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GE
Digital Energy
UR Series
Communications Guide
Product version: 7.3x
GE publication code: 1601-0401-AB2 (GEK-119629A)
E83849
LISTED
IND.CONT. EQ.
1601-0401-AB2

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   Also See for GE UR Series

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   Summary of Contents for GE UR Series

  • Page 1 Digital Energy UR Series Communications Guide Product version: 7.3x GE publication code: 1601-0401-AB2 (GEK-119629A) E83849 LISTED IND.CONT. EQ. 1601-0401-AB2...
  • 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

    Overview ......................3-1 COMMUNICATION 3.1.1 Introduction ..........................3-1 3.1.2 Abstract Communication Service Interface (ASCI)..........3-3 3.1.3 Datasets............................3-6 3.1.4 TxGOOSE............................. 3-7 3.1.5 RxGOOSE ............................ 3-9 3.1.6 Reports ............................3-10 3.1.7 Commands..........................3-11 3.1.8 Substation Configuration Language (SCL)..............3-11 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 4 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 A.1 Revision history ....................A-1 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 5 TABLE OF CONTENTS INDEX UR SERIES – COMMUNICATIONS GUIDE...
  • Page 6 TABLE OF CONTENTS UR SERIES – COMMUNICATIONS GUIDE...
  • Page 7: Introduction

    Max B30 B90 C30 C60 C70 D30 D60 F35 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 Accidental Energization Automatic # of Voltage elements Regulator if voltage banks present; 0 Enhance Capacitor Bank Control software option ordered UR SERIES – COMMUNICATIONS GUIDE...
  • Page 8 Failure feeders from software option B90 Bus # of Differential zones from software option configura tion Saturatio detector B90 IOC # of current terminals B90 TOC # of current terminals # of Undervoltage voltage terminals UR SERIES – COMMUNICATIONS GUIDE...
  • Page 9 < 2 Breaker # of Control elements Breaker # of Switch elements Breaker # of Failure elements; if B30, # sources Breaker Flashover Breaker # of Restrike elements Broken # of Conductor sources Detection Broken Rotor UR SERIES – COMMUNICATIONS GUIDE...
  • Page 10 CT Trouble # of zones from software option; 2 on B30 Current CT # of settings sources Current Terminal Metering Current Unbalance Data Logger Demand # of sources Digital Counters Digital Elements Digitizer UR SERIES – COMMUNICATIONS GUIDE...
  • Page 11 Resources Field unit brick types Field unit contact inputs Field unit contact outputs Field unit CT/VT settings Field unit I/O states Field unit latching outputs Field unit raw data actuals Field unit raw data settings UR SERIES – COMMUNICATIONS GUIDE...
  • Page 12 Direct integers Summato Frequency Rate of Change Generator Unbalance Generic 8-bit Comparator comparat Ground Fast Distance distance is not available on L60 Ground # of Instantaneou elements s Overcurrent Ground Time # of Overcurrent elements UR SERIES – COMMUNICATIONS GUIDE...
  • Page 13 IPv4 Routes IEC 61850 Remote I/O Remote (Fixed GOOSE/ devices GSSE/GOOSE) Remote inputs Remote inputs Remote output pairs Remote output UserSt pairs IEC103 Communicati Incipient # of Cable Fault elements L60 Channel Tests UR SERIES – COMMUNICATIONS GUIDE...
  • Page 14 Motor Start Supervision Negative Sequence Directional OC Negative Sequence Instantaneou s Overcurrent Negative # of Sequence OV voltage banks if at least Negative Sequence Overvoltage Negative Sequence Time Overcurrent Neutral # of Current current Unbalance banks UR SERIES – COMMUNICATIONS GUIDE...
  • Page 15 # of Instantaneou elements s Overcurrent Phase # of Overvoltage elements; 0 if no VT banks Phase Time # of Overcurrent elements Phase # of Undervoltage voltage banks; if C70 has at least PID Regulator UR SERIES – COMMUNICATIONS GUIDE...
