPUT27 Select Mask bits 31-16 OUTPUT27 Select Mask bits 15-0 OUTPUT28 Select Mask bits 31-16 OUTPUT28 Select Mask bits 15-0 OUTPUT29 Select Mask bits 31-16 OUTPUT29 Select Mask bits 15-0 OUTPUT30 Select Mask bits 31-16 OUTPUT30 Select Mask bits 15-0 OUTPUT31 Select Mask bits 31-16 OUTPUT31 Select Mask bits 15-0 OUTPUT32 Select Mask bits 31-16 OUTPUT32 Select Mask bits 15-0 OUTPUT1 index byte OUTPUT2 index byte OUTPUT3 index byte OUTPUT4 index byte OUTPUT5 index byte OUTPUT6 index byte OUTPUT7 index byte OUTPUT8 index byte OUTPUT9 index byte OUTPUT10 index byte OUTPUT11 index byte OUTPUT12 index byte OUTPUT13 index byte OUTPUT14 index byte OUTPUT15 index byte OUTPUT16 index byte OUTPUT17 index byte OUTPUT18 index byte OUTPUT19 index byte OUTPUT20 index byte OUTPUT21 index byte OUTPUT22 index byte OUTPUT23 index byte OUTPUT24 index byte OUTPUT25 index byte OUTPUT26 index byte OUTPUT27 index byte OUTPUT28 index byte OUTPUT29 index byte OUTPUT30 index byte OUTPUT31 index byte OUTPUT32 index byte 113 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.5 Programmable Output Input Invert, AND/OR Select, & Output Invert Mask Input Inversion: AND/OR Selection: Output Inversion: REGISTER 60640 60641 60642 60643 60644 60645 60646 60647 60648 60649 60650 60651 60652 60653 60654 60655 60656 60657 60658 60659 60660 60661 60662 60663 60664 60665 60666 60667 60668 60669 60670 60671 60672 60673 60674 60675 60676 60677 60678 60679 60680 60681 60682 60683 60684 60685 60686 60687 60688 60689 60690 60691 60692 Bit = 0, Input Inverted. Bit = 1, Input Normal. Bit = 0, Selected inputs are ORed together. Bit = 1, Selected inputs are ANDed together. Bit = 0, Normal Bit = 1, Inverted DEFINTION OUT1 Input Invert Mask, High Word OUT1 Input Invert Mask, Low Word OUT2 Input Invert Mask, High Word OUT2 Input Invert Mask, Low Word OUT3 Input Invert Mask, High Word OUT3 Input Invert Mask, Low Word OUT4 Input Invert Mask, High Word OUT4 Input Invert Mask, Low Word OUT5 Input Invert Mask, High Word OUT5 Input Invert Mask, Low Word OUT6 Input Invert Mask, High Word OUT6 Input Invert Mask, Low Word OUT7 Input Invert Mask, High Word OUT7 Input Invert Mask, Low Word OUT8 Input Invert Mask, High Word OUT8 Input Invert Mask, Low Word OUT9 Input Invert Mask, High Word OUT9 Input Invert Mask, Low Word OUT10 Input Invert Mask, High Word OUT10 Input Invert Mask, Low Word OUT11 Input Invert Mask, High Word OUT11 Input Invert Mask, Low Word OUT12 Input Invert Mask, High Word OUT12 Input Invert Mask, Low Word OUT13 Input Invert Mask, High Word OUT13 Input Invert Mask, Low Word OUT14 Input Invert Mask, High Word OUT14 Input Invert Mask, Low Word OUT15 Input Invert Mask, High Word OUT15 Input Invert Mask, Low Word OUT16 Input Invert Mask, High Word OUT16 Input Invert Mask, Low Word OUT17 Input Invert Mask, High Word OUT17 Input Invert Mask, Low Word OUT18 Input Invert Mask, High Word OUT18 Input Invert Mask, Low Word OUT19 Input Invert Mask, High Word OUT19 Input Invert Mask, Low Word OUT20 Input Invert Mask, High Word OUT20 Input Invert Mask, Low Word OUT21 Input Invert Mask, High Word OUT21 Input Invert Mask, Low Word OUT22 Input Invert Mask, High Word OUT22 Input Invert Mask, Low Word OUT23 Input Invert Mask, High Word OUT23 Input Invert Mask, Low Word OUT24 Input Invert Mask, High Word OUT24 Input Invert Mask, Low Word OUT25 Input Invert Mask, High Word OUT25 Input Invert Mask, Low Word OUT26 Input Invert Mask, High Word OUT26 Input Invert Mask, Low Word OUT27 Input Invert Mask, High Word 114 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 60693 60694 60695 60696 60697 60698 60699 60700 60701 60702 60703 60704 60705 60706 60707 DEFINTION OUT27 Input Invert Mask, Low Word OUT28 Input Invert Mask, High Word OUT28 Input Invert Mask, Low Word OUT29 Input Invert Mask, High Word OUT29 Input Invert Mask, Low Word OUT30 Input Invert Mask, High Word OUT30 Input Invert Mask, Low Word OUT31 Input Invert Mask, High Word OUT31 Input Invert Mask, Low Word OUT32 Input Invert Mask, High Word OUT32 Input Invert Mask, Low Word Programmable Output AND/OR Selection bits 31-16 Programmable Output AND/OR Selection bits 15-0 Programmable Output Output Invert Mask bits 31-16* Programmable Output Output Invert Mask bits 15-0* 115 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.6 Programmable Output User Defined Strings User definable 8 ASCII character output strings. Byte 9 is an implied NULL REGISTER 60768-60771 60772-60775 60776-60779 60780-60783 60784-60787 60788-60791 60792-60795 60796-60799 60800-60803 60804-60807 60808-60811 60812-60815 60816-60819 60820-60823 60824-60827 60828-60831 60832-60835 60836-60839 60840-60843 60844-60847 60848-60851 60852-60855 60856-60859 60860-60863 60864-60867 60868-60871 60872-60875 60876-60879 60880-60883 60884-60887 60888-60891 60892-60895 DEFINTION OUT1 Character String 8 bytes OUT2 Character String 8 bytes OUT3 Character String 8 bytes OUT4 Character String 8 bytes OUT5 Character String 8 bytes OUT6 Character String 8 bytes OUT7 Character String 8 bytes OUT8 Character String 8 bytes OUT9 Character String 8 bytes OUT10 Character String 8 bytes OUT11 Character String 8 bytes OUT12 Character String 8 bytes OUT13 Character String 8 bytes OUT14 Character String 8 bytes OUT15 Character String 8 bytes OUT16 Character String 8 bytes OUT17 Character String 8 bytes OUT18 Character String 8 bytes OUT19 Character String 8 bytes OUT20 Character String 8 bytes OUT21 Character String 8 bytes OUT22 Character String 8 bytes OUT23 Character String 8 bytes OUT24 Character String 8 bytes OUT25 Character String 8 bytes OUT26 Character String 8 bytes OUT27 Character String 8 bytes OUT28 Character String 8 bytes OUT29 Character String 8 bytes OUT30 Character String 8 bytes OUT31 Character String 8 bytes OUT32 Character String 8 bytes 116 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.7 Programmable Output Delays REGISTER 60896 – 7 60898 – 9 60900 – 1 60902 – 3 60904 – 5 60906 – 7 60908 – 9 60910 – 1 60912 – 3 60914 – 5 60916 – 7 60918 – 9 60920 – 1 60922 – 3 60924 – 5 60926 – 7 60928 – 9 60930 – 1 60932 – 3 60934 – 5 60936 – 7 60938 – 9 60940 – 1 60942 – 3 60944 – 5 60946 – 7 60948 – 9 60950 – 1 60952 – 3 60954 – 5 60956 – 7 60958 – 9 DEFINTION OUT 1 delay OUT 2 delay OUT 3 delay OUT 4 delay OUT 5 delay OUT 6 delay OUT 7 delay OUT 8 delay OUT 9 delay OUT 10 delay OUT 11 delay OUT 12 delay OUT 13 delay OUT 14 delay OUT 15 delay OUT 16 delay OUT 17 delay OUT 18 delay OUT 19 delay OUT 20 delay OUT 21 delay OUT 22 delay OUT 23 delay OUT 24 delay OUT 25 delay OUT 26 delay OUT 27 delay OUT 28 delay OUT 29 delay OUT 30 delay OUT 31 delay OUT 32 delay RANGE 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 0 - 25000 STEP 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 117 SCALE 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds 0.01 seconds PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.8 Relay Settings Note: High byte consists of bits 15 through 8. Low byte consists of bits 7 through 0. All model PCDs support ANSI, IEC, and Recloser curves. However, not all the curves are available from within the setting groups at the same time. A menu item in Configuration is used to select which of the three curve groups that can be used (ANSI, IEC, Recloser). Table 6.1.8.1: ANSI Curves INDEX 0 1 2 3 4 5 6 7 8 9 10 11 12 ANSI CURVE TYPE I (51P, 67P, 67N) Extremely Inverse Very Inverse Inverse Short Time Inverse Definite Time Long Time Extremely Inverse Long Time Very Inverse Long Time Inverse Recloser Curve User Curve 1 User Curve 2 User Curve 3 N/A ANSI CURVE TYPE II (46, 51N) Disable Extremely Inverse Very Inverse Inverse Short Time Inverse Definite Time Long Time Extremely Inverse Long Time Very Inverse Long Time Inverse Recloser Curve User Curve 1 User Curve 2 User Curve 3 ANSI CURVE TYPE III (50P, 50N) Disable Standard Inverse Definite Time Short Time Inverse Short Time Extremely Inv. Extremely Inverse Very Inverse User Curve 1 User Curve 2 User Curve 3 N/A N/A Table 6.1.8.2: IEC Curves INDEX 0 1 2 3 4 5 6 7 8 IEC CURVE TYPE I (51P, 67P, 67N) Extremely Inverse Very Inverse Inverse Long Time Inverse Definite Time User Curve 1 User Curve 2 User Curve 3 N/A IEC CURVE TYPE II (46, 51N) Disabled Extremely Inverse Very Inverse Inverse Long Time Inverse Definite Time User Curve 1 User Curve 2 User Curve 3 IEC CURVE TYPE III (50P, 50N) Disable Standard Definite Time User Curve 1 User Curve 2 User Curve 3 N/A N/A N/A Table 6.1.8.3: Recloser Curves Note: INDEX 0 1 2 3 4 5 6 7 8 9 10 11 12 These are no longer supported as of PCD2000 revision V2.30. See Tables 6.1.8.3.1 and 6.1.8.3.2 below for description of new type V and type VI recloser curves. RECLOSER CURVE TYPE I A B C D E K N R W User Curve 1 User Curve 2 User Curve 3 N/A RECLOSER CURVE TYPE II 2 3 8 8* 8+ 9 11 User Curve 1 User Curve 2 User Curve 3 N/A N/A N/A 118 RECLOSER CURVE TYPE III Disable A B C D E K N R W User Curve 1 User Curve 2 User Curve 3 RECLOSER CURVE TYPE IV Disable 2 3 8 8* 8+ 9 11 User Curve 1 User Curve 2 User Curve 3 N/A N/A PCD MODBUS® Protocol Implementation Details ABB Inc. The tables below show the new recloser curves added to the PCD firmware version 2.30. Table 6.1.8.3.1: Recloser Curves type V Index (Protection) 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 Recloser Type V (51P, 67P, 67N) RECLOSER_A_IDX RECLOSER_B_IDX RECLOSER_C_IDX RECLOSER_D_IDX RECLOSER_E_IDX RECLOSER_F_IDX RECLOSER_G_IDX RECLOSER_H_IDX RECLOSER_J_IDX RECLOSER_K_IDX RECLOSER_L_IDX RECLOSER_M_IDX RECLOSER_N_IDX RECLOSER_P_IDX RECLOSER_R_IDX RECLOSER_T_IDX RECLOSER_V_IDX RECLOSER_W_IDX RECLOSER_Y_IDX RECLOSER_Z_IDX RECLOSER_1_IDX RECLOSER_2_IDX RECLOSER_3_IDX RECLOSER_4_IDX RECLOSER_5_IDX RECLOSER_6_IDX RECLOSER_7_IDX RECLOSER_8_IDX RECLOSER_8s_IDX RECLOSER_8t_IDX RECLOSER_9_IDX RECLOSER_11_IDX RECLOSER_13_IDX RECLOSER_14_IDX RECLOSER_15_IDX RECLOSER_16_IDX RECLOSER_17_IDX RECLOSER_18_IDX RECLOSER_KG_IDX IEC Inverse IEC Very Inverse IEC Extremely Inverse USER_CURVE_1_IDX USER_CURVE_2_IDX USER_CURVE_3_IDX Table 6.1.8.3.2: Recloser Curves type VI LCD Display Index (Protection) 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 A (101) B (117) C (133) D (116) E (132) F (163) G (121) H (122) J (164) KP(162) L (107) M (118) N (104) P (115) R (105) T (161) V (137) W (138) Y (120) Z (134) 1 (102) 2 (135) 3 (140) 4 (106) 5 (114) 6 (136) 7 (152) 8 (113) 8* 8+ (111) 9 (131) 11 (141) 13 (142) 14 (119) 15 (112) 16 (139) 17 (103) 18 (151) KG (165) IEC Inv (200) IEC V.Inv (201) IEC E.Inv (202) User Curve 1 User Curve 2 User Curve 3 119 Recloser Type VI (50P-1, 46, 51N, 50N-1) CURVE_DISABLED_IDX RECLOSER_A_IDX RECLOSER_B_IDX RECLOSER_C_IDX RECLOSER_D_IDX RECLOSER_E_IDX RECLOSER_F_IDX RECLOSER_G_IDX RECLOSER_H_IDX RECLOSER_J_IDX RECLOSER_K_IDX RECLOSER_L_IDX RECLOSER_M_IDX RECLOSER_N_IDX RECLOSER_P_IDX RECLOSER_R_IDX RECLOSER_T_IDX RECLOSER_V_IDX RECLOSER_W_IDX RECLOSER_Y_IDX RECLOSER_Z_IDX RECLOSER_1_IDX RECLOSER_2_IDX RECLOSER_3_IDX RECLOSER_4_IDX RECLOSER_5_IDX RECLOSER_6_IDX RECLOSER_7_IDX RECLOSER_8_IDX RECLOSER_8s_IDX RECLOSER_8t_IDX RECLOSER_9_IDX RECLOSER_11_IDX RECLOSER_13_IDX RECLOSER_14_IDX RECLOSER_15_IDX RECLOSER_16_IDX RECLOSER_17_IDX RECLOSER_18_IDX RECLOSER_KG_IDX IEC Inverse IEC Very Inverse IEC Extremely Inverse USER_CURVE_1_IDX USER_CURVE_2_IDX USER_CURVE_3_IDX LCD Display Disabled A (101) B (117) C (133) D (116) E (132) F (163) G (121) H (122) J (164) KP(162) L (107) M (118) N (104) P (115) R (105) T (161) V (137) W (138) Y (120) Z (134) 1 (102) 2 (135) 3 (140) 4 (106) 5 (114) 6 (136) 7 (152) 8 (113) 8* 8+ (111) 9 (131) 11 (141) 13 (142) 14 (119) 15 (112) 16 (139) 17 (103) 18 (151) KG (165) IEC Inv (200) IEC V.Inv (201) IEC E.Inv (202) User Curve 1 User Curve 2 User Curve 3 PCD MODBUS® Protocol Implementation Details ABB Inc. Table 6.1.8.4: Tap Settings Catalog Number: XRX0-XXXX-XX-XXXX: No Protective element support. Catalog Number: XRX1-XXXX-XX-XXXX: XRX2-XXXX-XX-XXXX: XRX3-XXXX-XX-XXXX: XRX4-XXXX-XX-XXXX: (600:1 Without SEF) (600:1 With SEF) (1000:1 Without SEF) (1000:1 With SEF) ELEMENT LOW TAP RANGE 46 50-800 Amps, 5 Amp Steps 50N-2 (SEF: 600:1) 3.0-200.0 Amps, 0.5 A Steps 50N-2 (SEF 1000:1) 5.0-200 Amps, 0.5 A Steps 51P 50-800 Amps, 5 Amp Steps 51N 25-400 Amps, 5 Amp Steps 67P 50-800 Amps, 5 Amp Steps 67N 25-400 Amps, 5 Amp Steps * Step size = 2 for Low Tap Range Catalog Number: XRX5-XXXX-XX-XXXX: XRX6-XXXX-XX-XXXX: XRXB-XXXX-XX-XXXX: XRXC-XXXX-XX-XXXX: ELEMENT 46 50N-2 (SEF) 51P 51N 67P 67N Catalog Number: ELEMENT 46 50N-2 (SEF: 600:1) 50N-2 (SEF 1000:1) 51P 51N 67P 67N VALUE 10-160, step = 1 6-400, step = 1 10-400, step = 1 10-160, step = 1 10-160, step = 1* 10-160, step = 1 10-160, step = 1* (Feeder Without SEF, PT sensor) (Feeder With SEF, PT sensor) (Feeder Without SEF, Voltage divider sensor) (Feeder With SEF, Voltage divider sensor) LOW TAP RANGE 0.2-3.2 Amps, 0.02 Amp Steps 5.0-200 mAmps, 0.5 mA Steps 0.2-3.2 Amps, 0.02 Amp Steps 0.2-3.2 Amps, 0.02 Amp Steps 0.2-3.2 Amps, 0.02 Amp Steps 0.2-3.2 Amps, 0.02 Amp Steps XRX7-XXXX-XX-XXXX: XRX8-XXXX-XX-XXXX: XRX9-XXXX-XX-XXXX: XRXA-XXXX-XX-XXXX: XRXD-XXXX-XX-XXXX: XRXE-XXXX-XX-XXXX: XRXF-XXXX-XX-XXXX: XRXG-XXXX-XX-XXXX: HIGH TAP RANGE 100-1600 Amps, 10 Amp Steps 3.0-200.0 Amps, 0.5 A Steps 5.0-200.0 Amps, 0.5 A Steps 100-1600 Amps, 10 Amp Steps 50-800 Amps, 5 Amp Steps 100-1600 Amps, 10 Amp Steps 50-800 Amps, 5 Amp Steps HIGH TAP RANGE 1.0-16.0 Amps, 0.1 Amp Steps 5.0-200 mAmps, 0.5 mA Steps 1.0-16.0 Amps, 0.1 Amp Steps 1.0-16.0 Amps, 0.1 Amp Steps 1.0-16.0 Amps, 0.1 Amp Steps 1.0-16.0 Amps, 0.1 Amp Steps VALUE 10-160, step = 1 10-400, step = 1 10-160, step = 1 10-160, step = 1 10-160, step = 1 10-160, step = 1 (600:1 Without SEF, PT sensor) (600:1 With SEF, PT sensor) (1000:1 Without SEF, PT sensor) (1000:1 With SEF, PT sensor) (600:1 Without SEF, Voltage divider sensor) (600:1 With SEF, Voltage divider sensor) (1000:1 Without SEF, Voltage divider sensor) (1000:1 With SEF, Voltage divider sensor) LOW TAP RANGE 20-320 Amps, 2 Amp Steps 3.0-200.0 Amps, 0.5 A Steps 5.0-200 Amps, 0.5 A Steps 20-320 Amps, 2 Amp Steps 10-160 Amps, 1 Amp Steps 20-320 Amps, 2 Amp Steps 10-160 Amps, 1 Amp Steps 120 HIGH TAP RANGE 100-1600 Amps, 10 Amp Steps 3.0-200.0 Amps, 0.5 A Steps 5.0-200.0 Amps, 0.5 A Steps 100-1600 Amps, 10 Amp Steps 50-800 Amps, 5 Amp Steps 100-1600 Amps, 10 Amp Steps 50-800 Amps, 5 Amp Steps VALUE 10-160, step = 1 6-400, step = 1 10-400, step = 1 10-160, step = 1 10-160, step = 1 10-160, step = 1 10-160, step = 1 PCD MODBUS® Protocol Implementation Details ABB Inc. Table 6.1.8.5: Configuration Long Word Bits 0-3: Bits 4-7 Bits 8-9 Bits 10-12: Bit 13: Bit 14: Bit 15: Phase Tap Range 0 = 25-400 Amps 1 = 50-800 Amps 2 = 100-1600 Amps 3 = 0.2-3.2 Amps 4 = 1.0-16.0 Amps 5 = 10-160 Amps 6 = 20-320 Amps Neutral Tap Range 0 = 25-400 Amps 1 = 50-800 Amps 2 = 100-1600 Amps 3 = 0.2-3.2 Amps 4 = 1.0-16.0 Amps 5 = 10-160 Amps 6 = 20-320 Amps SEF Tap Range 0 = SEF Off 1 = SEF On 2-3 = Reserved Curve Set 0 = ANSI Curves 1 = IEC Curves 2 = Recloser Curves 3-7 = Reserved System Frequency 0 = 60 Hz 1 = 50 Hz Cold Load Timer Mode 0 = Seconds 1 = Minutes Programmable Curves 0 = Off 1 = On Bit 16: Version Select 0 = ANSI Mode 1 = IEC Mode Bit 17: Tap Mode 0 = Pri. Current Mode 1 = Sec. Current Mode Bit 18: Breaker Mode 0 = Three Phase 1 = Single Phase Bits 19-28 Reserved (returns 0's) Bits 29-31 Unit Type 0 = PCD 1 = SCD 2-7 = Reserved 121 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.8.1. Primary Settings Group Note: This block is no longer supported as of PCD2000 revision V2.00. See sections 6.1.28 and 6.1.29 for description of new method of updating protection and recloser settings. REGISTER 61024 61025 61026 high byte low byte 61027 high byte low byte 61028 61029 61030 61031 61032 61033 61034 61035 61036 61037 61038 61039 61040 61041 61042 61043 61044 61045 61046 61047 61048 61049 61050 61051 61052 61053 61054 61055 61056 61057 61058 61059 61060 61061 61062 61063 61064 61065 61066 DEFINTION Spare Execute Register for Program Outputs (registers 61025- 61151) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Configuration Long Word (high) Configuration Long Word (low) 51P Curve Select byte (ANSI/IEC/Recloser Type I) 51P Pickup Amps byte (See Tap Setting Tables, above) 51P Time dial(1-10 *20)/delay byte(0-10 * 20) IEC Version-51P Time Multiplier (.05-1.00 *200) 50P-1 Curve Select byte (ANSI/IEC/Recloser Type III) 50P-1 Pickup X byte (0.5-20 *10) 50P-1 Timedial (1-10 *10)/delay(0-9.99 *100) IEC Version -50P-1 Time Multiplier (.05-1.00 *200) 50P-2 Select byte (0=Disable, 1=Enable) 50P-2 Pickup X byte (0.5-20 *10) 50P-2 Timedial (1-10 *10)/delay(0-9.99 *100) IEC Version -50P-2 Time Multiplier (.05-1.00 *200) 50P-3 Select byte (0=Disable, 1=Enable) 50P-3 Pickup X byte (0.5-20 *10) 46 Curve Select byte (ANSI/IEC Type II, Recloser Type III) 46 Pickup Amps byte (See Tap Setting Tables, above) 46 Time dial(1-10 *20)/delay byte(0-10 * 20) IEC Version -46 Time Multiplier (.05-1.00 *200) 51N Curve Select byte (ANSI/IEC Type II, Recloser Type IV) 51N Pickup Amps byte (See Tap Setting Tables, above) 51N Time dial(1-10 *20)/delay byte(0-10 * 20) IEC Version -51N Time Multiplier (.05-1.00 *200) 50N-1 Curve Select byte (ANSI/IEC Type III, Recloser Type IV) 50N-1 Pickup X byte (0.5-20 *10) 50N-1 Timedial/delay (1-10 *10, 0-9.99 *100) IEC Version -50N-1 Time Multiplier (.05-1.00 *200) 50N-2 Select byte (0 = Disable, 1 = Enable) Sensitive Earth Model(0=Disable,1=Standard,2=SEF,3=Directional SEF) 50N-2 Pickup X byte (0.5-20 *10) 50N-2 Time delay (0-9.99 *100) IEC Version -50N-2 Time Multiplier (0.50 to 1.00 *200) 50N-3 Select byte (0=Disable, 1=Enable) 50N-3 Pickup X byte (0.5-20 *10) 79 Reset Time byte (3-200) 79-1 Select high byte (Lockout Type) low byte (Enable Type) 79-1 Open Interval Time (0.1 - 200 *10, 2001 = Lockout) Sensitive Earth Model (0.1 to 1800 *10, 18001=Lockout) 79-2 Select high byte (Lockout Type) low byte (Enable Type) 79-2 Open Interval Time (0.1 - 200 *10, 2001 = Lockout) Sensitive Earth Model (0.1 to 1800 *10, 18001=Lockout) 79-3 Select high byte (Lockout Type) low byte (Enable Type) 79-3 Open Interval Time (0.1 - 200 *10, 2001 = Lockout) Sensitive Earth Model (0.1 to 1800 *10, 18001=Lockout) 79-4 Select high byte (Lockout Type) low byte (Enable Type) 79-4 Open Interval Time high byte (0.1 - 200 *10, 2001 = Lockout) Sensitive Earth Model (0.1 to 1800 *10, 18001=Lockout) 79-5 Select high byte (Lockout Type) low byte (Enable Type) 79-5 Open Interval Time (always lockout) 122 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 61067 61068 61069 61070 61071 61072 61073 61074 61075 61076 61077 61078 61079 61080 61081 61082 61083 61084 61085 61086 61087 61088 61089 61090 61091 61092 61093 61094 61095 61096 61097 61098 61099 61100 61101 61102 61103 61104 61105 61106 61107 61108 61109 61110 61111 61112 61113 61114 61115 61116 61117 61118 61119 61120 