GE B30 Communications Manual

GE B30 Communications Manual

Universal relay family
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GE
Grid Solutions
UR Family
Communications Guide
Product version: 7.6x
GE publication code: 1601-0401-AF2 (GEK-131009A)
E83849
LISTED
IND.CONT. EQ.
1601-0401-AF2

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Summary of Contents for GE B30

  • Page 1 Grid Solutions UR Family Communications Guide Product version: 7.6x GE publication code: 1601-0401-AF2 (GEK-131009A) E83849 LISTED IND.CONT. EQ. 1601-0401-AF2...
  • Page 2 The contents of this manual are the property of GE Multilin Inc. This documentation is furnished on license and may not be reproduced in whole or in part without the permission of GE Multilin. The content of this manual is for informational use only and is subject to change without notice.
  • Page 3: Table Of Contents

    UR Family Table of contents 1 INTRODUCTION Products........................1-1 Features per product..................... 1-1 Communication ports ..................1-14 Safety symbols and definitions ................. 1-14 For further assistance..................1-14 2 MODBUS Modbus RTU protocol .................... 2-1 COMMUNICATION 2.1.1 Introduction..........................2-1 2.1.2 Configuration.......................... 2-1 2.1.3 Physical layer..........................
  • Page 4 System logical device....................3-151 3.5.5 Meter logical device....................... 3-172 3.5.6 General (Gen) logical device..................3-193 3.5.7 GE namespace ......................... 3-209 3.5.8 Enumerations........................3-224 SCL implementation conformance statement (SICS) ........3-225 PIXIT conformance statement................. 3-227 TICS conformance statement................3-232 SCL logging ......................3-234 3.9.1...
  • Page 5 TABLE OF CONTENTS 5 IEC 60870-5-103 Overview........................5-1 COMMUNICATION Factor and offset calculation to transmit measurand........5-1 Interoperability document ................... 5-2 6 IEC 60870-5-104 Interoperability document ................... 6-1 COMMUNICATION IEC 60870-5-104 points ..................6-10 A MISCELLANEOUS Revision history ...................... A-1 INDEX UR FAMILY –...
  • Page 6 TABLE OF CONTENTS UR FAMILY – COMMUNICATIONS GUIDE...
  • Page 7: Introduction

    This chapter outlines general, safety, and technical support information. 1.1 Products This document applies to the following UR products: B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60. The communications protocols that apply depend on those ordered. Check the order code of the device.
  • Page 8 FEATURES PER PRODUCT CHAPTER 1: INTRODUCTION Feature Rule Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 Automatic # of Voltage elements Regulator if voltage banks present; 0 Enhance Capacitor...
  • Page 9 CHAPTER 1: INTRODUCTION FEATURES PER PRODUCT Feature Rule Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 # of Undervoltage voltage terminals Basic UR Clock Features Control pushbutt Display propertie...
  • Page 10 FEATURES PER PRODUCT CHAPTER 1: INTRODUCTION Feature Rule Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 Breaker # of Restrike elements Broken # of Conductor sources Detection Broken Rotor...
  • Page 11 CHAPTER 1: INTRODUCTION FEATURES PER PRODUCT Feature Rule Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 Demand # of sources Digital Counters Digital Elements Digitizer Direct Inputs/ 16 inputs...
  • Page 12 FEATURES PER PRODUCT CHAPTER 1: INTRODUCTION Feature Rule Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 Field Resources Field unit brick types Field unit contact inputs Field unit contact...
  • Page 13 CHAPTER 1: INTRODUCTION FEATURES PER PRODUCT Feature Rule Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 Ground Fast Distance distance is not available on L60 Ground # of Instantaneou...
  • Page 14 FEATURES PER PRODUCT CHAPTER 1: INTRODUCTION Feature Rule Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 IEC 61850 Remote I/O Remote (Fixed GOOSE/ devices GSSE/GOOSE) Remote inputs Remote inputs...
  • Page 15 CHAPTER 1: INTRODUCTION FEATURES PER PRODUCT Feature Rule Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 Motor Start Supervision Negative # of Sequence elements Directional OC if at least...
  • Page 16 FEATURES PER PRODUCT CHAPTER 1: INTRODUCTION Feature Rule Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 Oscillography Over Under Frequenc Frequency y out of Accumulation band Overfrequenc Phase Comparison...
  • Page 17 CHAPTER 1: INTRODUCTION FEATURES PER PRODUCT Feature Rule Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 Pilot Schemes Pilot blocking (1P) Pilot blocking 1 (1P) Pilot DCUB Pilot DUTT (1P)
  • Page 18 FEATURES PER PRODUCT CHAPTER 1: INTRODUCTION Feature Rule Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 Simple Network Time Protocol Single Pole Tripping Open pole detect (1P) Phase selection...
  • Page 19 CHAPTER 1: INTRODUCTION FEATURES PER PRODUCT Feature Rule Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 Transformer Instantaneou s Differential Transformer Percent Differential Transformer windings Transformer Thermal Model Trip Bus...
  • Page 20: Communication Ports

    Indicates practices not related to personal injury. See the Instruction Manual for safety information. 1.5 For further assistance For product support, contact the information and call center as follows: GE Grid Solutions 650 Markland Street Markham, Ontario Canada L6C 0M1...
  • Page 21: Modbus

    UR Family Chapter 2: Modbus communication Modbus communication This chapter outlines the Modbus protocol, which is a standard protocol used for communication among devices. Use the Modbus memory map provided when designing a client to access the UR device using Modbus. 2.1 Modbus RTU protocol 2.1.1 Introduction The UR family supports several communications protocols to allow connection to equipment such as personal computers,...
  • Page 22: Data Link Layer

    MODBUS RTU PROTOCOL CHAPTER 2: MODBUS COMMUNICATION Each data byte is transmitted in an asynchronous format consisting of 1 start bit, 8 data bits, 1 stop bit, and possibly 1 parity bit. This produces a 10 or 11 bit data frame. This can be important for transmission through modems at high bit rates (11 bit data frames are not supported by many modems at baud rates greater than 300).
  • Page 23: Modbus Rtu Crc-16 Algorithm

    CHAPTER 2: MODBUS COMMUNICATION MODBUS RTU PROTOCOL The ADU is described as follows. Table 2-2: Modbus TCP/IP format Description Size MBAP header Transaction identifier 2 bytes Protocol identifier 2 bytes Length 2 bytes Unit identifier 1 byte FUNCTION CODE 1 byte DATA N bytes MBAP header —...
  • Page 24: Modbus Function Codes

    Subsequent sections describe each function code. Table 2-4: Function codes Function code Modbus definition GE Multilin definition Read holding registers Read actual values or settings Read holding registers Read actual values or settings...
  • Page 25: Execute Operation (Function Code 05H)

    CHAPTER 2: MODBUS COMMUNICATION MODBUS FUNCTION CODES Master transmission Slave response Packet format Example (Hex) Packet format Example (Hex) NUMBER OF REGISTERS - high DATA #1 - low NUMBER OF REGISTERS - low DATA #2 - high CRC - low DATA #2 - low CRC - high DATA #3 - high...
  • Page 26: Store Multiple Settings (Function Code 10H)

    MODBUS FUNCTION CODES CHAPTER 2: MODBUS COMMUNICATION Table 2-8: Master and slave device packet transmission example Master transmission Slave response Packet format Example (Hex) Packet format Example (Hex) SLAVE ADDRESS SLAVE ADDRESS FUNCTION CODE FUNCTION CODE DATA STARTING ADDRESS - high DATA STARTING ADDRESS - high DATA STARTING ADDRESS - low DATA STARTING ADDRESS - low...
  • Page 27: File Transfers

    CHAPTER 2: MODBUS COMMUNICATION FILE TRANSFERS Table 2-10: Master and slave device packet transmission example Master transmission Slave response Packet format Example (Hex) Packet format Example (Hex) SLAVE ADDRESS SLAVE ADDRESS FUNCTION CODE FUNCTION CODE CRC - low order byte ERROR CODE CRC - high order byte CRC - low order byte...
  • Page 28 FILE TRANSFERS CHAPTER 2: MODBUS COMMUNICATION Figure 2-1: COMTRADE utility Preferences are set within the EnerVista software as follows. To set COMTRADE waveform display preferences: In the EnerVista software, click File > Preferences. The window opens. The preferences here affect only the type of file retrieved by the software from Actual Values >...
  • Page 29 CHAPTER 2: MODBUS COMMUNICATION FILE TRANSFERS 32 Bit Binary — UR 7.4 supports this. 32 Bit Float — UR 7.4 supports this. Single-file (.CFF) — Supported by devices that support IEEE 2013, so UR 7.4 supports this. One file with .CFF extension instead of four separate .CFG, .INF, .HDR, and .DAT files.
  • Page 30 FILE TRANSFERS CHAPTER 2: MODBUS COMMUNICATION For the IEEE 2013 standard, to read binary COMTRADE oscillography files, read the following filenames, where # stands for 16B, 32B, or 32F, and nnn stands for the oscillography trigger number. Table 2-11: Oscillography records for IEEE C37.111-2013, by data format BINARY BINARY32 FLOAT32...
  • Page 31 CHAPTER 2: MODBUS COMMUNICATION FILE TRANSFERS 2.3.1.7 Reading fault report files Fault report data has been available via the UR file retrieval mechanism since UR firmware version 2.00. The file name is faultReport#####.htm. The ##### refers to the fault report record number. The fault report number is a counter that indicates how many fault reports have ever occurred.
  • Page 32: Memory Map

    MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION 2.4 Memory map 2.4.1 Modbus memory map The table provides the Modbus memory map. The addresses in the table are expressed in hexadecimal. The particular registers actually present depend on the UR product and on the order codes software and module options. The map is also viewable in a web browser.
  • Page 33 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 0248 Last Key Pressed 0 to 47 F530 0 (None) Keypress Emulation (Read/Write) 0280 Simulated keypress -- write zero before 0 to 46 F190 0 (No key -- each keystroke use between...
  • Page 34 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 0401 Virtual Input 18 State 0 to 1 F108 0 (Off) " 0402 Virtual Input 19 State 0 to 1 F108 0 (Off) " 0403 Virtual Input 20 State 0 to 1...
  • Page 35 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default Graphical Front Panel Settings (Read/Write Setting) 0430 GFP Home Page Content (10 items) 0 to 27 F647 0 (Product Information) " 043A GFP Date Format 0 to 7 F648 0 (yyyy-mm-...
  • Page 36 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 05AC ...Repeated for Binary Input 11 " 05B0 ...Repeated for Binary Input 12 " 05B4 ...Repeated for Binary Input 13 " 05B8 ...Repeated for Binary Input 14 "...
  • Page 37 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 0668 ...Repeated for Binary Input 58 " 066C ...Repeated for Binary Input 59 " 0670 ...Repeated for Binary Input 60 " 0674 ...Repeated for Binary Input 61 "...
  • Page 38 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 070B IEC103 ASDU 1 Analog Parameter 2 0 to 65535 F600 " 070C IEC103 ASDU 1 Analog Factor 2 0 to 65.535 0.001 F001 1000 "...
  • Page 39 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 07C0 ...Repeated for IEC103 Command 17 " 07C4 ...Repeated for IEC103 Command 18 " 07C8 ...Repeated for IEC103 Command 19 " 07CC ...Repeated for IEC103 Command 20 "...
  • Page 40 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 092C ...Repeated for RxGOOSE Boolean 14 " 092E ...Repeated for RxGOOSE Boolean 15 " 0930 ...Repeated for RxGOOSE Boolean 16 " 0932 ...Repeated for RxGOOSE Boolean 17 "...
  • Page 41 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 098A ...Repeated for RxGOOSE Boolean 61 " 098C ...Repeated for RxGOOSE Boolean 62 " 098E ...Repeated for RxGOOSE Boolean 63 " 0990 ...Repeated for RxGOOSE Boolean 64 "...
  • Page 42 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 09E8 ...Repeated for RxGOOSE Boolean 108 " 09EA ...Repeated for RxGOOSE Boolean 109 " 09EC ...Repeated for RxGOOSE Boolean 110 " 09EE ...Repeated for RxGOOSE Boolean 111 "...
  • Page 43 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 0A46 ...Repeated for RxGOOSE Boolean 155 " 0A48 ...Repeated for RxGOOSE Boolean 156 " 0A4A ...Repeated for RxGOOSE Boolean 157 " 0A4C ...Repeated for RxGOOSE Boolean 158 "...
  • Page 44 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 0AA4 ...Repeated for RxGOOSE Boolean 202 " 0AA6 ...Repeated for RxGOOSE Boolean 203 " 0AA8 ...Repeated for RxGOOSE Boolean 204 " 0AAA ...Repeated for RxGOOSE Boolean 205 "...
  • Page 45 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 0B02 ...Repeated for RxGOOSE Boolean 249 " 0B04 ...Repeated for RxGOOSE Boolean 250 " 0B06 ...Repeated for RxGOOSE Boolean 251 " 0B08 ...Repeated for RxGOOSE Boolean 252 "...
  • Page 46 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 13BA ...Repeated for Direct Analog Input and Output 12 " 13C8 ...Repeated for Direct Analog Input and Output 13 " 13D6 ...Repeated for Direct Analog Input and Output 14 "...
  • Page 47 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 1518 Contact Output Current States (5 items) 0 to 65535 F500 " 1520 Contact Output Voltage States (5 items) 0 to 65535 F500 " 1528 Virtual Output States (6 items) 0 to 65535...
  • Page 48 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 160C Field Unit Online/Offline States 0 to 65535 F500 " 160D Field RTD Input Trouble States 0 to 65535 F500 " 160E Field Transducer Input Trouble States 0 to 65535 F500 Ethernet Fibre Channel Status (Read Only)
  • Page 49 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default Subharmonic Stator Ground Actual Values (Read Only) 1678 Subharmonic Injection Voltage 0 to 999999.999 0.001 F060 " 167A Subharmonic Injection Current 0 to 999999.999 0.001 F060 "...
  • Page 50 Step Format Default " 16EC ...Repeated for Frequency Rate of Change 4 Breaker Flashover (Read/Write Setting) (1 or 2 Modules) B30, C60, C70, 1700 Breaker Flashover 1 Function 0 to 1 F102 0 (Disabled) D60, F35, F60, G60, L60, L90, M60, T60 "...
  • Page 51 0.1 F002 " 1825 Reserved (27 items) F001 " 1840 ...Repeated for Source 2 B30, C60, C70, 1880 ...Repeated for Source 3 D60, F35, F60, G30, G60, L60, L90, M60, N60, T35, T60 " 18C0 ...Repeated for Source 4...
  • Page 52 0.1 F002 " 1A2C Reserved (20 items) F001 " 1A40 ...Repeated for Source 2 B30, C60, C70, 1A80 ...Repeated for Source 3 D60, F35, F60, G30, G60, L60, L90, M60, N60, T35, T60 " 1AC0 ...Repeated for Source 4...
  • Page 53 Products Address Register name Range Units Step Format Default Source Energy Metering (Read Only Non-Volatile) (4 or 6 Modules) B30, C60, D60, 1D00 Source 1 Positive Watthour 0 to 0.001 F060 F35, F60, G30, 1000000000000 G60, L90, M60, N60, T60 "...
  • Page 54 Products Address Register name Range Units Step Format Default Source Demand Peaks (Read Only Non-Volatile) (4 or 6 Modules) B30, C60, D60, 1E80 Source 1 Demand Ia Maximum 0 to 999999.999 0.001 F060 F35, F60, G60, L60, L90, N60, "...
  • Page 55 ...Repeated for Bus Zone 5 " 2216 ...Repeated for Bus Zone 6 Breaker Arcing Current Commands (Read/Write Command) (2, 3, 4, or 6 Modules) B30, C60, C70, 2224 Breaker 1 Arcing Current Clear Command 0 to 1 F126 0 (No)
  • Page 56 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 2269 ...Repeated for Hi-Z Capture 4 Hi-Z RMS Records (Read Only) (4 Modules) 2270 Hi-Z RMS Capture 1 Trigger Type 0 to 6 F188 0 (NONE) "...
  • Page 57 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 2313 Transformer Restraint Phasor Icr 0 to 30 0.001 F001 Magnitude " 2314 Transformer Restraint Phasor Icr Angle -359.9 to 0 degrees 0.1 F002 "...
  • Page 58 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default C60, D60, F35, 2366 ...Repeated for Fault 2 F60, L30, L60, F35, F60 238C ...Repeated for Fault 3 " 23B2 ...Repeated for Fault 4 " 23D8 ...Repeated for Fault 5 Autoreclose Status (Read Only) (1, 3, 4, or 6 Modules)
  • Page 59 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 24AC Restraint Square Current IB 0 to 999999.999 0.001 F060 " 24AE Restraint Square Current IC 0 to 999999.999 0.001 F060 " 24B0 Restraint Current IA 0 to 999999.999 0.001 F060 "...
  • Page 60 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 24F3 ...Repeated for module 5 Bus Actuals (Read Only) (2 Modules) 2500 Bus Differential IA Magnitude 0 to 999999.999 0.001 F060 " 2502 Bus Differential IA Angle -359.9 to 0 degrees 0.1 F002...
  • Page 61 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 257B PMU 1 Positive Sequence Voltage Angle -180 to 180 ° 0.01 F002 " 257C PMU 1 Negative Sequence Voltage 0 to 999999.999 0.001 F060 Magnitude "...
  • Page 62 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default Direct Integer Actual Values (Read Only) (16 Modules) 2730 Direct Integer Input 1 Actual Value 0 to 4294967295 F003 " 2732 Direct Integer Input 2 Actual Value 0 to 4294967295 F003 "...
  • Page 63 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 2A67 Synchrocheck 1 V1 Ang -180 to 180 degrees 0.1 F001 (not 0 to 359.9) " 2A68 Synchrocheck 1 V2 Mag -1000000000000 to F060 1000000000000 "...
  • Page 64 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 2C54 ...Repeated for Remote Device 22 " 2C58 ...Repeated for Remote Device 23 " 2C5C ...Repeated for Remote Device 24 " 2C60 ...Repeated for Remote Device 25 "...
  • Page 65 Virtual Output States, one per register (120 0 to 1 F108 0 (Off) items) Breaker Arcing Current Actual Values (Read Only Non-Volatile) (2, 3, 4, or 6 Modules) B30, C60, C70, 2F00 Breaker 1 Arcing Acc Arcing Amp Phase A 0 to 99999999 kA2-cyc 1 F060...
  • Page 66 0 to 4294967295 F050 " 304C Fault Report 15 Time 0 to 4294967295 F050 User Programmable Fault Report Commands (Read/Write Command) B30, B90, C70, 3060 User Fault Report Clear 0 to 1 F126 0 (No) G30, G60, M60, N60, T35, T60...
  • Page 67 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default Security (Read/Write Setting) 3295 Supervisor Alphanumeric Password Setting --- F202 (none) Security (Read Only) 329F Supervisor Alphanumeric Password Status 0 to 1 F102 0 (Disabled) Security (Read/Write) 32A0 Supervisor Alphanumeric Password Entry...
  • Page 68 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 3352 Administrator Logoff 0 to 1 F126 0 (No) " 3353 Clear Security Data 0 to 1 F126 0 (No) Security Reserved Modbus Registers (Read/Write) 3360 Address 0x3360 reserved for serial login (20 0 to 9999...
  • Page 69 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 3457 Phase Current Unbalance Kc Actual Value –0.1 to 0.1 0.000 F004 (Read Only) " 3459 Phase Current Unbalance Auto-set Kc 0 to 1 F126 0 (No) "...
  • Page 70 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 34E2 DCMA Inputs 18 Value -9999.999 to 0.001 F004 9999.999 " 34E4 DCMA Inputs 19 Value -9999.999 to 0.001 F004 9999.999 " 34E6 DCMA Inputs 20 Value -9999.999 to 0.001 F004 9999.999...
  • Page 71 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 3512 RTD Inputs 35 Value -32768 to 32767 °C F002 " 3513 RTD Inputs 36 Value -32768 to 32767 °C F002 " 3514 RTD Inputs 37 Value -32768 to 32767 °C F002...
  • Page 72 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 3608 Phase Current Unbalance 1 Comp Iop B 0 to 99.9999 0.000 F004 " 360A Phase Current Unbalance 1 Comp Iop C 0 to 99.9999 0.000 F004 "...
  • Page 73 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 3731 Time of Day Timer 2 State 0 to 1 F108 0 (Off) " 3732 Time of Day Timer 3 State 0 to 1 F108 0 (Off) "...
  • Page 74 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 37A2 Frequency OOB Accumulator Band 3 0.0 to 999.9 F001 Accumulation (OvUnFrecAccActualBand_3) " 37A3 Frequency OOB Accumulator Band 4 0.0 to 999.9 F001 Accumulation (OvUnFrecAccActualBand_4) "...
  • Page 75 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 3893 Remote Ground CT x Origin 2 0 to 16 F248 0 (None) " 3894 AC Bank Redundancy Type 0 to 2 F261 (Dependabili ty Biased) "...
  • Page 76 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 3A9A ...Repeated for Field Contact Input 23 " 3AA9 ...Repeated for Field Contact Input 24 " 3AB8 ...Repeated for Field Contact Input 25 " 3AC7 ...Repeated for Field Contact Input 26 "...
  • Page 77 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 3F06 Field Unit RTD 1 Origin 0 to 24 F253 0 (None) " 3F07 Field Unit RTD 1 Type 0 to 2 F259 0 (100 Ohm Nickel) "...
  • Page 78 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default Passwords (Read Only) 4028 Command Password Status 0 to 1 F102 0 (Disabled) " 4029 Setting Password Status 0 to 1 F102 0 (Disabled) Passwords (Read/Write Setting) 402A Command Password Access Timeout 5 to 480...
  • Page 79 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 406C Charging Current Compensation 0 to 1 F102 0 (Disabled) " 406D Local Relay ID 0 to 255 F001 " 406E Maximum Channel Asymmetry 0 to 10 F001 "...
  • Page 80: Iec 60870-5-104

    MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 40AD Ethernet Operation Mode 0 to 1 F192 1 (Full- Duplex) " 40AE DNP Current Scale Factor 0 to 11 F660 2 (1) " 40AF DNP Voltage Scale Factor 0 to 11...
  • Page 81: Communication

    CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 411C Port 1 Function 0 to 1 F102 1 (Enabled) " 411D Port 2 Function 0 to 1 F102 1 (Enabled) " 411E Port 3 Function 0 to 1 F102 1 (Enabled)
  • Page 82 Oscillography (Read/Write Setting) C60, D30, D60, 41C0 Oscillography Number of Records 3 to 64 F001 F35, F60, G30, G60, M60, T35, B30, B90, C30, 41C0 Oscillography Number of Records 3 to 64 F001 C70, L30, L60, L90, N90 41C1 Oscillography Trigger Mode...
  • Page 83 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 42EA ...Repeated for User-Programmable LED 15 " 42ED ...Repeated for User-Programmable LED 16 " 42F0 ...Repeated for User-Programmable LED 17 " 42F3 ...Repeated for User-Programmable LED 18 "...
  • Page 84 4483 Ground CT 1 Secondary 0 to 1 F123 0 (1 A) " 4484 ...Repeated for CT Bank 2 B30, C60, C70, 4488 ...Repeated for CT Bank 3 D60, F35, F60, G30, G60, L60, L90, M60, N60, T35, T60 "...
  • Page 85 F400 " 458D Source 1 Auxiliary VT 0 to 63 F400 " 458E ...Repeated for Source 2 B30, C60, C70, 459C ...Repeated for Source 3 D60, F35, F60, G30, G60, L60, L90, M60, N60, T35, T60 " 45AA ...Repeated for Source 4...
  • Page 86 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default Transformer General (Read/Write Setting) G30, T35, T60 4630 Transformer Number of Windings 2 to 6 F001 " 4631 Transformer Phase Compensation 0 to 1 F160 0 (Internal (software)) "...
  • Page 87 0 (Disabled) " 476D Reserved 0 to 65535 F001 " 476E ...Repeated for Breaker 2 B30, C60, C70, 479C ...Repeated for Breaker 3 D60, F60, F35, L90, N60, T35, B30, C60, D60, 47CA ...Repeated for Breaker 4 F60, F35, L90,...
  • Page 88 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default B30, C60, C70, 4872 ...Repeated for Breaker 3 D60, F60, F35, L90, N60, T35, B30, C60, D60, 4873 ...Repeated for Breaker 4 F60, F35, L90,...
  • Page 89 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default Demand (Read/Write Setting) B30, C60, D60, 490A Demand Current Method 0 to 2 F139 0 (Thermal F35, F60, G60, Exponential) L60, L90, N60, " 490B...
  • Page 90 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 4E0B Raw Field Data AC4 Angle 0 to 0.1 degree F002 " 4E0C Raw Field Data AC5 Mag 0 to 0.001 0.001 F003 " 4E0E Raw Field Data AC5 Angle 0 to 0.1...
  • Page 91 58F0 ...Repeated for FlexLogic Timer 31 " 58F8 ...Repeated for FlexLogic Timer 32 Phase Time Overcurrent (Read/Write Grouped Setting) (2, 4, or 6 Modules) B30, C60, C70, 5900 Phase Time Overcurrent 1 Function 0 to 1 F102 0 (Disabled) D30, D60, F35,...
  • Page 92 Range Units Step Format Default " 5928 ...Repeated for Phase Time Overcurrent 3 B30, C60, C70, 593C ...Repeated for Phase Time Overcurrent 4 D60, F35, F60, L30, L60, L90, M60, N60, T35, B30, C60, C70, 5950 ...Repeated for Phase Time Overcurrent 5...
  • Page 93 Address Register name Range Units Step Format Default Neutral Time Overcurrent (Read/Write Grouped Setting) (2, 4, or 6 Modules) B30, C60, C70, 5B00 Neutral Time Overcurrent 1 Function 0 to 1 F102 0 (Disabled) D30, D60, F35, F60, G30, G60,...
  • Page 94 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default B30, C60, C70, 5C22 ...Repeated for Neutral Instantaneous D60, F35, F60, Overcurrent 3 L30, L60, L90, M60, N60, T60 " 5C33 ...Repeated for Neutral Instantaneous...
  • Page 95 ...Repeated for Ground Time Overcurrent 6 Ground Instantaneous Overcurrent (Read/Write Grouped Setting) (1, 2, 4, 6, 8, or 12 Modules) (B30 has 1 per CT bank for 6 modules, while others have 2 per CT bank for 12 modules) B30, C60, C70,...
  • Page 96 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 5E6D CT Fail 1 Block 0 to 4294967295 F300 " 5E6F CT Fail 1 Current Source 1 0 to 5 F167 0 (SRC 1) "...
  • Page 97 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default Stub Bus (Read/Write Grouped Setting) L30, L90 5F10 Stub Bus Function 0 to 1 F102 0 (Disabled) " 5F11 Stub Bus Disconnect 0 to 4294967295 F300 "...
  • Page 98 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 5FB4 Setting Group 6 Name F203 (none) Current Differential 87L (Read/Write Grouped Setting) L30, L90 6000 87L Current Differential Function 0 to 1 F102 0 (Disabled) "...
  • Page 99 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 6074 Negative Sequence Voltage FD Block 0 to 4294967295 F300 " 6076 Negative Sequence Voltage FD Target 0 to 2 F109 0 (Self-reset) " 6077 Negative Sequence Voltage FD Events 0 to 1...
  • Page 100 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 60AB Positive-sequence Current Fault Detector 0 to 4294967295 F300 Block " 60AD Positive-sequence Current Fault Detector 0 to 2 F109 0 (Self-reset) Target " 60AE Positive-sequence Current Fault Detector 0 to 1...
  • Page 101 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 6112 87PC Trip Security 0 to 1 F534 0 (First Coincidence) " 6113 87PC Second Coincidence Timer 10 to 200 F001 " 6114 87PC Enhanced Stability Angle 40 to 180 °...
  • Page 102 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 6179 July Average Ambient Temperature -60 to 60 °C F002 " 617A August Average Ambient Temperature -60 to 60 °C F002 " 617B September Average Ambient Temperature -60 to 60 °C F002 "...
  • Page 103 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 6213 Autoreclose 1 Dead Time Shot 3 0 to 655.35 0.01 F001 " 6214 Autoreclose 1 Dead Time Shot 4 0 to 655.35 0.01 F001 "...
  • Page 104 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 6335 Bank Phase Overvoltage 1 Curve Time 1 to 10 0.01 F001 Multiplier " 6336 Bank Phase Overvoltage 1 Stage 1A Pickup 0.8 to 2 0.001 F001 1050 "...
  • Page 105 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 63C8 Negative Sequence Instantaneous 0 to 1 F102 0 (Disabled) Overcurrent 1 Events " 63C9 Reserved (8 items) 0 to 1 F001 " 63D1 ...Repeated for Negative Sequence Instantaneous OC 2 63E2...
  • Page 106 Bus Zone 1A Status (6 items 1A to 1F) 0 to 4294967295 F300 " 64C2 ...Repeated for Bus Zone 2 Bus Differential (Read/Write Grouped Setting) (2 or 6 Modules) B30, B90 64E0 Bus Zone 1 Function 0 to 1 F102 0 (Disabled) "...
  • Page 107 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 65A2 CT Trouble 1 Delay 1 to 60 F001 " 65A3 CT Trouble 1 Target 0 to 2 F109 0 (Self-reset) " 65A4 CT Trouble 1 Events 0 to 1 F102 0 (Disabled)
  • Page 108 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 65DE Power Swing Detect Middle Left Blinder 0.1 to 500 ohms 0.01 F001 10000 " 65DF Power Swing Detect Inner Right Blinder 0.1 to 500 ohms 0.01 F001...
  • Page 109 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 6646 Field Current -9999.999 to 0.001 F004 9999.999 " 6648 Field Current Units F206 "A" Accidental Energization (Read/Write Grouped Setting) G30, G60 6650 Accidental Energization Function 0 to 1 F102 0 (Disabled)
  • Page 110 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 6691 ...Repeated for Sensitive Directional Power Underpower (Read/Write Grouped Setting) (2 Modules) 66AA Underpower 1 Function 0 to 1 F102 0 (Disabled) " 66AB Underpower 1 Start Block Delay 0 to 600 0.01...
  • Page 111 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 66E7 Reserved (4 items) 0 to 65535 F001 Generator Unbalance (Read/Write Grouped Setting) G30, G60 66F0 Generator Unbalance Function 0 to 1 F102 0 (Disabled) "...
  • Page 112 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 672B Reserved (5 items) 0 to 65535 F001 Split Phase Protection (Read/Write Grouped Setting) G30, G60 6730 Split Phase Protection Function 0 to 1 F102 0 (Disabled) "...
  • Page 113 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 6775 Trip 1-Pole Input5 0 to 4294967295 F300 " 6777 Trip 1-Pole Input6 0 to 4294967295 F300 " 6779 Trip Reclose Input1 0 to 4294967295 F300 "...
  • Page 114 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 67D2 DUTT 1P Number of Communication Bits 0 to 2 F198 0 (1) " 67D3 DUTT RX1 0 to 4294967295 F300 " 67D5 DUTT RX2 0 to 4294967295 F300 "...
  • Page 115 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default Pilot Blocking (1P) (Read/Write Setting) D60, L90 6845 Blocking Scheme 1P Function 0 to 1 F102 0 (Disabled) " 6846 Block 1P Rx Coord Pickup Delay 0 to 65.535 0.001 F001 "...
  • Page 116 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 6888 Autoreclose Transfer 2 to 1 0 to 1 F126 0 (No) " 6889 Autoreclose Breaker 1 Fail Option 0 to 1 F081 0 (Continue) "...
  • Page 117 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 68C0 Directional Comparison Unblocking Rx4 0 to 4294967295 F300 " 68C2 Directional Comparison Unblocking Log4 0 to 4294967295 F300 " 68C4 Directional Comparison Unblocking Target 0 to 2 F109 0 (Self-Reset) "...
  • Page 118 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 6958 Reserved (8 items) F001 Motor Learned Data (Read/Write Setting) 6960 Motor Learned Data Starts to Learn 1 to 5 F001 " 6961 Motor Learned Data Calculation Period 1 to 90 minutes 1 F001...
  • Page 119 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 6A9C ...Repeated for RTD Input 16 " 6AB0 ...Repeated for RTD Input 17 " 6AC4 ...Repeated for RTD Input 18 " 6AD8 ...Repeated for RTD Input 19 "...
  • Page 120 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 6B20 ...Repeated for Undervoltage 5 " 6B2C ...Repeated for Undervoltage 6 " 6B38 ...Repeated for Undervoltage 7 " 6B44 ...Repeated for Undervoltage 8 " 6B50 ...Repeated for Undervoltage 9 "...
  • Page 121 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 6CC2 Isolator 1 Reset 0 to 4294967295 F300 " 6CC4 Isolator 1 Target 0 to 2 F109 0 (Self-reset) " 6CC5 Isolator 1 Events 0 to 1 F102 0 (Disabled)
  • Page 122 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 6ECC ...Repeated for Isolator 45 " 6ED8 ...Repeated for Isolator 46 " 6EE4 ...Repeated for Isolator 47 6EF0 ...Repeated for Isolator 48 Terminal Current (Read Only) (24 Modules) 6F00 Terminal Current 1 Magnitude 0 to 999999.999...
  • Page 123 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 6F6E ...Repeated for Terminal Current 2 " 6F70 ...Repeated for Terminal Current 3 " 6F72 ...Repeated for Terminal Current 4 " 6F74 ...Repeated for Terminal Current 5 "...
  • Page 124 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 7002 Breaker Failure 1 Current Supervision Amp 0.02 to 30 0.001 F001 1050 Supv Pickup " 7003 Breaker Failure 1 Current Supervision Amp 0.02 to 30 0.001 F001 1050 Hiset Pickup...
  • Page 125 MEMORY MAP Products Address Register name Range Units Step Format Default Phase Overvoltage (Read/Write Grouped Setting) (3 Modules) B30, C60, C70, 7040 Phase Overvoltage 1 Function 0 to 1 F102 0 (Disabled) D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T60 "...
  • Page 126 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default Breaker Failure (Read/Write Grouped Setting) (24 Modules) 7100 Breaker Failure 1 Function 0 to 1 F102 0 (Disabled) " 7101 Breaker Failure 1 Initiate 0 to 4294967295 F300 "...
  • Page 127 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 7460 ...Repeated for Breaker Failure 19 " 7490 ...Repeated for Breaker Failure 20 " 74C0 ...Repeated for Breaker Failure 21 " 74F0 ...Repeated for Breaker Failure 22 "...
  • Page 128 " 71F2 Distance Trip 0 to 1 F102 1 (Enabled) Phase Directional Overcurrent (Read/Write Grouped Setting) (1, 2, or 3 Modules) B30, C70, D30, 71FA Phase Directional Overcurrent 1 Function 0 to 1 F102 0 (Disabled) D60, F60, G30, G60, L30, L60, L90, M60, N60, "...
  • Page 129 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 7238 Neutral Directional Overcurrent 1 Target 0 to 2 F109 0 (Self-reset) " 7239 Neutral Directional Overcurrent 1 Block 0 to 4294967295 F300 " 723B Neutral Directional Overcurrent 1 Events 0 to 1...
  • Page 130 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default B30, C60, C70, 7300 Breaker 1 Arcing Amp Function 0 to 1 F102 0 (Disabled) D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, T35, T60 "...
  • Page 131 ...Repeated for Disconnect Switch 6 " 744E ...Repeated for Disconnect Switch 7 " 7473 ...Repeated for Disconnect Switch 8 B30, C60, C70, 7498 ...Repeated for Disconnect Switch 9 D60, F35, F60, L90, N60, T35, " 74BD ...Repeated for Disconnect Switch 10 "...
  • Page 132 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 7632 ...Repeated for Instantaneous Overcurrent " 763C ...Repeated for Instantaneous Overcurrent " 7646 ...Repeated for Instantaneous Overcurrent " 7650 ...Repeated for Instantaneous Overcurrent " 765A ...Repeated for Instantaneous Overcurrent "...
  • Page 133 ...Repeated for Disconnect Switch 6 " 7726 ...Repeated for Disconnect Switch 7 " 7727 ...Repeated for Disconnect Switch 8 B30, C60, C70, 7728 ...Repeated for Disconnect Switch 9 D60, F35, F60, L90, N60, T35, " 7729 ...Repeated for Disconnect Switch 10 "...
  • Page 134 ...Repeated for Disconnect Switch 6 " 7746 ...Repeated for Disconnect Switch 7 " 7747 ...Repeated for Disconnect Switch 8 B30, C60, C70, 7748 ...Repeated for Disconnect Switch 9 D60, F35, F60, L90, N60, T35, " 7749 ...Repeated for Disconnect Switch 10 "...
  • Page 135 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 7794 Thermal Protection 1 Events 0 to 1 F102 0 (Disabled) " 7795 Reserved (2 items) F001 " 7797 Repeated for Thermal Protection 2 Broken Conductor Detection (Read/Write Settings) (2 or 6 Modules) D30, D60, F35, 77AA...
  • Page 136 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 789F ...Repeated for PMU 4 " 78A4 ...Repeated for PMU 5 " 78A9 ...Repeated for PMU 6 Phasor Measurement Unit Test Values (Read/Write Setting) (1, 2, or 6 Modules) C60, D60, F60, 78AE PMU 1 Test Function...
  • Page 137 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 7A8D ...Repeated for Underfrequency 4 " 7A9C ...Repeated for Underfrequency 5 " 7AAB ...Repeated for Underfrequency 6 Thermal Model (Read/Write Grouped Setting) 7AE0 Thermal Model Function 0 to 1 F102 0 (Disabled)
  • Page 138 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 7B10 Speed 2 VD Acceleration Intersect at 1.5 to 20 × FLA 0.01 F001 Minimum Volts " 7B11 Speed 2 VD Overload Stall Current at 100% 1.5 to 20 ×...
  • Page 139 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 7B81 User Programmable Pushbutton 1 Events 0 to 1 F102 0 (Disabled) " 7B82 User Programmable Pushbutton 1 LED 0 to 4294967295 F300 Operand "...
  • Page 140 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 7E65 Hi-Z Event Count Time 5 to 180 F001 " 7E66 Hi-Z OC Protection Coord Timeout 10 to 200 seconds 1 F001 " 7E67 Hi-Z Phase OC Min Pickup 0.01 to 10 0.01...
  • Page 141 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default Distance Loop Impedance Actual Values (Read Only) D30, D60, G60, 7E94 AB Loop Resistance -2147483647 to F060 L60, L90, T60 2147483647 " 7E96 AB Loop Reactance -2147483647 to F060 2147483647...
  • Page 142 Auxiliary Overvoltage 1 Events 0 to 1 F102 0 (Disabled) " 7FA9 Reserved (8 items) 0 to 65535 F001 B30, C70, C60, 7FB1 ...Repeated for Auxiliary Overvoltage 2 D60, F35, F60, G30 G60, L90, M60, T60 2-122 UR FAMILY – COMMUNICATIONS GUIDE...
  • Page 143 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default B30, C70, F35, 7FC2 ...Repeated for Auxiliary Overvoltage 3 Frequency (Read Only) All except B90, 8000 Tracking Frequency 2 to 90 0.01 F001 Generic Comparator Settings (Read/Write Setting) (6 Modules)
  • Page 144 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 8196 Direct Analog Input 12 Value 0 to 2147483647 F060 " 8198 Direct Analog Input 13 Value 0 to 2147483647 F060 " 819A Direct Analog Input 14 Value 0 to 2147483647 F060 "...
  • Page 145 8364 ...Repeated for Switch 5 " 838D ...Repeated for Switch 6 EGD Fast Production Status (Read Only Non-Volatile and Read Only) B30, C30, C60, 83E0 EGD Fast Producer Exchange 1 Signature 0 to 65535 F001 F35, F60, G30, G60, M60, T35, "...
  • Page 146 CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default EGD Slow Production (Read/Write Setting) (2 Modules) B30, C30, C60, 8468 EGD Slow Producer Exchange 1 Function 0 to 1 F102 0 (Disabled) F35, F60, G30, G60, M60, T35, "...
  • Page 147 862B Breaker Failure 1 Breaker Status 2 Phase C 0 to 4294967295 F300 " 862D ...Repeated for Breaker Failure 2 B30, C60, C70, 865A ...Repeated for Breaker Failure 3 D60, F60, L90, B30, C60, D60, 8687 ...Repeated for Breaker Failure 4...
  • Page 148 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default Digital Elements (Read/Write Setting) (48 Modules) 8A00 Digital Element 1 Function 0 to 1 F102 0 (Disabled) " 8A01 Digital Element 1 Name F203 “Dig Element 1“...
  • Page 149 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 8D18 ...Repeated for Digital Element 37 " 8D2E ...Repeated for Digital Element 38 " 8D44 ...Repeated for Digital Element 39 " 8D5A ...Repeated for Digital Element 40 "...
  • Page 150 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 9015 ...Repeated for FlexElement 2 " 902A ...Repeated for FlexElement 3 " 903F ...Repeated for FlexElement 4 " 9054 ...Repeated for FlexElement 5 " 9069 ...Repeated for FlexElement 6 "...
  • Page 151 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default C60, D60, F35, 924C ...Repeated for Fault Report 2 F60, L30, L60, C60, D60, F35, 924E ...Repeated for Fault Report 3 F60, L90 C60, F35, L90 9250 ...Repeated for Fault Report 4 9252...
  • Page 152 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 9396 ...Repeated for DCmA Output 10 " 939C ...Repeated for DCmA Output 11 " 93A2 ...Repeated for DCmA Output 12 " 93A8 ...Repeated for DCmA Output 13 "...
  • Page 153 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 955C ...Repeated for Direct Input/Output 30 " 9568 ...Repeated for Direct Input/Output 31 " 9574 ...Repeated for Direct Input/Output 32 C30, N60 9580 ...Repeated for Direct Input/Output 33 "...
  • Page 154 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 9078 ...Repeated for Direct Input/Output 11 " 9084 ...Repeated for Direct Input/Output 12 " 9090 ...Repeated for Direct Input/Output 13 " 909C ...Repeated for Direct Input/Output 14 "...
  • Page 155 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 92AC ...Repeated for Direct Input/Output 58 " 92B8 ...Repeated for Direct Input/Output 59 " 92C4 ...Repeated for Direct Input/Output 60 " 92D0 ...Repeated for Direct Input/Output 61 "...
  • Page 156 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 94E0 ...Repeated for Direct Input/Output 105 " 94EC ...Repeated for Direct Input/Output 106 " 94F8 ...Repeated for Direct Input/Output 107 " 9504 ...Repeated for Direct Input/Output 108 "...
  • Page 157 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 9714 ...Repeated for Direct Input/Output 152 " 9720 ...Repeated for Direct Input/Output 153 " 972C ...Repeated for Direct Input/Output 154 " 9738 ...Repeated for Direct Input/Output 155 "...
  • Page 158 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 9948 ...Repeated for Direct Input/Output 199 " 9954 ...Repeated for Direct Input/Output 200 " 9960 ...Repeated for Direct Input/Output 201 " 996C ...Repeated for Direct Input/Output 202 "...
  • Page 159 2147483.647 " 991E FlexElement 16 Actual -2147483.647 to 0.001 F004 2147483.647 Breaker Restrike (Read/Write Setting) (2 or 3 Modules) B30, C60, C70, 9930 Breaker Restrike 1 Function 0 to 1 F102 0 (Disabled) D60, F35, F60, G60, L60, L90, M60, T60 "...
  • Page 160 0 (Disabled) " 993F Reserved (2 items) F002 " 9941 ...Repeated for Breaker Restrike 2 B30, C60, C70, 9952 ...Repeated for Breaker Restrike 3 F35, F60, T60 Teleprotection Inputs/Outputs Commands (Read/Write Command) All except B90, 99EF Teleprotection Clear Lost Packets...
  • Page 161 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 9B07 Capacitor Control 1 Set Local 2 0 to 4294967295 F300 " 9B09 Capacitor Control 1 Remote Control Enable 0 to 4294967295 F300 " 9B0B Capacitor Control 1 Local Control Enable 0 to 4294967295...
  • Page 162 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 9FFC ...Repeated for Direct Input 256 Automatic Voltage Regulator Settings (Read/Write) (3 Modules) 9C90 Automatic Voltage Regulator 1 Function 0 to 1 F102 0 (Disabled) "...
  • Page 163 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 9CEA Neutral Current Unbalance 1 Stage 4 0 to 5 0.001 F001 Pickup " 9CEB Neutral Current Unbalance 1 Stage 4 Slope 0 to 10 F001 "...
  • Page 164 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 9D61 Neutral Voltage Unbalance 1 Stage 3 0 to 600 0.01 F001 Pickup Delay " 9D62 Neutral Voltage Unbalance 1 Stage 4 0 to 600 0.01 F001 Pickup Delay...
  • Page 165 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " 9DD3 Phase Current Unbalance 1 Stage 2 Pickup 0 to 600 0.01 F001 1000 Delay " 9DD4 Phase Current Unbalance 1 Stage 3 Pickup 0 to 600 0.01 F001...
  • Page 166 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " 9E65 ...Repeated for Voltage Differential 2 " 9E8A ...Repeated for Voltage Differential 3 Charge Current Compensation Settings (Read/Write Grouped Setting) 9EF0 Charging Current Compensation Factor 0 to 1 F102 0 (Disabled)
  • Page 167 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " A00C ...Repeated for Direct Output 5 " A00F ...Repeated for Direct Output 6 " A012 ...Repeated for Direct Output 7 " A015 ...Repeated for Direct Output 8 "...
  • Page 168 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default Pilot Permissive Overreach Transfer Trip (POTT) Settings (Read/Write) A070 POTT Scheme Function 0 to 1 F102 0 (Disabled) " A071 POTT Permissive Echo 0 to 1 F102 0 (Disabled) "...
  • Page 169 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " A0C4 Summator 1 Pickup –2000000 to 0.001 F004 1000000 2000000 " A0C6 Summator 1 Hysteresis 0.1 to 50 F001 " A0C7 Summator 1 Input (6 items) 0 to 65535 F600 "...
  • Page 170 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " A30E Digital Counter 1 Down 0 to 4294967295 F300 " A311 Digital Counter 1 Preset –2147483647 to F004 2147483647 " A313 Digital Counter 1 Compare –2147483647 to F004 2147483647...
  • Page 171 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " A572 ...Repeated for PID 4 Volts Per Hertz (Read/Write Grouped Setting) (2 Modules) G30, G60, L90, A580 Volts Per Hertz 1 Function 0 to 1 F102 0 (Disabled) "...
  • Page 172 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " A814 POTT 1P Target 0 to 2 F109 0 (Self-reset) " A815 POTT 1P Event 0 to 1 F102 0 (Disabled) " A816 POTT 1P Echo Condition 0 to 4294967295 F300 "...
  • Page 173 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " A880 Blocking 1 Scheme 1P Rx3 0 to 4294967295 F300 " A882 Blocking 1 Scheme 1P Rx4 0 to 4294967295 F300 " A884 Blocking 1 1P Target 0 to 2 F109 0 (Self-reset)
  • Page 174 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " A904 Frequency Rate of Change 1 Pickup Delay 0 to 65.535 0.001 F001 " A905 Frequency Rate of Change 1 Reset Delay 0 to 65.535 0.001 F001 "...
  • Page 175 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " AA23 ...Repeated for IEC 61850 GOOSE Analog Input 6 " AA2A ...Repeated for IEC 61850 GOOSE Analog Input 7 " AA31 ...Repeated for IEC 61850 GOOSE Analog Input 8 "...
  • Page 176 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default IEC 61850 XCBR Configuration (Read/Write Settings) (6 Modules) All except B90 AB00 FlexLogic Operand for IEC 61850 0 to 4294967295 F300 XCBR.ST.Loc status " AB02 FlexLogic Operand for IEC 61850 XCBR 0 to 4294967295 F300...
  • Page 177 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " ABD2 ...Repeated for IEC 61850 GGIO4 Analog Input 15 " ABD9 ...Repeated for IEC 61850 GGIO4 Analog Input 16 " ABE0 ...Repeated for IEC 61850 GGIO4 Analog Input 17 "...
  • Page 178 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " ACDC ...Repeated for Contact Input 12 " ACE8 ...Repeated for Contact Input 13 " ACF4 ...Repeated for Contact Input 14 " AD00 ...Repeated for Contact Input 15 "...
  • Page 179 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " AF10 ...Repeated for Contact Input 59 " AF1C ...Repeated for Contact Input 60 " AF28 ...Repeated for Contact Input 61 " AF34 ...Repeated for Contact Input 62 "...
  • Page 180 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " B144 ...Repeated for Contact Input 106 " B150 ...Repeated for Contact Input 107 " B15C ...Repeated for Contact Input 108 " B168 ...Repeated for Contact Input 109 "...
  • Page 181 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " B24C ...Repeated for Received Analog 31 " B24E ...Repeated for Received Analog 32 IEC 61850 XSWI Configuration (Read/Write Setting) (24 Modules) All except B90 B250 FlexLogic Operand for IEC 61850 0 to 4294967295...
  • Page 182 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " B307 Wattmetric Ground Fault 1 Power Pickup 0.001 to 1.2 0.001 F001 " B308 Wattmetric Ground Fault 1 ECA 0 to 360 ° Lag F001 "...
  • Page 183 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " BAA2 ...Repeated for Virtual Input 16 " BAB2 ...Repeated for Virtual Input 17 " BAC2 ...Repeated for Virtual Input 18 " BAD2 ...Repeated for Virtual Input 19 "...
  • Page 184 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " BD92 ...Repeated for Virtual Input 63 " BDA2 ...Repeated for Virtual Input 64 Virtual Outputs (Read/Write Setting) (96 Modules) BDB2 Virtual Output 1 Name F636 “Virt Op 1 “...
  • Page 185 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " BFAA ...Repeated for Virtual Output 43 " BFB6 ...Repeated for Virtual Output 44 " BFC2 ...Repeated for Virtual Output 45 " BFCE ...Repeated for Virtual Output 46 "...
  • Page 186 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " C1DE ...Repeated for Virtual Output 90 " C1EA ...Repeated for Virtual Output 91 " C1F6 ...Repeated for Virtual Output 92 " C202 ...Repeated for Virtual Output 93 "...
  • Page 187 MEMORY MAP Products Address Register name Range Units Step Format Default Clear Records (Read/Write Setting) B30, C60, D60, C44E Clear Demand Operand 0 to 4294967295 F300 F35, F60, G60, L60, L90, N60, C60, D30, D60, C450 Clear Fault Reports Operand...
  • Page 188 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " C612 ...Repeated for Direct Output 7 " C615 ...Repeated for Direct Output 8 " C618 ...Repeated for Direct Output 9 " C61B ...Repeated for Direct Output 10 "...
  • Page 189 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " C69F ...Repeated for Direct Output 54 " C6A2 ...Repeated for Direct Output 55 " C6A5 ...Repeated for Direct Output 56 " C6A8 ...Repeated for Direct Output 57 "...
  • Page 190 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " C8C0 ...Repeated for Direct Input 13 " C8C4 ...Repeated for Direct Input 14 " C8C8 ...Repeated for Direct Input 15 " C8CC ...Repeated for Direct Input 16 "...
  • Page 191 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " C97C ...Repeated for Direct Input 60 " C980 ...Repeated for Direct Input 61 " C984 ...Repeated for Direct Input 62 " C988 ...Repeated for Direct Input 63 "...
  • Page 192 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " CB16 ...Repeated for Contact Output 3 " CB29 ...Repeated for Contact Output 4 " CB3C ...Repeated for Contact Output 5 " CB4F ...Repeated for Contact Output 6 "...
  • Page 193 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " CE93 ...Repeated for Contact Output 50 " CEA6 ...Repeated for Contact Output 51 " CEB9 ...Repeated for Contact Output 52 " CECC ...Repeated for Contact Output 53 "...
  • Page 194 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default IEC 61850 GGIO2 Control Configuration (Read/Write Setting) (64 Modules) D320 IEC 61850 GGIO2.CF.SPCSO1.ctlModel 0 to 2 F001 Value " D321 IEC 61850 GGIO2.CF.SPCSO2.ctlModel 0 to 2 F001 Value "...
  • Page 195 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " D33B IEC 61850 GGIO2.CF.SPCSO28.ctlModel 0 to 2 F001 Value " D33C IEC 61850 GGIO2.CF.SPCSO29.ctlModel 0 to 2 F001 Value " D33D IEC 61850 GGIO2.CF.SPCSO30.ctlModel 0 to 2 F001 Value...
  • Page 196 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " D357 IEC 61850 GGIO2.CF.SPCSO56.ctlModel 0 to 2 F001 Value " D358 IEC 61850 GGIO2.CF.SPCSO57.ctlModel 0 to 2 F001 Value " D359 IEC 61850 GGIO2.CF.SPCSO58.ctlModel 0 to 2 F001 Value...
  • Page 197 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " D478 ...Repeated for Synchrocheck 4 C60, D60, L90, D490 ...Repeated for Synchrocheck 5 N60, T60 " D4A8 ...Repeated for Synchrocheck 6 C60, D60, L90 D4C0 ...Repeated for Synchrocheck 7 "...
  • Page 198 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " D74B ...Repeated for Field Shared Output 12 " D75C ...Repeated for Field Shared Output 13 " D76D ...Repeated for Field Shared Output 14 " D77E ...Repeated for Field Shared Output 15 "...
  • Page 199 Step Format Default " DCD6 PMU 1 IDcode 1 to 65534 F001 " DCD7 PMU 1 STN F203 "GE-UR- PMU" " DCDF PMU 1 Source 0 to 5 F167 0 (SRC 1) " DCE0 PMU 1 Class 0 to 2...
  • Page 200 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default Phasor Measurement Unit Aggregator Control Block (Read/Write Setting) (1, 2, or 4 Modules) C60, D60, F60, E9C8 PMU Aggregator 1 Control Block SvEna 0 to 4294967295 F300 G60, L30, L90, N60, T60...
  • Page 201 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default C60, N60 EA4C ...Repeated for PMU 2 EA4E ...Repeated for PMU 3 " EA50 ...Repeated for PMU 4 " EA52 ...Repeated for PMU 5 " EA54 ...Repeated for PMU 6 Phasor Measurement Unit Voltage Trigger (Read/Write Setting) (1, 2, or 6 Modules)
  • Page 202 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Address Register name Range Units Step Format Default " EB13 ...Repeated for PMU 4 " EB20 ...Repeated for PMU 5 " EB2D ...Repeated for PMU 6 Phasor Measurement Unit df/dt Trigger (Read/Write Setting) (1, 2, or 6 Modules) C60, D60, F60, EB3A PMU 1 df/dt Trigger Function...
  • Page 203 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Address Register name Range Units Step Format Default " EBE6 PMU 1 Ib Calibration Angle -5 to 5 ° 0.05 F002 " EBE7 PMU 1 Ib Calibration Magnitude 95 to 105 F002 1000 "...
  • Page 204: Data Formats

    MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION 2.4.2 Data formats Last 16 bits are Year (xx/xx/YYYY): 1970 to 2106 in steps of 1. Enumeration refers to a list where we read a numeric value F052 but want to display it as more user-friendly text. An UR_UINT32 TIME in SR format (alternate format for F050) example is that F081 can be entered as F081 or something more convenient, such as Continue and Lockout.
  • Page 205 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP F086 F095 ENUMERATION: CONTACT INPUT DEFAULT STATE ENUMERATION: REDUCED VOLTAGE START TRANSITION MODE 0 = Off, 1 = On, 2= Latest/Off, 3 = Latest/On 0 = Current Only, 1 = Current or Timer, 2 = Current and Timer F088 ENUMERATION: 87PC PHASE COMPARISON SCHEME F096...
  • Page 206 0 = Definite Time, 1 = Inverse Time All except B90, C30 0 Phase Instantaneous Overcurrent 1 " Phase Instantaneous Overcurrent 2 F112 B30, C60, C70, D60, Phase Instantaneous Overcurrent 3 ENUMERATION: RS485 BAUD RATES F35, F60, G30, G60, L30, L60, L90, M60, Bitmask Value...
  • Page 207 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Element Products Element B30, C60, C70, D60, Phase Time Overcurrent 4 D30, D60, F60, G30, Neutral Directional Overcurrent 2 F35, F60, L30, L60, G60, L30, L60, L90, L90, M60, N60, T35, M60, T60...
  • Page 208 T35, T60 Restricted Ground Fault 5 L90, M60, T60 " Restricted Ground Fault 6 B30, C70, F35, T60 150 Auxiliary Overvoltage 3 C70, D30, D60, F35, Negative Sequence Instantaneous All except B90, C30, 151 Phase Overvoltage 1 F60, L30, L60, L90, Overcurrent 1 "...
  • Page 209 276 CT Fail 5 N60, T60 " 277 CT Fail 6 " 225 SRC2 VT Fuse Failure B30, C60, C70, D60, 280 Breaker Failure 1 C60, C70, D60, F35, 226 SRC3 VT Fuse Failure F60, G60, L30, L60, F60, G30, G60, L90,...
  • Page 210 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Element Products Element 324 Current unbalance 1 " 386 87PC positive-sequence current rate of change " 325 Current unbalance 2 All except B90 388 Selector switch 1 G30, G60 330 Third harmonic neutral undervoltage "...
  • Page 211 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Element Products Element " 442 Breaker Supervision 3 " 495 End of Fault Protection 24 " 443 Breaker Supervision 4 " 500 Undervoltage 1 " 444 Breaker Supervision 5 " 501 Undervoltage 2 "...
  • Page 212 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Element Products Element 560 Isolator 1 " 605 Isolator 46 " 561 Isolator 2 " 606 Isolator 47 " 562 Isolator 3 " 607 Isolator 48 " 563 Isolator 4 " 608 Breaker Fail 1 "...
  • Page 213 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Element Products Element " 650 IOC 19 " 707 Digital Element 16 " 651 IOC 20 " 708 Digital Element 17 " 652 IOC 21 " 709 Digital Element 18 " 653 IOC 22 "...
  • Page 214 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Element Products Element 748 Phasor Measurement Unit 3 Voltage " 804 Voltage differential 2 " 749 Phasor Measurement Unit 4 Voltage " 805 Voltage differential 3 " 750 Phasor Measurement Unit 5 Voltage "...
  • Page 215 926 Disconnect switch 7 " 878 RTD Input 30 " 927 Disconnect switch 8 " 879 RTD Input 31 B30, C60, C70, D60, 928 Disconnect switch 9 " 880 RTD Input 32 F35, F60, L90, N60, T35, T60 " 881 RTD Input 33 "...
  • Page 216 997 Remote RTD Input 7 " Cold load pickup 6 " 998 Remote RTD Input 8 " 999 Remote RTD Input 9 B30, C60, C70, D60, Breaker restrike 1 " Remote RTD Input 10 F35, F60, G60, L60, L90, M60, T60 "...
  • Page 217 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP F126 F141 ENUMERATION: NO/YES CHOICE ENUMERATION: SELF TEST ERRORS 0 = No, 1 = Yes Products Bitmask Error Any Self Tests " IRIG-B Failure F127 ENUMERATION: LATCHED OR SELF-RESETTING " Port 1 Offline " Port 2 Offline 0 = Latched, 1 = Self-Reset "...
  • Page 218 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Products Bitmask Error F146 " Module Failure 03 ENUMERATION: MISCELLANEOUS EVENT CAUSES " Module Failure 04 Products Bitmask Definition " Module Failure 05 Events Cleared " Module Failure 06 " Oscillography Triggered " Module Failure 07 "...
  • Page 219 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Products Bitmask Definition F151 " Slot M Module ENUMERATION: RTD SELECTION " Slot N Module Bitmask RTD# Bitmask RTD# Bitmask RTD# " Slot P Module NONE RTD 17 RTD 33 " Slot R Module RTD 1 RTD 18 RTD 34...
  • Page 220 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION 0 = 3-Pole, 1 = 1-Pole F172 ENUMERATION: SLOT LETTERS F160 Bitmask Slot Bitmask Slot Bitmask Slot Bitmask Slot ENUMERATION: TRANSFORMER PHASE COMPENSATION 0 = Internal (software), 1 = External (with CTs) F161 ENUMERATION: TRANSFORMER RATED WINDING TEMPERATURE RISE F173 0 = 55°C (oil), 1 = 65°C (oil), 2 = 80°C (dry), 3 = 115°C (dry),...
  • Page 221 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP F183 F190 ENUMERATION: AC INPUT WAVEFORMS ENUMERATION: SIMULATED KEYPRESS Bitmask Definition Bitma Keypress Bitma Keypress No key — use Reset 8 samples/cycle between real keys User 1 16 samples/cycle User 2 32 samples/cycle User 3 64 samples/cycle User-programmable key 1...
  • Page 222 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION F195 F208 ENUMERATION: SINGLE POLE TRIP MODE TEXT2: 2-CHARACTER ASCII TEXT 0 = Disabled, 1 = 3 Pole Only, 2 = 3 Pole & 1 Pole F209 TEXT65: 65-CHARACTER ASCII TEXT F196 ENUMERATION: NEUTRAL DIRECTIONAL OVERCURRENT OPERATING CURRENT F210 0 = Calculated 3I0, 1 = Measured IG...
  • Page 223 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Value IEC 61850 GOOSE Tx dataset F232 item ENUMERATION: CONFIGURABLE GOOSE Tx DATASET ITEMS MMXU1.MX.PF.phsB.cVal.mag.f Value IEC 61850 GOOSE Tx dataset MMXU1.MX.PF.phsC.cVal.mag.f item MMXU2.MX.TotW.mag.f None MMXU2.MX.TotVAr.mag.f GGIO1.ST.Ind1.q MMXU2.MX.TotVA.mag.f GGIO1.ST.Ind1.stVal MMXU2.MX.TotPF.mag.f GGIO1.ST.Ind2.q MMXU2.MX.Hz.mag.f GGIO1.ST.Ind2.stVal MMXU2.MX.PPV.phsAB.cVal.mag.f ↓...
  • Page 224 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Value IEC 61850 GOOSE Tx dataset Value IEC 61850 GOOSE Tx dataset item item MMXU3.MX.PPV.phsBC.cVal.mag.f MMXU4.MX.PhV.phsC.cVal.ang.f MMXU3.MX.PPV.phsBC.cVal.ang.f MMXU4.MX.A.phsA.cVal.mag.f MMXU3.MX.PPV.phsCA.cVal.mag.f MMXU4.MX.A.phsA.cVal.ang.f MMXU3.MX.PPV.phsCA.cVal.ang.f MMXU4.MX.A.phsB.cVal.mag.f MMXU3.MX.PhV.phsA.cVal.mag.f MMXU4.MX.A.phsB.cVal.ang.f MMXU3.MX.PhV.phsA.cVal.ang.f MMXU4.MX.A.phsC.cVal.mag.f MMXU3.MX.PhV.phsB.cVal.mag.f MMXU4.MX.A.phsC.cVal.ang.f MMXU3.MX.PhV.phsB.cVal.ang.f MMXU4.MX.A.neut.cVal.mag.f MMXU3.MX.PhV.phsC.cVal.mag.f MMXU4.MX.A.neut.cVal.ang.f MMXU3.MX.PhV.phsC.cVal.ang.f MMXU4.MX.W.phsA.cVal.mag.f MMXU3.MX.A.phsA.cVal.mag.f MMXU4.MX.W.phsB.cVal.mag.f MMXU3.MX.A.phsA.cVal.ang.f...
  • Page 225 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Value IEC 61850 GOOSE Tx dataset Value IEC 61850 GOOSE Tx dataset item item MMXU5.MX.W.phsA.cVal.mag.f MMXU6.MX.PF.phsA.cVal.mag.f MMXU5.MX.W.phsB.cVal.mag.f MMXU6.MX.PF.phsB.cVal.mag.f MMXU5.MX.W.phsC.cVal.mag.f MMXU6.MX.PF.phsC.cVal.mag.f MMXU5.MX.VAr.phsA.cVal.mag.f GGIO4.MX.AnIn1.mag.f MMXU5.MX.VAr.phsB.cVal.mag.f GGIO4.MX.AnIn2.mag.f MMXU5.MX.VAr.phsC.cVal.mag.f GGIO4.MX.AnIn3.mag.f MMXU5.MX.VA.phsA.cVal.mag.f GGIO4.MX.AnIn4.mag.f MMXU5.MX.VA.phsB.cVal.mag.f GGIO4.MX.AnIn5.mag.f MMXU5.MX.VA.phsC.cVal.mag.f GGIO4.MX.AnIn6.mag.f MMXU5.MX.PF.phsA.cVal.mag.f GGIO4.MX.AnIn7.mag.f MMXU5.MX.PF.phsB.cVal.mag.f GGIO4.MX.AnIn8.mag.f MMXU5.MX.PF.phsC.cVal.mag.f...
  • Page 226 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Value IEC 61850 GOOSE Tx dataset Value IEC 61850 GOOSE Rx dataset item item GGIO5.ST.UIntIn6.stVal GGIO3.MX.AnIn13.mag.f GGIO5.ST.UIntIn7.q GGIO3.MX.AnIn14.mag.f GGIO5.ST.UIntIn7.stVal GGIO3.MX.AnIn15.mag.f GGIO5.ST.UIntIn8.q GGIO3.MX.AnIn16.mag.f GGIO5.ST.UIntIn8.stVal GGIO3.MX.AnIn17.mag.f GGIO5.ST.UIntIn9.q GGIO3.MX.AnIn18.mag.f GGIO5.ST.UIntIn9.stVal GGIO3.MX.AnIn19.mag.f GGIO5.ST.UIntIn10.q GGIO3.MX.AnIn20.mag.f GGIO5.ST.UIntIn10.stVal GGIO3.MX.AnIn21.mag.f GGIO5.ST.UIntIn11.q GGIO3.MX.AnIn22.mag.f GGIO5.ST.UIntIn11.stVal GGIO3.MX.AnIn23.mag.f GGIO5.ST.UIntIn12.q...
  • Page 227 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Value IEC 61850 GOOSE Rx dataset Value Month item July GGIO3.ST.UIntIn11.stVal August GGIO3.ST.UIntIn12.q September GGIO3.ST.UIntIn12.stVal October GGIO3.ST.UIntIn13.q November GGIO3.ST.UIntIn13.stVal December GGIO3.ST.UIntIn14.q GGIO3.ST.UIntIn14.stVal F238 GGIO3.ST.UIntIn15.q ENUMERATION: REAL TIME CLOCK DAY (FOR EXAMPLE, DAY- GGIO3.ST.UIntIn15.stVal LIGHT SAVINGS TIME) GGIO3.ST.UIntIn16.q Value GGIO3.ST.UIntIn16.stVal...
  • Page 228 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION Value Description F243 U6/AC5..7 ENUMERATION: FIELD UNIT TYPE U7/AC1..3 0 = CC-05, 1 = CV-05, 2 = CC-01, 3 = CV-01 U7/AC5..7 U8/AC1..3 F244 U8/AC5..7 ENUMERATION: FIELD UNIT PROCESS CARD PORT 0 = H4a, 1 = H4b 2 = H3a, 3 = H3b, 4 = H2a, 5 = H2b, 6 = H1a, 7 = F248 ENUMERATION: BRICK AUX AC BANK ORIGIN Value...
  • Page 229 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP F254 F270 ENUMERATION: INCIPIENT CABLE FAULT MODE ENUMERATION: FAULT REPORT VT SUBSTITUTION Value Function Value Description Number of Counts None Counts per Window F255 ENUMERATION: CAPACITOR BANK GROUNDING F281 ENUMERATION: BREAKER/SWITCH PACKED STATES BIT POSI- Value Description TIONS...
  • Page 230 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION The FlexLogic BASE type is 14 bits and is combined with a 17-bit [66] PMU RECORDER OUT OF MEMORY descriptor and 1 bit for the protection element to form a 32-bit [68] PMU RECORDER STOPPED value.
  • Page 231 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP to input/output state 17 to 32 (if required). The third register indi- F519 cates input/output state with bits 0 to 15 corresponding to input/ output state 33 to 48 (if required). The fourth register indicates ENUMERATION: NON-VOLATILE LATCH input/output state with bits 0 to 15 corresponding to input/output 0 = Reset-Dominant, 1 = Set-Dominant...
  • Page 232 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION F530 F540 ENUMERATION: FRONT PANEL INTERFACE KEYPRESS ENUMERATION: PMU POST-FILTER Value Keypress Value Keypress Value Keypress Enumeration Filter None User PB 3 None Menu Enter User PB 4 10Hz/s<10Hz Message Up Message User PB 5 10Hz/s<20Hz Down 20Hz/s<10Hz...
  • Page 233 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP F548 F560 ENUMERATION: PMU COMMUNICATION PROTOCOL ENUMERATION: IN-ZONE TRANSFORMER CONNECTION 0 = NONE, 1 = 37.118, 2 = 90-5 Enumeration In-zone transformer connection None 0° lag F549 ENUMERATION: PMU PERFORMANCE CLASS 30° lag 60° lag 0 = None, 1 = M-CLASS, 2 = P-CLASS 90°...
  • Page 234 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION F601 F607 ENUMERATION: COM2 PORT USAGE ENUMERATION: OPEN POLE DETECTOR MODE Enumeration COM2 port usage Enumeration Open Pole Mode RS485 Accelerated RRTD Traditional GPM-F RRTD & GPM-F F608 ENUMERATION: OPEN POLE DETECTION FUNCTION F602 Enumeration Open Pole Detection ENUMERATION: RRTD BAUD RATE I AND V AND CBaux...
  • Page 235 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP F617 F623 ENUMERATION: LOGIN ROLES ENUMERATION: REAL-TIME CLOCK SYNCHRONIZING SOURCE CONFIGURATION Enumeration Role Enumeration Item None None Administrator PP/IRIG-B/PTP/Other Supervisor IRIG-B/PP/PTP/Other Engineer PP/PTP/IRIG-B/Other Operator Factory F624 ENUMERATION: REAL-TIME CLOCK SYNCHRONZING SOURCE F618 ACTUALS BITFIED: SECURITY STATUS INDICATOR Enumeration Item Has been activated, whether the password has been set.
  • Page 236 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION F629 F637 ENUMERATION: SCADA PROTOCOL TEXT20: 20 CHARACTER ASCII TEXT DISPLAYED TRUNCATED TO 6 CHARACTERS 0 = DNP 3.0, 1 = IEC 60870-5-104, 2 = IEC 60870-5-103 F639 F630 ENUMERATION: SCADA EVENT TIME BASE (DNP/104/103) ENUMERATION: IEC 103 ASDU TYPE 0 = UTC, 1 = LOCAL 0 = 3, 1 = 9...
  • Page 237 CHAPTER 2: MODBUS COMMUNICATION MEMORY MAP Enumeration Item F648 Modbus Security Count Bit 3 ENUMERATION: GRAPHICAL FRONT PANEL DATE FORMAT Enumeration Item F660 yyyy-mm-dd ENUMERATION: DNP SCALE dd-mmm-yy 0 = 0.01, 1 = 0.1, 2 = 1, 3 = 10, 4 = 100, 5 = 1000, 6 = 10000, yyyy/mm/dd 7 = 100000, 8 = 0.001, 9 = 1000000, 10 = 10000000, 11 = m/d/yyyy...
  • Page 238 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION 2-218 UR FAMILY – COMMUNICATIONS GUIDE...
  • Page 239: Iec 61850 Communication