  • Page 16 Time Protocol (1588) Reduced Voltage Starting Restricted # of CT Ground Fault banks; 0 if L90 has no inzone transfor RRTD Protection Protection Security Selector Switch Sensitive Directional Power Setting Groups Simple Network Time Protocol 1-10 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 17 # of PMUs; software option # of Aggregat Teleprotectio n I/O Thermal Model Motor setup Thermal Overload Protection Third Harmonic Neutral Undervoltage Time of Day Timer Transducer I/ DCMA inputs DCMA outputs inputs inputs UR SERIES – COMMUNICATIONS GUIDE 1-11...
  • Page 18 Push- buttons User- Definable Displays Virtual Inputs Virtual Outputs Voltage # of VT Differential banks Volts Per Hertz VT Fuse # of Failure sources; 0 if no CT or VT banks Wattmetric Ground Fault 1-12 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 19: Communication Ports

    Worldwide telephone: +1 905 927 7070 Europe/Middle East/Africa telephone: +34 94 485 88 54 North America toll-free: 1 800 547 8629 Fax: +1 905 927 5098 Worldwide e-mail: multilin.tech@ge.com Europe e-mail: multilin.tech.euro@ge.com Website: http://www.gedigitalenergy.com/multilin UR SERIES – COMMUNICATIONS GUIDE 1-13...
  • Page 20 FOR FURTHER ASSISTANCE CHAPTER 1: INTRODUCTION 1-14 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 21: Modbus

    2.1 Modbus RTU protocol 2.1.1 Introduction The UR series supports several communications protocols to allow connection to equipment such as personal computers, remote terminal units (RTUs), supervisory control and data acquisition (SCADA) masters, and programmable logic controllers. The Modicon Modbus protocol is the most basic protocol supported by the UR. Modbus RTU is available via the RS232 and RS485 serial links, and Modbus TCP/IP is available over Ethernet.
  • Page 22: Data Link Layer

    LAN duplication and frame duplication. See chapter 5 in the instruction manual for information on setting up TCP for Modbus (in the Modbus section), IP and PRP (Network section). UR SERIES – COMMUNICATIONS GUIDE...
  • Page 23: Modbus Rtu Crc-16 Algorithm

    16 bit characteristic polynomial = 1010000000000001 (binary) with MSbit dropped and bit order reversed shr (x) right shift operator (th LSbit of x is shifted into a carry flag, a '0' is shifted into the MSbit of x, all other bits are shifted right one location) UR SERIES – COMMUNICATIONS GUIDE...
  • Page 24: Modbus Function Codes

    Master transmission Slave response Packet format Example (Hex) Packet format Example (Hex) SLAVE ADDRESS SLAVE ADDRESS FUNCTION CODE FUNCTION CODE DATA STARTING ADDRESS - high BYTE COUNT DATA STARTING ADDRESS - low DATA #1 - high UR SERIES – COMMUNICATIONS GUIDE...
  • Page 25: Execute Operation (function Code 05h)

    Modbus RTU. Modbus TCP/IP ADUs have a MBAP instead of slave address, and CRC is in another stack layer. The example shows a master device storing the value 200 at memory map address 4051h to slave device 11h (17 dec). UR SERIES – COMMUNICATIONS GUIDE...
  • Page 26: Store Multiple Settings (function Code 10h)

    The following table shows the format of the master and slave packets in Modbus RTU. Modbus TCP/IP ADUs have a MBAP instead of slave address, and CRC is in another stack layer. The example shows a master device sending the unsupported function code 39h to slave device 11h. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 27: File Transfers

    Common Format for Transient Data Exchange (COMTRADE) for Power Systems. The files can be obtained in either text or binary COMTRADE format. 2.3.1.4 Reading oscillography files Familiarity with the oscillography feature is required to understand the following description. See the Oscillography section in chapter 5 of the Instruction Manual for details. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 28 "Number of Fault Reports' register. If the value changes, then the master reads all the new files. The contents of the file is in standard HTML notation and can be viewed via any commercial browser. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 29: Memory Map

    Front Panel (Read Only) 0208 LED Column n State, n = 1 to 10 (10 items) 0 to 65535 F501 " 0220 Display Message F204 (none) " 0248 Last Key Pressed 0 to 47 F530 0 (None) UR SERIES – COMMUNICATIONS GUIDE...