61121 DEFINTION 79 Cutout Time byte (1 -201) (201 = Disable) Cold Load Time byte (1 -254) (255 = Disable) 2 Phase Voting byte (0=Disable, 1=Enable) 67P Select byte (0=Disable, 1=Enable, 2=Lockout) 67P Curve Select byte (ANSI/IEC/Recloser Type I) 67P Pickup Amps byte (See Tap Setting Tables, above) 67P Time dial(1-10 *20)/delay(0-10 * 20) byte IEC Version -67P Time Multiplier (.05-1.00 *200) 67P Torque Angle byte (0-355 /5) 67N Select byte (0=Disable, 1=Enable, 2=Lockout) Sensitive Earth Model (0=Disable, 1=Enable-Neg Sequence, 2=LockoutNeg Sequence, 5=Enable-Zero Sequence, 6=Lockout Zero Sequence) 67N Curve Select byte (ANSI/IEC Type I, Recloser Type II) 67N Pickup Amps byte (See Tap Setting Tables, above) 67N Time dial(1-10 *20)/delay(0-10 * 20) byte IEC Version -67N Time Multiplier (.05-1.00 *200) 67N Torque Angle byte (0-355 /5) 81 Select byte (0=Disable,1=81-1, 2=81-2, 3=Special) 81s-1 Pickup Frequency (60hz: 56-64 *100, 6401=Disable, 50hz: 46-54 *100, 5401=Disable) 81s-1 Timedelay (0.08-9.98 *100) 81r-1 Pickup Frequency (60hz: 56-64 *100, 6401=Disable 50hz: 46-54 *100, 5401=Disable) 81r-1 Timedelay (0-999) 81v Voltage Block high byte (40-200) 27 Select byte (0=Disable, 1=Enable) 27 Pickup Voltage (10-200) 27 Timedelay byte (0-60) 79v Select byte (0=Disable, 1=Enable) 79v Pickup Voltage (10-200) 79v Timedelay byte (4-200) 59 Select byte (0=Disable, 1=Enable) 59 Pickup Voltage high byte (70-250) 59 Timedelay byte (0-60) 51 P Minimum Response (0.00 – 2.00 Seconds, *100) 51 N Minimum Response (0.00 – 2.00 Seconds, *100) 50 P-1 Minimum Response (0.00 – 2.00 Seconds, *100) 50 N-1 Minimum Response (0.00 – 2.00 Seconds, *100) 81s-2 Pickup Frequency (60hz: 56-64 *100, 6401=Disable 50hz: 46-54 *100, 5401=Disable) 81s-2 Timedelay (0.08-9.98 *100) 81r-2 Pickup Frequency (60hz: 56-64 *100, 6401=Disable 50hz: 46-54 *100, 5401=Disable) 81r-2 Timedelay (0-999) Sensitive Earth Model-SEF Torque Angle (0-355 /5) Sensitive Earth Model-SEF 50N-2 Pickup mA high byte(.005-.060 *2000) Sensitive Earth Model- Neutral Cold Load (1-254)(255= Disable) 32P Select (0=Disable) 32P Torque Angle (0-355/5) 32N Select (0=Disable) 32N Torque Angle (0-355/5) 51P Time-Curve Adder (0.00 to 2.00 Seconds * 100) 50P-1 Time-Curve Adder (0.00 to 2.00 Seconds * 100) 46 Time-Curve Adder (0.00 to =2.00 Seconds * 100) 51N Time-Curve Adder (0.00 to 2.00 Seconds * 100) 50N-1 Time-Curve Adder (0.00 to 2.00 Seconds * 100) 67P Time-Curve Adder (0.00 to 2.00 Seconds * 100) 67N Time-Curve Adder (0.00 to 2.00 Seconds * 100) 46 Minimum Response Time (0.00 – 2.00 Seconds, *100) 67P Minimum response Time (0.00 – 2.00 Seconds, * 100) 67N Minimum response Time (0.00 – 2.00 Seconds, * 100) 50P-3 Time Delay (0.00 – 2.00 Seconds, *100) 50N-3 Time Delay (0.00 – 2.00 Seconds, *100) 123 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.8.2. Alternate 1 Settings Group Note: This block is no longer supported as of PCD2000 revision V2.00. See sections 6.1.28 and 6.1.29 for description of new method of updating protection and recloser settings. REGISTER 61152 61153 61154 61155 61156 61157 61158 61159 61160 61161 61162 61163 61164 61165 61166 61167 61168 61169 61170 61171 61172 61173 61174 61175 61176 61177 61178 61179 61180 61181 61182 61183 61184 61185 61186 61187 61188 61189 61190 61191 61192 61193 61194 high byte low byte high byte low byte DEFINTION Spare Execute Register for Alternate 1 Settings (registers 61153- 61279) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Configuration Long Word (high) Configuration Long Word (low) 51P Curve Select byte (Type I or Recloser Type I) 51P Pickup Amps byte (See Tap Setting Tables, above) 51P Time dial(1-10 *20)/delay byte(0-10 * 20) IEC Version-51P Time Multiplier (.05-1.00 *200) 50P-1 Curve Select byte (Type III or Recloser Type III) 50P-1 Pickup X byte (0.5-20 *10) 50P-1 Timedial (1-10 *10)/delay(0-9.99 *100) IEC Version -50P-1 Time Multiplier (.05-1.00 *200) 50P-2 Select byte (0=Disable, 1=Enable) 50P-2 Pickup X byte (0.5-20 *10) 50P-2 Timedial (1-10 *10)/delay(0-9.99 *100) IEC Version -50P-2 Time Multiplier (.05-1.00 *200) 50P-3 Select byte (0=Disable, 1=Enable) 50P-3 Pickup X byte (0.5-20 *10) 46 Curve Select byte (Type II) 46 Pickup Amps byte (1-12Amp *10, 0.2-2.4Amp *50) 46 Time dial(1-10 *20)/delay byte(0-10 * 20) IEC Version -46 Time Multiplier (.05-1.00 *200) 51N Curve Select byte (Type II or Recloser Type II) 51N Pickup Amps byte (See Tap Setting Tables, above) 51N Time dial(1-10 *20)/delay byte(0-10 * 20) IEC Version -51N Time Multiplier (.05-1.00 *200) 50N-1 Curve Select byte (Type III or Recloser Type IV) 50N-1 Pickup X byte (0.5-20 *10) 50N-1 Timedial/delay (1-10 *10, 0-9.99 *100) IEC Version -50N-1 Time Multiplier (.05-1.00 *200) 50N-2 Select byte (0 = Disable, 1 = Enable) Sensitive Earth Model(0=Disable,1=Standard,2=SEF,3=Directional SEF) 50N-2 Pickup X byte (0.5-20 *10) 50N-2 Timedelay (0-9.99 *100) IEC Version -50N-2 Time Multiplier (0.50 to 1.00 *200) 50N-3 Select byte (0=Disable, 1=Enable) 50N-3 Pickup X byte (0.5-20 *10) 79 Reset Time byte (3-200) 79-1 Select high byte (Lockout Type) low byte (Enable Type) 79-1 Open Interval Time (0.1 - 200 *10, 2001 = Lockout) Sensitive Earth Model (0.1 to 1800 *10, 18001=Lockout) 79-2 Select high byte (Lockout Type) low byte (Enable Type) 79-2 Open Interval Time (0.1 - 200 *10, 2001 = Lockout) Sensitive Earth Model (0.1 to 1800 *10, 18001=Lockout) 79-3 Select high byte (Lockout Type) low byte (Enable Type) 79-3 Open Interval Time (0.1 - 200 *10, 2001 = Lockout) Sensitive Earth Model (0.1 to 1800 *10, 18001=Lockout) 79-4 Select high byte (Lockout Type) low byte (Enable Type) 79-4 Open Interval Time high byte (0.1 - 200 *10, 2001 = Lockout) Sensitive Earth Model (0.1 to 1800 *10, 18001=Lockout) 79-5 Select high byte (Lockout Type) low byte (Enable Type) 79-5 Open Interval Time (always lockout) 124 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 61195 61196 61197 61198 61199 61200 61201 61202 61203 61204 61205 61206 61207 61208 61209 61210 61211 61212 61213 61214 61215 61216 61217 61218 61219 61220 61221 61222 61223 61224 61225 61226 61227 61228 61229 61230 61231 61232 61233 61234 61235 61236 61237 61238 61239 61240 61241 61242 61243 61244 61245 61246 61247 61248 61249 DEFINTION 79 Cutout Time byte (1 -201) (201 = Disable) Cold Load Time byte (1 -254) (255 = Disable) 2 Phase Voting byte (0=Disable, 1=Enable) 67P Select byte (0=Disable, 1=Enable, 2=Lockout) 67P Curve Select byte (Type I) 67P Pickup Amps byte (See Tap Setting Tables, above) 67P Time dial(1-10 *20)/delay(0-10 * 20) byte IEC Version -67P Time Multiplier (.05-1.00 *200) 67P Torque Angle byte (0-355 /5) 67N Select byte (0=Disable, 1=Enable, 2=Lockout) Sensitive Earth Model (0=Disable, 1=Enable-Neg Sequence, 2=LockoutNeg Sequence, 5=Enable-Zero Sequence, 6=Lockout Zero Sequence) 67N Curve Select byte (Type I) 67N Pickup Amps byte (See Tap Setting Tables, above) 67N Time dial(1-10 *20)/delay(0-10 * 20) byte IEC Version -67N Time Multiplier (.05-1.00 *200) 67N Torque Angle byte (0-355 /5) 81 Select byte (0=Disable,1=81-1, 2=81-2, 3=Special) 81s-1 Pickup Frequency (60hz: 56-64 *100, 6401=Disable, 50hz: 46-54 *100, 5401=Disable) 81s-1 Timedelay (0.08-9.98 *100) 81r-1 Pickup Frequency (60hz: 56-64 *100, 6401=Disable 50hz: 46-54 *100, 5401=Disable) 81r-1 Timedelay (0-999) 81v Voltage Block high byte (40-200) 27 Select byte (0=Disable, 1=Enable) 27 Pickup Voltage (10-200) 27 Timedelay byte (0-60) 79v Select byte (0=Disable, 1=Enable) 79v Pickup Voltage (10-200) 79v Timedelay byte (4-200) 59 Select byte (0=Disable, 1=Enable) 59 Pickup Voltage high byte (70-250) 59 Timedelay byte (0-60) 51 P Minimum Response (0.00 – 2.00 Seconds, *100) 51 N Minimum Response (0.00 – 2.00 Seconds, *100) 50 P-1 Minimum Response (0.00 – 2.00 Seconds, *100) 50 N-1 Minimum Response (0.00 – 2.00 Seconds, *100) 81s-2 Pickup Frequency (60hz: 56-64 *100, 6401=Disable 50hz: 46-54 *100, 5401=Disable) 81s-2 Timedelay (0.08-9.98 *100) 81r-2 Pickup Frequency (60hz: 56-64 *100, 6401=Disable 50hz: 46-54 *100, 5401=Disable) 81r-2 Timedelay (0-999) Sensitive Earth Model-SEF Torque Angle (0-355 /5) Sensitive Earth Model-SEF 50N-2 Pickup mA high byte(.005-.060 *2000) Sensitive Earth Model- Neutral Cold Load (1-254)(255= Disable) 32P Select (0=Disable) 32P Torque Angle (0-355/5) 32N Select (0=Disable) 32N Torque Angle (0-355/5) 51P Time-Curve Adder (0.00 to 2.00 Seconds * 100) 50P-1 Time-Curve Adder (0.00 to 2.00 Seconds * 100) 46 Time-Curve Adder (0.00 to 2.00 Seconds * 100) 51N Time-Curve Adder (0.00 to 2.00 Seconds * 100) 50N-1 Time-Curve Adder (0.00 to 2.00 Seconds * 100) 67P Time-Curve Adder (0.00 to 2.00 Seconds * 100) 67N Time-Curve Adder (0.00 to 2.00 Seconds * 100) 46 Minimum Response Time (0.00 – 2.00 Seconds, *100) 67P Minimum response Time (0.00 – 2.00 Seconds, * 100) 67N Minimum response Time (0.00 – 2.00 Seconds, * 100) 50P-3 Time Delay (0.00 – 2.00 Seconds, *100) 50N-3 Time Delay (0.00 – 2.00 Seconds, *100) 125 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.8.3. Alternate 2 Settings Group Note: This block is no longer supported as of PCD2000 revision V2.00. See sections 6.1.28 and 6.1.29 for description of new method of updating protection and recloser settings. REGISTER 61280 61281 61282 61283 61284 61285 61286 61287 61288 61289 61290 61291 61292 61293 61294 61295 61296 61297 61298 61299 61300 61301 61302 61303 61304 61305 61306 61307 61308 61309 61310 61311 61312 61313 61314 61315 61316 61317 61318 61319 61320 61321 61322 high byte low byte high byte low byte DEFINTION Spare Execute Register for Alternate 2 Settings (registers 61281- 61407) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Configuration Long Word (high) Configuration Long Word (low) 51P Curve Select byte (Type I or Recloser Type I) 51P Pickup Amps byte (See Tap Setting Tables, above) 51P Time dial(1-10 *20)/delay byte(0-10 * 20) IEC Version-51P Time Multiplier (.05-1.00 *200) 50P-1 Curve Select byte (Type III or Recloser Type III) 50P-1 Pickup X byte (0.5-20 *10) 50P-1 Timedial (1-10 *10)/delay(0-9.99 *100) IEC Version -50P-1 Time Multiplier (.05-1.00 *200) 50P-2 Select byte (0=Disable, 1=Enable) 50P-2 Pickup X byte (0.5-20 *10) 50P-2 Timedial (1-10 *10)/delay(0-9.99 *100) IEC Version -50P-2 Time Multiplier (.05-1.00 *200) 50P-3 Select byte (0=Disable, 1=Enable) 50P-3 Pickup X byte (0.5-20 *10) 46 Curve Select byte (Type II) 46 Pickup Amps byte (See Tap Setting Tables, above) 46 Time dial(1-10 *20)/delay byte(0-10 * 20) IEC Version -46 Time Multiplier (.05-1.00 *200) 51N Curve Select byte (Type II or Recloser Type II) 51N Pickup Amps byte (See Tap Setting Tables, above) 51N Time dial(1-10 *20)/delay byte(0-10 * 20) IEC Version -51N Time Multiplier (.05-1.00 *200) 50N-1 Curve Select byte (Type III or Recloser Type IV) 50N-1 Pickup X byte (0.5-20 *10) 50N-1 Timedial/delay (1-10 *10, 0-9.99 *100) IEC Version -50N-1 Time Multiplier (.05-1.00 *200) 50N-2 Select byte (0 = Disable, 1 = Enable) Sensitive Earth Model(0=Disable,1=Standard,2=SEF,3=Directional SEF) 50N-2 Pickup X byte (0.5-20 *10) 50N-2 Timedelay (0-9.99 *100) IEC Version -50N-2 Time Multiplier (0.50 to 1.00 *200) 50N-3 Select byte (0=Disable, 1=Enable) 50N-3 Pickup X byte (0.5-20 *10) 79 Reset Time byte (3-200) 79-1 Select high byte (Lockout Type) low byte (Enable Type) 79-1 Open Interval Time (0.1 - 200 *10, 2001 = Lockout) Sensitive Earth Model (0.1 to 1800 *10, 18001=Lockout) 79-2 Select high byte (Lockout Type) low byte (Enable Type) 79-2 Open Interval Time (0.1 - 200 *10, 2001 = Lockout) Sensitive Earth Model (0.1 to 1800 *10, 18001=Lockout) 79-3 Select high byte (Lockout Type) low byte (Enable Type) 79-3 Open Interval Time (0.1 - 200 *10, 2001 = Lockout) Sensitive Earth Model (0.1 to 1800 *10, 18001=Lockout) 79-4 Select high byte (Lockout Type) low byte (Enable Type) 79-4 Open Interval Time high byte (0.1 - 200 *10, 2001 = Lockout) Sensitive Earth Model (0.1 to 1800 *10, 18001=Lockout) 79-5 Select high byte (Lockout Type) low byte (Enable Type) 79-5 Open Interval Time (always lockout) 126 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 61323 61324 61325 61326 61327 61328 61329 61330 61331 61332 61333 61334 61335 61336 61337 61338 61339 61340 61341 61342 61343 61344 61345 61346 61347 61348 61349 61350 61351 61352 61353 61354 61355 61356 61357 61358 61359 61360 61361 61362 61363 61364 61365 61366 61367 61368 61369 61370 61371 61372 61373 61374 61375 61376 61377 DEFINTION 79 Cutout Time byte (1 -201) (201 = Disable) Cold Load Time byte (1 –254) (255 = Disable) 2 Phase Voting byte (0=Disable, 1=Enable) 67P Select byte (0=Disable, 1=Enable, 2=Lockout) 67P Curve Select byte (Type I) 67P Pickup Amps byte (See Tap Setting Tables, above) 67P Time dial(1-10 *20)/delay(0-10 * 20) byte IEC Version -67P Time Multiplier (.05-1.00 *200) 67P Torque Angle byte (0-355 /5) 67N Select byte (0=Disable, 1=Enable, 2=Lockout) Sensitive Earth Model (0=Disable, 1=Enable-Neg Sequence, 2=LockoutNeg Sequence, 5=Enable-Zero Sequence, 6=Lockout Zero Sequence) 67N Curve Select byte (Type I) 67N Pickup Amps byte (See Tap Setting Tables, above) 67N Time dial(1-10 *20)/delay(0-10 * 20) byte IEC Version -67N Time Multiplier (.05-1.00 *200) 67N Torque Angle byte (0-355 /5) 81 Select byte (0=Disable,1=81-1, 2=81-2, 3=Special) 81s-1 Pickup Frequency (60hz: 56-64 *100, 6401=Disable, 50hz: 46-54 *100, 5401=Disable) 81s-1 Timedelay (0.08-9.98 *100) 81r-1 Pickup Frequency (60hz: 56-64 *100, 6401=Disable 50hz: 46-54 *100, 5401=Disable) 81r-1 Timedelay (0-999) 81v Voltage Block high byte (40-200) 27 Select byte (0=Disable, 1=Enable) 27 Pickup Voltage (10-200) 27 Timedelay byte (0-60) 79v Select byte (0=Disable, 1=Enable) 79v Pickup Voltage (10-200) 79v Timedelay byte (4-200) 59 Select byte (0=Disable, 1=Enable) 59 Pickup Voltage high byte (70-250) 59 Timedelay byte (0-60) 51 P Minimum Response (0.00 – 2.00 Seconds, *100) 51 N Minimum Response (0.00 – 2.00 Seconds, *100) 50 P-1 Minimum Response (0.00 – 2.00 Seconds, *100) 50 N-1 Minimum Response (0.00 – 2.00 Seconds, *100) 81s-2 Pickup Frequency (60hz: 56-64 *100, 6401=Disable 50hz: 46-54 *100, 5401=Disable) 81s-2 Timedelay (0.08-9.98 *100) 81r-2 Pickup Frequency (60hz: 56-64 *100, 6401=Disable 50hz: 46-54 *100, 5401=Disable) 81r-2 Timedelay (0-999) Sensitive Earth Model-SEF Torque Angle (0-355 /5) Sensitive Earth Model-SEF 50N-2 Pickup mA high byte(.005-.060 *2000) Sensitive Earth Model- Neutral Cold Load (1-254)(255= Disable) 32P Select (0=Disable) 32P Torque Angle (0-355/5) 32N Select (0=Disable) 32N Torque Angle (0-355/5) 51P Time-Curve Adder (0.00 to 2.00 Seconds * 100) 50P-1 Time-Curve Adder (0.00 to 2.00 Seconds * 100) 46 Time-Curve Adder (0.00 to 2.00 Seconds * 100) 51N Time-Curve Adder (0.00 to 2.00 Seconds * 100) 50N-1 Time-Curve Adder (0.00 to 2.00 Seconds * 100) 67P Time-Curve Adder (0.00 to 2.00 Seconds * 100) 67N Time-Curve Adder (0.00 to 2.00 Seconds * 100) 46 Minimum Response Time (0.00 – 2.00 Seconds, *100) 67P Minimum response Time (0.00 – 2.00 Seconds, * 100) 67N Minimum response Time (0.00 – 2.00 Seconds, * 100) 50P-3 Time Delay (0.00 – 2.00 Seconds, *100) 50N-3 Time Delay (0.00 – 2.00 Seconds, *100) 127 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.9 Configuration Settings REGISTER 61408 61409 61410 61411 high byte low byte high byte low byte 61412 61413 61414 61415 61416 61417 61418 61419 61420 61421 61422 61423 61424 61425 61426 61427 61428 61429 61430-61437 61438 61439 61440 high byte low byte 61441 high byte low byte 61442 high byte low byte 61443 high byte low byte 61444 61445 61446 61447 61448 61449 61450 DEFINTION Spare Execute Register for Configuration Settings (registers 61408- 61535) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Phase CT Ratio (1-2000) Neutral CT Ratio (1-2000) VT Ratio (1-32000) VT Connection (0=69V Wye,1=120V Wye, 2=120V Delta, 3=208V Delta) Positive Sequence Reactance (. 001-4 *1000) Positive Sequence Resistance (.001-4 *1000) Zero Sequence Reactance (.001-4 *1000) Zero Sequence Resistance (.001-4 *1000) Distance in Miles (0.1-125 *10) IEC Version (0.1-200 *10) km Trip Failure Time (5-60) Close Failure Time (18-999) Phase Rotation (0=ABC, 1=ACB) Configuration Flag bit 0: Protection Mode (0=Fund, 1=RMS) bit 1: Reset Mode (0=Instant, 1=Delayed) bit 2: Zone Sequence (0=Disabled, 1=Enabled) bit 3: Target Display Mode (0=Last, 1=All) bit 4: Local Edit (0=Disabled, 1=Enabled) bit 5: Remote Edit (0=Disabled, 1=Enabled) bit 6: WHr/VarHr Mtr Mode (0=KWHr, 1=MWHr) bit 7: LCD Light (0=Timer, 1=On) bit 8: Not used. bit 9: VCN Special Mode (0=Normal, 1=Inverted) bit10: Cold Load Timer Mode(0=Seconds, 1=Minutes) bit11: IEC Mode Bit bit12: 79V Timer Mode(0=Seconds, 1=Minutes) bit13: Voltage Display Mode (0=Vln, 1=Vll) bit14: System Frequency (0=50Hz, 1=60Hz) bit15: Breaker Fail Mode (0=Open State, 1=Original State)* *Note: bit15 Original state not available firmware version 2.50 and beyond. ALT 1 Setting Enable (0=Disable, 1=Enable) ALT 2 Setting Enable (0=Disable, 1=Enable) Demand Time Constant (0=5 min, 1=15 min, 2=30 min, 3=60 min) Zero sequence CT ratio (1 – 2000, step 1) (To be used only with catalog numbers XXX6-XXXX-XX-XXXX, variable CT ratio, SEF option.) Unit Name character 1-15,spare Spare LCD Contrast Adjustment (0-63) Relay Password character 1 Relay Password character 2 Relay Password character 3 Relay Password character 4 Test Password character 1 Test Password character 2 Test Password character 3 Test Password character 4 Curve Family: 0 = ANSI, 1 = IEC, 2 = Recloser Close Delay Time (0 – 250 *1, Seconds) Recloser Mode: 0 = Three Phase Only 1 = Single / Three Phase Tripping Number of switches to be controlled (Maximum 3) Source transfer enable (=1) / disable (=0) (2 switches controlled) Sectionalizer enable (=1) / disable (=0) (1 switch controlled) Select switch to be opened after loss of AC power 128 PRODUCT ALL ALL ALL ALL ALL ALL ALL ALL ALL PCD PCD PCD PCD PCD ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL PCD SCD / MAV SCD / MAV SCD / MAV MAV PCD MODBUS® Protocol Implementation Details ABB Inc. 61451 61452 1 61453 1 61454 1 61455 61456 61457 61458 61459 61460 Time delay for LOACSO function. (1 – 999 minutes) Automatic battery test. 0 = Disabled, 1 = once a day, 2 = once a week Recloser type. 0 = OVR, 1 = VR3 Phase Assignment. Bits 0,1: Xa, Bits 2,3: Yb, 4,5: Zc, 6,7: Unused. 00 = Phase A, 01 = Phase B, 10 = Phase C Bushing polarity. 0 = Normal, 1 = Reversed Nominal line-ground volts. Range = 1 – 65535. (Used only when catalog number xxxy-xxxx-xx-xxxx, with y = B, C, D, E, F, G Protection settings bank selection. 0 = Bank1 only, 1 = Bank1 or Bank2 Prog2 button function selection. 0 = Disabled, 1 = Phase select, 2 = Switch mode, 3 = Prog2 logical Fault targets auto reset. 0 = Disabled, 1 = Enabled PROG1 button function selection. 