    UR Family Chapter 3: IEC 61850 communication IEC 61850 communication This chapter outlines the IEC 61850 communications protocol. The IEC 61850 protocol applies when ordered with the product. Check your order code. 3.1 Overview 3.1.1 Introduction This section contains a description of IEC 61850, an International Electrotechnical Commission (IEC) series of documents entitled Communication Networks and Systems for Power Utility Automation.
  • Page 240 OVERVIEW CHAPTER 3: IEC 61850 COMMUNICATION Figure 3-1: IEC 61850 and device overview The Process block at the bottom of the figure represents power system components monitored and controlled by the IED, such as circuit breakers, disconnect switches, and current and voltage instrument transformers. These are connected typically through conventional copper wiring to IEDs, although the possibility exists with some IEDs for connection via Ethernet communications, such as IEC 61850 process bus.
  • Page 241: Abstract Communication Service Interface (Asci)

    CHAPTER 3: IEC 61850 COMMUNICATION OVERVIEW • Read/write services — These services allow a client IED to obtain a directory of a server’s signals and to read and write the server's signal values one at a time, or a few related values at a time. These services are implemented on a stack consisting of MMS, TCP, IP, and Ethernet protocols.
  • Page 242 OVERVIEW CHAPTER 3: IEC 61850 COMMUNICATION Figure 3-2: ASCI block The native IED signals (UR settings, FlexLogic operands FlexAnalog operands, and actual values) are assigned to entities known as Data Attributes (DAs). Data Attributes typically contain the value of a single signal, most often with a Boolean, Float or Enumerated value.
  • Page 243 CHAPTER 3: IEC 61850 COMMUNICATION OVERVIEW an implementing logical node is required to contain, and which data objects an implementing logical node can optionally contain. A logical node class also defines the name and CDC of each of its data objects. IEC 61850 7-4:2010 clause 6 defines the semantic of standard data object names.
  • Page 244: Datasets

    OVERVIEW CHAPTER 3: IEC 61850 COMMUNICATION The complete set of logical devices in an IED are combined into an entity at the next level up in the hierarchy known as a Server. Only one server exists in most IEDs, including UR devices, so a server can usually be considered synonymous with the IED.
  • Page 245: Txgoose

    CHAPTER 3: IEC 61850 COMMUNICATION OVERVIEW ldInst is the logical device instance name (Master, Prot, Ctrl, System, Meter or Gen) LNName is the logical node name, including prefix, class name, and instance number fc is the functional constraint (EnerVista UR Setup uses only ST and MX) doName is the data object name, including sub-data objects if any daName is the data attribute name, including sub-data attributes if any Figure 3-3: IEC 61850 DataSets...
  • Page 246 OVERVIEW CHAPTER 3: IEC 61850 COMMUNICATION To facilitate rapid processing in both the publisher and subscriber, the MMS/TCP/IP stacks are bypassed; GOOSE messages interface directly to the Ethernet layer. To avoid the publisher having to compose and send sequentially individual messages to each subscriber, multicast addressing is used whereby the network copies each transmitted GOOSE messages to all subscribers on the same VLAN.
  • Page 247: Rxgoose

    CHAPTER 3: IEC 61850 COMMUNICATION OVERVIEW Figure 3-5: IEC 61850 TxGOOSE panel 3.1.5 RxGOOSE The IEC 61850 standard does not contain a control block or equivalent for subscribing to GOOSE messages. The standard assumes that the subscriber has access to a description of the information model of the publisher, and from that can extract the information that it needs to subscribe.
  • Page 248: Reports

    OVERVIEW CHAPTER 3: IEC 61850 COMMUNICATION Figure 3-6: IEC 61850 RxGOOSE Messages panel The RxGOOSE MODE, RxGOOSE Dst MAC, RxGOOSE GoCBRef, ConfRev, and RxGOOSE Member settings must be correctly entered for GOOSE messages to be accepted. The RxGOOSE MODE setting enables the UR to receive GOOSE rather than R- GOOSE messages.
  • Page 249 CHAPTER 3: IEC 61850 COMMUNICATION OVERVIEW undergoing a change of state or value. Event messages contain only the values that have suffered events, reducing the bandwidth requirements of report services. Report services are intended for supervisory control and data acquisition (SCADA)-type applications, wherein transfer time is not as critical as in protection applications.
  • Page 250: Commands

    OVERVIEW CHAPTER 3: IEC 61850 COMMUNICATION the interval of periodic reports. OptFlds is a bitmapped value, wherein each bit specifies whether an optional particular field is to be included in the message: sequence-numer, report-time-stamp, reason-for-inclusion, data-set-name, data- reference, buffer-overflow, entryID, and/or conf-revision. 3.1.7 Commands IEC 61850 controls are complex.
  • Page 251 A UR SCL file has two Private elements. The first Private section contains all the settings not in a Public element. The second Private section contains an authentication code that allows the UR and UR Setup to determine if a non-GE tool has modified the first one.
  • Page 252 "B." The fourth line is a mandatory element that can be used by SCL tools to identify the specific configuration in this file and its version. <?xml version="1.0" encoding="UTF-8"?> <!--Created by GE Digital Energy UR 7.40 on Tue Dec 1 05:38:26 2015--> <SCL xmlns="http://www.iec.ch/61850/2003/SCL" xmlns:xsi="http://www.w3.org/2001/XMLSchema- instance" xsi:schemaLocation="http://www.iec.ch/61850/2003/SCL SCL.xsd" version="2007" revision="B"...
  • Page 253 IED name has the filler "TEMPLATE." The first element in the IED element at line 296 is the Private element that contains the UR settings that are not contained in Public elements. <IED type="L90" configVersion="7.40" desc="UR" name="Publisher" manufacturer="GE Multilin"> <Private type="GE_Digital_Energy_UR L90-UH7-HPH-F8L-H6R-M8L-P6S-U6L-W2H_7.40"><![CDATA[...
  • Page 254 OVERVIEW CHAPTER 3: IEC 61850 COMMUNICATION 13110 <DataSetDirectory/> 13111 <ConfDataSet max="18" maxAttributes="64"/> 13112 <ReadWrite/> 13113 <ConfReportControl max="48"/> 13114 <GetCBValues/> 13115 <ReportSettings cbName="Conf" datSet="Conf" rptID="Dyn/Conf" optFields="Dyn/Conf " bufTime="Dyn/Conf " trgOps="Dyn/Conf " intgPd="Dyn/Conf "/> 13116 <GSESettings datSet="Conf" appID="Conf"/> 13117 <ConfLNs fixPrefix="true" fixLnInst="true"/> 13118 <ConfLdName/>...
  • Page 255 CHAPTER 3: IEC 61850 COMMUNICATION OVERVIEW 13130 <FCDA ldInst="Prot" prefix="PhsIoc" lnClass="PIOC" lnInst="1" doName="Op" daName="general" fc="ST"/> 13131 </DataSet> 13132 <ReportControl name="BRCB01" intgPd="0" confRev="1" buffered="true" bufTime="0" indexed="false"> 13133 <TrgOps dchg="true" qchg="true" dupd="false" period="true" gi="true"/> 13134 <OptFields seqNum="true" timeStamp="true" dataSet="true" reasonCode="true" dataRef="true" bufOvfl="false" entryID="false" configRef="true"/> 13135 <RptEnabled max="1"/>...
  • Page 256: Configuring The Ur Using Scl

    IEDs interconnected via an Ethernet local area network. SCTs are available from a number of vendors. At present, GE does not market an SCT. In selecting an SCT, bear in mind that the SCT needs to understand how to use the particular SCL features used by each of the IEDs in the system;...
  • Page 257 CHAPTER 3: IEC 61850 COMMUNICATION CONFIGURING THE UR USING SCL Figure 3-8: Configuration for IEC 61850 The SCT begins by importing a collection of SCL files, including a System Specification Description (SSD) that describes the single line diagram and functions of the substation, and for each IED in the system an IED Capabilities Description (ICD) that describes the functional and engineering capabilities of an IED type.
  • Page 258 CONFIGURING THE UR USING SCL CHAPTER 3: IEC 61850 COMMUNICATION Figure 3-9: Creating ICD file An ICD file obtained from a UR 7.3 or later device or from EnerVista UR Setup software contains all of the settings in the device at their factory default values. Unlike some IEDs that use several files to contain a complete set of settings, UR- generated SCL files contain all of the device’s settings.
  • Page 259 CHAPTER 3: IEC 61850 COMMUNICATION CONFIGURING THE UR USING SCL • Configuring addressing and timing parameters of GOOSE messages • Adding datasets for publishing GOOSE messages • Configuring GOOSE subscription • Configuring addressing and timing parameters for reports • Adding datasets for reports •...
  • Page 260 CONFIGURING THE UR USING SCL CHAPTER 3: IEC 61850 COMMUNICATION lower level in the UR device/UR Setup/SCT chain be propagated up to the other levels as well. Changes made through the front panel can be propagated to EnerVista UR Setup using the traditional Add Device to Offline Window selection in the Online Window.
  • Page 261: Merge Scl File

    CHAPTER 3: IEC 61850 COMMUNICATION CONFIGURING THE UR USING SCL UR devices and EnerVista UR Setup automatically detect whether an imported CID file uses the G3 or the E3-2.0 model. UR devices do not generate CID files, they only make available a copy of the most recently received and accepted CID file. The model used when EnerVista UR Setup generates a CID file is determined by the Configuration Type setting.
  • Page 262: Configurable Logical Devices

    PROTOCOL IMPLEMENTATION CONFORMANCE STATEMENT (PICS) CHAPTER 3: IEC 61850 COMMUNICATION Selected IED — The order codes in the input files must match for a device to appear in the list here. The device name, order code, and firmware version of the device display. 61850 Settings —...
  • Page 263: Acsi Conformance Statement

    CHAPTER 3: IEC 61850 COMMUNICATION ACSI CONFORMANCE STATEMENT Table 3-2: PICS for A-profile support Profile description Client / subscriber Server / publisher Value / comments Client/Server A-Profile per IEC 61850 8 1 clause 6.2.2 GOOSE/GSE management A-Profile per IEC 61850 8 1 clause 6.3.2 GOOSE A-Profile per IEC 61850 8 1 clause 6.3.2 TimeSync A-Profile...
  • Page 264 ACSI CONFORMANCE STATEMENT CHAPTER 3: IEC 61850 COMMUNICATION Table 3-5: ACSI models conformance statement Client / subscriber Server / publisher Value / comments Logical device Logical node Data Data set Substitution Setting group control Reporting Buffered report control M7-1 sequence-number M7-2 report-time-stamp M7-3...
  • Page 265: Acsi Services Conformance Statement