  • Page 30 Virtual Input 40 State 0 to 1 F108 0 (Off) " 0428 Virtual Input 41 State 0 to 1 F108 0 (Off) " 0429 Virtual Input 42 State 0 to 1 F108 0 (Off) 2-10 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 31 05BC ...Repeated for Binary Input 15 " 05C0 ...Repeated for Binary Input 16 " 05C4 ...Repeated for Binary Input 17 " 05C8 ...Repeated for Binary Input 18 " 05CC ...Repeated for Binary Input 19 UR SERIES – COMMUNICATIONS GUIDE 2-11...
  • Page 32 0678 ...Repeated for Binary Input 62 " 067C ...Repeated for Binary Input 63 " 0680 ...Repeated for Binary Input 64 " 0684 ...Repeated for Binary Input 65 " 0688 ...Repeated for Binary Input 66 2-12 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 33 IEC103 ASDU 1 Analog Parameter 4 0 to 65535 F600 " 0712 IEC103 ASDU 1 Analog Factor 4 0 to 65.535 0.001 F001 1000 " 0713 IEC103 ASDU 1 Analog Offset 4 -32768 to 32767 F002 UR SERIES – COMMUNICATIONS GUIDE 2-13...
  • Page 34 07D0 ...Repeated for IEC103 Command 21 " 07D4 ...Repeated for IEC103 Command 22 " 07D8 ...Repeated for IEC103 Command 23 " 07DC ...Repeated for IEC103 Command 24 " 07E0 ...Repeated for IEC103 Command 25 2-14 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 35 0934 ...Repeated for RxGOOSE Boolean 18 " 0936 ...Repeated for RxGOOSE Boolean 19 " 0938 ...Repeated for RxGOOSE Boolean 20 " 093A ...Repeated for RxGOOSE Boolean 21 " 093C ...Repeated for RxGOOSE Boolean 22 UR SERIES – COMMUNICATIONS GUIDE 2-15...
  • Page 36 0992 ...Repeated for RxGOOSE Boolean 65 " 0994 ...Repeated for RxGOOSE Boolean 66 " 0996 ...Repeated for RxGOOSE Boolean 67 " 0998 ...Repeated for RxGOOSE Boolean 68 " 099A ...Repeated for RxGOOSE Boolean 69 2-16 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 37 09F0 ...Repeated for RxGOOSE Boolean 112 " 09F2 ...Repeated for RxGOOSE Boolean 113 " 09F4 ...Repeated for RxGOOSE Boolean 114 " 09F6 ...Repeated for RxGOOSE Boolean 115 " 09F8 ...Repeated for RxGOOSE Boolean 116 UR SERIES – COMMUNICATIONS GUIDE 2-17...
  • Page 38 ...Repeated for Direct Analog Input and Output 8 " 1390 ...Repeated for Direct Analog Input and Output 9 " 139E ...Repeated for Direct Analog Input and Output 10 " 13AC ...Repeated for Direct Analog Input and Output 11 2-18 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 39 " 1508 Virtual Input States (8 items) 0 to 65535 F500 " 1510 Contact Output States (4 items) 0 to 65535 F500 " 1518 Contact Output Current States (4 items) 0 to 65535 F500 UR SERIES – COMMUNICATIONS GUIDE 2-19...