0 = Battery test, 1 = SEF, 2 = Prog1 logical MAV ALL ALL ALL ALL ALL ALL PCD PCD PCD Note 1: These settings should be “read only” from remote. They should be set only from the front panel HMI interface. 129 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.10 Counter Settings REGISTER 61536 61537 61538 61539 61540 61541 61542 61543 61544 61545 61546 61547 61548 61549 61550 61551 61552 61553 61554 61555 61556 61557 61558 61559 61560 61561 61562 61563 61564 61565 61566 61567 61568 61569 61570 61571 61572 61573 61574 61575 61576 61577 61578 61579 61580 61581 61582 61583 61584 61585 high byte low byte high byte low byte DEFINTION Spare Execute Register for Counter Settings (registers 6153761663) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) KSI Sum A Counter (0-9999) KSI Sum B Counter (0-9999) KSI Sum C Counter (0-9999) Over Current Trip Counter (0-9999) Breaker Operations Counter (0-9999) Reclose Counter 1 (0-9999) 1st Reclose Counter (0-9999) 2nd Reclose Counter (0-9999) 3rd Reclose Counter (0-9999) 4th Reclose Counter (0-9999) Reclose Counter 2 (0-9999) Overcurrent Trip A Counter (0-9999) Overcurrent Trip B Counter (0-9999) Overcurrent Trip C Counter (0-9999) Overcurrent Trip N Counter (0-9999) Phase A Pole Operations Counter (0-9999) Phase A Recloser Counter 1 (0-9999) Phase A Recloser Counter 2 (0-9999) Phase A Stage 1 Reclose Counter (0-9999) Phase A Stage 2 Reclose Counter (0-9999) Phase A Stage 3 Reclose Counter (0-9999) Phase A Stage 4 Reclose Counter (0-9999) Phase B Pole Operations Counter (0-9999) Phase B Recloser Counter 1 (0-9999) Phase B Recloser Counter 2 (0-9999) Phase B Stage 1 Reclose Counter (0-9999) Phase B Stage 2 Reclose Counter (0-9999) Phase B Stage 3 Reclose Counter (0-9999) Phase B Stage 4 Reclose Counter (0-9999) Phase C Pole Operations Counter (0-9999) Phase C Recloser Counter 1 (0-9999) Phase C Recloser Counter 2 (0-9999) Phase C Stage 1 Reclose Counter (0-9999) Phase C Stage 2 Reclose Counter (0-9999) Phase C Stage 3 Reclose Counter (0-9999) Phase C Stage 4 Reclose Counter (0-9999) All Fault Indication Counter (0-9999) Phase A Fault Indication Counter (0-9999) Phase B Fault Indication Counter (0-9999) Phase C Fault Indication Counter (0-9999) Phase N Fault Indication Counter (0-9999) Switch 1 Operations Counter (0-9999) Switch 2 Operations Counter (0-9999) Switch 3 Operations Counter (0-9999) Switch 4 Operations Counter (0-9999) 130 PRODUCT ALL ALL ALL ALL ALL ALL ALL ALL PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD SCD / MAV SCD / MAV SCD / MAV SCD / MAV SCD / MAV SCD / MAV SCD / MAV SCD / MAV SCD / MAV PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.11 Alarm Settings Note: Positive Watt Alarm 1 and Positive Watt Alarm 2 units are displayed in either KWhr or MWhr according to bit 6 of Configuration Flag in the Configuration Settings Group. If bit is set to one, use MWhr, if bit is zero, use KWhr. REGISTER 61664 61665 61666 61667 61668 61669 61670 61671 61672 61673 61674 61675 61676 61677 61678 61679 61680 61681 61682 61683 61684 61685 61686 61687 high byte low byte high byte low byte DEFINTION Spare Execute Register for Alarm Settings (registers 61665- 61791) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) KSI Summation Alarm Threshold (1-9999,10000=Disables) Overcurrent Trip Counter Alarm (1-9999,10000=Disables) Reclosure Counter 1 Alarm (1-9999,10000=Disables) Phase Demand Alarm (1-9999,10000=Disables) Neutral Demand Alarm (1-9999,10000=Disables) Low PF Alarm (0.5-1.0 *100, 101=Disables) High PF Alarm (0.5-1.0 *100, 101=Disables) Reclosure Counter 2 Alarm (1-9999,10000=Disables) 3 Phase kVAR Alarm (10-99990 /10,10000=Disables) Load Current Alarm (1-9999,10000=Disables) Positive kVAR Alarm (10-99990 /10,10000=Disable) Negative kVAR Alarm (10-99990 /10,10000=Disable) Pos Watt Alarm 1 (1-9999, 10000=Disable) Pos Watt Alarm 2 (1-9999, 10000=Disable) Fault Indication Alarm (1-9999, 10000=Disable) Switch 1 Operations Alarm (1-9999, 10000=Disable) Switch 2 Operations Alarm (1-9999, 10000=Disable) Switch 3 Operations Alarm (1-9999, 10000=Disable) Switch 4 Operations Alarm (1-9999, 10000=Disable) 131 PRODUCT ALL ALL ALL ALL ALL ALL PCD PCD ALL ALL ALL ALL PCD ALL ALL ALL ALL ALL ALL Reserved SCD / MAV SCD / MAV SCD / MAV SCD / MAV PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.12 Real Time Clock REGISTER 61792 61793 61794 61795 61796 61797 61798 61799 61800 61801 61802 high byte low byte high byte low byte DEFINTION Spare Execute Register for Real Time Clock (registers 61793- 61919) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Hours byte (0-23) Minutes byte (0-59) Seconds byte (0-59) Day byte (0-31)(0=Clock shutdown) Month byte (1-12) Year byte (0-99) 132 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.13 ULO Connection Settings and User Names Low byte consists of bits 0-7 High byte consists of bits 8-15 REGISTER 61920 61921 61922 61923 high byte low byte high byte low byte 61924 61925 61926-929 61930-933 61934-937 61938-941 61942-945 61946-949 61950-953 61954-957 61958-961 DEFINTION Spare Execute Register for ULO (registers 61921- 62047) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) ULO9..15 = high byte (where ULO 9 = bit 0,... and 0 = connected) ULO1..8 = low byte (where ULO 1 = bit 0,...etc. and 0 = connected) ULO1 Character String 8 bytes ULO2 Character String 8 bytes ULO3 Character String 8 bytes ULO4 Character String 8 bytes ULO5 Character String 8 bytes ULO6 Character String 8 bytes ULO7 Character String 8 bytes ULO8 Character String 8 bytes ULO9 Character String 8 bytes Note: Connected implies that ULIn is linked logically to ULOn. 133 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.14 ULI User Names User definable 8 character ULI strings. String terminating NULL is implied. REGISTER 62048 62049 62050 62051 high byte low byte high byte low byte 62052 62053-056 62057-060 62061-064 62065-068 62069-072 62073-076 62077-080 62081-084 62085-088 DEFINTION Spare Execute Register for ULI (registers 62049- 62175) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) ULI1 Character String 8 bytes ULI2 Character String 8 bytes ULI3 Character String 8 bytes ULI4 Character String 8 bytes ULI5 Character String 8 bytes ULI6 Character String 8 bytes ULI7 Character String 8 bytes ULI8 Character String 8 bytes ULI9 Character String 8 bytes 134 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.15 FLI User Names and Indices REGISTER 62176 62177 62178 62179 high byte low byte high byte low byte 62180 62181 62182 62183 62184 62185 62186 62187 62188 62189 62190 62191 62192 62193 62194 62195 62196 62197-200 62201-204 62205-208 62209-212 62213-216 62217-220 62221-224 62225-228 62229-232 62233-236 62237-240 62241-244 62245-248 62249-252 62253-256 62257-260 62261-264 62265-268 62269-272 62273-276 62277-280 DEFINTION Spare Execute Register for FLI (registers 62177- 62431) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) FLI1 index byte FLI2 index byte FLI3 index byte FLI4 index byte FLI5 index byte FLI6 index byte FLI7 index byte FLI8 index byte FLI9 index byte FLI10 index byte FLI11 index byte FLI12 index byte FLI13 index byte FLI14 index byte FLI15 index byte FLI16 index byte FLI17 index byte FLI18 index byte FLI19 index byte FLI20 index byte FLI21 index byte FLI22 index byte FLI23 index byte FLI24 index byte FLI25 index byte FLI26 index byte FLI27 index byte FLI28 index byte FLI29 index byte FLI30 index byte FLI31 index byte FLI32 index byte FLI1 Character String 8 bytes FLI2 Character String 8 bytes FLI3 Character String 8 bytes FLI4 Character String 8 bytes FLI5 Character String 8 bytes FLI6 Character String 8 bytes FLI7 Character String 8 bytes FLI8 Character String 8 bytes FLI9 Character String 8 bytes FLI10 Character String 8 bytes FLI11 Character String 8 bytes FLI12 Character String 8 bytes FLI13 Character String 8 bytes FLI14 Character String 8 bytes FLI15 Character String 8 bytes FLI16 Character String 8 bytes FLI17 Character String 8 bytes FLI18 Character String 8 bytes FLI19 Character String 8 bytes FLI20 Character String 8 bytes FLI21 Character String 8 bytes 135 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 62281-284 62285-288 62289-292 62293-296 62297-300 62301-304 62305-308 62309-312 62313-316 62317-320 62321-324 DEFINTION FLI22 Character String 8 bytes FLI23 Character String 8 bytes FLI24 Character String 8 bytes FLI25 Character String 8 bytes FLI26 Character String 8 bytes FLI27 Character String 8 bytes FLI28 Character String 8 bytes FLI29 Character String 8 bytes FLI30 Character String 8 bytes FLI31 Character String 8 bytes FLI32 Character String 8 bytes 136 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.16 Communications Settings REGISTER 62432 62433 62436 62437 62438 62439 62440 DEFINITION Spare Execute Register for Communications Settings (registers 62432 - 62559) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Unit Address Front Panel Configuration Rear Panel Configuration Rear Panel Protocol 62441 62442 62443 62444 62445 62446 62447 62448 62449 62450 62451 62452 62453 62454 62455 62456 62457 62458 62459 62460 62461 62462 62463 62464 62465 62466 62467 Rear Port Parameter 1 Rear Port Parameter 2 Rear Port Parameter 3 Rear Port Parameter 4 Rear Port Parameter 5 Rear Port Parameter 6 Rear Port Parameter 7 Rear Port Parameter 8 Rear Port Parameter 9 Rear Port Parameter 10 Rear Port Parameter 11 Rear Port Parameter 12 Rear Port Parameter 13 Rear Port Parameter 14 Rear Port Parameter 15 Rear Port Parameter 16 Rear Port Parameter 17 Rear Port Parameter 18 Rear Port Parameter 19 Rear Port Parameter 20 Rear Port Parameter 21 Rear Port Parameter 22 Rear Port Parameter 23 Rear Port Parameter 24 Rear Port Parameter 25 Rear Port Parameter Mode IRIG Configuration 62468 62469 62470 RTS-CTS delay enabled RTS-CTS delay Post transmission delay 62434 62435 high byte low byte high byte low byte RANGE (0=No Action, 1=Transfer Settings, 2=Refresh Registers) (Modbus: 0 – 255, DNP: 0 – 65535) (0=ASCII Modbus, 1=RTU Modbus, 2 = DNP3.0, 3=IEC870) 1 - 255 1 - 255 0 – 255 0 – 255 0 – 255 0 - 255 0 - 255 0 - 255 1–8 1 – 255 0 – 255 0 - 255 0 - 255 0 - 255 0 – 255 0 – 255 0–2 1 - 255 1–2 1–2 1–2 1–4 1–4 0=Disabled, 1=Enabled 0 – 255 (0=OFF, 1=ON) (Currently not supported) 0 = Disabled, 1 = Enabled 0 – 3000 ms, step = 50 0 – 3000 ms, step = 50 Note: See DNP 3.0 implementation guide for details on Rear Port parameters 137 PCD MODBUS® Protocol Implementation Details ABB Inc. Communications Configuration Word definition: Bits 0-3 (Baud Rate): 0 -- 300 1 -- 1200 2 -- 2400 3 -- 4800 4 -- 9600 5 -- 19200 6 -- 38400 Bits 4-5 (Parity): Bit 6 (Frame Size): Bit 7 (Stop Bits): 0 -- None 1 -- Odd 2 -- Even 3 -- N/A 0 -- 7 bits 1 -- 8 bits 0 -- 1 bit 1 -- 2 bits Valid Configuration Values: Front Port Rear Port Note: Baud Rates 0, 1, 2, 3, & 4 0, 1, 2, 3, 4, & 5 Frame Types N/8/1, N/8,2 E/7/1, O/7/1, N/7/2, N/8/1, E/8/1, O/8/1, & N/8/2 If an invalid Baud value is specified a default value representing 9600 Baud will be used. Also, if an valid Frame type is specified a default of N/8/1 for be used. 138 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.17 Modbus Global Register Mapping Block The Modbus Global Registers can contain any valid 4xxxx register. Valid mapping registers are 1-9999 provided that the register exists and is defined by this document. REGISTER 62560 62561 62562 62563 62564 62565 62566 62567 62568 62569 62570 62571 62572 62573 62574 62575 62576 62577 62578 62579 62580 62581 62582 62583 62584 62585 62586 62587 62588 62589 62590 62591 62592 62593 62594 62595 62596 62597 62598 high byte low byte high byte low byte DEFINTION Spare Execute Register for Modbus Global Mapping (registers 62561- 62687) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Number of Global Registers to Transmit Modbus Global Register 1 Mapping Modbus Global Register 2 Mapping Modbus Global Register 3 Mapping Modbus Global Register 4 Mapping Modbus Global Register 5 Mapping Modbus Global Register 6 Mapping Modbus Global Register 7 Mapping Modbus Global Register 8 Mapping Modbus Global Register 9 Mapping Modbus Global Register 10 Mapping Modbus Global Register 11 Mapping Modbus Global Register 12 Mapping Modbus Global Register 13 Mapping Modbus Global Register 14 Mapping Modbus Global Register 15 Mapping Modbus Global Register 16 Mapping Modbus Global Register 17 Mapping Modbus Global Register 18 Mapping Modbus Global Register 19 Mapping Modbus Global Register 20 Mapping Modbus Global Register 21 Mapping Modbus Global Register 22 Mapping Modbus Global Register 23 Mapping Modbus Global Register 24 Mapping Modbus Global Register 25 Mapping Modbus Global Register 26 Mapping Modbus Global Register 27 Mapping Modbus Global Register 28 Mapping Modbus Global Register 29 Mapping Modbus Global Register 30 Mapping Modbus Global Register 31 Mapping Modbus Global Register 32 Mapping Security Mask for Writeable 4xxxx Control Block (bit state: 0=Control Block Password Required, 1=Control Block Unprotected) Bit 15: Spare Bit 7: Spare Bit 14: Spare Bit 6: Spare Bit 13: Spare Bit 5: Pulse Outputs Bit 12: Spare Bit 4: Set Reset Outputs Bit 11: Spare Bit 3: Force logical Input Bit 10: Spare Bit 2: Force Physical Output Bit 9: Spare Bit 1: Force Physical Input Bit 8: Spare Bit 0: Initiate Input 139 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.18 User Definable Register Configuration Block The following registers support modification and scaling of information contained in the Modbus user register set. The information in the 4xxxx registers can be tailored to the users needs with the following options: Register: Register needed can be programmed. Scalability: Data in the registers can be scaled. Destination register data type: This supports multiple data types to match the destination systems needs. Destination register data size: This supports multiple data sizes to match the destination systems needs. MSB/LSB bit justification: This allows users to shift the bits contained in the 4xxxx register into the Most significant bits or the Least significant bits. Here is an example of how to set up the Modbus registers to exploit the above facilities. Consider a situation where the destination system is a SCADA. Suppose the user’s SCADA system is setup to read the System Frequency on register 40001and requires the data be in the 12 Most significant bits. Also, let us suppose that the scale required on the system frequency is hex 0a (10 decimal) and the SCADA stores the value in a bipolar data type. The user would adopt the following procedure to setup register 40001 to meet the specifications of the destination system. Now write hex 0a (decimal 10) which is the scale we need into register 62693. Next write hex 0147 (327 decimal) on register 62694 which fetches the value from the register 40327(the source register for system frequency). Setting the data size (12), the data type (bipolar) and shifting data (into Most significant bits) is done as follows: Register Size (12 bits) Bit 7 0 Bit 6 0 Bit 5 1 Bit 4 1 MSB/LSB (Justified to the left i.e. data in the Most Significant Bits) Bit 3 1 Register Type (Bipolar) Bit 2 0 Bit 1 0 Bit 0 1 So, write hex 039 (decimal 57) into register 62695 and the registers should look like: register 62692 register 62693 register 62694 register 62695 hex 0000 hex 000a hex 0147 hex 0039 Now when the command is executed, the data is transferred to the PCD and subsequent data transmissions from register 40001 of the unit will be 12 bit wide with the bits justified to the left (in the Most Significant Bits). The data type will be bipolar and compatible with the destination register type. The value will be scaled by 10. Note: See Register Section 40001-40032 for default Data type and size definitions 140 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 62688 62689 62690 62691 high byte low byte high byte low byte 62692 62693 62694 62695 62696 high byte low byte 62697 62698 62699 62700 high byte low byte 62701 62702 62703 62704 high byte low byte 62705 62706 62707 62708 high byte low byte 62709 62710 62711 62712 high byte low byte 62713 62714 62715 62716 high byte low byte 62717 62718 62719 62720 high byte DEFINTION Spare Execute Register for User Definable Register (registers 62689- 62943) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) User Register 40001 Scale User Register 40001 Source Register (4xxxx Series) User Register 40001 Destination Register Data Type (bits 2-0) (0=Offset Bipolar, 1=Bipolar, 2=Unipolar, 3=Negative Unipolar) User Register 40001 Destination Register Justification (bit 3) (0=LSB, 1=MSB) User Register 40001 Destination Register Data Size(bits 7-4) (0=2 Bit, 1=4 Bit, 2=8 Bit, 3=12 Bit, 4=16 Bit) User Register 40001 Source Register Scale Type (0=Normal, 1=Remainder, 2=Phase Current, 3=Neutral Current, 4=Voltage, 5=Power) User Register 40001 Source Register Data Type (0=Unsigned 16 Bit, 1=Unsigned 32 Bit, 2= Signed 16 Bit, 3=Signed 32 Bit) User Register 40002 Scale User Register 40002 Source Register (4xxxx Series) User Register 40002 Destination Register Data Type User Register 40002 Destination Register Justification User Register 40002 Destination Register Data Size User Register 40002 Source Register Scale Type User Register 40002 Source Register Data Type User Register 40003 Scale User Register 40003 Source Register (4xxxx Series) User Register 40003 Destination Register Data Type User Register 40003 Destination Register Justification User Register 40003 Destination Register Data Size User Register 40003 Source Register Scale Type User Register 40003 Source Register Data Type User Register 40004 Scale User Register 40004 Source Register (4xxxx Series) User Register 40004 Destination Register Data Type User Register 40004 Destination Register Justification User Register 40004 Destination Register Data Size User Register 40004 Source Register Scale Type User Register 40004 Source Register Data Type User Register 40005 Scale User Register 40005 Source Register (4xxxx Series) User Register 40005 Destination Register Data Type User Register 40005 Destination Register Justification User Register 40005 Destination Register Data Size User Register 40005 Source Register Scale Type User Register 40005 Source Register Data Type User Register 40006 Scale User Register 40006 Source Register (4xxxx Series) User Register 40006 Destination Register Data Type User Register 40006 Destination Register Justification User Register 40006 Destination Register Data Size User Register 40006 Source Register Scale Type User Register 40006 Source Register Data Type User Register 40007 Scale User Register 40007 Source Register (4xxxx Series) User Register 40007 Destination Register Data Type User Register 40007 Destination Register Justification User Register 40007 Destination Register Data Size User Register 40007 Source Register Scale Type 141 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER low byte 62721 62722 62723 62724 