    CHAPTER 3: IEC 61850 COMMUNICATION ACSI CONFORMANCE STATEMENT Client / subscriber Server / publisher Value / comments GOOSE Control Block Sampled Value Control Block 3.4.3 ACSI services conformance statement The table contains the conformance statement. Table 3-6: ACSI services conformance statement Client / subscriber Server / publisher Comments Server (IEC 61850-7-2 clause 7) ServerDirectory...
  • Page 266 ACSI CONFORMANCE STATEMENT CHAPTER 3: IEC 61850 COMMUNICATION Client / subscriber Server / publisher Comments SetBRCBValues Unbuffered report control block (URCB) Report S27-1 data-change (dchg) S27-2 qchg-change (qchg) S27-3 data-update (dupd) GetURCBValues SetURCBValues Logging (IEC 61850-7-2 clause 17) Log control block GetLCBValues SetLCBValues QueryLogByTime...
  • Page 267: Model Implementation Conformance Statement (Mics)

    Where the extended data object is defined in IEC 61850 7 4, its value is "IEC 61850-7-4:2007A". Otherwise, it has the value "GE Multilin UR Namespace:2015A" and is defined in the GE Namespace subsection of this section. These data attributes are readable via MMS services.
  • Page 268: Master (Root) Logical Device

    MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Table 3-8: Typical Quality data attribute values in UR devices Containing Any minor logical node's validity test detailQual source operatorblocked error Beh.stVal (FlexLogic operand) good false process false questionable false process false on-blocked...
  • Page 269 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) The logical devices in UR family devices are arranged in a hierarchy, with the Master logical device as the root logical device and all other implemented logical devices direct descendants. The effect of this arrangement is that the scope of certain items in the Master logical device includes the entire hierarchy, as outlined in the following table.
  • Page 270 Type FC UR Name Description R/W/C PhyNam This physical device’s name plate vendor VISIBLE DC “GE Multilin” swRev VISIBLE DC Firmware revision, e.g. “7.30” serNum VISIBLE DC The serial number of this unit . model VISIBLE DC The order code of this unit .
  • Page 271 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: LPHD1LDevice inst: MasterUR element: data obj. data attribute Type FC UR Name Description R/W/C RsStat Mapped to command CLEAR ALL RELAY R/Ctrl pulseConf ig PulseConf ig pulseConf ig ENUMERATED 0 (pulse) pulseConf ig.onD INT32 0 indicates the duration is locally...
  • Page 272 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: LPHD1LDevice inst: MasterUR element: data obj. data attribute Type FC UR Name Description R/W/C EqpMismat EQUIPMENT MISMATCH operand stVal BOOLEAN EQUIPMENT MISMATCH FlexErrTkn FLEXLOGIC ERR TOKEN operand stVal BOOLEAN FLEXLOGIC ERR TOKEN IrigbFail IRIG-B FAILURE operand...
  • Page 273 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) 3.5.1.4 GOOSE subscription monitor (LGOS) LGOS is instantiated in all UR family devices. See the G2 implementation model for GOOSE configuration via SCL section on page 3-237 for descriptions of data objects MAC, APPID, GoDatSetRef, GoID, ConfRev and InRefδδ.
  • Page 274 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: <configured GGIO2 LDevice inst: Master UR element: Generic controllable single point prefix>GGIO2 data obj. data attribute Type FC UR Name Description R/W/C stVal BOOLEAN FlexLogic operand Virt Ip ψ On pulseConfig PulseConfig pulseConfig...
  • Page 275: Protection (Prot) Logical Device

    CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: <configured GGIO4 LDevice inst: Master UR element: FlexAnalog Operand Interface functionality prefix>GGIO4 data obj. data attribute Type FC UR Name Description R/W/C instMag.f FLOAT32 the operand selected by setting ANALOG IN ψ...
  • Page 276 ObjectReference SP source GoCB of input if via GOOSE 3.5.2.3 Auxiliary overvoltage (AuxOv) This element is instantiated in the following products: B30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, T60. 3-38 UR FAMILY – COMMUNICATIONS GUIDE...
  • Page 277 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Table 3-20: Auxiliary overvoltage data objects LNName: AuxOvPTOV# LDevice inst: Prot UR element: Auxiliary Overvoltage element # functions data obj. data attribute Type FC UR Name Description R/W/C AUX OV# PKP operands (including individual three phases) general BOOLEAN...
  • Page 278 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Table 3-23: B90 breaker failure logic data objects LNName: B_BFaiRBRF# LDevice inst: Prot UR element: B90 BREAKER FAILURE logic element data obj. data attribute Type FC UR Name Description R/W/C OpEx BKRFAIL # TRIP OP operand general...
  • Page 279 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: B_BFaiRBRF# LDevice inst: Prot UR element: B90 BREAKER FAILURE logic element data obj. data attribute Type FC UR Name Description R/W/C setSrcRef ObjectReference SP BF# AMP LOSET OP C for group reference to the data attribute to input γ.
  • Page 280 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: B_DifPDIF# LDevice inst: Prot UR element: B90 Bus zone # differential element function data obj. data attribute Type FC UR Name Description R/W/C instCVal.mag.f FLOAT32 BUS ZONE # REST current magnitude instCVal.ang.f FLOAT32...
  • Page 281 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: B_EfpPIOC# LDevice inst: Prot UR element: B90 End fault protection element # function data obj. data attribute Type FC UR Name Description R/W/C setSrcRef ObjectReference SP EFP# MANUAL CLOSE for group reference to the data attribute to input γ.
  • Page 282 ObjectReference SP source GoCB of input if via GOOSE 3.5.2.11 Breaker failure (BkrFa) This element is instantiated in the following products: B30, C60, C70, D60, F60, G60, L30, L60, L90, M60, T60. Table 3-29: Breaker failure data objects LNName: BkrFaRBRF#...
  • Page 283 ObjectReference SP source GoCB of input if via GOOSE 3.5.2.12 Breaker flashover (FlshOv) This element is instantiated in the following products: B30, C60, C70, D60, F35, F60, G60, L60, L90, M60, T60. Table 3-30: Breaker flashover data objects LNName: FlshOvPIOC#...
  • Page 284 ObjectReference SP source GoCB of input if via GOOSE 3.5.2.13 Bus differential (BusDif) This element is instantiated in the following products: B30. Table 3-31: B30 bus differential data objects LNName: BusDifPDIF# LDevice inst: Prot UR element: Bus Differential element # (ANSI 87B) data obj.
  • Page 285 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: BusDifPDIF# LDevice inst: Prot UR element: Bus Differential element # (ANSI 87B) data obj. data attribute Type FC UR Name Description R/W/C stVal BOOLEAN BUS # SAT θ DifAClc Phase differential currents phsθ...
  • Page 286 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Table 3-32: C70 capacitor bank phase overvoltage function data objects LNName: CPhOvPTOV# LDevice inst: Prot UR element: BANK OVERVOLTAGE element # data obj. data attribute Type FC UR Name Description R/W/C BANK OV # PKP operands (including individual three phases), which indicates...
  • Page 287 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: CPhOvPTOV# LDevice inst: Prot UR element: BANK OVERVOLTAGE element # data obj. data attribute Type FC UR Name Description R/W/C phsC.cVal Vector phsC.cVal.mag.f FLOAT32 instCVal.mag.f deadbanded phsC.units Unit phsC.units.SIUnit ENUMERATED 1, the code for dimensionless (per unit) phsC.units ENUMERATED...
  • Page 288 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Table 3-35: Compensated overvoltage stage data objects LNName: CmpOvPTOV$ LDevice inst: Prot UR element: Compensated Overvoltage stage $ data obj. data attribute Type FC UR Name Description R/W/C COMP OV STG$ PKP operand general BOOLEAN COMP OV STG$ PKP...
  • Page 289 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: AmpUnbPTOC# LDevice inst: Prot UR element: Amp Unbalance element data obj. data attribute Type FC UR Name Description R/W/C AMP UNBALANCE # OP operand general BOOLEAN AMP UNBALANCE # OP AMP UNBALANCE # DPO operand stVal BOOLEAN...
  • Page 290 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: DUTT_PSCH1 LDevice inst: Prot UR element: Direct Under-reaching Transfer Trip element data obj. data attribute Type FC UR Name Description R/W/C setSrcCB ObjectReference SP source GoCB of input if via GOOSE InRef3 DUTT RX3 setting.
  • Page 291 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: DCB_PSCH1 LDevice inst: Prot UR element: Directional Comparison Blocking element data obj. data attribute Type FC UR Name Description R/W/C setSrcCB ObjectReference SP source GoCB of input if via GOOSE InRef4 BLOCK SCHEME RX4 setting.
  • Page 292 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: DCB1_PSCH1 LDevice inst: Prot UR element: Directional Comparison Blocking1 element data obj. data attribute Type FC UR Name Description R/W/C setSrcRef ObjectReference SP BLK1 SCHME DIR REV3 reference to the data attribute to input setSrcCB ObjectReference SP source GoCB of input if via GOOSE...
  • Page 293 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: DCB3_PSCH1 LDevice inst: Prot UR element: Directional Comparison Blocking3 element data obj. data attribute Type FC UR Name Description R/W/C setSrcCB ObjectReference SP source GoCB of input if via GOOSE InRef12 DCB3 SCHME DIR REV2 setting.
  • Page 294 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: DCUB_PSCH1 LDevice inst: Prot UR element: Directional Comparison Unblocking element data obj. data attribute Type FC UR Name Description R/W/C setSrcRef ObjectReference SP GND DIR O/C REV Reference to the data attribute to input R/C setSrcCB ObjectReference SP Source GoCB of input if via GOOSE...
  • Page 295 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Table 3-44: Field current undercurrent data objects LNName: FldAmpPTUC1 LDevice inst: Prot UR element: FIELD GROUND element under current functions data obj. data attribute Type FC UR Name Description R/W/C FIELD UC PKP operand general BOOLEAN...
  • Page 296 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: FldGnd0PHIZ1 LDevice inst: Prot UR element: FIELD GROUND INJ UC element functions data obj. data attribute Type FC UR Name Description R/W/C instMag.f FLOAT32 FIELD VOLTAGE AnalogueValue mag.f FLOAT32 instMag.f deadbanded units Unit...
  • Page 297 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Table 3-46: Field ground protection stage 1 objects LNName: FldGnd1PHIZ1 LDevice inst: Prot UR element: FIELD GROUND element stage 1 functions data obj. data attribute Type FC UR Name Description R/W/C FIELD GND STG1 PKP operand general...
  • Page 298 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: RteHzPFRC# LDevice inst: Prot UR element: Frequency Rate of Change element # data obj. data attribute Type FC UR Name Description R/W/C BlkRef1 FREQ RATE # BLOCK setting. setSrcRef ObjectReference SP FREQ RATE # BLOCK.
  • Page 299 GoCB of input if via GOOSE 3.5.2.28 Ground instantaneous overcurrent (GndIoc) This element is instantiated in the following products: B30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60. Table 3-52: Ground instantaneous overcurrent data objects...
  • Page 300 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: GndTocPTOC# LDevice inst: Prot UR element: Ground Time Overcurrent element# data obj. data attribute Type FC UR Name Description R/W/C GROUND TOC# OP operand general BOOLEAN GROUND TOC# OP GROUND TOC# DPO operand stVal BOOLEAN...
  • Page 301 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: HPOTT_PSCH1 LDevice inst: Prot UR element: Hybrid Permissive Over-reaching Transfer Trip element data obj. data attribute Type FC UR Name Description R/W/C setSrcRef ObjectReference SP HYB POTT RX2 Reference to the data attribute to input R/C setSrcCB ObjectReference SP Source GoCB of input if via GOOSE...
  • Page 302 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: LinDfPDIF1 LDevice inst: Prot UR element: Line Differential element (ANSI 87L) phase and general functions data obj. data attribute Type FC UR Name Description R/W/C PFLLfail 87L DIFF PFLL FAIL operand, which becomes on when the differential element’s phase and frequency lock loop (PFLL) has failed.
  • Page 303 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: LinDfPDIF1 LDevice inst: Prot UR element: Line Differential element (ANSI 87L) phase and general functions data obj. data attribute Type FC UR Name Description R/W/C phsθ phsθ.instCVal Vector phsθ.instCVal.mag FLOAT32 Iθ...
  • Page 304 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: LinDfPDIF1 LDevice inst: Prot UR element: Line Differential element (ANSI 87L) phase and general functions data obj. data attribute Type FC UR Name Description R/W/C neut.cVal.mag.f FLOAT32 IG RESTR. CURRENT magnitude, in primary amps, with deadband neut.units Unit...
  • Page 305 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Table 3-56: Line current differential local terminal current data objects LNName: LinDf0MMXU1 LDevice inst: Prot UR element: Line Differential element (ANSI 87L) – local terminal current function data obj. data attribute Type FC UR Name Description...
  • Page 306 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: LinDf2MMXU1 LDevice inst: Prot UR element: Line Differential element (ANSI 87L) – terminal 2 current function data obj. data attribute Type FC UR Name Description R/W/C phsθ.instCVal Vector phsθ.instCVal.mag FLOAT32 TERMINAL 2 Iθ...
  • Page 307 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 3.5.2.34 Loss of excitation (LosExc) This element is instantiated in the following products: G30, G60.
  • Page 308 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 Table 3-62: Loss of excitation stage 1 objects...
  • Page 309 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Table 3-64: Mechanical jam data objects LNName: MecJamPMSS1 LDevice inst: Prot UR element: MECHANICAL JAM element data obj. data attribute Type FC UR Name Description R/W/C MECHANICAL JAM PKP operand general BOOLEAN MECHANICAL JAM PKP...
  • Page 310 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: MAccTmPMSS1 LDevice inst: Prot UR element: Acceleration Time element data obj. data attribute Type FC UR Name Description R/W/C instMag AnalogueValue instMag.f FLOAT32 START ζ PEAK CURRENT Analogue Value MX mag.f FLOAT32 instMag.f on deadband...
  • Page 311 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: MotThmPTTR1 LDevice inst: Prot UR element: THERMAL MODEL element data obj. data attribute Type FC UR Name Description R/W/C Restart MOTOR RESTART operand stVal BOOLEAN MOTOR RESTART Offline MOTOR OFFLINE operand stVal BOOLEAN MOTOR OFFLINE...
  • Page 312 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: MotThmPTTR1 LDevice inst: Prot UR element: THERMAL MODEL element data obj. data attribute Type FC UR Name Description R/W/C instMag.f FLOAT32 THERMAL LOCKOUT TIME Analogue Value MX mag.f FLOAT32 instMag.f on deadband exception units...
  • Page 313 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Table 3-67: Negative sequence directional overcurrent data objects LNName: NegDocRDIR# LDevice inst: Prot UR element: Negative sequence Directional Overcurrent element # data obj. data attribute Type FC UR Name Description R/W/C NEG DIR OC# FWD or NEG DIR OC# REV operands, which becomes On when...
  • Page 314 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION NEG SEQ OV # DPO operand, which is the inverse of NEG SEQ OV PKP stVal BOOLEAN NEG SEQ OV # DPO BlkRefγ NEG SEQ OV # BLK setting for setting group γ.
  • Page 315 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: NeAUnPTOC# LDevice inst: Prot UR element: Neutral Current Unbalance element # data obj. data attribute Type FC UR Name Description R/W/C CompAop Comp Iop in per unit instMag AnalogueValue instMag.f FLOAT32 Comp Iop...
  • Page 316 CHAPTER 3: IEC 61850 COMMUNICATION 3.5.2.44 Neutral instantaneous overcurrent (NeuIoc) This element is instantiated in the following products: B30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T60. Table 3-74: Neutral instantaneous overcurrent data objects...
  • Page 317 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: NeuTocPTOC# LDevice inst: Prot UR element: Neutral Time Overcurrent element # data obj. data attribute Type FC UR Name Description R/W/C general BOOLEAN NEUTRAL TOC# OP NEUTRAL TOC# DPO operand stVal BOOLEAN NEUTRAL TOC# DPO...
  • Page 318 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: NuVUnPTOV# LDevice inst: Prot UR element: Neutral Voltage Unbalance element # data obj. data attribute Type FC UR Name Description R/W/C units.SIUnit ENUMERATED units.multiplier ENUMERATED INT32U NuVUnPTOV#.BusV0.db R/W/C dbAng INT32U NuVUnPTOV#.BusV0.dbAng R/W/C...
  • Page 319 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 3.5.2.48 Open pole detector (OpnPl) This element is instantiated in the following products: C60, D60, L60, L90.
  • Page 320 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Table 3-81: Overfrequency data objects LNName: OvHzPTOF# LDevice inst: Prot UR element: Overfrequency element # data obj. data attribute Type FC UR Name Description R/W/C OVERFREQ # PKP operand which indicates Op will operate when delay expires.
  • Page 321 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: POTT_PSCH1 LDevice inst: Prot UR element: Permissive Over-reaching Transfer Trip element data obj. data attribute Type FC UR Name Description R/W/C setSrcCB ObjectReference SP Source GoCB of input if via GOOSE InRef3 POTT RX3 setting setSrcRef...
  • Page 322 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: POTT1_PSCH1 LDevice inst: Prot UR element: Permissive Over-reaching Transfer Trip 1 element data obj. data attribute Type FC UR Name Description R/W/C InRef2 Instantiated only on products with single pole tripping.
  • Page 323 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: PUTT_PSCH1 LDevice inst: Prot UR element: Permissive Under-reaching Transfer Trip element data obj. data attribute Type FC UR Name Description R/W/C general BOOLEAN PUTT OP phsA BOOLEAN PUTT TRIP A phsB BOOLEAN PUTT TRIP B...
  • Page 324 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: PhCmp1PDIF1 LDevice inst: Prot UR element: 87PC SCHEME (except FDH element specifics) and Charging Current Compensation element data obj. data attribute Type FC UR Name Description R/W/C setSrcCB ObjectReference SP source GoCB of input if via GOOSE 87PC PKP operand general...
  • Page 325 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Table 3-88: Phase comparison negative sequence voltage (excluding FDH) data objects LNName: PhCmp1PTOV1 LDevice inst: Prot UR element: Negative Sequence Voltage element (except FDH element specifics) as a part of Phase comparison function data obj.
  • Page 326 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Table 3-91: Phase comparison advanced fault detector rate of change of positive sequence current (for FDH) data objects LNName: PhCmp2FXOT1 LDevice inst: Prot UR element: RATE OF CHANGE OF POS SEQ CURRENT element specific to FDH element as a part of Phase comparison function data obj.
  • Page 327 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Table 3-93: Phase comparison advanced fault detector rate of change of negative sequence current (for FDH) data objects LNName: PhCmp4FXOT1 LDevice inst: Prot UR element: RATE OF CHANGE OF NEG SEQ CURRENT element specific to FDH element as a part of Phase comparison function data obj.
  • Page 328 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Table 3-97: Phase comparison advanced fault detector negative sequence current (for FDH) data objects LNName: PhCmp4PIOC1 LDevice inst: Prot UR element: Negative Sequence Current element specific to FDH element as a part of Phase comparison function data obj.
  • Page 329 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: PhAUnPTOC# LDevice inst: Prot UR element: Phase Current Unbalance element # data obj. data attribute Type FC UR Name Description R/W/C general BOOLEAN CUR BAL # PKP dirGeneral ENUMERATED 0, the code for unknown.
  • Page 330 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: PhAUnPTOC# LDevice inst: Prot UR element: Phase Current Unbalance element # data obj. data attribute Type FC UR Name Description R/W/C CompAPh Cm Iop in per unit for Ph A, B, and C phsA phsA.instCVal Vector...
  • Page 331 GoCB of input if via GOOSE 3.5.2.56 Phase directional (PhsDir) This element is instantiated in the following products: B30, C70, D30, D60, F60, G30, G60, L30, L60, L90, M60, N60, T60. Table 3-101: Phase directional data objects LNName: PhsDirRDIR#...
  • Page 332 GoCB of input if via GOOSE 3.5.2.58 Phase instantaneous overcurrent (PhsIoc) This element is instantiated in the following products: B30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60. Table 3-103: Phase instantaneous overcurrent data objects...
  • Page 333 GoCB of input if via GOOSE 3.5.2.59 Phase overvoltage (PhsOv) This element is instantiated in the following products: B30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T60. Table 3-104: Phase overvoltage data objects...
  • Page 334 BOOLEAN PHASE SELECT VOID 3.5.2.61 Phase time overcurrent (PhsToc) This element is instantiated in the following products: B30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60. Table 3-106: Phase time overcurrent data objects...
  • Page 335 GoCB of input if via GOOSE 3.5.2.62 Phase undervoltage (PhsUv) This element is instantiated in the following products: B30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T60. Table 3-107: Phase undervoltage data objects...
  • Page 336 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: PwrSwgRPSB1 LDevice inst: Prot UR element: Power Swing Detect element data obj. data attribute Type FC UR Name Description R/W/C StrOutgoin POWER SWING OUTGOING operand stVal BOOLEAN POWER SWING OUTGOING POWER SWING TRIP general BOOLEAN...
  • Page 337 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: RgDifPDIF# LDevice inst: Prot UR element: Restricted Ground Fault # function data obj. data attribute Type FC UR Name Description R/W/C net.cVal Vector net.cVal.mag.f FLOAT32 RGF# DIFF Igd magnitude, in primary amps, with deadband net.units Unit...
  • Page 338 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 3.5.2.66 RRTD (RRTDs) This element is instantiated in the following products: G60, M60, T60.
  • Page 339 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 3.5.2.67 Sensitive directional power (Sen) This element is instantiated in the following products: C60, D60, F60, G30, G60, L90, M60, N60, T60.
  • Page 340 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: SenPDOP# LDevice inst: Prot UR element: Sensitive Directional Power element # core functions data obj. data attribute Type FC UR Name Description R/W/C TotW DIRECTIONAL POWER # 3-PHASE, in primary watts instMag AnalogueValue...
  • Page 341 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 3.5.2.69 Split phase (SpltPh) This element is instantiated in the following products: G30, G60.
  • Page 342 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 3.5.2.70 Stator differential (SttDif) This element is instantiated in the following products: G60, M60.
  • Page 343 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: SttDifPDIF# LDevice inst: Prot UR element: Stator Differential Function data obj. data attribute Type FC UR Name Description R/W/C Satφ STATOR DIFF # SAT θ operand stVal BOOLEAN STATOR DIFF # SAT θ PhDirφ...
  • Page 344 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: StatrPHIZ1 LDevice inst: Prot UR element: 100% stator ground element core functions data obj. data attribute Type FC UR Name Description R/W/C units.multiplier ENUMERATED 0, the code for a multiplier of 1 INT32U StatrPHIZ1.
  • Page 345 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: SubHaPHIZ1 LDevice inst: Prot UR element: Sub-harmonic stator ground overcurrent functions data obj. data attribute Type FC UR Name Description R/W/C AnalogueValue mag.f FLOAT32 instMag.f deadbanded units Unit units.SIUnit ENUMERATED 29, the code for volts (W/A) units.multiplier...
  • Page 346 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Table 3-122: Third harmonic neutral undervoltage data objects LNName: Ha3NUvPTUV1 LDevice inst: Prot UR element: Third Harmonic Neutral Under Voltage element data obj. data attribute Type FC UR Name Description R/W/C 3RD HARM NTRL UV PKP operands general...
  • Page 347 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: PctDifPDIF1 LDevice inst: Prot UR element: Transformer Percent Differential function data obj. data attribute Type FC UR Name Description R/W/C general BOOLEAN logical OR of phsA, phsB & phsB dirGeneral ENUMERATED phsA...
  • Page 348 GoCB of input if via GOOSE 3.5.2.76 Trip bus (TrBus) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-125: Trip bus data objects...
  • Page 349 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: TrBusPTRC# LDevice inst: Prot UR element: Trip Bus element # data obj. data attribute Type FC UR Name Description R/W/C dirGeneral ENUMERATED 0, the code for unknown InRefαα TRIP BUS # INPUT α setting. setSrcRef ObjectReference SP TRIP BUS # INPUT α...
  • Page 350 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: TrOutPTRC1 LDevice inst: Prot UR element: Trip Output element data obj. data attribute Type FC UR Name Description R/W/C setSrcCB ObjectReference SP source GoCB of input if via GOOSE InRef02 START TMR Z2PH Inp2 setting.
  • Page 351 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) 3.5.2.79 Underfrequency (UnHz) This element is instantiated in the following products: D30, D60, F35, F60, G30, G60, L30, L90, M60, N60, T35, T60. Table 3-128: Underfrequency data objects LNName: UnHzPTUF# LDevice inst: Prot UR element: Underfrequency element # data obj.
  • Page 352 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Table 3-130: Voltage differential data objects LNName: VDifPDIF# LDevice inst: Prot UR element: Voltage Differential element # core functions data obj. data attribute Type FC UR Name Description R/W/C VOLT DIF # PKP operands (including individual three phases) general BOOLEAN...
  • Page 353 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Table 3-131: Voltage differential stage objects LNName: VDif$PDIF# LDevice inst: Prot UR element: Voltage Differential element # stage $ data obj. data attribute Type FC UR Name Description R/W/C VOLT DIF # STG$ PKP operands (including individual three phases) general BOOLEAN...
  • Page 354: Control (Ctrl) Logical Device

    MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: VtffGAPC# LDevice inst: Prot UR element: VT FUSE FAILURE # function data obj. data attribute Type FC UR Name Description R/W/C stVal BOOLEAN SRC# VT FUSE FAIL DPO Alm1 SRC# VT FF ALARM stVal BOOLEAN...
  • Page 355 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: LLN0 LDevice inst: Ctrl UR element: Nameplate information for the logical nodes data obj. data attribute Type FC UR Name Description R/W/C stVal ENUMERATED LLN0.Beh.stVal of the Master logical device Health Only instantiated in the Master logical device...
  • Page 356 BOOLEAN CT TROUBLE ZONE# OP 3.5.3.5 Breaker arcing current (CBArc) This element is instantiated in the following products: B30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, T35, T60. Table 3-139: Breaker arcing current data objects...
  • Page 357 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: CBArc0SCBR# LDevice inst: Ctrl UR element: BREAKER # ARCING CURRENT element data obj. data attribute Type FC UR Name Description R/W/C setSrcCB ObjectReference SP source GoCB of input if via GOOSE BlkRef1 BKR # ARC AMP BLOCK setting setSrcRef...
  • Page 358 R/W/C zeroDb INT32 3.5.3.6 Breaker restrike (BkrRtk) This element is instantiated in the following products: B30, C60, C70, D60, F35, F60, G60, L60, L90, M60, T60. Table 3-141: Breaker restrike data objects LNName: BkrRtkPIOC# LDevice inst: Ctrl UR element: Breaker Control element # data obj.
  • Page 359 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 InRef1...
  • Page 360 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 3.5.3.7 Broken conductor detection (BknCnd) This element is instantiated in the following products: D30, D60, F35, F60, L30, L60, L90.
  • Page 361 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 CompLevel...
  • Page 362 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: BknRotSVBR1 LDevice inst: Ctrl UR element: Broken Rotor Bar element data obj. data attribute Type FC UR Name Description R/W/C instMag.f FLOAT32 LOAD DEV. AT BRB CALC. AnalogueValue mag.f FLOAT32 instMag.f deadbanded units...
  • Page 363 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: BknRotSVBR1 LDevice inst: Ctrl UR element: Broken Rotor Bar element data obj. data attribute Type FC UR Name Description R/W/C mag.f FLOAT32 instMag.f deadbanded units Unit units.SIUnit ENUMERATED units.multiplier ENUMERATED INT32U BknRotSVBR1.MaxLoadDev.db...
  • Page 364 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: CapCtlGAPC# LDevice inst: Ctrl UR element: Capacitor control element # data obj. data attribute Type FC UR Name Description R/W/C AnalogueValue mag.f FLOAT32 instMag.f deadbanded units Unit units.SIUnit ENUMERATED 4, the code for time (s) units.multiplier ENUMERATED...
  • Page 365 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: CapCtlGAPC# LDevice inst: Ctrl UR element: Capacitor control element # data obj. data attribute Type FC UR Name Description R/W/C InRef24 CAP # LOCAL OPEN setting. setSrcRef ObjectReference SP CAP # LOCAL OPEN setting reference to the data attribute to input setSrcCB...
  • Page 366 ObjectReference SP source GoCB of input if via GOOSE 3.5.3.12 CT trouble (CtTb) This element is instantiated in the following products: B30, B90. Table 3-147: CT trouble data objects LNName: CtTbPIOC# LDevice inst: Ctrl UR element: CT Trouble Zone # element data obj.
  • Page 367 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: DgtzrGAPC# LDevice inst: Ctrl UR element: Digitizer # data obj. data attribute Type FC UR Name Description R/W/C zeroDb INT32U InRef1 DIGITIZER # SOURCE setting. setSrcRef ObjectReference SP DIGITIZER # SOURCE setting reference to the data attribute to input setSrcCB ObjectReference SP...
  • Page 368 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Table 3-150: Fault report data file data objects LNName: FltRFLOψψLDevice inst: CtrlUR element: Selected values from Fault Report Data f ile ψψ data obj. data attribute Type FC UR Name Description R/W/C FltZ...
  • Page 369 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: HzBnd$PTUF1 LDevice inst: Ctrl UR element: Frequency OOB Accumulator $ data obj. data attribute Type FC UR Name Description R/W/C instMag AnalogueValue instMag.f FLOAT32 FREQUENCY OOB BAND $ ACCUMULATION AnalogueValue mag.f FLOAT32...
  • Page 370 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: HiZPHIZ1 LDevice inst: Ctrl UR element: HI-Z function data obj. data attribute Type FC UR Name Description R/W/C phsC BOOLEAN HI-Z IOC C neut BOOLEAN HI-Z IOC N LossLd HI-Z LOSS OF LOAD operand including Phases A, B, C.
  • Page 371 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: HiZPHIZ1 LDevice inst: Ctrl UR element: HI-Z function data obj. data attribute Type FC UR Name Description R/W/C operTimeout INT32U AlgCap Hi-Z Oscillography Force Algorithm R/Ctrl Capture command pulseConfig PulseConfig pulseConfig ENUMERATED...
  • Page 372 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 3.5.3.18 Maximum starting rate (StrRte) This element is instantiated in the following products: M60.
  • Page 373 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 StrHrLOTm...
  • Page 374 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: PIDRegFPID# LDevice inst: Ctrl UR element: PID Regulator element # data obj. data attribute Type FC UR Name Description R/W/C mag.f FLOAT32 instMag.f deadbanded units Unit units.SIUnit ENUMERATED 1, the code for dimensionless units.multiplier ENUMERATED 0, the code for a multiplier of 1...
  • Page 375 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: PIDRegFPID# LDevice inst: Ctrl UR element: PID Regulator element # data obj. data attribute Type FC UR Name Description R/W/C setMag.i INT32 PID # PROPORTIONAL GAIN units Unit units.SIUnit ENUMERATED 1, the code for dimensionless units.multiplier...
  • Page 376 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 3.5.3.21 Restart delay (StrDl) This element is instantiated in the following products: M60.
  • Page 377 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) 3.5.3.22 Single pole autoreclose (Rec13p) This element is instantiated in the following products: C60, D60, L60, L90. Table 3-159: Single pole autoreclose data objects LNName: Rec13pRREC1 LDevice inst: Ctrl UR element: Autoreclose element data obj.
  • Page 378 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: Rec13pRREC1 LDevice inst: Ctrl UR element: Autoreclose element data obj. data attribute Type FC UR Name Description R/W/C ShotCnt4 AR SHOT CNT=4 operand stVal BOOLEAN AR SHOT CNT=4 ArMod1 AR MODE = 1 operand stVal BOOLEAN...
  • Page 379 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: Rec13pRREC1 LDevice inst: Ctrl UR element: Autoreclose element data obj. data attribute Type FC UR Name Description R/W/C setSrcRef ObjectReference SP BKR ONE POLE OPEN setting reference to the data attribute to input setSrcCB ObjectReference SP source GoCB of input if via GOOSE...
  • Page 380 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: SynChkRSYN# LDevice inst: Ctrl UR element: Synchrocheck element # (ANSI 25) data obj. data attribute Type FC UR Name Description R/W/C stVal BOOLEAN SYNC # V1 BELOW MAX LivV2 SYNC # V2 ABOVE MIN operand, which indicates that V1 is above the LivVal2 setting.
  • Page 381 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: SynChkRSYN# LDevice inst: Ctrl UR element: Synchrocheck element # (ANSI 25) data obj. data attribute Type FC UR Name Description R/W/C units.SIUnit ENUMERATED units.multiplier ENUMERATED INT32U SynChkRSYN#.DifHzClc.db R/W/C zeroDb INT32U DifAngClc SYNCHROCHECK # DELTA PHASE, in...
  • Page 382 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: SynChkRSYN# LDevice inst: Ctrl UR element: Synchrocheck element # (ANSI 25) data obj. data attribute Type FC UR Name Description R/W/C units.multiplier ENUMERATED INT32U SynChkRSYN#.V2Src.db R/W/C dbAng INT32U SynChkRSYN#.V2Src.dbAng R/W/C zeroDb INT32U...
  • Page 383 GoCB of input if via GOOSE 3.5.3.24 Thermal overload (ThmOvl) This element is instantiated in the following products: B30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, N60, T35, T60. Table 3-161: Thermal overload data objects...
  • Page 384 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: Rec3pRREC# LDevice inst: Ctrl UR element: Autoreclose element # functions data obj. data attribute Type FC UR Name Description R/W/C general BOOLEAN AR# CLOSE ShotCnt0 AR# SHOT CNT=0 operand stVal BOOLEAN AR# SHOT CNT=0...
  • Page 385 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) 3.5.3.26 Time between starts (TmBtwn) This element is instantiated in the following products: M60. Table 3-163: Time between starts data objects LNName: TmBtwnPMRI1 LDevice inst: Ctrl UR element: TIME BETWEEN STARTS element data obj.
  • Page 386 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION 3.5.3.28 Transformer hottest spot temperature (HPTmp) This element is instantiated in the following products: G30, T35, T60. Table 3-165: Hottest spot temperature data objects LNName: HPTmpSPTR1 LDevice inst: Ctrl UR element: Hottest-Spot Temperature Function data obj.
  • Page 387 ObjectReference SP source GoCB of input if via GOOSE 3.5.3.30 User-programmable fault report (UFlt) This element is instantiated in the following products: B30 B90 C70 G30 G60 M60 N60 T35 T60. Table 3-167: User-programmable fault report data objects LNName: UFltRFLO#...
  • Page 388 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 InRef2 FAULT # TRIGGER.
  • Page 389: System Logical Device

    CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: UFlt0RFLO1 LDevice inst: ctrl UR element: USER PROGRAMMABLE FAULT REPORT actual values and clear data obj. data attribute Type FC UR Name Description R/W/C units.SIUnit ENUMERATED units.multiplier ENUMERATED 3.5.4 System logical device The Ctrl logical device contains logical nodes that model UR power system devices: breakers, switches, CTs, and VTs, and including interface to these such as AC inputs and contact I/O.
  • Page 390 Common data objects and attributes table on page 3-29. 3.5.4.3 Breaker control (Bkr) This element is instantiated in the following products: B30, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60. Table 3-170: Breaker control data objects...
  • Page 391 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 InRef3 XCBR# INTERLOCK CLS setting.
  • Page 392 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: Bkr0XCBR# LDevice inst: System UR element: Breaker Control element # data obj. data attribute Type FC UR Name Description R/W/C phsC BOOLEAN BREAKER # TRIP C OpCls BREAKER # ON CMD (close) operand general BOOLEAN BREAKER # ON CMD...
  • Page 393 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 InRef2 BREAKER # BLK OPEN setting.
  • Page 394 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 InRef3 BREAKER # CLOSE setting.
  • Page 395 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 InRef6 BREAKER # OUT OF SV (out-of-service) setting.
  • Page 396 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 InRef2 BREAKER # φA/3P OPND setting”...
  • Page 397 GoCB of input if via GOOSE 3.5.4.5 Contact input interface (ConIn) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-175: Contact input data objects...
  • Page 398 Cont Ip φ On 3.5.4.6 Contact output interface (ConOut) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-176: Contact output data objects...
  • Page 399 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 InRef3 XSWI# INTERLOCK CLS setting.
  • Page 400 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 Table 3-179: Disconnect switch Disc0XSWI data objects...
  • Page 401 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: Disc0XSWI# LDevice inst: System UR element: Disconnect Control element # data obj. data attribute Type FC UR Name Description R/W/C TagOn SWITCH # TAG ON operand stVal BOOLEAN SWITCH # TAG ON TagOff SWITCH # TAG OFF operand stVal...
  • Page 402 VISIBLE If reference is external to this STRING255 IED, mapped to the source’s GOOSE control block, else empty string cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 InRef2 SWITCH # BLK OPEN setting.
  • Page 403 LDevice inst: System UR element: Disconnect Control element # data obj. data attribute Type FC UR Name Description R/W/C cdcNs VISIBLE Name of the GE Multilin STRING255 namespace at the time of this firmware release cdcName VISIBLE GEORG STRING255 InRef5 XSWI# ST.LOC OPERAND (local control)
  • Page 404 GEORG STRING255 3.5.4.8 Field contact inputs (FCIn) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-181: Field contact input data objects...
  • Page 405 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) 3.5.4.9 Field contact outputs (FCOut) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-182: Field contact output data objects...
  • Page 406 INT32U 3.5.4.12 Field units (FUnt) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-185: Field unit data objects LNName: FUnitGGIO1...
  • Page 407 FLOAT32 0.001 3.5.4.14 Latched outputs (FLOut) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-187: Latched output data objects LNName: FLOutGGIO1...
  • Page 408 CHAPTER 3: IEC 61850 COMMUNICATION 3.5.4.16 Shared outputs (FShOut) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-189: Shared output data objects...
  • Page 409 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) 3.5.4.18 Transducer DCmA outputs (TDCOut) This element is instantiated in the following products: B30, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60. Table 3-191: DCmA output data objects...
  • Page 410: Meter Logical Device

    MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Table 3-192: RTD input data objects LNName: TRTDsGGIO1 LDevice inst: System UR element: RTDs (Resistance Temperature Detectors) data obj. data attribute Type FC UR Name Description R/W/C AnInΘ RTD INPUT φ Temperature in degree Celsius instMag AnalogueValue...
  • Page 411 DataSet Member η 3.5.5.2 AC signal sources (ACsrc) This element is instantiated in the following products: B30, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60. Table 3-194: AC signal sources data objects...
  • Page 412 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: ACsrcMMXU# LDevice inst: Meter UR element: AC Source # data obj. data attribute Type FC UR Name Description R/W/C AnalogueValue mag.f FLOAT32 instMag.f deadbanded units Unit units.SIUnit ENUMERATED 61, the code for primary volt amperes (VA)R units.multiplier ENUMERATED 0, the code for a multiplier of 1...
  • Page 413 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: ACsrcMMXU# LDevice inst: Meter UR element: AC Source # data obj. data attribute Type FC UR Name Description R/W/C phsBC.instCVal FLOAT32 SRC # Phase BC Voltage .mag.f Magnitude phsBC.instCVal FLOAT32 SRC # Phase BC Voltage Angle UR range -180...+180 converted to 0...360 R...
  • Page 414 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: ACsrcMMXU# LDevice inst: Meter UR element: AC Source # data obj. data attribute Type FC UR Name Description R/W/C zeroDb INT32U voltage cut-off level. VcaRMS SRC # Phase CA Voltage RMS, in primary volts instMag AnalogueValue...
  • Page 415 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: ACsrcMMXU# LDevice inst: Meter UR element: AC Source # data obj. data attribute Type FC UR Name Description R/W/C phsC.units Unit phsC.units.SIUnit ENUMERATED 29, the code for primary volts (W/A) phsC.units ENUMERATED 0, the code for a multiplier of 1...
  • Page 416 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: ACsrcMMXU# LDevice inst: Meter UR element: AC Source # data obj. data attribute Type FC UR Name Description R/W/C phsA.cVal.ang.f FLOAT32 instCVal.ang.f deadbanded phsA.units Unit phsA.units.SIUnit ENUMERATED 5, the code for primary amperes phsA.units ENUMERATED 0, the code for a multiplier of 1...
  • Page 417 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: ACsrcMMXU# LDevice inst: Meter UR element: AC Source # data obj. data attribute Type FC UR Name Description R/W/C res.zeroDb INT32U current cut-off level. angRef ENUMERATED See UR product manual regarding FREQUENCY AND PHASE REFERENCE AaRMS SRC # Phase A Current RMS, in primary...
  • Page 418 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: ACsrcMMXU# LDevice inst: Meter UR element: AC Source # data obj. data attribute Type FC UR Name Description R/W/C cVal Vector cVal.mag.f FLOAT32 instCVal.mag.f deadbanded cVal.ang.f FLOAT32 instCVal.ang.f deadbanded units Unit units.SIUnit...
  • Page 419 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: ACsrcMMXU# LDevice inst: Meter UR element: AC Source # data obj. data attribute Type FC UR Name Description R/W/C phsA.cVal.mag.f FLOAT32 instCVal.mag.f deadbanded phsA.units Unit phsA.units.SIUnit ENUMERATED 63, the code for primary volt amperes reactive (VIsinΘ) phsA.units ENUMERATED...
  • Page 420 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: ACsrcMMXU# LDevice inst: Meter UR element: AC Source # data obj. data attribute Type FC UR Name Description R/W/C phsB.units ENUMERATED 0, the code for a multiplier of 1 .multiplier phsB.db INT32U...
  • Page 421 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Table 3-195: AC signal sources data object LNName: ACsrcMMXN# LDevice inst: Meter UR element: AC Source # data obj. data attribute Type FC UR Name Description R/W/C Vaux SRC # Auxiliary Voltage phasor, in primary volts instCVal Vector...
  • Page 422 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: ACsrcMMXN# LDevice inst: Meter UR element: AC Source # data obj. data attribute Type FC UR Name Description R/W/C units Unit units.SIUnit ENUMERATED 5, the code for primary amperes units.multiplier ENUMERATED 0, the code for a multiplier of 1...
  • Page 423 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: ACsrcMSQI# LDevice inst: Meter UR element: AC Source # data obj. data attribute Type FC UR Name Description R/W/C c3.units ENUMERATED 0, the code for a multiplier of 1 .multiplier c3.db INT32U...
  • Page 424 R/W/C zeroDb INT32U 3.5.5.4 Demand metering (DmdMtr) This element is instantiated in the following products: B30, C60, D60, F35, F60, G60, L60, L90, N60, T60. Table 3-200: Demand metering data objects LNName: DmdMtrMMTR# LDevice inst: Meter UR element: Signal Source # NAME Demand Metering data obj.
  • Page 425 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: DmdMtrMMTR# LDevice inst: Meter UR element: Signal Source # NAME Demand Metering data obj. data attribute Type FC UR Name Description R/W/C instMag AnalogueValue instMag.f FLOAT32 SRC # DMD IA AnalogueValue mag.f FLOAT32...
  • Page 426 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: DmdMtrMMTR# LDevice inst: Meter UR element: Signal Source # NAME Demand Metering data obj. data attribute Type FC UR Name Description R/W/C instMag AnalogueValue instMag.f FLOAT32 SRC # DMD W AnalogueValue mag.f FLOAT32...
  • Page 427 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: DmdMtrMMTR# LDevice inst: Meter UR element: Signal Source # NAME Demand Metering data obj. data attribute Type FC UR Name Description R/W/C units.SIUnit ENUMERATED 61 is unit for apparent power in volt- ampere units.multiplier ENUMERATED...
  • Page 428 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: EnrMtrMMTR# LDevice inst: Meter UR element: Signal Source # Energy Metering data obj. data attribute Type FC UR Name Description R/W/C RsStat only instantiated in EnrMtrMMTR1 R/Ctrl pulseConfig PulseConfig pulseConfig ENUMERATED 0 (pulse)
  • Page 429 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: HThdMHAI# LDevice inst: Meter UR element: Harmonics and THD metering data obj. data attribute Type FC UR Name Description R/W/C phsθ.zeroDb INT32U neut neut.instCVal Vector neut.instCVal.mag FLOAT32 SRC # Neutral THD magnitude neut.cVal Vector neut.cVal.mag.f...
  • Page 430 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: HThdMHAI# LDevice inst: Meter UR element: Harmonics and THD metering data obj. data attribute Type FC UR Name Description R/W/C numHar INT16U numCyc INT16U evalTm INT16U (1/ NOMINAL FREQUENCY) * 1000 frequency FLOAT32...
  • Page 431: General (Gen) Logical Device

    CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) LNName: HThdMHAI# LDevice inst: Meter UR element: Harmonics and THD metering data obj. data attribute Type FC UR Name Description R/W/C phsθHar(n).units Unit phsθHar(n).units ENUMERATED 1, the code for dimensionless .SIUnit (percentage) phsθHar(n).units...
  • Page 432 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: LLN0 LDevice inst: Gen UR element: Nameplate information for the logical nodes data obj. data attribute Type FC UR Name Description R/W/C setSrcRef ObjectReference SP For communications, mapped to reference to the data attribute to input Master ldName if not empty, otherwise to the concatenation...
  • Page 433 GoCB of input if via GOOSE 3.5.6.3 Annunciator (Anctr) This element is instantiated in the following products: B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60. Table 3-205: Annunciator data objects...
  • Page 434 GEORG STRING255 3.5.6.4 Control pushbuttons (CtlPsh) This element is instantiated in the following products: B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60. Table 3-206: Control pushbutton data objects LNName: CtlPshIHMI#...
  • Page 435 R/W/C zeroDb INT32U 3.5.6.6 Data logger (DatLog) This element is instantiated in the following products: B30, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60. Table 3-208: Data logger data objects LNName: DatLogRDRE1...
  • Page 436 CHAPTER 3: IEC 61850 COMMUNICATION 3.5.6.7 Digital counters (DigCnt) This element is instantiated in the following products: B30, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60. Table 3-209: Digital counter data objects...
  • Page 437 GoCB of input if via GOOSE 3.5.6.8 Digital elements (DigEl) This element is instantiated all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-210: Digital element data objects...
  • Page 438 GoCB of input if via GOOSE 3.5.6.10 FlexLogic, FlexLogic timers, and virtual outputs (FlxLgc) This element is instantiated all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60).
  • Page 439 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) 3.5.6.12 Oscillography (Osc) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-214: Oscillograph data objects...
  • Page 440 INT32U 3.5.6.13 Real time clock (TmClk) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-215: Real-time clock data objects LNName: TmClkLTMS1...
  • Page 441 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Table 3-216: Security data objects LNName: SecGSAL1 LDevice inst: Gen UR element: UR Basic Security element data obj. data attribute Type FC UR Name Description R/W/C AuthFail Number of authorisation failures: an association to the client could not be established due to an authorisation failure (fixed at 0)
  • Page 442 GoCB of input if via GOOSE 3.5.6.15 Selector switch (SelSw) This element is instantiated in the following products: B30, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60. Table 3-217: Selector switch data objects...
  • Page 443 GoCB of input if via GOOSE 3.5.6.16 Target resetting (TgtRs) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-218: Target resetting data objects...
  • Page 444 Year Actual Value 3.5.6.18 User-definable displays (UsrDs) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60) with enhanced or standard front panel. Table 3-220: User-definable displays data objects...
  • Page 445 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) 3.5.6.19 User-programmable pushbuttons (UsrPb) This element is instantiated in all UR products (B30, B90, C30, C60, C70, D30, D60, F35, F60, G30, G60, L30, L60, L90, M60, N60, T35, T60). Table 3-221: User-programmable pushbutton data objects...
  • Page 446 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION LNName: LEDsIHMI1 LDevice inst: Gen UR element: Front Panel LEDs data obj. data attribute Type FC UR Name Description R/W/C AmpInd LED CURRENT operand stVal BOOLEAN LED CURRENT HzLedInd LED FREQUENCY operand stVal BOOLEAN LED FREQUENCY...
  • Page 447: Ge Namespace

    3.5.7 GE namespace The GE namespace is an extension of the "IEC 61850-7-4:2007A" namespace, and as such includes by reference all data object names in IEC 61850-7-4 Edition 2.0 2010-03. As these names are defined in the standard, they are not described in this document.
  • Page 448 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Data object Semantics Used in logical nodes… name Activated Activated. In this logical node, indicates position of a pushbutton. When "true", the CtlPshIHMI, UsrPbIHMI pushbutton is asserted state; when "false", the pushbutton is in a released state. CONTROL PUSH BUTTON 1 ON operand.
  • Page 449 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Data object Semantics Used in logical nodes… name BadSt1 Bad-status detected. The BREAKER/SWITCH BAD STATUS operand. BkrΘXCBR, Bkr0XCBR, Disc0XSWI, DiscΘXSWI, GGIO3 BatFail The battery is not functioning. The BATTERY FAIL operand. LPHD BDifAClc B90 differential current...
  • Page 450 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Data object Semantics Used in logical nodes… name CompLevel Indicates the level of the broken rotor bar spectral component relative to the BknRotSVBR spectral component of the system frequency. The COMPONENT LEVEL in dB. ConfRev Expected value of confRev field in messages subscribed to by RxGOOSE# LGOS...
  • Page 451 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Data object Semantics Used in logical nodes… name The DPO (dropout) operand. AcdEnrPIOC, AgeSPTR, Inverse of Str, Op, or Pkp. AmpUnbPTOC, AuxOvPTOV, AuxUvPTUV, B_IocPIOC, B_EfpPIOC, B_TocPTOC, B_UvPTUV, BusDifPDIF, CBArc0SCBR, Cmp8BtGAPC, CmpOvPTOV, CPhOvPTOV, DigElGAPC, FldAmpPTOC, FldAmpPTUC,...
  • Page 452 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Data object Semantics Used in logical nodes… name DynArmd This data object indicates that dynamic mode is armed. SynChkRSYN The SYNC1 S-CLOSE ARMD operand, which becomes On when dynamic mode is armed.
  • Page 453 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Data object Semantics Used in logical nodes… name FltLoopRis D30, D60, L60, L90 - The fault loop resistance FltRFLO FltMulti Fault indication - Multi phase fault. PhSelGAPC The PHASE SELECT MULTI-P operand. FltRis L90 - The fault resistance at the fault point FltRFLO...
  • Page 454 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Data object Semantics Used in logical nodes… name InjAmp Injected current. SubHaPHIZ SH INJECTION AMPS in amperes. InjVol Injected voltage. FldGnd0PHIZ, SubHaPHIZ INJECTED VOLTAGE in volts. SH INJECTION VOLTS in volts. InService LED indication - Relay In-service.
  • Page 455 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Data object Semantics Used in logical nodes… name LocSetAcsOff Indicates operations of FlexLogic operand ACCESS LOC SETG OFF SecGSAL LocSetAcsOn Indicates operations of FlexLogic operand ACCESS LOC SETG ON SecGSAL LosLife XFMR LIFE LOST actual values LosLifSPTR...
  • Page 456 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Data object Semantics Used in logical nodes… name NeutSupn Neutral overcurrent supervision status. GndDisPDIS The GND DIST Z1 SUPN IN operand. NeutVx Neutral point voltage in pu NuVUnPTOV NumCycPer Number of cycles of the nominal frequency. The CYCLES PER RECORD actual OscRDRE value.
  • Page 457 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Data object Semantics Used in logical nodes… name PhDir1 Indicates Phase Comparison of differential is satisfied per phase, where the last B_DifPDIF, BusDifPDIF, digit of instance number 1, 2, or 3 refers to phase A, B, and C respectively. SttDifPDIF The BUS 1 DIR A/B/C operand.
  • Page 458 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Data object Semantics Used in logical nodes… name RlyUTCTms Represents the relay UTC time in seconds elapsed since 00:00:00 January 1, 1970. LPHD Mapped to Modbus register 41A0h value, that is, "Relay time clock set time" register value after converting to UTC (if time zone and DST is used).
  • Page 459 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Data object Semantics Used in logical nodes… name SntpFail SNTP server is not responding. LPHD The SNTP FAILURE operand. SPDTR Motor switches from speed 2 to speed 1. S2AcTmPMSS MOTOR SPD2 TR 2-1 OP operand. Set point value.
  • Page 460 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION Data object Semantics Used in logical nodes… name TagOn Breaker tagged. Bkr0XCBR The BREAKER 1 TAG ON operand. TagOff Breaker not tagged. Bkr0XCBR The BREAKER 1 TAG OFF operand. TapLocFlt L90 - The fault is identified between the local terminal and the tap point.
  • Page 461 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Data object Semantics Used in logical nodes… name Trouble Trouble operand or LED. SubHaPHIZ, LEDsIHMI The LED TROUBLE operand. The SH STAT GND TRB OP operand. Transmit signal. DCUB_PSCH, DUTT_PSCH, The DCUB TX1 operand.
  • Page 462: Enumerations

    EnumType id and EnumType content of standard enumerations from IEC 61850 7-3 match those in IEC 61850 7-3:Annex D. 3.5.8.2 GE extended enumerations For extended enumerations, EnumType id begins with the string "GE_Digital_Energy_UR_", followed by descriptive text, followed by "Kind". The following is a sample excerpt of the extended Enumerations from a firmware-generated UR.ICD file.
  • Page 463: Scl Implementation Conformance Statement (Sics)

    <EnumVal ord="2">Port 2 PTP Clock</EnumVal> <EnumVal ord="3">Port 3 PTP Clock</EnumVal> <EnumVal ord="4">IRIG-B</EnumVal> <EnumVal ord="5">SNTP</EnumVal> </EnumType> The table outlines the logical nodes and data objects that use the extended enumerations. Table 3-224: GE extended enumerations usage Enum ID Used in logical Using data Semantic node...
  • Page 464 SCL IMPLEMENTATION CONFORMANCE STATEMENT (SICS) CHAPTER 3: IEC 61850 COMMUNICATION Table 3-225: SCL conformance statement UR Setup Value/comments firmware software ICD Export Fix ICD file (no adaptable export needed) Export of ICD file or IID file according to IED preconfiguration performed by tool State the data model name space (61850-7-3 subclause 7.2) within ICD file (LLN0.NamPlt.ldNs value) State the data model version (61850-7-3 subclause...
  • Page 465: Pixit Conformance Statement

    CHAPTER 3: IEC 61850 COMMUNICATION PIXIT CONFORMANCE STATEMENT UR Setup Value/comments firmware software IED version and instance information: LPHD.PhyNam: swRev, serNum, LLN0.NamPlt.configRev Configuration values (fc=CF) Setting Parameter values (fc=SP, SG) SCL Header management (9.1) Modify IED data model (add LN/Data object/LD, or remove unused LD/LN/Data object) Tool functionality Support MustUnderstand concept (8.2)
  • Page 466 PIXIT CONFORMANCE STATEMENT CHAPTER 3: IEC 61850 COMMUNICATION Table 3-227: PIXIT for Server model Edition Edition Value / Clarification Which analogue value (MX) quality bits are Validity: supported (can be set by server)? Y Good Y Invalid N Reserved Y Questionable N Overflow N OutofRange N BadReference...
  • Page 467 CHAPTER 3: IEC 61850 COMMUNICATION PIXIT CONFORMANCE STATEMENT Table 3-230: PIXIT for GOOSE publish model Edition Description Value / Clarification Can the test (Ed1) / simulation (Ed2) flag in the published GOOSE be set? The "S" bit in the GOOSE "Reserved 1"...
  • Page 468 PIXIT CONFORMANCE STATEMENT CHAPTER 3: IEC 61850 COMMUNICATION Table 3-233: PIXIT for Control model Edition Description Value / Clarification Is the control model fixed, configurable and/ Fixed, Configurable, or Dynamic depending on or dynamic? the particular control point Is "operate many" supported (compare sboClass) Which additional cause diagnosis are N Unknown...
  • Page 469 CHAPTER 3: IEC 61850 COMMUNICATION PIXIT CONFORMANCE STATEMENT Edition Description Value / Clarification Ct18 Is for SBOes the internal validation SelectWithValue and Operate performed during the SelectWithValue and/ or Operate step? Ct20 Does the IED support local / remote operation? Ct21 Does the IED send an InformationReport with SBOns: N...
  • Page 470: Tics Conformance Statement

    TICS CONFORMANCE STATEMENT CHAPTER 3: IEC 61850 COMMUNICATION 3.8 TICS conformance statement A Technical Issue Implementation Conformance Statement (TICS) is required under IEC 61850. This section provides a template for the TICS. According to the UCA International Users Group (UCAIug) Quality Assurance Program (QAP), the TICS is a required conformance test and is referenced on the certificate.
  • Page 471 CHAPTER 3: IEC 61850 COMMUNICATION TICS CONFORMANCE STATEMENT Part 7 Tissue Description Implemented by server? 1151 Simulated GOOSE disappears after 1st appearance when LPHD.Sim = TRUE Part 7-2 AddCause values – add value not-supported What are unsupported trigger option at a control block? TimOper Resp- ;...
  • Page 472: Scl Logging

    SCL LOGGING CHAPTER 3: IEC 61850 COMMUNICATION Part 7 Tissue Description Implemented by server? CCGR.PmpCtl and CCGR.FanCtl LN STMP, EEHealth and EEName Loc, LocKey and LocSta YPSH and YLTC ITCI.LocKey Misspelling in CSYN CCGR and Harmonized control authority Presence condition of ZMOT.DExt and new Dos Setting of ConfRevNum in LGOS Testing in Beh=Blocked MFLK.PhPiMax, MFLK.PhPiLoFil, MFLK.PhPiRoot DEL->WYE...
  • Page 473: Scl File Storage On Ur

    CHAPTER 3: IEC 61850 COMMUNICATION SCL LOGGING The name of the SCL Log file is "urscl.log". This file is stored in the UR in a RAM file system, thus the file content is volatile and is lost when the UR is powered off. 3.9.2 SCL file storage on UR To provide high reliability storage of the CID file in the UR, two copies are maintained in non-volatile memory.
  • Page 474 SCL LOGGING CHAPTER 3: IEC 61850 COMMUNICATION • ERROR — This entry indicates that the UR encountered some type of problem when parsing, validating, or applying the data in the CID file • INTERNAL ERROR — This entry indicates that the UR encountered an internal error. This type of entry does not normally occur.
  • Page 475: Troubleshooting Log File Errors

    IEC 61850 XML schema currently used by the UR. When an SCL log file contains an INTERNAL ERROR entry, save the CID file and urscl.log file. Contact the GE information and call center as outlined in the instruction manual.
  • Page 476: Configuration Process

    G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL CHAPTER 3: IEC 61850 COMMUNICATION Figure 3-13: Generic logical node interfaces for the "logical nodes communicate with logical nodes" standard The standards provide for the GOOSE configuration process to begin with each IED providing the names of the outputs it can publish in an SCL file.
  • Page 477 CHAPTER 3: IEC 61850 COMMUNICATION G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL Figure 3-14: SCL file flow for IED configuration An ICD file is obtained from each IED. Each ICD file contains a full description of the capabilities of the IED and all of its factory configuration/settings.
  • Page 478: Configuration Process With Ied Setup Tool

    G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL CHAPTER 3: IEC 61850 COMMUNICATION A variation of this sequence is to use the manufacturer's IED setup tool before the Configurator. In this case, the Configurator begins by importing the IID file rather than the ICD file. IID files can also be used long after the project is over to verify that the project settings are still present in the IED.
  • Page 479 CHAPTER 3: IEC 61850 COMMUNICATION G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL The values subject to these requirements include local (that is, non-standard or native) outputs that the IED is able to publish using means not defined in the standards. For example, if an IED can use non-standard means to map a local output to GGIO1.Ind1.stVal and then publish GGIO1.Ind1.stVal in a GOOSE message, then compliance to this implementation model requires that the local output be included as a named logical node output in the ICD file.
  • Page 480 G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL CHAPTER 3: IEC 61850 COMMUNICATION Figure 3-17: Mapping local inputs Each input is to include in the ICD file a description of the input modeled. The description is to at least contain the manufacturer's designation of the input or some reference that can be used to find a detailed functional description of the input in the IED instruction manual.
  • Page 481 CHAPTER 3: IEC 61850 COMMUNICATION G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL Each GSE element is to contain one Address element, one MinTime element, and one MaxTime element. The Mintime element contains the factory-configured value of the sending delay on a data change between the first immediate sending of the change and the first repetition (the value of T1 in IEC 61850 8 1:2011 Figure 8).
  • Page 482: Instantiated Ied Capability Description (Iid) File