  • Page 40 1606 Field Shared Output Operand States 0 to 65535 F500 " 1607 Field Latching Output Open Operand 0 to 65535 F500 States " 1608 Field Latching Output Close Operand 0 to 65535 F500 States 2-20 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 41 0 to 999999.999 0.001 F060 " 1668 Generator Differential Icd 0 to 999999.999 0.001 F060 " 166A Generator Restraint Icr 0 to 999999.999 0.001 F060 " 166C Stator Differential CT Primary 0 to 50000 F060 UR SERIES – COMMUNICATIONS GUIDE 2-21...
  • Page 42 16D6 ...Repeated for Field Transducer 8 Frequency Rate of Change Actual Values (Read Only) (4 Modules) D60, F60, G30, 16E0 Frequency Rate of Change 1 -327.67 to 327.67 Hz/s 0.01 F002 G60 L90, N60, 2-22 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 43 Source 1 Phase BG Voltage RMS 0 to 999999.999 0.001 F060 " 1A04 Source 1 Phase CG Voltage RMS 0 to 999999.999 0.001 F060 " 1A06 Source 1 Phase AG Voltage Magnitude 0 to 999999.999 0.001 F060 UR SERIES – COMMUNICATIONS GUIDE 2-23...
  • Page 44 Source 1 Phase B Real Power -1000000000000 to 0.001 F060 1000000000000 " 1C06 Source 1 Phase C Real Power -1000000000000 to 0.001 F060 1000000000000 " 1C08 Source 1 Three Phase Reactive Power -1000000000000 to 0.001 F060 1000000000000 2-24 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 45 ...Repeated for Source 5 " 1D50 ...Repeated for Source 6 Energy Commands (Read/Write Command) B30, C60, D60, 1D60 Energy Clear Command 0 to 1 F126 0 (No) F35, F60, G30, G60, L90, M60, N60, T60 UR SERIES – COMMUNICATIONS GUIDE 2-25...
  • Page 46 Reserved (8 items) F001 " 1EA0 ...Repeated for Source 2 " 1EC0 ...Repeated for Source 3 " 1EE0 ...Repeated for Source 4 F35, N60, T60 1F00 ...Repeated for Source 5 " 1F20 ...Repeated for Source 6 2-26 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 47 Bus Zone 1 Restraint Angle -359.9 to 0 degrees 0.1 F002 " 21D8 Bus Zone 1 Maximum CT 0 to 50000 F060 " 21DA Reserved (4 items) F001 " 21DE ...Repeated for Bus Zone 2 UR SERIES – COMMUNICATIONS GUIDE 2-27...
  • Page 48 C60, D30, D60, 21F2 ...Repeated for Breaker 2 F35, F60, L30, L60, L90, T35, Bus Actuals (Read Only) (6 Modules) 21F3 ...Repeated for Bus Zone 3 - continued " 21FA ...Repeated for Bus Zone 4 2-28 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 49 " 2279 ...Repeated for Hi-Z RMS Capture 4 Source Current THD (Read Only) (6 Modules) 22A0 Source 1 Ia THD 0 to 100 F001 " 22A1 Source 1 Ib THD 0 to 100 F001 UR SERIES – COMMUNICATIONS GUIDE 2-29...
  • Page 50 % fo F001 Magnitude " 2318 Transformer Differential 5th Harm Icd -359.9 to 0 degrees 0.1 F002 Angle Transformer Thermal Inputs Actual Values (Read Only) 2330 Transformer Top Oil Temperature 0 to 300 °C F002 2-30 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 51 0 to 655.35 0.01 F001 " 2403 Synchrocheck 1 Delta Phase 0 to 359.9 degrees 0.1 F001 " 2404 ...Repeated for Synchrocheck 2 " 2408 ...Repeated for Synchrocheck 3 " 240C ...Repeated for Synchrocheck 4 UR SERIES – COMMUNICATIONS GUIDE 2-31...