high byte low byte 62725 62726 62727 62728 high byte low byte 62729 62730 62731 62732 high byte low byte 62733 62734 62735 62736 high byte low byte 62737 62738 62739 62740 high byte low byte 62741 62742 62743 62744 high byte low byte 62745 62746 62747 62748 high byte low byte 62749 62750 62751 62752 62753 62754 62756 62757 62758 62759 high byte low byte high byte low byte DEFINTION User Register 40007 Source Register Data Type User Register 40008 Scale User Register 40008 Source Register (4xxxx Series) User Register 40008 Destination Register Data Type User Register 40008 Destination Register Justification User Register 40008 Destination Register Data Size User Register 40008 Source Register Scale Type User Register 40008 Source Register Data Type User Register 40009 Scale User Register 40009 Source Register (4xxxx Series) User Register 40009 Destination Register Data Type User Register 40009 Destination Register Justification User Register 40009 Destination Register Data Size User Register 40009 Source Register Scale Type User Register 40009 Source Register Data Type User Register 40010 Scale User Register 40010 Source Register (4xxxx Series) User Register 40010 Destination Register Data Type User Register 40010 Destination Register Justification User Register 40010 Destination Register Data Size User Register 40010 Source Register Scale Type User Register 40010 Source Register Data Type User Register 40011 Scale User Register 40011 Source Register (4xxxx Series) User Register 40011 Destination Register Data Type User Register 40011 Destination Register Justification User Register 40011 Destination Register Data Size User Register 40011 Source Register Scale Type User Register 40011 Source Register Data Type User Register 40012 Scale User Register 40012 Source Register (4xxxx Series) User Register 40012 Destination Register Data Type User Register 40012 Destination Register Justification User Register 40012 Destination Register Data Size User Register 40012 Source Register Scale Type User Register 40012 Source Register Data Type User Register 40013 Scale User Register 40013 Source Register (4xxxx Series) User Register 40013 Destination Register Data Type User Register 40013 Destination Register Justification User Register 40013 Destination Register Data Size User Register 40013 Source Register Scale Type User Register 40013 Source Register Data Type User Register 40014 Scale User Register 40014 Source Register (4xxxx Series) User Register 40014 Destination Register Data Type User Register 40014 Destination Register Justification User Register 40014 Destination Register Data Size User Register 40014 Source Register Scale Type User Register 40014 Source Register Data Type User Register 40015 Scale User Register 40015 Source Register (4xxxx Series) User Register 40015 Destination Register Data Type User Register 40015 Destination Register Justification User Register 40015 Destination Register Data Size User Register 40015 Source Register Scale Type User Register 40015 Source Register Data Type User Register 40016 Scale User Register 40016 Source Register (4xxxx Series) User Register 40016 Source Register Scale Type User Register 40016 Source Register Data Type User Register 40017 Scale User Register 40017 Source Register (4xxxx Series) User Register 40017 Destination Register Data Type User Register 40017 Destination Register Justification 142 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 62760 high byte low byte 62761 62762 62763 62764 high byte low byte 62765 62766 62767 62768 high byte low byte 62769 62770 62771 62772 high byte low byte 62773 62774 62775 62776 high byte low byte 62777 62778 62779 62780 high byte low byte 62781 62782 62783 62784 high byte low byte 62785 62786 62787 62788 high byte low byte 62789 62790 62791 62792 62793 62794 62795 high byte low byte DEFINTION User Register 40017 Destination Register Data Size User Register 40017 Source Register Scale Type User Register 40017 Source Register Data Type User Register 40018 Scale User Register 40018 Source Register (4xxxx Series) User Register 40018 Destination Register Data Type User Register 40018 Destination Register Justification User Register 40018 Destination Register Data Size User Register 40018 Source Register Scale Type User Register 40018 Source Register Data Type User Register 40019 Scale User Register 40019 Source Register (4xxxx Series) User Register 40019 Destination Register Data Type User Register 40019 Destination Register Justification User Register 40019 Destination Register Data Size User Register 40019 Source Register Scale Type User Register 40019 Source Register Data Type User Register 40020 Scale User Register 40020 Source Register (4xxxx Series) User Register 40020 Destination Register Data Type User Register 40020 Destination Register Justification User Register 40020 Destination Register Data Size User Register 40020 Source Register Scale Type User Register 40020 Source Register Data Type User Register 40021 Scale User Register 40021 Source Register (4xxxx Series) User Register 40021 Destination Register Data Type User Register 40021 Destination Register Justification User Register 40021 Destination Register Data Size User Register 40021 Source Register Scale Type User Register 40021 Source Register Data Type User Register 40022 Scale User Register 40022 Source Register (4xxxx Series) User Register 40022 Destination Register Data Type User Register 40022 Destination Register Justification User Register 40022 Destination Register Data Size User Register 40022 Source Register Scale Type User Register 40022 Source Register Data Type User Register 40023 Scale User Register 40023 Source Register (4xxxx Series) User Register 40023 Destination Register Data Type User Register 40023 Destination Register Justification User Register 40023 Destination Register Data Size User Register 40023 Source Register Scale Type User Register 40023 Source Register Data Type User Register 40024 Scale User Register 40024 Source Register (4xxxx Series) User Register 40024 Destination Register Data Type User Register 40024 Destination Register Justification User Register 40024 Destination Register Data Size User Register 40024 Source Register Scale Type User Register 40024 Source Register Data Type User Register 40025 Scale User Register 40025 Source Register (4xxxx Series) User Register 40025 Destination Register Data Type User Register 40025 Destination Register Justification User Register 40025 Destination Register Data Size User Register 40025 Source Register Scale Type User Register 40025 Source Register Data Type User Register 40026 Scale User Register 40026 Source Register (4xxxx Series) User Register 40026 Destination Register Data Type User Register 40026 Destination Register Justification User Register 40026 Destination Register Data Size 143 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 62796 high byte low byte 62797 62798 62799 62800 high byte low byte 62801 62802 62803 62804 high byte low byte 62805 62806 62807 62808 high byte low byte 62809 62810 62811 62812 high byte low byte 62813 62814 62815 62816 high byte low byte 62817 62818 62819 62820 high byte low byte DEFINTION User Register 40026 Source Register Scale Type User Register 40026 Source Register Data Type User Register 40027 Scale User Register 40027 Source Register (4xxxx Series) User Register 40027 Destination Register Data Type User Register 40027 Destination Register Justification User Register 40027 Destination Register Data Size User Register 40027 Source Register Scale Type User Register 40027 Source Register Data Type User Register 40028 Scale User Register 40028 Source Register (4xxxx Series) User Register 40028 Destination Register Data Type User Register 40028 Destination Register Justification User Register 40028 Destination Register Data Size User Register 40028 Source Register Scale Type User Register 40028 Source Register Data Type User Register 40029 Scale User Register 40029 Source Register (4xxxx Series) User Register 40029 Destination Register Data Type User Register 40029 Destination Register Justification User Register 40029 Destination Register Data Size User Register 40029 Source Register Scale Type User Register 40029 Source Register Data Type User Register 40030 Scale User Register 40030 Source Register (4xxxx Series) User Register 40030 Destination Register Data Type User Register 40030 Destination Register Justification User Register 40030 Destination Register Data Size User Register 40030 Source Register Scale Type User Register 40030 Source Register Data Type User Register 40031 Scale User Register 40031 Source Register (4xxxx Series) User Register 40031 Destination Register Data Type User Register 40031 Destination Register Justification User Register 40031 Destination Register Data Size User Register 40031 Source Register Scale Type User Register 40031 Source Register Data Type User Register 40032 Scale User Register 40032 Source Register (4xxxx Series) User Register 40032 Destination Register Data Type User Register 40032 Destination Register Justification User Register 40032 Destination Register Data Size User Register 40032 Source Register Scale Type User Register 40032 Source Register Data Type 144 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.19 Miscellaneous Settings ADDRESS 62944 62945 62946 62947 62948 62949 high byte low byte high byte low byte DEFINTION Spare Execute Register for Miscellaneous Settings (registers 62945- 63021) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Security Mask for Writeable 4xxxx Control Block (Duplicate of 62598 since PCD does not have access to other rgister) (bit state: 0=Control Block Password Required, 1=Control Block Unprotected) Bit 15: Spare Bit 7: Spare Bit 14: Spare Bit 6: Spare Bit 13: Spare Bit 5: Pulse Outputs Bit 12: Spare Bit 4: Set Reset Outputs Bit 11: Spare Bit 3: Force logical Input Bit 10: Spare Bit 2: Force Physical Output Bit 9: Spare Bit 1: Force Physical Input Bit 8: Spare Bit 0: Initiate Input 145 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.20 Oscillographics Data Capture Settings REGISTER 63200 63201 63202 63203 63204 63205 63206 63207 63208 63209 63210 63211 63212 63213 high byte low byte high byte low byte DEFINTION Spare Execute Register for Oscillographics Settings (registers 63200 - 63327) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Record Size = 0: 1 Record 1: 2 Records 2: 4 Records 3: 8 Records Mode Bit 0 : Single-shot mode (0=off,1=on) Bit 1 : Appended record mode (0=off, 1=on) Trigger Position Analog Quantity Select Mask Trigger Source (High Word) Trigger Source . Trigger Source . Bit 0 : Trip Issued Signal (PCD) Bit 1 : Breaker Open (PCD) Bit 2 : External (WCI) (PCD / SCD) Bit 3 : 32P (PCD / SCD) Bit 4 : 32N (PCD / SCD) Bit 5 : PFLT (SCD) Bit 6 : NFLT (SCD) Bit 7 : SFLT (SCD) Bit 8 : PQ Sag (PCD / SCD) Bit 9 : PQ Swell (PCD / SCD) Bit 10: PQ Interruptions (PCD / SCD) Bit 11: PQ Undervoltage (PCD / SCD) Bit 12 : PQ Overvoltage (PCD / SCD) Bit 13: PQ TDD (PCD / SCD) Bit 14 : PQ THD (PCD / SCD) Bit 15 : Spare Trigger Source (Low Word) Bit 0 : 50N-1 (PCD) Bit 1 : 50N-2 (PCD) Bit 2 : 50N-3 (PCD) Bit 3 : 51N (PCD) Bit 4 : 50P-1 (PCD) Bit 5 : 50P-2 (PCD) Bit 6 : 50P-3 (PCD) Bit 7 : 51P (PCD) Bit 8 : 67P (PCD) Bit 9 : 67N (PCD) Bit 10 : 46 (PCD / SCD) Bit 11 : 27 (PCD / SCD) Bit 12 : 59 (PCD / SCD) Bit 13 : 79 (PCD) Bit 14 : 81S (PCD / SCD) Bit 15 : 81R (PCD / SCD) Spare Note: Analog Quantity Select Mask is currently not supported. Also, the two trigger word registers 63209 through 63210 are currently not supported. 146 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.21 Programmable Curve Parameters Note: File Support of multiple programmable curves is supported through the Extendend Memory number as follows: File = 1: File = 2: File = 3: REGISTER 63328 63329 63330 63331 63332 63333 63334 63335 63336 63337 63338 63339 63340 high byte low byte high byte low byte Prog. Curve 1 Prog. Curve 2 Prog. Curve 3 DEFINTION Spare Execute Register for Programmable Curve Parameters (registers 63328 63967) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Coefficient A (High Word) Coefficient A (Low Word) Coefficient B (High Word) Coefficient B (Low Word) Coefficient C (High Word) Coefficient C (Low Word) Coefficient P (High Word) Coefficient P (Low Word) 147 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.22 Programmable Curve Data Settings Note: Support of multiple programmable curves is supported through the Extended Memory File number as follows: File = 1: File = 2: File = 3: REGISTER 63456 63457 63458 63459 63460 63461 – 63465 63466 – 63470 63471 – 63475 63476 – 63480 63481 – 63485 63486 – 63490 63491 – 63495 63496 – 63500 63501 – 63505 63506 – 63510 63511 – 63515 63516 – 63520 63521 – 63525 63526 – 63530 63531 - 63535 63536 - 63540 63541 - 63545 63546 - 63550 63551 - 63555 63556 - 63560 63561 - 63565 63566 - 63570 63571 - 63575 63576 - 63580 63581 - 63585 63586 - 63590 63591 - 63595 63596 - 63600 63601 - 63605 63606 - 63610 63611 - 63615 63616 - 63620 63621 - 63625 63626 - 63630 63631 - 63635 63636 - 63640 63641 - 63645 63646 - 63650 63651 - 63655 63656 - 63660 63661 - 63665 63666 - 63670 63671 - 63675 63676 - 63680 63681 - 63685 63686 - 63690 63691 - 63695 Prog. Curve 1 Prog. Curve 2 Prog. Curve 3 DEFINTION Segment 0: Endrange Segment 0: Alpha (High Word) Segment 0: Alpha (Low Word) Segment 0: Beta (High Word) Segment 0: Beta (Low Word) Segment 1: Segment 2: Segment 3 Segment 4: Segment 5 Segment 6: Segment 7: Segment 8: Segment 9: Segment 10: Segment 11 Segment 12: Segment 13 Segment 14: Segment 15 Segment 16: Segment 17: Segment 18: Segment 19: Segment 20: Segment 21: Segment 22: Segment 23: Segment 24: Segment 25: Segment 26: Segment 27: Segment 28: Segment 29: Segment 30: Segment 31: Segment 32: Segment 33: Segment 34: Segment 35: Segment 36: Segment 37: Segment 38: Segment 39: Segment 40: Segment 41: Segment 42: Segment 43: Segment 44: Segment 45: Segment 46: Segment 47: 148 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 63696 - 63700 63701 - 63705 63706 - 63710 63711 - 63715 63716 - 63720 63721 - 63725 63726 - 63730 63731 - 63735 DEFINTION Segment 48: Segment 49: Segment 50: Segment 51: Segment 52: Segment 53: Segment 54: Segment 55: 149 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.23 Programmable Curve Pointer Table Settings Note: Support of multiple programmable curves is supported through the Extendend Memory File number as follows: File = 1: Prog. Curve 1 File = 2: Prog. Curve 2 File = 3: Prog. Curve 3 REGISTER 63840 high byte low byte 63841 high byte low byte 63842 high byte low byte 63843 high byte low byte 63844 high byte low byte 63845 high byte low byte 63846 high byte low byte 63847 high byte low byte 63848 high byte low byte 63849 high byte low byte 63850 high byte low byte 63851 high byte low byte 63852 high byte low byte 63853 high byte low byte 63854 high byte low byte 63855 high byte low byte 63856 high byte low byte 63857 high byte low byte 63858 high byte low byte 63859 high byte low byte 63860 high byte low byte 63861 high byte low byte 63862 high byte low byte 63863 high byte low byte 63864 high byte low byte 63865 high byte low byte 63866 high byte low byte 63867 high byte low byte DEFINTION Pointer Offset 0 Pointer Offset 1 Pointer Offset 2 Pointer Offset 3 Pointer Offset 4 Pointer Offset 5 Pointer Offset 6 Pointer Offset 7 Pointer Offset 8 Pointer Offset 9 Pointer Offset 10 Pointer Offset 11 Pointer Offset 12 Pointer Offset 13 Pointer Offset 14 Pointer Offset 15 Pointer Offset 16 Pointer Offset 17 Pointer Offset 18 Pointer Offset 19 Pointer Offset 20 Pointer Offset 21 Pointer Offset 22 Pointer Offset 23 Pointer Offset 24 Pointer Offset 25 Pointer Offset 26 Pointer Offset 27 Pointer Offset 28 Pointer Offset 29 Pointer Offset 30 Pointer Offset 31 Pointer Offset 32 Pointer Offset 33 Pointer Offset 34 Pointer Offset 35 Pointer Offset 36 Pointer Offset 37 Pointer Offset 38 Pointer Offset 39 Pointer Offset 40 Pointer Offset 41 Pointer Offset 42 Pointer Offset 43 Pointer Offset 44 Pointer Offset 45 Pointer Offset 46 Pointer Offset 47 Pointer Offset 48 Pointer Offset 49 Pointer Offset 50 Pointer Offset 51 Pointer Offset 52 Pointer Offset 53 Pointer Offset 54 Pointer Offset 55 150 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER 63868 high byte low byte 63869 high byte low byte DEFINTION Pointer Offset 56 Pointer Offset 57 Pointer Offset 58 Pointer Offset 59 151 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.24 Breaker Failure Unit Settings Note: This register set is not supported for PCD2000 revision V2.00 and higher or any SCD products. REGISTER 63968 63969 63970 63971 63972 63973 63974 63975 63976 63977 63978 63979 63980 63981 high byte low byte high byte low byte DEFINTION Spare Execute Register for Oscillographics Settings (registers 63968 - 64095) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Enable/Disable (1=ON/0=OFF) BFT Pickup Time Delay BFT Drop Time Delay BFT Starters: Bit 0: External Input Bit 1: Phase Level Detector Bit 2: Neutral Level Detector ReTrip Pickup Time Delay ReTrip Drop Time Delay ReTrip Starters: Bit 0: External Input Bit 1: Phase Level Detector Bit 2: Neutral Level Detector Phase Level Detector Pickup (5 to 100% of 51P) . Neutral Level Detector Pickup (5 to 100% of 51N) 152 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.25 Master Trip Output Assignment Note: This register set is not supported for PCD2000 revision V2.00 and higher or any SCD products. REGISTER 64096 64097 64098 64099 64100 64101 64102 high byte low byte high byte low byte DEFINTION Spare Execute Register for Oscillographics Settings (registers 64096 - 64223) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Assignment (High Word): Spares Assignment (Low Word): Bit 0: 50N-1 Bit 1: 50N-2 Bit 2: 50N-3 Bit 3: 51N Bit 4: 50P-1 Bit 5: 50P-2 Bit 6: 50P-3 Bit 7: 51P Bit 8: 67P Bit 9: 67N Bit 10: 46 Bit 11: Spare Bit 12: Spare Bit 13: Spare Bit 14: Spare Bit 15: Spare 153 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.26 Load Profile Attribute Assignment (Future) REGISTER 64224 64225 64226 64227 64228 64229 64230 64231 64232 64233 64234 64235 64236 64237 high byte low byte high byte low byte DEFINTION Spare Execute Register for Oscillographics Settings (registers 64224 - 64352) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Record Attribute 1 Record Attribute 2 Record Attribute 3 Record Attribute 4 Record Attribute 5 Record Attribute 6 Record Attribute 7 Record Attribute 8 Record Attribute 9 Currently Defined Attributes: ATTR # 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 DESCRIPTION Demand kW-A Demand kW-B Demand kW-C Demand kVAR-A Demand kVAR-B Demand kVAR-C Van Vbn Vcn Demand kW-3P Demand kVAR3P Demand Ia Demand Ib Demand Ic Vab Vbc Vca DYNAMIC SCALE 122 122 122 122 122 122 