    G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL CHAPTER 3: IEC 61850 COMMUNICATION 3.10.4.6 GOOSE subscription For each GOOSE message that can be subscribed to, there is to be in the LDevice element an LN element with element attribute lnClass="LGOS". The LN element is to contain a DOI element with element attribute name="GoCBRef". The DOI element is to contain a DAI element with element attribute name="setSrcRef", and the corresponding DA element is to contain the element attribute valKind="Set".
  • Page 483 CHAPTER 3: IEC 61850 COMMUNICATION G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL • appID (GoID), provided the value of GSESettings element's element attribute appID is other than "Fix" • confRev • setSrcRef • setSrcCB (including those for the LGOS logical nodes) Where the ICD file contains a GSEControl element with no datSet element attribute, a datSet attribute can be added to the GSEControl element and a like-named DataSet element added to the LN0 element.
  • Page 484: Sample Scl Files

    G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL CHAPTER 3: IEC 61850 COMMUNICATION 3.10.7 Sample SCL files The process is illustrated using a simple project involving two identical IEDs, each having a single overcurrent function and a single programmable contact output. The output of the overcurrent is TEMPLATELD1/PIOC1.Op.general, and the contact output is driven by the value selected by TEMPLATELD1/ConOutGGIO1.InRef1.
  • Page 485 CHAPTER 3: IEC 61850 COMMUNICATION G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL <LN prefix="" lnClass="LGOS" inst="1" lnType="LGOS"> <DOI name="GoCBRef"> <DAI name="setSrcRef"><Val></Val></DAI> </DOI> </LN> </LDevice> </Server> </AccessPoint> </IED> <DataTypeTemplates> <LNodeType id="LN0" lnClass="LLN0"> <DO name="NamPlt" type="LN0NamPlt"></DO> <DO name="Beh" type="Beh"></DO> <DO name="Health" type="Health"></DO> <DO name="Mod"...
  • Page 486 G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL CHAPTER 3: IEC 61850 COMMUNICATION <DA name="stVal" fc="ST" dchg="true" dupd="true" bType="Enum" type="Beh" /> <DA name="q" fc="ST" qchg="true" bType="Quality" /> <DA name="t" fc="ST" bType="Timestamp" /> </DOType> <DOType id="Health" cdc="ENS"> <DA name="stVal" fc="ST" dchg="true" dupd="true" bType="Enum" type="Health" /> <DA name="q"...
  • Page 487 CHAPTER 3: IEC 61850 COMMUNICATION G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL <Address> <P type="MAC-Address">01-0C-CD-01-00-01</P> <P type="APPID">3001</P> <P type="VLAN-ID">010</P> <P type="VLAN-PRIORITY">7</P> </Address> <MinTime>5</MinTime> <MaxTime>5000</MaxTime> </GSE> </ConnectedAP> </SubNetwork> </Communication> <IED name="E1Q1BP1"> <Services> <GSESettings appID="Conf" cbName="Conf" datSet="Conf"/> <GOOSE max="1"/> </Services> <AccessPoint name="S1"> <Server>...
  • Page 488 G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL CHAPTER 3: IEC 61850 COMMUNICATION <SCL xmlns="http://www.iec.ch/61850/2003/SCL" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://www.iec.ch/61850/2003/SCL SCL.xsd" version="2007" revision="A"> <Header id="CID file for E1Q2BP1" /> <Communication> <SubNetwork name="W1" type="8-MMS"> <ConnectedAP iedName="E1Q1BP1" apName="S1"> <GSE ldInst="LD1" cbName="GoCB1"> <Address> <P type="MAC-Address">01-0C-CD-01-00-01</P> <P type="APPID">3001</P> <P type="VLAN-ID">010</P>...
  • Page 489: Annex - Optional Intermediate Goose Reception Objects

    CHAPTER 3: IEC 61850 COMMUNICATION G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL <LDevice inst="LD1"> <LN0 inst="" lnClass="LLN0" lnType="LN0"> <DataSet name="GOOSE1DS"> <FCDA ldInst="LD1" prefix="" lnClass="PIOC" lnInst="1" doName="Op" fc="ST" daName="general"/> </DataSet> <GSEControl name="GoCB1" datSet="GOOSE1DS" appID="E1Q1BP1LD1_GOOSE1"/> </LN0> <LN lnClass="PIOC" inst="1" lnType="PIOC"> <DOI name="Op" desc="Instantaneous Overcurrent Operated" /> </LDevice>...
  • Page 490 G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL CHAPTER 3: IEC 61850 COMMUNICATION However, this requires that each logical node in the receiving IED that receives a signal via GOOSE needs to be individually configured with the final application-specific reference. This can be a disadvantage for example when a user wants to pre- configure a setting template SCL file for the receiving IED.
  • Page 491 CHAPTER 3: IEC 61850 COMMUNICATION G2 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL When applying such a template file at the system configuration stage, the configurator is used to put in the ExtRef element a reference to the signal source appropriate to the description in desc element attribute. The configurator is also used to configure a GOOSE control block and dataset in the sending IED to publish the signal, and to put in the ExtRef element a reference to this control block.
  • Page 492: E3-2.0 Implementation Model For Goose Configuration Via Scl

    E3-2.0 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL CHAPTER 3: IEC 61850 COMMUNICATION 3.11 E3-2.0 implementation model for GOOSE configuration via SCL 3.11.1 Introduction This section specifies the E3-2.0 GOOSE subscription implementation model in UR 7.30 and later releases. The "E3 - Spanish Electricity Companies for Studies on IEC 61850" is a working group formed by the main Spanish electricity companies, which agreed on requirements to comply with for devices to be installed in their substations under the IEC 61850 Edition 1.0 standards.
  • Page 493: Icd Files

    CHAPTER 3: IEC 61850 COMMUNICATION E3-2.0 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL Figure 3-20: SCL file flow using IED setup tool 3.11.3 ICD files Compared to the G2 model, E3-2.0 adds data objects to the LGOS logical nodes as specified in the following table. E3-2.0 configurations do not use the ExtRef elements used by the G2 model.
  • Page 494: Cid Files

    E3-2.0 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL CHAPTER 3: IEC 61850 COMMUNICATION LGOS class for E3-2.0 Data object Common data Explanation name class GoID Identification for the GOOSE message ConfRev GOOSE configuration revision number InRefδδ Data attribute intAddr specifies the intermediate data object receiving values in allData member δδ.
  • Page 495: Iid Files

    CHAPTER 3: IEC 61850 COMMUNICATION E3-2.0 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL ConfRev The setVal data attribute is configured to an integer number from 0 through 2147483647. If the configured value is not zero, only GOOSE messages with the configured value in the confRev field are accepted. If the configured value is zero, any value in the confRev field is acceptable.
  • Page 496 E3-2.0 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL CHAPTER 3: IEC 61850 COMMUNICATION 3-258 UR FAMILY – COMMUNICATIONS GUIDE...
  • Page 497: Dnp Communication

    UR Family Chapter 4: DNP communication DNP communication This chapter outlines the Distributed Network Protocol (DNP). 4.1 Device profile document The following table provides a ‘Device Profile Document’ in the standard format defined in the DNP 3.0 Subset Definitions Document. Table 4-1: DNP v3.00 device profile (Also see the IMPLEMENTATION TABLE in the following section) Vendor Name: General Electric Multilin...
  • Page 498 DEVICE PROFILE DOCUMENT CHAPTER 4: DNP COMMUNICATION Maximum data link frame size (octets) Maximum application fragment size (octets) Transmitted: 292 Transmitted: configurable up to 2048 Received: 292 Received: 2048 Maximum data link re-tries Maximum application layer re-tries  None  None ...
  • Page 499 CHAPTER 4: DNP COMMUNICATION DEVICE PROFILE DOCUMENT Sends/executes control operations WRITE Binary Outputs  Never  Always  Sometimes  Configurable SELECT/OPERATE  Never  Always  Sometimes  Configurable DIRECT OPERATE  Never  Always  Sometimes  Configurable ...
  • Page 500: Implementation Table

    DEVICE PROFILE DOCUMENT CHAPTER 4: DNP COMMUNICATION 4.1.1 Implementation table The following table identifies the variations, function codes, and qualifiers supported by the UR in both request messages and response messages. For static (non-change-event) objects, requests sent with qualifiers 00, 01, 06, 07, or 08, are responded to with qualifiers 00 or 01.
  • Page 501 CHAPTER 4: DNP COMMUNICATION DEVICE PROFILE DOCUMENT Object Request Response Object Variation Description Function codes Qualifier codes Function codes Qualifier codes (dec) (hex) (dec) (hex) Binary Counter 1 (read) 00, 01(start-stop) (Variation 0 is used to request 7 (freeze) 06(no range, or all) default variation) 8 (freeze noack) 07, 08(limited...
  • Page 502 DEVICE PROFILE DOCUMENT CHAPTER 4: DNP COMMUNICATION Object Request Response Object Variation Description Function codes Qualifier codes Function codes Qualifier codes (dec) (hex) (dec) (hex) Frozen Counter 1 (read) 00, 01 (start-stop) (Variation 0 is used to request 22 (assign class) 06 (no range, or all) default variation) 07, 08 (limited...
  • Page 503 CHAPTER 4: DNP COMMUNICATION DEVICE PROFILE DOCUMENT Object Request Response Object Variation Description Function codes Qualifier codes Function codes Qualifier codes (dec) (hex) (dec) (hex) 32-Bit Frozen Counter Event with 1 (read) 06 (no range, or all) 129 (response) 17, 28 (index) cont’d Time 07, 08 (limited...
  • Page 504 DEVICE PROFILE DOCUMENT CHAPTER 4: DNP COMMUNICATION Object Request Response Object Variation Description Function codes Qualifier codes Function codes Qualifier codes (dec) (hex) (dec) (hex) Analog Change Event (Variation 0 is 1 (read) 06 (no range, or all) used to request default variation) 07, 08 (limited quantity) 32-Bit Analog Change Event...
  • Page 505 CHAPTER 4: DNP COMMUNICATION DEVICE PROFILE DOCUMENT Object Request Response Object Variation Description Function codes Qualifier codes Function codes Qualifier codes (dec) (hex) (dec) (hex) Time and Date 1 (read) 00, 01 (start-stop) 129 (response) 00, 01 (start-stop) (default – see Note 1) 2 (write) 06 (no range, or all) 17, 28 (index)
  • Page 506: Dnp Point Lists

    DNP POINT LISTS CHAPTER 4: DNP COMMUNICATION 4.2 DNP point lists 4.2.1 Binary input points The DNP binary input data points are configured through the PRODUCT SETUP  COMMUNICATIONS  DNP / IEC104 POINT menu. See the Communications section of chapter 5 in the Instruction Manual for LISTS ...
  • Page 507 CHAPTER 4: DNP COMMUNICATION DNP POINT LISTS Table 4-3: Binary/control outputs Point Name/Description Point Name/Description Virtual Input 1 Virtual Input 33 Virtual Input 2 Virtual Input 34 Virtual Input 3 Virtual Input 35 Virtual Input 4 Virtual Input 36 Virtual Input 5 Virtual Input 37 Virtual Input 6 Virtual Input 38...
  • Page 508: Counters

    DNP POINT LISTS CHAPTER 4: DNP COMMUNICATION 4.2.3 Counters The following table lists both Binary Counters (Object 20) and Frozen Counters (Object 21). When a freeze function is performed on a Binary Counter point, the frozen value is available in the corresponding Frozen Counter point. BINARY COUNTERS Static (Steady-State) Object Number: 20 Change Event Object Number: 22...
  • Page 509 CHAPTER 4: DNP COMMUNICATION DNP POINT LISTS The deadbands for all Analog Input points are in the same units as the Analog Input quantity. For example, an Analog Input quantity measured in volts has a corresponding deadband in units of volts. This is in conformance with DNP Technical Bulletin 9809-001: Analog Input Reporting Deadband.
  • Page 510 DNP POINT LISTS CHAPTER 4: DNP COMMUNICATION 4-14 UR FAMILY – COMMUNICATIONS GUIDE...
  • Page 511: Iec 60870-5-103

    UR Family Chapter 5: IEC 60870-5-103 communication IEC 60870-5-103 communication This chapter outlines the IEC 60870-5-103 communications protocol. The protocol applies when ordered with the product. Check your order code. 5.1 Overview IEC 60870-5-103 is defined as a companion standard for the informative element of the protection equipment. IEC 60870- 5-103 defines communication for a serial, unbalanced link only.
  • Page 512: Communication

    INTEROPERABILITY DOCUMENT CHAPTER 5: IEC 60870-5-103 COMMUNICATION X is the measurand a is the multiplication factor b is the offset Xt is the value transmitted The conditions for determining a and b, when the values exceed the range are: 4096 = a*Xmax + b (Xmax is the maximum value for the measurand) -4095 =a*Xmin + b (Xmin is the minimum value for the measurand) By solving the above system of equations for a and b, we find that: a = 8191 / (Xmax - Xmin)
  • Page 513 CHAPTER 5: IEC 60870-5-103 COMMUNICATION INTEROPERABILITY DOCUMENT LINK LAYER There are no choices for the link layer. APPLICATION LAYER Transmission mode for application data Mode 1 (least significant octet first), as defined in 4.10 of IEC 60870-5-4, is used exclusively in this companion standard.
  • Page 514 INTEROPERABILITY DOCUMENT CHAPTER 5: IEC 60870-5-103 COMMUNICATION  <48> Earth fault L  <49> Earth fault L  <50> Earth fault L  <51> Earth fault forward, meaning line  <52> Earth fault reverse, meaning busbar Fault indications in monitor direction INF Semantics ...
  • Page 515 CHAPTER 5: IEC 60870-5-103 COMMUNICATION INTEROPERABILITY DOCUMENT  <148> Measurands I , P, Q, f L123 L123 Generic functions in monitor direction INF Semantics  <240> Read headings of all defined groups  <241> Read values or attributes of all entries of one group ...
  • Page 516 INTEROPERABILITY DOCUMENT CHAPTER 5: IEC 60870-5-103 COMMUNICATION Measurand max Mval = times rated value Current L   Current L   Voltage L   Voltage L   Voltage L   Active power P   Reactive power Q ...
  • Page 517 UR Family Chapter 6: IEC 60870-5-104 communication IEC 60870-5-104 communication This chapter outlines the IEC 60870-5-104 communications protocol. The protocol applies when ordered with the product. Check your order code. 6.1 Interoperability document This document is adapted from the IEC 60870-5-104 standard. The boxes indicate the following: ...
  • Page 518 INTEROPERABILITY DOCUMENT CHAPTER 6: IEC 60870-5-104 COMMUNICATION PHYSICAL LAYER Transmission speed (control direction) Unbalanced interchange Unbalanced interchange Balanced interchange circuit circuit V.24/V.28 standard circuit V.24/V.28 recommended X.24/X.27 if >1200 bits/s    100 bits/sec. 2400 bits/sec. 2400 bits/sec.  ...
  • Page 519 CHAPTER 6: IEC 60870-5-104 COMMUNICATION INTEROPERABILITY DOCUMENT Cause of transmission  One Octet  Two Octets (with originator address). Originator address is set to zero if not used. Maximum Length of APDU: 253 (the maximum length may be reduced by the system) Selection of standard ASDUs For the following lists, the boxes indicate the following: ...
  • Page 520 INTEROPERABILITY DOCUMENT CHAPTER 6: IEC 60870-5-104 COMMUNICATION Either the ASDUs of the set <2>, <4>, <6>, <8>, <10>, <12>, <14>, <16>, <17>, <18>, and <19> or of the set <30> to <40> are used. Process information in control direction  <45>...
  • Page 521 CHAPTER 6: IEC 60870-5-104 COMMUNICATION INTEROPERABILITY DOCUMENT  <126> := Directory (blank or X, available only in monitor [standard] direction) C_CD_NA_1 Type identifier and cause of transmission assignments (station-specific parameters) In the following table: – Shaded boxes are not required. –...
  • Page 522 INTEROPERABILITY DOCUMENT CHAPTER 6: IEC 60870-5-104 COMMUNICATION Type identification Cause of transmission Mnemonic <30> M_SP_TB_1 <31> M_DP_TB_1 <32> M_ST_TB_1 <33> M_BO_TB_1 <34> M_ME_TD_1 <35> M_ME_TE_1 <36> M_ME_TF_1 <37> M_IT_TB_1 <38> M_EP_TD_1 <39> M_EP_TE_1 <40> M_EP_TF_1 <45> C_SC_NA_1 <46> C_DC_NA_1 <47> C_RC_NA_1 <48>...
  • Page 523 CHAPTER 6: IEC 60870-5-104 COMMUNICATION INTEROPERABILITY DOCUMENT Type identification Cause of transmission Mnemonic <105> C_RP_NA_1 <106> C_CD_NA_1 <107> C_TS_TA_1 <110> P_ME_NA_1 <111> P_ME_NB_1 <112> P_ME_NC_1 <113> P_AC_NA_1 <120> F_FR_NA_1 <121> F_SR_NA_1 <122> F_SC_NA_1 <123> F_LS_NA_1 <124> F_AF_NA_1 <125> F_SG_NA_1 <126> F_DR_TA_1*) BASIC APPLICATION FUNCTIONS Station initialization ...
  • Page 524 INTEROPERABILITY DOCUMENT CHAPTER 6: IEC 60870-5-104 COMMUNICATION  Single point information: M_SP_NA_1, M_SP_TA_1, M_SP_TB_1, and M_PS_NA_1  Double point information: M_DP_NA_1, M_DP_TA_1, and M_DP_TB_1  Step position information: M_ST_NA_1, M_ST_TA_1, and M_ST_TB_1  Bitstring of 32 bits: M_BO_NA_1, M_BO_TA_1, and M_BO_TB_1 (if defined for a specific project) ...
  • Page 525 CHAPTER 6: IEC 60870-5-104 COMMUNICATION INTEROPERABILITY DOCUMENT Parameter loading  Threshold value  Smoothing factor  Low limit for transmission of measured values  High limit for transmission of measured values Parameter activation  Activation/deactivation of persistent cyclic or periodic transmission of the addressed object Test procedure ...
  • Page 526: Iec 60870-5-104 Points

    IEC 60870-5-104 POINTS CHAPTER 6: IEC 60870-5-104 COMMUNICATION Portnumber Parameter Value Remarks Portnumber 2404 In all cases RFC 2200 suite RFC 2200 is an official Internet Standard which describes the state of standardization of protocols used in the Internet as determined by the Internet Architecture Board (IAB). It offers a broad spectrum of actual standards used in the Internet.
  • Page 527 UR Family Appendix A: Miscellaneous Appendices Miscellaneous This chapter provides the revision history. A.1 Revision history The tables outline the releases and revision history of this document. Table A-1: Revision history (English) GEK publication 1601 part number Firmware Release date number GEK-119629 1601-0401-AB1...
  • Page 528 Updated IEC 61850 Communications chapter Table A-6: Major changes for version AC1 (English) Page Change Rebranded from GE Digital Energy to GE Grid Solutions Updated Features per Product table Updated Modbus memory map and F codes Updated IEC 61850 Communications chapter...
  • Page 529 UR Family Index Index Bus replica, Modbus ................2-100 Numerics 87L differential, Modbus ..............2-78 8-bit comparator, Modbus ............2-123 8-bit switch, Modbus ..............2-125 Capacitor control, Modbus ..........2-53, 2-140 Changes ......................A-1 Channel status, Modbus ............. 2-28, 2-58 Channel tests, Modbus ..............2-169 Charge current compensation, Modbus ......2-146 Acceleration time, Modbus ..........2-97, 2-118...
  • Page 530 Direct integer, Modbus ..............2-42 Direct integers, Modbus ..............2-126 G2 implementation ................. 3-237 Direct outputs, Modbus ..2-27, 2-51, 2-132, 2-133, 2-167, 2- GE namespace table ..............3-209 Generator unbalance, Modbus ........2-90, 2-91 Disconnect switch, Modbus ......2-110, 2-113, 2-114 GOOSE ......................3-1 Distance, Modbus ..............
  • Page 531 INDEX IID file ................3-244, 3-254, 3-257 explained ....................3-13 merge .....................3-23 Namespace table ................3-209 IMD tables ....................3-31 Negative sequence directional OC, Modbus .....2-109 Importing files ..................3-234 Negative sequence IOC, Modbus ..........2-84 Incipient cable fault detector, Modbus .......2-66, 2-76 Negative sequence overvoltage, Modbus ......
  • Page 532 INDEX public and private elements Temp monitor, Modbus ............3-13 ..............2-124 PUTT, Modbus Test mode, Modbus ..................2-94 ................2-28 THD, Modbus ................2-36, 2-42 Thermal inputs, Modbus ..............2-81 Thermal model, Modbus ..........2-88, 2-117 Thermal overload protection, Modbus ........

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