  • Page 52 0 to 999999.999 0.001 F060 " 24B2 Restraint Current IB 0 to 999999.999 0.001 F060 " 24B4 Restraint Current IC 0 to 999999.999 0.001 F060 " 24B6 Differential Current IG Magnitude 0 to 999999.999 0.001 F060 2-32 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 53 " 2549 RxGOOSE DPS 1 Default State 0 to 4 F605 4 (Latest) " 254A ... Repeated for DPS 2 " 254C ... Repeated for DPS 3 " 254E ... Repeated for DPS 4 UR SERIES – COMMUNICATIONS GUIDE 2-33...
  • Page 54 ...Repeated for PMU 6 Phasor Measurement Unit Integer (Read Only) (1, 2, 4, or 6 Modules) C60, D60, F60, 2699 PMU 1 SOC Timestamp 0 to 4294967295 seconds 1 F003 G60, L30, L90, N60, T60 2-34 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 55 0 to 0.1 F001 " 2863 ...Repeated for Source 2 " 28C6 ...Repeated for Source 3 " 2929 ...Repeated for Source 4 C70, T60 298C ...Repeated for Source 5 " 29EF ...Repeated for Source 6 UR SERIES – COMMUNICATIONS GUIDE 2-35...
  • Page 56 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 2-36 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 57 (none) Security (Read/Write Setting) 32BF Operator Alphanumeric Password Setting F202 (none) Security (Read Only) 32C9 Operator Alphanumeric Password Status 0 to 1 F102 0 (Disabled) Security (Read/Write) 32CA Operator Alphanumeric Password Entry F202 (none) UR SERIES – COMMUNICATIONS GUIDE 2-37...
  • Page 58 Neutral Current Unbalance Commands and Actual Values (Read/Write Unless Noted) (3 Modules) 3410 Neutral Current Unbalance Automatic 0 to 2 F092 0 (Disabled) Setting Function " 3411 Neutral Current Unbalance Apply 0 to 1 F126 0 (No) Magnitude 2-38 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 59 Voltage Differential Kc Actual Value (Read 0 to 99.9999 0.000 F003 Only) " 3479 Voltage Differential Auto-set Kc 0 to 1 F126 0 (No) " 347A ...Repeated for Voltage Differential 2 " 3484 ...Repeated for Voltage Differential 3 UR SERIES – COMMUNICATIONS GUIDE 2-39...
  • Page 60 F002 " 34F2 RTD Input 3 Value -32768 to 32767 °C F002 " 34F3 RTD Input 4 Value -32768 to 32767 °C F002 " 34F4 RTD Input 5 Value -32768 to 32767 °C F002 2-40 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 61 -32768 to 32767 °C F002 Ohm Input Values (Read Only) (2 Modules) All except B90 3520 Ohm Inputs 1 Value 0 to 65535 F001 " 3521 Ohm Inputs 2 Value 0 to 65535 F001 UR SERIES – COMMUNICATIONS GUIDE 2-41...
  • Page 62 Neutral Voltage Unbalance 1 V0 Magnitude 0 to 99.9999 0.000 F004 " 36F6 Neutral Voltage Unbalance 1 Neutral Point 0 to 99.9999 0.000 F004 Vx Magnitude " 36F8 Neutral Voltage Unbalance 1 Vop 0 to 99.9999 0.000 F004 2-42 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 63 0 to 100 F073 " 3764 Real Time Clock Accuracy 0 to 999999999 F003 " 3766 PTP Port 1 State (3 items) 0 to 4 F625 0 (Disabled) " 3769 RTC Offset 0 to 999999999 F004 UR SERIES – COMMUNICATIONS GUIDE 2-43...
  • Page 64 382D ...Repeated for Field Unit 4 " 383C ...Repeated for Field Unit 5 " 384B ...Repeated for Field Unit 6 " 385A ...Repeated for Field Unit 7 " 3869 ...Repeated for Field Unit 8 2-44 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 65 ...Repeated for Field Contact Input 3 " 3921 ...Repeated for Field Contact Input 4 " 392C ...Repeated for Field Contact Input 5 " 3937 ...Repeated for Field Contact Input 6 " 3942 ...Repeated for Field Contact Input 7 UR SERIES – COMMUNICATIONS GUIDE 2-45...