10 10 10 367 367 1 1 1 10 10 10 154 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.27 Power Quality Settings REGISTER 64352 64353 64354 64355 high byte low byte high byte low byte 64356 64357 64358 64359 64360 64361 64362 64363 64364 64365 64366 64367 64368 64369 64370 64371 64372 64373 64374 64375 64376 64377 64378 64379 64380 64381 64382 64383 UNIT Swell Sag Interruption Overvoltage DEFINTION Spare Execute Register for Oscillographics Settings (registers 64352 – 64479) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) Relay Password Character 1 Relay Password Character 2 Relay Password Character 3 Relay Password Character 4 Spare (Writeable) Units Enabled Bit 0: Swell Unit Bit 1: Sag Unit Bit 2: Interruption Unit Bit 3: Overvoltage Unit Bit 4: Undervoltage Unit Bit 5: Current TDD Unit Bit 6: Voltage THD Unit Swell, Instantaneous, Voltage Threshhold (1.0 to 1.5 PU, 0.01 PU Steps, x100) Swell, Instantaneous, Time Maximum ( 2 to 120 Quarter cycles, qtr. cycle steps) Swell, Momentary, Voltage Threshhold (1.0 to 1.5 PU, 0.01 PU Steps, x100) Swell, Momentary, Time Maximum ( 30 to 180 Cycles, one Cycle steps) Swell, Temporary, Voltage Threshhold (1.0 to 1.5 PU, 0.01 PU Steps, x100) Swell, Temporary, Time Maximum ( 3 to 60 Seconds, one Second steps) Sag, Instantaneous, Voltage Threshhold (0.1 to 1.0 PU, 0.01 PU Steps, x100) Sag, Instantaneous, Time Maximum ( 2 to 120 Quarter cycles, qtr. cycle steps) Sag, Momentary, Voltage Threshhold (0.1 to 1.0 PU, 0.01 PU Steps, x100) Sag, Momentary, Time Maximum ( 30 to 180 Cycles, one Cycle steps) Sag, Temporary, Voltage Threshhold (0.1 to 1.0 PU, 0.01 PU Steps, x100) Sag, Temporary, Time Maximum ( 3 to 60 Seconds, one Second steps) Interruption, Voltage Threshhold (0.0 to 0.1 PU, 0.01 PU Steps, x100) Interruption, Momentary Time Maximum (2 to 720 Qtr Cycles, qtr cycle steps) Interruption, Temporary Time Maximum (3 to 60 Seconds, one second steps) Interruption, Sustained Time Maximum (60 to 180 Seconds, one second steps) Overvoltage, Voltage Threshold (1.0 to 1.5 PU, 0.01 PU Steps, x100) Overvoltage, Time Maximum (1 to 60 Minutes, 1 minute steps) Undervoltage, Voltage Threshold (0.1 to 1.0 PU, 0.01 PU Steps, x100) Undervoltage, Time Maximum (1 to 60 Minutes, 1 minute steps) Current TDD, Threshold (1 to 50 Percent, 1 Percent Steps) Current TDD, Initial Peak Current (1 to 1600 Amps, 1 Amp Steps) Current TDD, Peak Update Mode (0=Off, 1=On) Voltage THD, Threshold (1 to 50 Percent, 1 Percent Steps) Window: Bit 0: Type (0=Sliding, 1=Profile) Bit 1,2: Demand Interval (0=5, 1=15, 2=30, 3=60 Minutes) RMS Recording Mode (0=Single Quantity, 1=Dual Quantity) SINGLE QUANTITY Vx Vx Vx DUAL QUANTITY Vx, Ix Vx, Ix Vx, Ix 155 PCD MODBUS® Protocol Implementation Details ABB Inc. Undervoltage TDD THD TDD THD TDD, Ix THD, Vx 156 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.28 Protection Settings (PCD2000 Revision V2.00 and above, also SCD where applicable) Note: (Modbus query file numbers. Primary = 1, Alt1 = 2, Alt2 = 3, Bank2 Primary = 5, Bank2 alt1 = 6, Bank2 Alt2 = 7) REG DEFINTION 64480 64481 Spare Execute Register (registers 64481- 64863) (0=No Action, 1=Transfer Settings, 2=Refresh Registers) (High Byte) Relay Password Character 1 (Low Byte) Relay Password Character 2 (High Byte) Relay Password Character 3 (Low Byte) Relay Password Character 4 Spare (Writeable) High Configuration Word (read only) Low Configuration Word (read only) 51P Curve Select (ANSI Type I / IEC Type I / Recloser Type V) 51P Pickup Amps (Ref. Tap Setting Tables) 51P (ANSI): Time Dial 51P (IEC): Time Multiplier 51P (Recloser): Time Multiplier 51P (Def. Time): Time Delay (Seconds) 51P Minimum Response (Seconds) 51P Time-Curve Adder (Seconds) 50P-1 Curve Select (ANSI Type III) 50P-1 Curve Select (IEC Type III) 50P-1 Curve Select (Recloser Type VI) 50P-1 Pickup Multiplier 50P-1 (ANSI): Time Dial 50P-1 (IEC): Time Multiplier 50P-1 (Recloser): Time Multiplier 50P-1 (Def. Time): Time Delay (Seconds) 50P-1 Minimum Response (Seconds) 50P-1 Time-Curve Adder (Seconds) 50P-1 Curve Block Pickup (x 51P Pickup) 50P-2 Select (0=Disable, 1=Enable) 50P-2 Pickup Multiplier (Seconds) 50P-2 Time Delay (Seconds) 50P-2 Curve Block Pickup (x 51P Pickup) 50P-3 Select (0=Disable, 1=Enable) 50P-3 Pickup Multiplier 50P-3 Time Delay (Seconds) 46 Curve Select (ANSI Type II) 46 Curve Select (IEC Type II) 46 Curve Select (Recloser Type VI) 46 Pickup Amps 46 (ANSI): Time Dial 46 (IEC): Time Multiplier 46 (Recloser): Time Multiplier 46 (Def. Time): Time Delay (Seconds) 46 Minimum Response Time (Seconds) 46 Time-Curve Adder (Seconds) 51N Curve Select (ANSI Type II) 51N Curve Select (IEC Type II) 51N Curve Select (Recloser Type VI) 51N Pickup Amps 51N (ANSI): Time Dial 51N (IEC): Time Multiplier 51N (Recloser): Time Multiplier 51N (Def. Time): Time Delay (Seconds) 51N Minimum Response (Seconds) 51N Time-Curve Adder (Seconds) 64482 64483 64484 64485 64486 64487 64488 64489 64490 64491 64492 64493 64494 64495 64496 64497 64498 64499 64500 64501 64502 64503 64504 64505 64506 64507 64508 64509 64510 64511 64512 64513 64514 DISPLAY 1 RANGE 0, 1, 2 DATA 2 RANGE STEP 3 SIZE DISABLE DATA 0, 1, 2 DATA SCALE x1 PROD. ALL ALL ALL ALL ALL ALL ALL PCD Ref. Table 6.1.8.5 Ref. Tables 6.1.8.1, 6.1.8.2, & 6.1.8.3.1 0.50 - 10.0 0.05 - 1.00 0.10 - 2.00 0.0 - 10.0 0.00 - 2.00 0.00 - 2.00 0.5 - 20.0 1.0 - 10.0 0.05 - 1.00 0.10 - 2.00 0.0 - 9.99 0.00 - 2.00 0.00 - 2.00 1.0 - 20.0 0-1 0.5 - 20.0 0.00 - 9.99 1.0 - 20.0 0, 1 0.5 - 20.0 0.00 - 9.99 0.50 - 10.0 0.05 - 1.00 0.10 - 2.00 0.0 - 10.0 0.00 - 2.00 0.00 - 2.00 0.50 - 10.0 0.05 - 1.00 0.10 - 2.00 0.0 - 10.0 0.00 - 2.00 0.00 - 2.00 157 Ref. Table 6.1.8.4 10 - 200 1 10 - 200 10 10 - 200 1 0 - 200 2 0 - 200 1 0 - 200 1 Ref. Table 6.1.8.1 Ref. Table 6.1.8.2 Ref. Table 6.1.8.3.2 5 - 200 1 10 - 200 1 10 - 200 10 10 - 200 1 0 - 999 1 0 - 200 1 0 - 200 1 10 - 200 1 0-1 1 5 - 200 1 0 - 999 1 10 - 200 1 0, 1 1 5 - 200 1 0 - 999 1 Ref. Table 6.1.8.1 Ref. Table 6.1.8.2 Ref. Table 6.1.8.3.2 Ref. Table 6.1.8.4 10 - 200 1 10 - 200 10 10 - 200 1 0 - 200 2 0 - 200 1 0 - 200 1 Ref. Table 6.1.8.1 Ref. Table 6.1.8.2 Ref. Table 6.1.8.3.2 Ref. Table 6.1.8.4 10 - 200 1 10 - 200 10 10 - 200 1 0 - 200 2 0 - 200 1 0 - 200 1 x 0.05 x 0.005 x 0.01 x 0.05 x 0.01 x 0.01 201 0 201 0 x 0.1 x 0.05 x 0.005 x 0.01 x 0.01 x 0.01 x 0.01 x 0.1 x1 x 0.1 x 0.01 x 0.1 x1 x 0.1 x 0.01 x 0.05 x 0.005 x 0.10 x 0.05 x 0.01 x 0.01 x 0.05 x 0.005 x 0.01 x 0.05 x 0.01 x 0.01 PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD MODBUS® Protocol Implementation Details ABB Inc. REG DEFINTION 64515 50N-1 Curve Select (ANSI Type III) 50N-1 Curve Select (IEC Type III) 50N-1 Curve Select (Recloser Type VI) 50N-1 Pickup Multiplier 50N-1 (ANSI): Time Dial 50N-1 (IEC): Time Multiplier 50N-1 (Recloser): Time Multiplier 50N-1 (Def. Time): Time Delay (Seconds) 50N-1 Minimum Response (Seconds) 50N-1 Time-Curve Adder (Seconds) 50N-1 Curve Block Pickup (x 51N Pickup) 50N-2 Select (STD): 0=Disable, 1=Enable 50N-2 Select (SEF): 0=Disable, 1=Standard, 2=SEF, 3=Directional SEF 50N-2 Pickup Multiplier (Non-SEF) 50N-2 (STD) Time Delay (Seconds) 50N-2 (SEF) Time Delay (Seconds) 50N-2 (SEF) Torque Angle (Degrees) 50N-2 (SEF) Pickup: 600:1 Type (Pri. Amps) 50N-2 (SEF) Pickup: 1000:1 Type (Pri. Amps) 50N-2 (SEF) Pickup: Feeder Type (Sec. MilliAmps) 50N-3 Curve Block Pickup (x 51N Pickup) 50N-3 Select (0=Disable, 1=Enable) 50N-3 Pickup Multiplier 50N-3 Time Delay (Seconds) 67P Select (0=Disable, 1=Enable) 67P Curve Select (ANSI Type I) 67P Curve Select (IEC Type I) 67P Curve Select (Recloser Type V) 67P Pickup Amps 67P (ANSI): Time Dial 67P (IEC): Time Multiplier 67P (Recloser): Time Multiplier 67P (Def. Time): Time Delay 67P Torque Angle (Degrees) 67P Minimum response Time (Seconds) 67P Time-Curve Adder (Seconds) 67N Select (STD) (0=Disable, 1=Enable) 67N Select (SEF) (0=Disable, 1=Enable-Zero Sequence, 3=Enable-Neg. Seq.) 67N Curve Select (ANSI Type I) 67N Curve Select (IEC Type I) 67N Curve Select (Recloser Type V) 67N Pickup Amps 67N (ANSI): Time Dial 67N (IEC): Time Multiplier 67N (Recloser): Time Multiplier 67N (Def. Time): Time Delay 67N Torque Angle (Degrees) 67N Minimum response Time (Seconds) 67N Time-Curve Adder (Seconds) 81 Select byte (0=Disable, 1=81-1, 2=81-2) 81S-1 (50 Hz) Pickup Frequency (Hertz) 81S-1 (60 Hz) Pickup Frequency (Hertz) 81S-1 Time Delay (0.08 - 9.98 Seconds, *100) 81S-2 (50 Hz) Pickup Frequency (Hertz) 81S-2 (60 Hz) Pickup Frequency (Hertz) 81S-2 Time Delay (0.08 - 9.98 Seconds, *100) 64516 64517 64518 64519 64520 64521 64522 64523 64524 64525 64526 64527 64528 64529 64530 64531 64532 64533 64534 64535 64536 64537 64538 64539 64540 64541 64542 64543 64544 64545 64546 64547 64548 DISPLAY 1 RANGE 0.5 - 20.0 0.5 - 10.0 0.05 - 1.00 0.10 - 2.00 0.0 - 9.99 0.00 - 2.00 0.00 - 2.00 1.0 - 20.0 0, 1 0, 1, 2, 3 DATA STEP DISABLE 2 3 RANGE SIZE DATA Ref. Tables 6.1.8.1 Ref. Tables 6.1.8.2 Ref. Tables 6.1.8.3.2 5 - 200 1 10 - 100 1 10 - 100 10 10 - 200 1 0 - 999 1 0 - 200 1 0 - 200 1 10 - 200 1 201 0, 1 1 0 0, 1, 2, 3 1 0 0.5 - 20.0 0.00 - 9.99 0.50 - 180.0 0 - 355 3.0 - 200.0 5.0 - 200.0 5 - 200 0 - 999 50 - 18000 0 - 71 6 - 400 10 - 400 5.0 - 200.0 10 - 400 1.0 - 20.0 0, 1 0.5 - 20.0 0.00 - 9.99 0, 1 0.50 - 10.0 0.05 - 1.00 0.10 - 2.00 0.0 - 10.0 0 - 355 0.00 - 2.00 0.00 - 2.00 0, 1 0, 1, 3 10 - 200 1 0, 1 1 5 - 200 1 0 - 999 1 0, 1 1 Ref. Table 6.1.8.1 Ref. Table 6.1.8.2 Ref. Table 6.1.8.3.1 Ref. Table 6.1.8.4 10 - 200 1 10 - 200 10 10 - 200 1 0 - 200 2 0 - 71 1 0 - 200 1 0 - 200 1 0, 1 1 0, 1, 3 1 0.50 - 10.0 0.05 - 1.00 0.10 - 2.00 0.0 - 10.0 0 - 355 0.00 - 2.00 0.00 - 2.00 0-2 46.00 - 54.00 56.00 - 64.00 0.08 - 9.98 Ref. Table 6.1.8.1 Ref. Table 6.1.8.2 Ref. Table 6.1.8.3.1 Ref. Table 6.1.8.4 10 - 200 1 10 - 200 10 10 - 200 1 0 - 200 2 0 - 71 1 0 - 200 1 0 - 200 1 0-2 1 4600 - 5400 1 5600 - 6400 1 8 - 998 2 46.00 - 54.00 56.00 - 64.00 0.08 - 9.98 4600 - 5400 5600 - 6400 8 - 998 158 DATA SCALE PROD. x 0.1 x 0.05 x 0.005 x 0.01 x 0.01 x 0.01 x 0.01 x 0.1 x1 x1 PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD 1 1 10 1 1 1 x 0.1 x 0.01 x 0.01 x5 x 0.5 x 0.5 PCD PCD PCD PCD PCD PCD 1 x 0.5 PCD 0 x 0.1 x1 x 0.1 x 0.01 x1 0 0 x 0.05 x 0.005 x 0.01 x 0.05 x5 x 0.01 x 0.01 x1 x1 PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD x 0.05 x 0.005 x 0.01 x 0.05 x5 x 0.01 x 0.01 x1 x 0.01 x 0.01 x 0.01 PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD PCD ALL ALL ALL ALL x 0.01 x 0.01 x 0.01 ALL ALL ALL 1 1 2 201 0 0 5401 6401 5401 6401 PCD MODBUS® Protocol Implementation Details ABB Inc. REG DEFINTION 64549 81R-1 (50 Hz) Pickup Frequency (Hertz) 81R-1 (60 Hz) Pickup Frequency (Hertz) 81R-1 Time Delay (0 - 999 Seconds) 81R-2 (50 Hz) Pickup Frequency (Hertz) 81R-2 (60 Hz) Pickup Frequency (Hertz) 81R-2 Time Delay (Seconds) 81V Voltage Block (Secondary Volts) 27 Select (0=Disable, 1=Enable) 27 Pickup Voltage (Volts) 27 Time Delay (Seconds) 59 Select (0=Disable, 1=Enable) 59 Pickup Voltage (Secondary Volts) 59 Time Delay (Seconds) 32P Select (0=Disable, 1=Enable) 32P Torque Angle (Degrees5) 32N Select (0=Disable, 1=Enable) 32N Torque Angle (Degrees5) Cold Load Time (Seconds / Minutes) Neutral Cold Load (SEF Only) (Seconds / Minutes) 2 Phase Voting (0=Disable, 1=Enable) 64550 64551 64552 64553 64554 64555 64556 64557 64558 64559 64560 64561 64562 64563 64564 64565 64566 Notes: DISPLAY 1 RANGE 46.00 - 54.00 56.00 - 64.00 0 - 999 46.00 - 54.00 56.00 - 64.00 0 - 999 40 - 200 0-1 10 - 200 0 - 60 0-1 70 - 250 0 - 60 0-1 0 - 355 0-1 0 - 355 0 - 254 0 - 254 DATA 2 RANGE 4600 - 5400 5600 - 6400 0 - 999 4600 - 5400 5600 - 6400 0 - 999 40 - 200 0-1 10 - 200 0 - 60 0-1 70 - 250 0 - 60 0-1 0 - 71 0-1 0 - 71 0 - 254 0 - 254 0-1 0-1 1 STEP 3 SIZE 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 DISABLE DATA 5401 6401 PROD. 255 255 DATA SCALE x 0.01 x 0.01 x1 x 0.01 x 0.01 x1 x1 x1 x1 x1 x1 x1 x1 x1 x5 x1 x5 x1 x1 1 0 x1 PCD 5401 6401 0 0 0 0 Display Range is the range of parameter values as displayed by all MMI processes. Data Range is the numeric value passed over the Modbus protocol. 3 Step Size is the incremental value by which values may change within the Data Range. 2 159 ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL ALL PCD PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.29 Recloser Settings (PCD Revision V2.00 and above) Note: This is essentially a continuation of the Protection settings point list (see 6.1.29 above). The execution and password registers used for this block are the same as used for Protection settings (64481 through 64483). REGISTER 64608 64609 64610 64611 64612 64613 64614 64615 64616 64617 64618 64619 64620 64621 64622 64623 64624 64625 64626 64627 64628 DEFINITION Single Phase Tripping Mode 0 = Single Phase Tripping Disabled 1 = Only Picked Up Phases 2 = One Or All Phases Reserved 79 Reset Time: 3 - 200 Seconds, *1 79-1 Mode Select (see table below for bit definitions) Bits 0 – 3: 51P Bits 8 - 11: 50P-2 Bits 4 – 7: 50P-1 Bits 12 - 15: 50P-3 79-1 Mode Select (see table below for bit definitions) Bits 0 – 3: 51N Bits 8 - 11: 50N-2 Bits 4 – 7: 50N-1 Bits 12 - 15: 50N-3 79-1 Mode Select (see table below for bit definitions) Bits 0 – 3: 46 Bits 8 - 11: 67N Bits 4 – 7: 67P Bits 12 - 15: Spare 79-1 Mode Select (see table below for bit definitions) Bits 0 – 3: Spare Bits 8 - 11: Spare Bits 4 – 7: Spare Bits 12 - 15: Spare 79-1 Mode Select (see table below for bit definitions) Bits 0 – 3: Spare Bits 8 - 11: Spare Bits 4 – 7: Spare Bits 12 - 15: Spare 79-1 Open Interval Time STD: 0.1 – 200.0 Seconds, *10, 2001 = Lockout SEF: 0.1 – 1800.0 Seconds, *10, 18001 = Lockout 79-2 Mode Select (see table below for bit definitions) Bits 0 – 3: 51P Bits 8 - 11: 50P-2 Bits 4 – 7: 50P-1 Bits 12 - 15: 50P-3 79-2 Mode Select (see table below for bit definitions) Bits 0 – 3: 51N Bits 8 - 11: 50N-2 Bits 4 – 7: 50N-1 Bits 12 - 15: 50N-3 79-2 Mode Select (see table below for bit definitions) Bits 0 – 3: 46 Bits 8 - 11: 67N Bits 4 – 7: 67P Bits 12 - 15: Spare 79-2 Mode Select (see table below for bit definitions) Bits 0 – 3: Spare Bits 8 - 11: Spare Bits 4 – 7: Spare Bits 12 - 15: Spare 79-2 Mode Select (see table below for bit definitions) Bits 0 – 3: Spare Bits 8 - 11: Spare Bits 4 – 7: Spare Bits 12 - 15: Spare 79-2 Open Interval Time STD: 0.1 – 200.0 Seconds, *10, 2001 = Lockout SEF: 0.1 – 1800.0 Seconds, *10, 18001 = Lockout 79-3 Mode Select (see table below for bit definitions) Bits 0 – 3: 51P Bits 8 - 11: 50P-2 Bits 4 – 7: 50P-1 Bits 12 - 15: 50P-3 79-3 Mode Select (see table below for bit definitions) Bits 0 – 3: 51N Bits 8 - 11: 50N-2 Bits 4 – 7: 50N-1 Bits 12 - 15: 50N-3 79-3 Mode Select (see table below for bit definitions) Bits 0 – 3: 46 Bits 8 - 11: 67N Bits 4 – 7: 67P Bits 12 - 15: Spare 79-3 Mode Select (see table below for bit definitions) Bits 0 – 3: Spare Bits 8 - 11: Spare Bits 4 – 7: Spare Bits 12 - 15: Spare 79-3 Mode Select (see table below for bit definitions) Bits 0 – 3: Spare Bits 8 - 11: Spare Bits 4 – 7: Spare Bits 12 - 15: Spare 79-3 Open Interval Time STD: 0.1 – 200.0 Seconds, *10, 2001 = Lockout 160 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION SEF: 0.1 – 1800.0 Seconds, *10, 18001 = Lockout 79-4 Mode Select (see table below for bit definitions) Bits 0 – 3: 51P Bits 8 - 11: 50P-2 Bits 4 – 7: 50P-1 Bits 12 - 15: 50P-3 79-4 Mode Select (see table below for bit definitions) Bits 0 – 3: 51N Bits 8 - 11: 50N-2 Bits 4 – 7: 50N-1 Bits 12 - 15: 50N-3 79-4 Mode Select (see table below for bit definitions) Bits 0 – 3: 46 Bits 8 - 11: 67N Bits 4 – 7: 67P Bits 12 - 15: Spare 79-4 Mode Select (see table below for bit definitions) Bits 0 – 3: Spare Bits 8 - 11: Spare Bits 4 – 7: Spare Bits 12 - 15: Spare 79-4 Mode Select (see table below for bit definitions) Bits 0 – 3: Spare Bits 8 - 11: Spare Bits 4 – 7: Spare Bits 12 - 15: Spare 79-4 Open Interval Time STD: 0.1 – 200.0 Seconds, *10, 2001 = Lockout SEF: 0.1 – 1800.0 Seconds, *10, 18001 = Lockout 79-5 Mode Select (see table below for bit definitions) Bits 0 – 3: 51P Bits 8 - 11: 50P-2 Bits 4 – 7: 50P-1 Bits 12 - 15: 50P-3 79-5 Mode Select (see table below for bit definitions) Bits 0 – 3: 51N Bits 8 - 11: 50N-2 Bits 4 – 7: 50N-1 Bits 12 - 15: 50N-3 79-5 Mode Select (see table below for bit definitions) Bits 0 – 3: 46 Bits 8 - 11: 67N Bits 4 – 7: 67P Bits 12 - 15: Spare 79-5 Mode Select (see table below for bit definitions) Bits 0 – 3: Spare Bits 8 - 11: Spare Bits 4 – 7: Spare Bits 12 - 15: Spare 79-5 Mode Select (see table below for bit definitions) Bits 0 – 3: Spare Bits 8 - 11: Spare Bits 4 – 7: Spare Bits 12 - 15: Spare 79-5 Open Interval Time (Always Lockout) 79 Cutout Time (1 – 201, 201=DisaBle) 79V Select (0=Disable, 1=Enable) 79V Pickup (10-200 Secondary Volts) 79V Time Delay (4 – 200 Seconds) 79C Enable (0 = Disable, 1 = Enable) 79C Reset Timer (3 – 200 seconds. 201 = Disable) 64629 64630 64631 64632 64633 64634 64635 64636 64637 64638 64639 64640 64641 64642 64643 64644 64645 64646 Table of the bit definitions for above. Bit Definition 0 Element Enable 1 Lockout 2 Mode 3 Alarm Enable Selection 0 = Disabled 1 = Enabled 0 = No 1 = Yes 0 = Single Phase 1 = Three Phase 0 = No 1 = Alarm Only 161 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.30 Fault Indicator / Sectionalizer Settings (SCD only.) Note: This is essentially a continuation of the Protection settings point list (see 6.1.28 above). The execution and password registers used for this block are the same as used for Protection settings (64481 through 64483). REGISTER DEFINITION 64736 Fault Indicator Mode Select 1 : Phase Current Only 2 : Phase and Neutral Current 3 : Phase Current with Voltage 4 : Phase and Neutral Current with Voltage Neutral Mode Control 0 : Standard Neutral only 1 : Sensitive Earth only 2 : Standard and Sensitive Earth Phase Fault Indicator Pickup Level Phase Fault Indicator Drop Level Phase Fault Indicator Directional Element Enable (0=Disable, 1=Enable) Phase Fault Indicator Directional Element Torque Angle Neutral Fault Indicator Pickup Level Neutral Fault Indicator Drop Level Neutral Fault Indicator Directional Element Enable (0=Disable, 1=Enable) Neutral Fault Indicator Directional Element Torque Angle SE Fault Indicator Pickup Level SE Fault Indicator Drop Level (per unit) SE Fault Indicator Directional Element Enable (0=Disable, 1=Enable) SE Fault Indicator Directional Element Torque Angle Fault Indicator Pickup Delay (Seconds) Sectionalizer Switch Open Delay (Seconds) Sectionalizer Steps to Switch Open Sectionalizer Reset Time (Seconds) 64737 64738 64739 64740 64741 64742 64743 64744 64745 64746 64747 64748 64749 64750 64751 64752 64753 64754 64755 64756 64757 64758 64759 64760 64761 64762 DISPLAY RANGE Source Transfer Mode 0 : Disabled 1 : Primary to Secondary Enabled 2 : Secondary to Primary Enabled 3 : Bidirectional Transfer Enabled Switch Assignment 0 : Primary is Switch 1, Secondary is Switch 2 1 : Secondary is Switch 1, Primary is Switch 2 Voltage Inputs Assignments 0 : Va, Vb → Primary, Vc → Secondary 1 : Va, Vc → Primary, Vb → Secondary 2 : Va → Primary, Vb, Vc → Secondary 3 : Vb, Vc → Primary, Va → Secondary 4 : Vb → Primary, Va, Vc → Secondary 5 : Vc → Primary, Va, Vb → Secondary Dead Bus Voltage (per unit) Dead Bus Voltage (per unit) Current Block (per unit) Initiate Time Delay (Seconds) Transfer Time Delay (Seconds) Volt drop (percent) 162 DATA RANGE 1-4 0-2 2 - 50% STEP SIZE 1 DATA SCALE x1 1 x1 Ref. Table 6.1.8.4 2 - 50 1 0-1 1 x1 x1 0 - 355° 0 - 71 1 x5 2 - 50% Ref. 6.1.8.4 2 - 50 1 0, 1 1 x1 x1 0 - 355° 0 - 71 x5 10 - 50% 0 - 355° 0.03 - 10.0 0.01 - 2.00 3.0 - 200.0 0.05 - 0.25 0.50 - 1.00 0.05 - 2.00 0.05 - 9.99 0.01 - 9.99 10 - 80 1 Ref. Table 6.1.8.4 10 - 50 1 0, 1 1 x1 x1 0 - 71 1 x5 3 - 1000 1 - 200 1-4 30 2000 0-3 1 1 1 1 x 0.01 x 0.01 x1 x 0.1 1 x1 0-1 1 x1 0-5 1 x1 5 - 25 50 - 100 5 - 200 5 - 999 1 - 999 10 - 80 1 1 1 1 1 1 x 0.01 x 0.01 x 0.01 x 0.01 x 0.01 x1 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.31 Loop Control Module Settings. REGISTER 64864 TYPE SCALE RANGE 64865 Unsigned short Execute 64866 High byte Low byte Password character 1 Password character 2 64867 High byte Low byte Password character 3 Password character 4 64868 Unsigned short 64869 Unsigned short 1 0–3 64870 Unsigned short 1 0–1 64871 Unsigned short 1 0–1 Line Side Voltage Source. 0 = S2, 1 = S1 Spare Operation Mode. 0 = Disabled, 1 = Sectionalizing, 2 = Midpoint, 3 = Tiepoint Alt1 Select. 0 = Disabled, 1 = Enabled. (64869 = Midpoint or Tiepoint only) 0 – 125 SWOTF time (64869 = Midpoint only) 64872 64873 DESCRIPTION Spare Reserved for future use. Unsigned short 1 64874 Unsigned short 1 1–3 Number of Line Voltage Transformers 64875 Unsigned short 1 0–3 Number of Load Voltage Transformers 64876 Unsigned short 1 0–1 Line Voltage Transformer. 0 = Disabled, 1 = Enabled. 64877 Unsigned short 1 0–1 64878 Unsigned short 1 Load Voltage Transformer. 0 = Disabled, 1 = Enabled. (Only if 64875 ≠ 0) 2 0 – 2 Single-Phase Line Voltage Transformer . (Only if 64874 = 1) 64879 Unsigned short 1 0–2 64880 Unsigned short 1 0 – 115 Deadbus Voltage 64881 Unsigned short 1 5 – 120 Livebus Voltage (>= Deadbus Voltage(64880) + 5) 64882 Unsigned short 1 1 – 511 Deadbus time 64883 Unsigned short 1 1 – 511 Livebus time 64884 Unsigned short 1 64885 Unsigned short 1 0 - 510 Voltage Regain Time (< Deadbus time(64882)) and Voltage Regain Time (< Livebus time(64883)) 0 - 1 Reset on power up. 0 = No, 1 = Yes (Only used when 64869 = 1 or 2) 64886 Unsigned short 1 0-1 64887 Unsigned short 1 0-1 1 1 2 Single-Phase Load Voltage Transformer . (Only if 64875 = 1) Sectionalizing mode in 3 phase setting. 0 = Any phase, 1 = All 3 phases (Only if 64869 = 1) Sectionalizer reset enable. 0 = Disabled, 1 = Enabled (Only if 64869 = 1) Notes: 1. The number of line / load voltage transformers must conform to the following table VT LINE/LOAD → MODE ↓ Sectionalizer Mid-point Tie-point 1/0 1/1 1/2 1/3 2/0 2/1 2/2 x x x x x x x x x x x x x x x 2/3 3/0 3/1 X X X X 3/2 3/3 0 = None, 1 = 1 phase line to neutral, 2 = 2 Open delta, 3 = 3 phase wye-connected 2. 0= Phase A, 1= Phase B, 2= Phase C. 163 x x x PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.32 DNP Binary Inputs Assignable Class Settings (PCD Rev. 2.40 and above) The DNP Assignable Classes feature allows the user to make class assignments to the binary input points. By default, all binary input points are assigned CLASS 1. If a class 1 event poll is performed all binary input points that have changed state since the last event poll will be reported. The class assignment for a given binary input point can be changed to CLASS 2, 3 or NO CLASS by setting the appropriate value in the associated modbus register. For example, to change the class assignment of DNP binary input point 6 to CLASS 2, modify register 64998 to set bits 7-4 to 0010(binary). Refer to the "DNP 3.0 Implementation for the ABB PCD" document for a description of the DNP points listed below. REGISTER DEFINITION 64992 Spare 64993 Execute 64994 High byte Low byte Password character 1 Password character 2 64995 High byte Low byte Password character 3 Password character 4 64996 Spare 64997 DNP binary assigned class register 0 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 0 Bits 11 - 8: DNP binary input point 1 Bits 7 - 4: DNP binary input point 2 Bits 3 - 0: DNP binary input point 3 64998 DNP binary assigned class register 1 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 4 Bits 11 - 8: DNP binary input point 5 Bits 7 - 4: DNP binary input point 6 Bits 3 - 0: DNP binary input point 7 64999 DNP binary assigned class register 2 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 8 Bits 11 - 8: DNP binary input point 9 Bits 7 - 4: DNP binary input point 10 Bits 3 - 0: DNP binary input point 11 65000 DNP binary assigned class register 3 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 12 Bits 11 - 8: DNP binary input point 13 Bits 7 - 4: DNP binary input point 14 Bits 3 - 0: DNP binary input point 15 65001 DNP binary assigned class register 4 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 16 Bits 11 - 8: DNP binary input point 17 Bits 7 - 4: DNP binary input point 18 Bits 3 - 0: DNP binary input point 19 65002 DNP binary assigned class register 5 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 20 Bits 11 - 8: DNP binary input point 21 Bits 7 - 4: DNP binary input point 22 Bits 3 - 0: DNP binary input point 23 65003 DNP binary assigned class register 6 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 24 Bits 11 - 8: DNP binary input point 25 Bits 7 - 4: DNP binary input point 26 Bits 3 - 0: DNP binary input point 27 65004 DNP binary assigned class register 7 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 28 Bits 11 - 8: DNP binary input point 29 Bits 7 - 4: DNP binary input point 30 Bits 3 - 0: DNP binary input point 31 65005 DNP binary assigned class register 8 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 32 Bits 11 - 8: DNP binary input point 33 Bits 7 - 4: DNP binary input point 34 Bits 3 - 0: DNP binary input point 35 65006 DNP binary assigned class register 9 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 36 Bits 11 - 8: DNP binary input point 37 Bits 7 - 4: DNP binary input point 38 Bits 3 - 0: DNP binary input point 39 65007 DNP binary assigned class register 10 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 40 Bits 11 - 8: DNP binary input point 41 Bits 7 - 4: DNP binary input point 42 Bits 3 - 0: DNP binary input point 43 164 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65008 DNP binary assigned class register 11 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 44 Bits 11 - 8: DNP binary input point 45 Bits 7 - 4: DNP binary input point 46 Bits 3 - 0: DNP binary input point 47 65009 DNP binary assigned class register 12 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 48 Bits 11 - 8: DNP binary input point 49 Bits 7 - 4: DNP binary input point 50 Bits 3 - 0: DNP binary input point 51 65010 DNP binary assigned class register 13 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 52 Bits 11 - 8: DNP binary input point 53 Bits 7 - 4: DNP binary input point 54 Bits 3 - 0: DNP binary input point 55 65011 DNP binary assigned class register 14 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 56 Bits 11 - 8: DNP binary input point 57 Bits 7 - 4: DNP binary input point 58 Bits 3 - 0: DNP binary input point 59 65012 DNP binary assigned class register 15 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 60 Bits 11 - 8: DNP binary input point 61 Bits 7 - 4: DNP binary input point 62 Bits 3 - 0: DNP binary input point 63 65013 DNP binary assigned class register 16 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 64 Bits 11 - 8: DNP binary input point 65 Bits 7 - 4: DNP binary input point 66 Bits 3 - 0: DNP binary input point 67 65014 DNP binary assigned class register 17 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 68 Bits 11 - 8: DNP binary input point 69 Bits 7 - 4: DNP binary input point 70 Bits 3 - 0: DNP binary input point 71 65015 DNP binary assigned class register 18 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 72 Bits 11 - 8: DNP binary input point 73 Bits 7 - 4: DNP binary input point 74 Bits 3 - 0: DNP binary input point 75 65016 DNP binary assigned class register 19 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 76 Bits 11 - 8: DNP binary input point 77 Bits 7 - 4: DNP binary input point 78 Bits 3 - 0: DNP binary input point 79 65017 DNP binary assigned class register 20 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 80 Bits 11 - 8: DNP binary input point 81 Bits 7 - 4: DNP binary input point 82 Bits 3 - 0: DNP binary input point 83 65018 DNP binary assigned class register 21 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 84 Bits 11 - 8: DNP binary input point 85 Bits 7 - 4: DNP binary input point 86 Bits 3 - 0: DNP binary input point 87 65019 DNP binary assigned class register 22 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 88 Bits 11 - 8: DNP binary input point 89 Bits 7 - 4: DNP binary input point 90 Bits 3 - 0: DNP binary input point 91 65020 DNP binary assigned class register 23 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 92 Bits 11 - 8: DNP binary input point 93 Bits 7 - 4: DNP binary input point 94 Bits 3 - 0: DNP binary input point 95 65021 DNP binary assigned class register 24 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 96 Bits 11 - 8: DNP binary input point 97 Bits 7 - 4: DNP binary input point 98 Bits 3 - 0: DNP binary input point 99 65022 DNP binary assigned class register 25 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 100 Bits 11 - 8: DNP binary input point 101 Bits 7 - 4: DNP binary input point 102 Bits 3 - 0: DNP binary input point 103 65023 DNP binary assigned class register26 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 104 Bits 11 - 8: DNP binary input point 105 Bits 7 - 4: DNP binary input point 106 Bits 3 - 0: DNP binary input point 107 65024 DNP binary assigned class register27 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 108 Bits 11 - 8: DNP binary input point 109 Bits 7 - 4: DNP binary input point 110 Bits 3 - 0: DNP binary input point 111 65025 DNP binary assigned class register 28 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 112 Bits 11 - 8: DNP binary input point 113 Bits 7 - 4: DNP binary input point 114 Bits 3 - 0: DNP binary input point 115 165 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65026 DNP binary assigned class register 29 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 116 Bits 11 - 8: DNP binary input point 117 Bits 7 - 4: DNP binary input point 118 Bits 3 - 0: DNP binary input point 119 65027 DNP binary assigned class register 30 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 120 Bits 11 - 8: DNP binary input point 121 Bits 7 - 4: DNP binary input point 122 Bits 3 - 0: DNP binary input point 123 65028 DNP binary assigned class register 31 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 124 Bits 11 - 8: DNP binary input point 125 Bits 7 - 4: DNP binary input point 126 Bits 3 - 0: DNP binary input point 127 65029 DNP binary assigned class register 32 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 128 Bits 11 - 8: DNP binary input point 129 Bits 7 - 4: DNP binary input point 130 Bits 3 - 0: DNP binary input point 131 65030 DNP binary assigned class register 33 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 132 Bits 11 - 8: DNP binary input point 133 Bits 7 - 4: DNP binary input point 134 Bits 3 - 0: DNP binary input point 135 65031 DNP binary assigned class register 34 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 136 Bits 11 - 8: DNP binary input point 137 Bits 7 - 4: DNP binary input point 138 Bits 3 - 0: DNP binary input point 139 65032 DNP binary assigned class register 35 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 140 Bits 11 - 8: DNP binary input point 141 Bits 7 - 4: DNP binary input point 142 Bits 3 - 0: DNP binary input point 143 65033 DNP binary assigned class register 36 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 144 Bits 11 - 8: DNP binary input point 145 Bits 7 - 4: DNP binary input point 146 Bits 3 - 0: DNP binary input point 147 65034 DNP binary assigned class register 37 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 148 Bits 11 - 8: DNP binary input point 149 Bits 7 - 4: DNP binary input point 150 Bits 3 - 0: DNP binary input point 151 65035 DNP binary assigned class register 38 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 152 Bits 11 - 8: DNP binary input point 153 Bits 7 - 4: DNP binary input point 154 Bits 3 - 0: DNP binary input point 155 65036 DNP binary assigned class register 39 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 156 Bits 11 - 8: DNP binary input point 157 Bits 7 - 4: DNP binary input point 158 Bits 3 - 0: DNP binary input point 159 65037 DNP binary assigned class register 40 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 160 Bits 11 - 8: DNP binary input point 161 Bits 7 - 4: DNP binary input point 162 Bits 3 - 0: DNP binary input point 163 65038 DNP binary assigned class register 41 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 164 Bits 11 - 8: DNP binary input point 165 Bits 7 - 4: DNP binary input point 166 Bits 3 - 0: DNP binary input point 167 65039 DNP binary assigned class register 42 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 168 Bits 11 - 8: DNP binary input point 169 Bits 7 - 4: DNP binary input point 170 Bits 3 - 0: DNP binary input point 171 65040 DNP binary assigned class register 43 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 172 Bits 11 - 8: DNP binary input point 173 Bits 7 - 4: DNP binary input point 174 Bits 3 - 0: DNP binary input point 175 65041 DNP binary assigned class register 44 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 176 Bits 11 - 8: DNP binary input point 177 Bits 7 - 4: DNP binary input point 178 Bits 3 - 0: DNP binary input point 179 65042 DNP binary assigned class register 45 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 180 Bits 11 - 8: DNP binary input point 181 Bits 7 - 4: DNP binary input point 182 Bits 3 - 0: DNP binary input point 183 65043 DNP binary assigned class register 46(see table below for bit definitions) Bits 15 - 12: DNP binary input point 184 Bits 11 - 8: DNP binary input point 185 Bits 7 - 4: DNP binary input point 186 Bits 3 - 0: DNP binary input point 187 166 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65044 DNP binary assigned class register 47 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 188 Bits 11 - 8: DNP binary input point 189 Bits 7 - 4: DNP binary input point 190 Bits 3 - 0: DNP binary input point 191 65045 DNP binary assigned class register 48 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 192 Bits 11 - 8: DNP binary input point 193 Bits 7 - 4: DNP binary input point 194 Bits 3 - 0: DNP binary input point 195 65046 DNP binary assigned class register 49 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 196 Bits 11 - 8: DNP binary input point 197 Bits 7 - 4: DNP binary input point 198 Bits 3 - 0: DNP binary input point 199 65047 DNP binary assigned class register 50 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 200 Bits 11 - 8: DNP binary input point 201 Bits 7 - 4: DNP binary input point 202 Bits 3 - 0: DNP binary input point 203 65048 DNP binary assigned class register 51 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 204 Bits 11 - 8: DNP binary input point 205 Bits 7 - 4: DNP binary input point 206 Bits 3 - 0: DNP binary input point 207 65049 DNP binary assigned class register 52 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 208 Bits 11 - 8: DNP binary input point 209 Bits 7 - 4: DNP binary input point 210 Bits 3 - 0: DNP binary input point 211 65050 DNP binary assigned class register 53 (see table below for bit definitions) Bits 15 - 12: DNP binary input point 212 Bits 11 - 8: Spare Bits 7 - 4: Spare Bits 3 - 0: spare Table of the bit definitions for above. BITS 3-0 (OR 15-12, 11-8, 7-4) VALUE DEFINITION 0 (0000), 4(0100) - 15(1111) 1 (0001) 2 (0010) 3 (0011) No Class Class 1 Class 2 Class 3 167 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.33 DNP Analog Inputs Assignable Class Settings (PCD Rev. 2.40 and above) The DNP Assignable Classes feature allows the user to make class assignments to the analog input points. By default, all analog input points are assigned CLASS 2. If a class 2 event poll is performed all analog input points that have changed beyond the programmed threshold since the last event poll will be reported. The class assignment for a given analog input point can be changed to CLASS 1, 3 or NO CLASS by setting the appropriate value in the associated modbus register. For example, to change the class assignment of DNP analog input point 6 to CLASS 1, modify register 65126 to set bits 7-4 to 0001(binary). Refer to the "DNP 3.0 Implementation for the ABB PCD" document for a description of the DNP points listed below. REGISTER DEFINITION 65120 Spare 65121 Execute 65122 Password character 1 Password character 2 65123 Password character 3 Password character 4 65124 Spare 65125 DNP analog assigned class register 0 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 0 Bits 11 - 8: DNP analog input point 1 Bits 7 - 4: DNP analog input point 2 Bits 3 - 0: DNP analog input point 3 65126 DNP analog assigned class register 1 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 4 Bits 11 - 8: DNP analog input point 5 Bits 7 - 4: DNP analog input point 6 Bits 3 - 0: DNP analog input point 7 65127 DNP analog assigned class register 2 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 8 Bits 11 - 8: DNP analog input point 9 Bits 7 - 4: DNP analog input point 10 Bits 3 - 0: DNP analog input point 11 65128 DNP analog assigned class register 3 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 12 Bits 11 - 8: DNP analog input point 13 Bits 7 - 4: DNP analog input point 14 Bits 3 - 0: DNP analog input point 15 65129 DNP analog assigned class register 4 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 16 Bits 11 - 8: DNP analog input point 17 Bits 7 - 4: DNP analog input point 18 Bits 3 - 0: DNP analog input point 19 65130 DNP analog assigned class register 5 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 20 Bits 11 - 8: DNP analog input point 21 Bits 7 - 4: DNP analog input point 22 Bits 3 - 0: DNP analog input point 23 65131 DNP analog assigned class register 6 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 24 Bits 11 - 8: DNP analog input point 25 Bits 7 - 4: DNP analog input point 26 Bits 3 - 0: DNP analog input point 27 65132 DNP analog assigned class register 