  • Page 66 ...Repeated for Field Shared Input 5 " 3B2D ...Repeated for Field Shared Input 6 " 3B36 ...Repeated for Field Shared Input 7 " 3B3F ...Repeated for Field Shared Input 8 " 3B48 ...Repeated for Field Shared Input 9 2-46 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 67 ...Repeated for Field Shared Output 2 " 3E4A ...Repeated for Field Shared Output 3 " 3E57 ...Repeated for Field Shared Output 4 " 3E64 ...Repeated for Field Shared Output 5 " 3E71 ...Repeated for Field Shared Output 6 UR SERIES – COMMUNICATIONS GUIDE 2-47...
  • Page 68 0 (CC-05) " 3FC0 Field Unit 1 Status 0 to 4 F262 0 (Disabled) " 3FC1 ...Repeated for Field Unit 2 " 3FCA ...Repeated for Field Unit 3 " 3FD3 ...Repeated for Field Unit 4 2-48 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 69 Channel 1 Remote Loopback Status 0 to 2 F134 2 (n/a) " 405D Channel 1 Status 0 to 2 F134 1 (OK) " 405E Channel 2 Local Loopback Status 0 to 2 F134 2 (n/a) UR SERIES – COMMUNICATIONS GUIDE 2-49...
  • Page 70 DNP Client Addresses (2 items) 0 to 4294967295 F003 " 40A3 TCP Port Number for the Modbus protocol 0 to 65535 F001 " 40A4 TCP/UDP Port Number for the DNP Protocol 0 to 65535 F001 20000 2-50 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 71 IEC 60870-5-104 Power Factor Default 0 to1 0.01 F001 Threshold " 40EE IEC 60870-5-104 Other Default Threshold 0 to 100000000 F003 30000 " 40F0 IEC 60870-5-104 Client Address (5 items) 0 to 4294967295 F003 UR SERIES – COMMUNICATIONS GUIDE 2-51...
  • Page 72 Data Logger (Read/Write Setting) All except B30, 4181 Data Logger Channel Settings (16 items) F600 B90, D30 " 4191 Data Logger Mode 0 to 1 F260 (Continuous) " 4192 Data Logger Trigger 0 to 4294967295 F300 2-52 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 73 FlexLogic Operand to Activate LED 0 to 4294967295 F300 " 42C2 User LED type (latched or self-resetting) 0 to 1 F127 1 (Self-Reset) " 42C3 ...Repeated for User-Programmable LED 2 " 42C6 ...Repeated for User-Programmable LED 3 UR SERIES – COMMUNICATIONS GUIDE 2-53...
  • Page 74 " 4347 ...Repeated for User-Programmable LED 46 " 434A ...Repeated for User-Programmable LED 47 " 434D ...Repeated for User-Programmable LED 48 PRP Status (Read Only) 4363 Total Received Port A 0 to 4294967295 F003 2-54 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 75 " 4490 ...Repeated for CT Bank 5 " 4494 ...Repeated for CT Bank 6 VT Settings (Read/Write Setting) (6 Modules) All except B90, 4500 Phase VT 1 Connection 0 to 1 F100 0 (Wye) UR SERIES – COMMUNICATIONS GUIDE 2-55...
  • Page 76 Local Relay ID 0 to 255 F001 " 4617 Terminal 1 ID 0 to 255 F001 " 4618 Terminal 2 ID 0 to 255 F001 " 4619 Channel Asymmetry Compensation 0 to 4294967295 F300 2-56 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 77 0 to 1 F254 0 (Number of Counts) " 46B8 Incipient Cable Fault Detector 1 Counts 1 to 10 F001 " 46B9 Incipient Cable Fault Detector 1 Time 0 to 1000 0.01 F003 1000 Window UR SERIES – COMMUNICATIONS GUIDE 2-57...