7 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 28 Bits 11 - 8: DNP analog input point 29 Bits 7 - 4: DNP analog input point 30 Bits 3 - 0: DNP analog input point 31 65133 DNP analog assigned class register 8 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 32 Bits 11 - 8: DNP analog input point 33 Bits 7 - 4: DNP analog input point 34 Bits 3 - 0: DNP analog input point 35 65134 DNP analog assigned class register 9 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 36 Bits 11 - 8: DNP analog input point 37 Bits 7 - 4: DNP analog input point 38 Bits 3 - 0: DNP analog input point 39 65135 DNP analog assigned class register 10 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 40 Bits 11 - 8: DNP analog input point 41 Bits 7 - 4: DNP analog input point 42 Bits 3 - 0: DNP analog input point 43 168 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65136 DNP analog assigned class register 11 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 44 Bits 11 - 8: DNP analog input point 45 Bits 7 - 4: DNP analog input point 46 Bits 3 - 0: DNP analog input point 47 65137 DNP analog assigned class register 12 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 48 Bits 11 - 8: DNP analog input point 49 Bits 7 - 4: DNP analog input point 50 Bits 3 - 0: DNP analog input point 51 65138 DNP analog assigned class register 13 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 52 Bits 11 - 8: DNP analog input point 53 Bits 7 - 4: DNP analog input point 54 Bits 3 - 0: DNP analog input point 55 65139 DNP analog assigned class register 14 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 56 Bits 11 - 8: DNP analog input point 57 Bits 7 - 4: DNP analog input point 58 Bits 3 - 0: DNP analog input point 59 65140 DNP analog assigned class register 15 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 60 Bits 11 - 8: DNP analog input point 61 Bits 7 - 4: DNP analog input point 62 Bits 3 - 0: DNP analog input point 63 65141 DNP analog assigned class register 16 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 64 Bits 11 - 8: DNP analog input point 65 Bits 7 - 4: DNP analog input point 66 Bits 3 - 0: DNP analog input point 67 65142 DNP analog assigned class register 17 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 68 Bits 11 - 8: DNP analog input point 69 Bits 7 - 4: DNP analog input point 70 Bits 3 - 0: DNP analog input point 71 65143 DNP analog assigned class register 18 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 72 Bits 11 - 8: DNP analog input point 73 Bits 7 - 4: DNP analog input point 74 Bits 3 - 0: DNP analog input point 75 65144 DNP analog assigned class register 19 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 76 Bits 11 - 8: DNP analog input point 77 Bits 7 - 4: DNP analog input point 78 Bits 3 - 0: DNP analog input point 79 65145 DNP analog assigned class register 20 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 80 Bits 11 - 8: DNP analog input point 81 Bits 7 - 4: DNP analog input point 82 Bits 3 - 0: DNP analog input point 83 65146 DNP analog assigned class register 21 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 84 Bits 11 - 8: DNP analog input point 85 Bits 7 - 4: DNP analog input point 86 Bits 3 - 0: DNP analog input point 87 65147 DNP analog assigned class register 22 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 88 Bits 11 - 8: DNP analog input point 89 Bits 7 - 4: DNP analog input point 90 Bits 3 - 0: DNP analog input point 91 65148 DNP analog assigned class register 23 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 92 Bits 11 - 8: DNP analog input point 93 Bits 7 - 4: DNP analog input point 94 Bits 3 - 0: DNP analog input point 95 65149 DNP analog assigned class register 24 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 96 Bits 11 - 8: DNP analog input point 97 Bits 7 - 4: DNP analog input point 98 Bits 3 - 0: DNP analog input point 99 65150 DNP analog assigned class register 25 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 100 Bits 11 - 8: DNP analog input point 101 Bits 7 - 4: DNP analog input point 102 Bits 3 - 0: DNP analog input point 103 65151 DNP analog assigned class register 26 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 104 Bits 11 - 8: DNP analog input point 105 Bits 7 - 4: DNP analog input point 106 Bits 3 - 0: DNP analog input point 107 65152 DNP analog assigned class register 27 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 108 Bits 11 - 8: DNP analog input point 109 Bits 7 - 4: DNP analog input point 110 Bits 3 - 0: DNP analog input point 111 65153 DNP analog assigned class register 28 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 112 Bits 11 - 8: DNP analog input point 113 Bits 7 - 4: DNP analog input point 114 Bits 3 - 0: DNP analog input point 115 169 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65154 DNP analog assigned class register 29 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 116 Bits 11 - 8: DNP analog input point 117 Bits 7 - 4: DNP analog input point 118 Bits 3 - 0: DNP analog input point 119 65155 DNP analog assigned class register 30 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 120 Bits 11 - 8: DNP analog input point 121 Bits 7 - 4: DNP analog input point 122 Bits 3 - 0: DNP analog input point 123 65156 DNP analog assigned class register 31 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 124 Bits 11 - 8: DNP analog input point 125 Bits 7 - 4: DNP analog input point 126 Bits 3 - 0: DNP analog input point 127 65157 DNP analog assigned class register 32 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 128 Bits 11 - 8: DNP analog input point 129 Bits 7 - 4: DNP analog input point 130 Bits 3 - 0: DNP analog input point 131 65158 DNP analog assigned class register 33 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 132 Bits 11 - 8: DNP analog input point 133 Bits 7 - 4: DNP analog input point 134 Bits 3 - 0: DNP analog input point 135 65159 DNP analog assigned class register 34 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 136 Bits 11 - 8: DNP analog input point 137 Bits 7 - 4: DNP analog input point 138 Bits 3 - 0: DNP analog input point 139 65160 DNP analog assigned class register 35 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 140 Bits 11 - 8: DNP analog input point 141 Bits 7 - 4: DNP analog input point 142 Bits 3 - 0: DNP analog input point 143 65161 DNP analog assigned class register 36 (see table below for bit definitions) Bits 15 - 12: DNP analog input point 144 Bits 11 - 8: DNP analog input point 145 Bits 7 - 4: DNP analog input point 146 Bits 3 - 0: spare Table of the bit definitions for above. BITS 3-0 (OR 15-12, 11-8, 7-4) VALUE DEFINITION 0 (0000), 4(0100) - 15(1111) No Class 1 (0001) Class 1 2 (0010) Class 2 3 (0011) Class 3 170 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.34 DNP Binary Inputs Assignable Point Index Settings The DNP Assignable Point indexes feature allows the user to reassign the point indexes of binary input points. By default, the point indexes are as shown in the "DNP3.0 Implementation for the ABB PCD" document. To change the point index of a given binary input point the appropriate modbus register has to be modified to the desired value. NOTE: The assigned point index may not exceed the maximum number of binary input points. For example, to change the point index of DNP binary input point 6 to 10, modify register 65256 to set bits 15-8 to 0001010(binary). Refer to the "DNP 3.0 Implementation for the ABB PCD" document for a description of the DNP points listed below. REGISTER DEFINITION 65248 Spare 65249 Execute 65250 Password character 1 Password character 2 65251 Password character 3 Password character 4 65252 Spare 65253 DNP binary assigned point index register 0 Bits 15 - 8: DNP binary input point 0 Bits 7 - 0: DNP binary input point 1 65254 DNP binary assigned point index register 1 Bits 15 - 8: DNP binary input point 2 Bits 7 - 0: DNP binary input point 3 65255 DNP binary assigned point index register 2 Bits 15 - 8: DNP binary input point 4 Bits 7 - 0: DNP binary input point 5 65256 DNP binary assigned point index register 3 Bits 15 - 8: DNP binary input point 6 Bits 7 - 0: DNP binary input point 7 65257 DNP binary assigned point index register 4 Bits 15 - 8: DNP binary input point 8 Bits 7 - 0: DNP binary input point 9 65258 DNP binary assigned point index register 5 Bits 15 - 8: DNP binary input point 10 Bits 7 - 0: DNP binary input point 11 65259 DNP binary assigned point index register 6 Bits 15 - 8: DNP binary input point 12 Bits 7 - 0: DNP binary input point 13 65260 DNP binary assigned point index register 7 Bits 15 - 8: DNP binary input point 14 Bits 7 - 0: DNP binary input point 15 65261 DNP binary assigned point index register 8 Bits 15 - 8: DNP binary input point 16 Bits 7 - 0: DNP binary input point 17 65262 DNP binary assigned point index register 9 Bits 15 - 8: DNP binary input point 18 Bits 7 - 0: DNP binary input point 19 65263 DNP binary assigned point index register 10 Bits 15 - 8: DNP binary input point 20 Bits 7 - 0: DNP binary input point 21 171 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65264 DNP binary assigned point index register 11 Bits 15 - 8: DNP binary input point 22 Bits 7 - 0: DNP binary input point 23 65265 DNP binary assigned point index register 12 Bits 15 - 8: DNP binary input point 24 Bits 7 - 0: DNP binary input point 25 65266 DNP binary assigned point index register 13 Bits 15 - 8: DNP binary input point 26 Bits 7 - 0: DNP binary input point 27 65267 DNP binary assigned point index register 14 Bits 15 - 8: DNP binary input point 28 Bits 7 - 0: DNP binary input point 29 65268 DNP binary assigned point index register 15 Bits 15 - 8: DNP binary input point 30 Bits 7 - 0: DNP binary input point 31 65269 DNP binary assigned point index register 16 Bits 15 - 8: DNP binary input point 32 Bits 7 - 0: DNP binary input point 33 65270 DNP binary assigned point index register 17 Bits 15 - 8: DNP binary input point 34 Bits 7 - 0: DNP binary input point 35 65271 DNP binary assigned point index register 18 Bits 15 - 8: DNP binary input point 36 Bits 7 - 0: DNP binary input point 37 65272 DNP binary assigned point index register 19 Bits 15 - 8: DNP binary input point 38 Bits 7 - 0: DNP binary input point 39 65273 DNP binary assigned point index register 20 Bits 15 - 8: DNP binary input point 40 Bits 7 - 0: DNP binary input point 41 65274 DNP binary assigned point index register 21 Bits 15 - 8: DNP binary input point 42 Bits 7 - 0: DNP binary input point 43 65275 DNP binary assigned point index register 22 Bits 15 - 8: DNP binary input point 44 Bits 7 - 0: DNP binary input point 45 65276 DNP binary assigned point index register 23 Bits 15 - 8: DNP binary input point 46 Bits 7 - 0: DNP binary input point 47 65277 DNP binary assigned point index register 24 Bits 15 - 8: DNP binary input point 48 Bits 7 - 0: DNP binary input point 49 65278 DNP binary assigned point index register 25 Bits 15 - 8: DNP binary input point 50 Bits 7 - 0: DNP binary input point 51 65279 DNP binary assigned point index register 26 Bits 15 - 8: DNP binary input point 52 Bits 7 - 0: DNP binary input point 53 65280 DNP binary assigned point index register 27 Bits 15 - 8: DNP binary input point 54 Bits 7 - 0: DNP binary input point 55 65281 DNP binary assigned point index register 28 Bits 15 - 8: DNP binary input point 56 Bits 7 - 0: DNP binary input point 57 172 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65282 DNP binary assigned point index register 29 Bits 15 - 8: DNP binary input point 58 Bits 7 - 0: DNP binary input point 59 65283 DNP binary assigned point index register 30 Bits 15 - 8: DNP binary input point 60 Bits 7 - 0: DNP binary input point 61 65284 DNP binary assigned point index register 31 Bits 15 - 8: DNP binary input point 62 Bits 7 - 0: DNP binary input point 63 65285 DNP binary assigned point index register 32 Bits 15 - 8: DNP binary input point 64 Bits 7 - 0: DNP binary input point 65 65286 DNP binary assigned point index register 33 Bits 15 - 8: DNP binary input point 66 Bits 7 - 0: DNP binary input point 67 65287 DNP binary assigned point index register 34 Bits 15 - 8: DNP binary input point 68 Bits 7 - 0: DNP binary input point 69 65288 DNP binary assigned point index register 35 Bits 15 - 8: DNP binary input point 70 Bits 7 - 0: DNP binary input point 71 65289 DNP binary assigned point index register 36 Bits 15 - 8: DNP binary input point 72 Bits 7 - 0: DNP binary input point 73 65290 DNP binary assigned point index register 37 Bits 15 - 8: DNP binary input point 74 Bits 7 - 0: DNP binary input point 75 65291 DNP binary assigned point index register 38 Bits 15 - 8: DNP binary input point 76 Bits 7 - 0: DNP binary input point 77 65292 DNP binary assigned point index register 39 Bits 15 - 8: DNP binary input point 78 Bits 7 - 0: DNP binary input point 79 65293 DNP binary assigned point index register 40 Bits 15 - 8: DNP binary input point 80 Bits 7 - 0: DNP binary input point 81 65294 DNP binary assigned point index register 41 Bits 15 - 8: DNP binary input point 82 Bits 7 - 0: DNP binary input point 83 65295 DNP binary assigned point index register 42 Bits 15 - 8: DNP binary input point 84 Bits 7 - 0: DNP binary input point 85 65296 DNP binary assigned point index register 43 Bits 15 - 8: DNP binary input point 86 Bits 7 - 0: DNP binary input point 87 65297 DNP binary assigned point index register 44 Bits 15 - 8: DNP binary input point 88 Bits 7 - 0: DNP binary input point 89 65298 DNP binary assigned point index register 45 Bits 15 - 8: DNP binary input point 90 Bits 7 - 0: DNP binary input point 91 65299 DNP binary assigned point index register 46 Bits 15 - 8: DNP binary input point 92 Bits 7 - 0: DNP binary input point 93 173 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65300 DNP binary assigned point index register 47 Bits 15 - 8: DNP binary input point 94 Bits 7 - 0: DNP binary input point 95 65301 DNP binary assigned point index register 48 Bits 15 - 8: DNP binary input point 96 Bits 7 - 0: DNP binary input point 97 65302 DNP binary assigned point index register 49 Bits 15 - 8: DNP binary input point 98 Bits 7 - 0: DNP binary input point 99 65303 DNP binary assigned point index register 50 Bits 15 - 8: DNP binary input point 100 Bits 7 - 0: DNP binary input point 101 65304 DNP binary assigned point index register 51 Bits 15 - 8: DNP binary input point 102 Bits 7 - 0: DNP binary input point 103 65305 DNP binary assigned point index register 52 Bits 15 - 8: DNP binary input point 104 Bits 7 - 0: DNP binary input point 105 65306 DNP binary assigned point index register 53 Bits 15 - 8: DNP binary input point 106 Bits 7 - 0: DNP binary input point 107 65307 DNP binary assigned point index register 54 Bits 15 - 8: DNP binary input point 108 Bits 7 - 0: DNP binary input point 109 65308 DNP binary assigned point index register 55 Bits 15 - 8: DNP binary input point 110 Bits 7 - 0: DNP binary input point 111 65309 DNP binary assigned point index register 56 Bits 15 - 8: DNP binary input point 112 Bits 7 - 0: DNP binary input point 113 65310 DNP binary assigned point index register 57 Bits 15 - 8: DNP binary input point 114 Bits 7 - 0: DNP binary input point 115 65311 DNP binary assigned point index register 58 Bits 15 - 8: DNP binary input point 116 Bits 7 - 0: DNP binary input point 117 65312 DNP binary assigned point index register 59 Bits 15 - 8: DNP binary input point 118 Bits 7 - 0: DNP binary input point 119 65313 DNP binary assigned point index register 60 Bits 15 - 8: DNP binary input point 120 Bits 7 - 0: DNP binary input point 121 65314 DNP binary assigned point index register 61 Bits 15 - 8: DNP binary input point 122 Bits 7 - 0: DNP binary input point 123 65315 DNP binary assigned point index register 62 Bits 15 - 8: DNP binary input point 124 Bits 7 - 0: DNP binary input point 125 65316 DNP binary assigned point index register 63 Bits 15 - 8: DNP binary input point 126 Bits 7 - 0: DNP binary input point 127 65317 DNP binary assigned point index register 64 Bits 15 - 8: DNP binary input point 128 Bits 7 - 0: DNP binary input point 129 174 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65318 DNP binary assigned point index register 65 Bits 15 - 8: DNP binary input point 130 Bits 7 - 0: DNP binary input point 131 65319 DNP binary assigned point index register 66 Bits 15 - 8: DNP binary input point 132 Bits 7 - 0: DNP binary input point 133 65320 DNP binary assigned point index register 67 Bits 15 - 8: DNP binary input point 134 Bits 7 - 0: DNP binary input point 135 65321 DNP binary assigned point index register 68 Bits 15 - 8: DNP binary input point 136 Bits 7 - 0: DNP binary input point 137 65322 DNP binary assigned point index register 69 Bits 15 - 8: DNP binary input point 138 Bits 7 - 0: DNP binary input point 139 65323 DNP binary assigned point index register 70 Bits 15 - 8: DNP binary input point 140 Bits 7 - 0: DNP binary input point 141 65324 DNP binary assigned point index register 71 Bits 15 - 8: DNP binary input point 142 Bits 7 - 0: DNP binary input point 143 65325 DNP binary assigned point index register 72 Bits 15 - 8: DNP binary input point 144 Bits 7 - 0: DNP binary input point 145 65326 DNP binary assigned point index register 73 Bits 15 - 8: DNP binary input point 146 Bits 7 - 0: DNP binary input point 147 65327 DNP binary assigned point index register 74 Bits 15 - 8: DNP binary input point 148 Bits 7 - 0: DNP binary input point 149 65328 DNP binary assigned point index register 75 Bits 15 - 8: DNP binary input point 150 Bits 7 - 0: DNP binary input point 151 65329 DNP binary assigned point index register 76 Bits 15 - 8: DNP binary input point 152 Bits 7 - 0: DNP binary input point 153 65330 DNP binary assigned point index register 77 Bits 15 - 8: DNP binary input point 154 Bits 7 - 0: DNP binary input point 155 65331 DNP binary assigned point index register 78 Bits 15 - 8: DNP binary input point 156 Bits 7 - 0: DNP binary input point 157 65332 DNP binary assigned point index register 79 Bits 15 - 8: DNP binary input point 158 Bits 7 - 0: DNP binary input point 159 65333 DNP binary assigned point index register 80 Bits 15 - 8: DNP binary input point 160 Bits 7 - 0: DNP binary input point 161 65334 DNP binary assigned point index register 81 Bits 15 - 8: DNP binary input point 162 Bits 7 - 0: DNP binary input point 163 65335 DNP binary assigned point index register 82 Bits 15 - 8: DNP binary input point 164 Bits 7 - 0: DNP binary input point 165 175 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65336 DNP binary assigned point index register 83 Bits 15 - 8: DNP binary input point 166 Bits 7 - 0: DNP binary input point 167 65337 DNP binary assigned point index register 84 Bits 15 - 8: DNP binary input point 168 Bits 7 - 0: DNP binary input point 169 65338 DNP binary assigned point index register 