  • Page 78 Compensated Overvoltage (Read/Write Grouped Setting) 48F0 Compensated OV Function 0 to 1 F102 0 (Disabled) " 48F1 Compensated OV Source 0 to 5 F167 0 (SRC 1) " 48F2 Compensated OV Zc Mag 0 to 500 0.01 F001 2-58 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 79 4D60 ...Repeated for User-Definable Display 12 " 4D80 ...Repeated for User-Definable Display 13 " 4DA0 ...Repeated for User-Definable Display 14 " 4DC0 ...Repeated for User-Definable Display 15 " 4DE0 ...Repeated for User-Definable Display 16 UR SERIES – COMMUNICATIONS GUIDE 2-59...
  • Page 80 " 4EDC Repeated for Field Unit 6 " 4F08 Repeated for Field Unit 7 " 4F34 Repeated for Field Unit 8 FlexLogic (Read/Write Setting) 5000 FlexLogic Entry (512 items) 0 to 4294967295 F300 2097152 2-60 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 81 561C ...Repeated for RTD Input 28 " 5630 ...Repeated for RTD Input 29 " 5644 ...Repeated for RTD Input 30 " 5658 ...Repeated for RTD Input 31 " 566C ...Repeated for RTD Input 32 UR SERIES – COMMUNICATIONS GUIDE 2-61...
  • Page 82 58A8 ...Repeated for FlexLogic Timer 22 " 58B0 ...Repeated for FlexLogic Timer 23 " 58B8 ...Repeated for FlexLogic Timer 24 " 58C0 ...Repeated for FlexLogic Timer 25 " 58C8 ...Repeated for FlexLogic Timer 26 2-62 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 83 5A0B Phase Instantaneous Overcurrent 1 Target 0 to 2 F109 0 (Self-reset) " 5A0C Phase Instantaneous Overcurrent 1 Events 0 to 1 F102 0 (Disabled) " 5A0D Reserved (6 items) 0 to 1 F001 UR SERIES – COMMUNICATIONS GUIDE 2-63...
  • Page 84 5B22 ...Repeated for Neutral Time Overcurrent 3 D60, F35, F60, L60, L90, T60 " 5B33 ...Repeated for Neutral Time Overcurrent 4 B30, C60, C70, 5B44 ...Repeated for Neutral Time Overcurrent 5 F35, L90, T60 2-64 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 85 Ground Time Overcurrent 1 Pickup 0 to 30 0.001 F001 1000 " 5D04 Ground Time Overcurrent 1 Curve 0 to 16 F103 0 (IEEE Mod Inv) " 5D05 Ground Time Overcurrent 1 Multiplier 0 to 600 0.01 F001 UR SERIES – COMMUNICATIONS GUIDE 2-65...
  • Page 86 M60, T60 " 5DD3 ...Repeated for Ground Instantaneous Overcurrent 4 B30, C60, C70, 5DE4 ...Repeated for Ground Instantaneous D60, F35, F60, Overcurrent 5 L90, M60, T60 " 5DF5 ...Repeated for Ground Instantaneous Overcurrent 6 2-66 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 87 ...Repeated for Incipient Cable Fault Detector 5 " 5ECF ...Repeated for Incipient Cable Fault Detector 6 Incipient Cable Fault Detector Command (Read/Write Setting) F35, F60 5ED8 Incipient Cable Fault Detector Clear 0 to 1 F126 0 (No) Counters UR SERIES – COMMUNICATIONS GUIDE 2-67...
  • Page 88 FlexLogic Operands to Activate Groups 2 0 to 4294967295 F300 through 6 (5 items) " 5F7D Setting Group Function 0 to 1 F102 0 (Disabled) " 5F7E Setting Group Events 0 to 1 F102 0 (Disabled) 2-68 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 89 Open Pole Detect Voltage Input 0 to 1 F102 0 (Disabled) " 604D Open Pole Detect Pickup Delay 0 to 65.535 0.001 F001 " 604E Open Pole Detect Reset Delay 0 to 65.535 0.001 F001 UR SERIES – COMMUNICATIONS GUIDE 2-69...