85 Bits 15 - 8: DNP binary input point 170 Bits 7 - 0: DNP binary input point 171 65339 DNP binary assigned point index register 86 Bits 15 - 8: DNP binary input point 172 Bits 7 - 0: DNP binary input point 173 65340 DNP binary assigned point index register 87 Bits 15 - 8: DNP binary input point 174 Bits 7 - 0: DNP binary input point 175 65341 DNP binary assigned point index register 88 Bits 15 - 8: DNP binary input point 176 Bits 7 - 0: DNP binary input point 177 65342 DNP binary assigned point index register 89 Bits 15 - 8: DNP binary input point 178 Bits 7 - 0: DNP binary input point 179 65343 DNP binary assigned point index register 90 Bits 15 - 8: DNP binary input point 180 Bits 7 - 0: DNP binary input point 181 65344 DNP binary assigned point index register 91 Bits 15 - 8: DNP binary input point 182 Bits 7 - 0: DNP binary input point 183 65345 DNP binary assigned point index register 92 Bits 15 - 8: DNP binary input point 184 Bits 7 - 0: DNP binary input point 185 65346 DNP binary assigned point index register 93 Bits 15 - 8: DNP binary input point 186 Bits 7 - 0: DNP binary input point 187 65347 DNP binary assigned point index register 94 Bits 15 - 8: DNP binary input point 188 Bits 7 - 0: DNP binary input point 189 65348 DNP binary assigned point index register 95 Bits 15 - 8: DNP binary input point 190 Bits 7 - 0: DNP binary input point 191 65349 DNP binary assigned point index register 96 Bits 15 - 8: DNP binary input point 192 Bits 7 - 0: DNP binary input point 193 65350 DNP binary assigned point index register 97 Bits 15 - 8: DNP binary input point 194 Bits 7 - 0: DNP binary input point 195 65351 DNP binary assigned point index register 98 Bits 15 - 8: DNP binary input point 196 Bits 7 - 0: DNP binary input point 197 65352 DNP binary assigned point index register 99 Bits 15 - 8: DNP binary input point 198 Bits 7 - 0: DNP binary input point 199 65353 DNP binary assigned point index register 100 Bits 15 - 8: DNP binary input point 200 Bits 7 - 0: DNP binary input point 201 176 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65354 DNP binary assigned point index register 101 Bits 15 - 8: DNP binary input point 202 Bits 7 - 0: DNP binary input point 203 65355 DNP binary assigned point index register 102 Bits 15 - 8: DNP binary input point 204 Bits 7 - 0: DNP binary input point 205 65356 DNP binary assigned point index register 103 Bits 15 - 8: DNP binary input point 206 Bits 7 - 0: DNP binary input point 207 65357 DNP binary assigned point index register 104 Bits 15 - 8: DNP binary input point 208 Bits 7 - 0: DNP binary input point 209 65358 DNP binary assigned point index register 105 Bits 15 - 8: DNP binary input point 210 Bits 7 - 0: DNP binary input point 211 65359 DNP binary assigned point index register 106 Bits 15 - 8: DNP binary input point 212 Bits 7 - 0: Spare 177 PCD MODBUS® Protocol Implementation Details ABB Inc. 6.1.35 DNP Analog Inputs Assignable Point Index Settings The DNP Assignable Point indexes feature allows the user to reassign the point indexes of analog input points. By default, the point indexes are as shown in the "DNP3.0 Implementation for the ABB PCD" document. To change the point index of a given analog input point the appropriate modbus register has to be modified to the desired value. NOTE: The assigned point index may not exceed the maximum number of analog input points. For example, to change the point index of DNP analog input point 6 to 10, modify register 65384 to set bits 15-8 to 00001010(binary). Refer to the "DNP 3.0 Implementation for the ABB PCD" document for a description of the DNP points listed below. REGISTER DEFINITION 65376 Spare 65377 Execute 65378 Password character 1 Password character 2 65379 Password character 3 Password character 4 65380 Spare 65381 DNP analog assigned point index register 0 Bits 15 - 8: DNP analog input point 0 Bits 7 - 0: DNP analog input point 1 65382 DNP analog assigned point index register 1 Bits 15 - 8: DNP analog input point 2 Bits 7 - 0: DNP analog input point 3 65383 DNP analog assigned point index register 2 Bits 15 - 8: DNP analog input point 4 Bits 7 - 0: DNP analog input point 5 65384 DNP analog assigned point index register 3 Bits 15 - 8: DNP analog input point 6 Bits 7 - 0: DNP analog input point 7 65385 DNP analog assigned point index register 4 Bits 15 - 8: DNP analog input point 8 Bits 7 - 0: DNP analog input point 9 65386 DNP analog assigned point index register 5 Bits 15 - 8: DNP analog input point 10 Bits 7 - 0: DNP analog input point 11 65387 DNP analog assigned point index register 6 Bits 15 - 8: DNP analog input point 12 Bits 7 - 0: DNP analog input point 13 65388 DNP analog assigned point index register 7 Bits 15 - 8: DNP analog input point 14 Bits 7 - 0: DNP analog input point 15 65389 DNP analog assigned point index register 8 Bits 15 - 8: DNP analog input point 16 Bits 7 - 0: DNP analog input point 17 65390 DNP analog assigned point index register 9 Bits 15 - 8: DNP analog input point 18 Bits 7 - 0: DNP analog input point 19 65391 DNP analog assigned point index register 10 Bits 15 - 8: DNP analog input point 20 Bits 7 - 0: DNP analog input point 21 178 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65392 DNP analog assigned point index register 11 Bits 15 - 8: DNP analog input point 22 Bits 7 - 0: DNP analog input point 23 65393 DNP analog assigned point index register 12 Bits 15 - 8: DNP analog input point 24 Bits 7 - 0: DNP analog input point 25 65394 DNP analog assigned point index register 13 Bits 15 - 8: DNP analog input point 26 Bits 7 - 0: DNP analog input point 27 65395 DNP analog assigned point index register 14 Bits 15 - 8: DNP analog input point 28 Bits 7 - 0: DNP analog input point 29 65396 DNP analog assigned point index register 15 Bits 15 - 8: DNP analog input point 30 Bits 7 - 0: DNP analog input point 31 65397 DNP analog assigned point index register 16 Bits 15 - 8: DNP analog input point 32 Bits 7 - 0: DNP analog input point 33 65398 DNP analog assigned point index register 17 Bits 15 - 8: DNP analog input point 34 Bits 7 - 0: DNP analog input point 35 65399 DNP analog assigned point index register 18 Bits 15 - 8: DNP analog input point 36 Bits 7 - 0: DNP analog input point 37 65400 DNP analog assigned point index register 19 Bits 15 - 8: DNP analog input point 38 Bits 7 - 0: DNP analog input point 39 65401 DNP analog assigned point index register 20 Bits 15 - 8: DNP analog input point 40 Bits 7 - 0: DNP analog input point 41 65402 DNP analog assigned point index register 21 Bits 15 - 8: DNP analog input point 42 Bits 7 - 0: DNP analog input point 43 65403 DNP analog assigned point index register 22 Bits 15 - 8: DNP analog input point 44 Bits 7 - 0: DNP analog input point 45 65404 DNP analog assigned point index register 23 Bits 15 - 8: DNP analog input point 46 Bits 7 - 0: DNP analog input point 47 65405 DNP analog assigned point index register 24 Bits 15 - 8: DNP analog input point 48 Bits 7 - 0: DNP analog input point 49 65406 DNP analog assigned point index register 25 Bits 15 - 8: DNP analog input point 50 Bits 7 - 0: DNP analog input point 51 65407 DNP analog assigned point index register 26 Bits 15 - 8: DNP analog input point 52 Bits 7 - 0: DNP analog input point 53 65408 DNP analog assigned point index register 27 Bits 15 - 8: DNP analog input point 54 Bits 7 - 0: DNP analog input point 55 65409 DNP analog assigned point index register 28 Bits 15 - 8: DNP analog input point 56 Bits 7 - 0: DNP analog input point 57 179 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65410 DNP analog assigned point index register 29 Bits 15 - 8: DNP analog input point 58 Bits 7 - 0: DNP analog input point 59 65411 DNP analog assigned point index register 30 Bits 15 - 8: DNP analog input point 60 Bits 7 - 0: DNP analog input point 61 65412 DNP analog assigned point index register 31 Bits 15 - 8: DNP analog input point 62 Bits 7 - 0: DNP analog input point 63 65413 DNP analog assigned point index register 32 Bits 15 - 8: DNP analog input point 64 Bits 7 - 0: DNP analog input point 65 65414 DNP analog assigned point index register 33 Bits 15 - 8: DNP analog input point 66 Bits 7 - 0: DNP analog input point 67 65415 DNP analog assigned point index register 34 Bits 15 - 8: DNP analog input point 68 Bits 7 - 0: DNP analog input point 69 65416 DNP analog assigned point index register 35 Bits 15 - 8: DNP analog input point 70 Bits 7 - 0: DNP analog input point 71 65417 DNP analog assigned point index register 36 Bits 15 - 8: DNP analog input point 72 Bits 7 - 0: DNP analog input point 73 65418 DNP analog assigned point index register 37 Bits 15 - 8: DNP analog input point 74 Bits 7 - 0: DNP analog input point 75 65419 DNP analog assigned point index register 38 Bits 15 - 8: DNP analog input point 76 Bits 7 - 0: DNP analog input point 77 65420 DNP analog assigned point index register 39 Bits 15 - 8: DNP analog input point 78 Bits 7 - 0: DNP analog input point 79 65421 DNP analog assigned point index register 40 Bits 15 - 8: DNP analog input point 80 Bits 7 - 0: DNP analog input point 81 65422 DNP analog assigned point index register 41 Bits 15 - 8: DNP analog input point 82 Bits 7 - 0: DNP analog input point 83 65423 DNP analog assigned point index register 42 Bits 15 - 8: DNP analog input point 84 Bits 7 - 0: DNP analog input point 85 65424 DNP analog assigned point index register 43 Bits 15 - 8: DNP analog input point 86 Bits 7 - 0: DNP analog input point 87 65425 DNP analog assigned point index register 44 Bits 15 - 8: DNP analog input point 88 Bits 7 - 0: DNP analog input point 89 65426 DNP analog assigned point index register 45 Bits 15 - 8: DNP analog input point 90 Bits 7 - 0: DNP analog input point 91 65427 DNP analog assigned point index register 46 Bits 15 - 8: DNP analog input point 92 Bits 7 - 0: DNP analog input point 93 180 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65428 DNP analog assigned point index register 47 Bits 15 - 8: DNP analog input point 94 Bits 7 - 0: DNP analog input point 95 65429 DNP analog assigned point index register 48 Bits 15 - 8: DNP analog input point 96 Bits 7 - 0: DNP analog input point 97 65430 DNP analog assigned point index register 49 Bits 15 - 8: DNP analog input point 98 Bits 7 - 0: DNP analog input point 99 65431 DNP analog assigned point index register 50 Bits 15 - 8: DNP analog input point 100 Bits 7 - 0: DNP analog input point 101 65432 DNP analog assigned point index register 51 Bits 15 - 8: DNP analog input point 102 Bits 7 - 0: DNP analog input point 103 65433 DNP analog assigned point index register 52 Bits 15 - 8: DNP analog input point 104 Bits 7 - 0: DNP analog input point 105 65434 DNP analog assigned point index register 53 Bits 15 - 8: DNP analog input point 106 Bits 7 - 0: DNP analog input point 107 65435 DNP analog assigned point index register 54 Bits 15 - 8: DNP analog input point 108 Bits 7 - 0: DNP analog input point 109 65436 DNP analog assigned point index register 55 Bits 15 - 8: DNP analog input point 110 Bits 7 - 0: DNP analog input point 111 65437 DNP analog assigned point index register 56 Bits 15 - 8: DNP analog input point 112 Bits 7 - 0: DNP analog input point 113 65438 DNP analog assigned point index register 57 Bits 15 - 8: DNP analog input point 114 Bits 7 - 0: DNP analog input point 115 65439 DNP analog assigned point index register 58 Bits 15 - 8: DNP analog input point 116 Bits 7 - 0: DNP analog input point 117 65440 DNP analog assigned point index register 59 Bits 15 - 8: DNP analog input point 118 Bits 7 - 0: DNP analog input point 119 65441 DNP analog assigned point index register 60 Bits 15 - 8: DNP analog input point 120 Bits 7 - 0: DNP analog input point 121 65442 DNP analog assigned point index register 61 Bits 15 - 8: DNP analog input point 122 Bits 7 - 0: DNP analog input point 123 65443 DNP analog assigned point index register 62 Bits 15 - 8: DNP analog input point 124 Bits 7 - 0: DNP analog input point 125 65444 DNP analog assigned point index register 63 Bits 15 - 8: DNP analog input point 126 Bits 7 - 0: DNP analog input point 127 65445 DNP analog assigned point index register 64 Bits 15 - 8: DNP analog input point 128 Bits 7 - 0: DNP analog input point 129 181 PCD MODBUS® Protocol Implementation Details ABB Inc. REGISTER DEFINITION 65446 DNP analog assigned point index register 65 Bits 15 - 8: DNP analog input point 130 Bits 7 - 0: DNP analog input point 131 65447 DNP analog assigned point index register 66 Bits 15 - 8: DNP analog input point 132 Bits 7 - 0: DNP analog input point 133 65448 DNP analog assigned point index register 67 Bits 15 - 8: DNP analog input point 134 Bits 7 - 0: DNP analog input point 135 65449 DNP analog assigned point index register 68 Bits 15 - 8: DNP analog input point 136 Bits 7 - 0: DNP analog input point 137 65450 DNP analog assigned point index register 69 Bits 15 - 8: DNP analog input point 138 Bits 7 - 0: DNP analog input point 139 65451 DNP analog assigned point index register 70 Bits 15 - 8: DNP analog input point 140 Bits 7 - 0: DNP analog input point 141 65452 DNP analog assigned point index register 71 Bits 15 - 8: DNP analog input point 142 Bits 7 - 0: DNP analog input point 143 65453 DNP analog assigned point index register 72 Bits 15 - 8: DNP analog input point 144 Bits 7 - 0: DNP analog input point 145 65454 DNP analog assigned point index register 73 Bits 15 - 8: DNP analog input point 146 Bits 7 - 0: spare 182 PCD MODBUS® Protocol Implementation Details ABB Inc. 7 CATALOG DEPENDENCIES 7.1 I/O Mapping with Respect To Different Catalog Types All references in this document have referred to digital input/outputs in a sequential order. However, the PCD supports I/O through various cards or modules. Since the labeling on each card is generic and always starts at IN1 and OUT1 some confusion can arise. The solution is to reference a given IO point in a dual index scheme, i.e., IN2c would indicate input 2 in slot c (or slot 3). Cross referencing the references given in this document to this scheme is dependent on the IO population of the unit (catalog based) and is shown in the tables below: 7.1.1 SCD and PCD Catalogued for Three Phase Operation (xxxx-xxxx-xx-x0xx) IO Designation IN1 IN2 IN3 IN4 IN5 IN6 IN7 IN8 IN9 IN10 IN11 IN12 IN13 IN14 IN15 IN16 IN17 . IN32 OUT1 OUT2 OUT3 OUT4 OUT5 OUT6 OUT7 OUT8 OUT9 OUT10 OUT11 OUT12 OUT13 OUT14 OUT15 OUT16 OUT17 . OUT32 Note: 000X 001X 002X 003X 004X In1a In2a In3a In4a FB28 FB27 FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 Out1a Out2a Out3a N/A FB28 FB27 FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 In1a In2a In3a In4a In1b In2b In3b In4b In5b In6b FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 Out1a Out2a Out3a Out1b Out2b Out3b Out4b N/A N/A N/A FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 In1a In2a In3a In4a In1b In2b In3b In4b In5b In6b In1c In2c In3c In4c In5c In6c FB16 . FB1 Out1a Out2a Out3a Out1b Out2b Out3b Out4b Out1c Out2c Out3c Out4c N/A N/A N/A N/A N/A FB16 . FB1 In1a In2a In3a In4a In1b In2b FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 Out1a Out2a Out3a Out1b Out2b N/A FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 In1a In2a In3a In4a In1b In2b In1c In2c In3c In4c In5c In6c FB20 FB19 FB18 FB17 FB16 . FB1 Out1a Out2a Out3a Out1b Out2b Out1c Out2c Out3c Out4c N/A N/A N/A FB20 FB19 FB18 FB17 FB16 . FB1 005X (SCD) In1a In2a In3a In4a In1b In2b In1c In2c FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 Out1a Out2a Out3a Out1b Out2b Out1c Out2c N/A FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 101X 102X 103X 104X In1b In2b In3b In4b In5b In6b FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 Out1b Out2b Out3b Out4b N/A N/A FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 In1b In2b In3b In4b In5b In6b In1c In2c In3c In4c In5c In6c FB20 FB19 FB18 FB17 FB16 . FB1 Out1b Out2b Out3b Out4b Out1c Out2c Out3c Out4c N/A N/A N/A N/A FB20 FB19 FB18 FB17 FB16 . FB1 In1b In2b FB30 FB29 FB28 FB27 FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 Out1b Out2b FB30 FB29 FB28 FB27 FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 In1b In2b In1c In2c In3c In4c In5c In6c FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 Out1b Out2b Out1c Out2c Out3c Out4c N/A N/A FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 105X (SCD) In1b In2b In1c In2c FB28 FB27 FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 Out1b Out2b Out1c Out2c FB28 FB27 FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 The Feedback terms shown are system defaults. They can be changed through the Feedback Allocation mask. 183 PCD MODBUS® Protocol Implementation Details ABB Inc. 7.1.2 PCD Catalogued for Single Phase Operation (xxxx-xxxx-x1-x1xx) IO Designation IN1 IN2 IN3 IN4 IN5 IN6 IN7 IN8 IN9 IN10 IN11 IN12 IN13 IN14 IN15 IN16 IN17 . IN32 OUT1 OUT2 OUT3 OUT4 OUT5 OUT6 OUT7 OUT8 OUT9 OUT10 OUT11 OUT12 OUT13 OUT14 OUT15 OUT16 OUT17 . OUT32 Note: 000X 001X 002X 003X 004X 101X 102X 103X 104X In1a In2a In3a In4a FB28 FB27 FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 Out1a Out2a Out3a N/A FB28 FB27 FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 In1a In2a In3a In4a In1b In2b In3b In4b In5b In6b FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 Out1a Out2a Out3a Out1b Out2b Out3b Out4b N/A N/A N/A FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 In1a In2a In3a In4a In1b In2b In3b In4b In5b In6b In1c In2c In3c In4c In5c In6c FB16 . FB1 Out1a Out2a Out3a Out1b Out2b Out3b Out4b Out1c Out2c Out3c Out4c N/A N/A N/A N/A N/A FB16 . FB1 In1a In2a In3a In4a In1b In2b In3b In4b In5b In6b In7b In8b FB20 FB19 FB18 FB17 FB16 . FB1 Out1a Out2a Out3a Out1b Out2b Out3b Out4b Out5b Out6b Out7b Out8b N/A FB20 FB19 FB18 FB17 FB16 . FB1 In1a In2a In3a In4a In1b In2b In3b In4b In5b In6b In7b In8b In1c In2c In3c In4c FB16 . FB1 Out1a Out2a Out3a Out1b Out2b Out3b Out4b Out5b Out6b Out7b Out8b Out1c Out2c Out3c Out4c N/A FB16 . FB1 In1b In2b In3b In4b In5b In6b FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 Out1b Out2b Out3b Out4b N/A N/A FB26 FB25 FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 In1b In2b In3b In4b In5b In6b In1c In2c In3c In4c In5c In6c FB20 FB19 FB18 FB17 FB16 . FB1 Out1b Out2b Out3b Out4b Out1c Out2c Out3c Out4c N/A N/A N/A N/A FB20 FB19 FB18 FB17 FB16 . FB1 In1b In2b In3b In4b In5b In6b In7b In8b FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 Out1b Out2b Out3b Out4b Out5b Out6b Out7b Out8b FB24 FB23 FB22 FB21 FB20 FB19 FB18 FB17 FB16 . FB1 In1b In2b In3b In4b In5b In6b In7b In8b In1c In2c In3c In4c In5c In6c FB18 FB17 FB16 . FB1 Out1b Out2b Out3b Out4b Out5b Out6b Out7b Out8b Out1c Out2c Out3c Out4c N/A N/A FB18 FB17 FB16 . FB1 The Feedback terms shown are system defaults. They can be changed through the Feedback Allocation mask. 184

Modbus-Implementation-v364

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