  • Page 90 Negative-sequence Current Fault Detector 0.05 to 15 0.01 F001 High Pickup " 60A3 Negative-sequence Current Fault Detector 0 to 4294967295 F300 Block " 60A5 Negative-sequence Current Fault Detector 0 to 2 F109 0 (Self-reset) Target 2-70 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 91 -5 to 5 F002 " 6104 87PC Asymmetry Channel 2 -5 to 5 F002 " 6106 87PC Stability Angle 40 to 140 degrees 5 F001 " 6107 87PC Transient Reset 0 to 65.535 0.001 F001 UR SERIES – COMMUNICATIONS GUIDE 2-71...
  • Page 92 F109 0 (Self-reset) " 6168 Transformer Loss of Life Events 0 to 1 F102 0 (Disabled) Transformer Thermal Inputs (Read/Write Setting) 6170 Transformer Thermal Model Source Input 0 to 5 F167 0 (SRC 1) 2-72 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 93 Autoreclose 1 Manual Close 0 to 4294967295 F300 " 6208 Autoreclose 1 Manual Reset from LO 0 to 4294967295 F300 " 620A Autoreclose 1 Reset Lockout if Breaker 0 to 1 F108 0 (Off) Closed UR SERIES – COMMUNICATIONS GUIDE 2-73...
  • Page 94 0 (Self-reset) Target " 6309 Negative Sequence Time Overcurrent 1 0 to 1 F102 0 (Disabled) Events " 630A Reserved (7 items) 0 to 1 F001 " 6311 ...Repeated for Negative Sequence Time Overcurrent 2 2-74 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 95 F35, F60, L30, Function L60, L90 " 63C1 Negative Sequence Instantaneous OC 1 0 to 5 F167 0 (SRC 1) Signal Source " 63C2 Negative Sequence Instantaneous 0 to 30 0.001 F001 1000 Overcurrent 1 Pickup UR SERIES – COMMUNICATIONS GUIDE 2-75...
  • Page 96 " 6447 Negative Sequence Overvoltage 1 Target 0 to 2 F109 0 (Self-reset) " 6448 Negative Sequence Overvoltage 1 Events 0 to 1 F102 0 (Disabled) " 6449 ...Repeated for Negative Sequence Overvoltage 2 2-76 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 97 0 (Self-reset) " 6576 Time of Day Timer 1 Events 0 to 1 F102 0 (Disabled) " 6577 ...Repeated for Time of Day Timer 2 " 657E ...Repeated for Time of Day Timer 3 UR SERIES – COMMUNICATIONS GUIDE 2-77...
  • Page 98 D30, D60, G60, 65D7 Power Swing Detect Quad Forward Middle 0.1 to 500 ohms 0.01 F001 6000 L60, L90, N60, " 65D8 Power Swing Detect Quad Forward Outer 0.1 to 500 ohms 0.01 F001 7000 2-78 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 99 Restart Delay Lockout Time 0 to 50000 F001 " 663F Total Motor Lockout Time 0 to 65000 F001 Field Ground Actual Values (Read Only) 6640 Field Ground Resistance 0 to 20000 kOhm 0.001 F003 20000000 UR SERIES – COMMUNICATIONS GUIDE 2-79...
  • Page 100 Sensitive Directional Power 1 STG1 Delay 0 to 600 0.01 F001 " 6686 Sensitive Directional Power 1 STG2 SMIN -1.2 to 1.2 0.001 F002 " 6687 Sensitive Directional Power 1 STG2 Delay 0 to 600 0.01 F001 2000 2-80 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 101 Third Harmonic Neutral Undervoltage Min 0 to 1.25 0.001 F003 Power " 66E2 Third Harmonic Neutral Undervoltage Volt 0 to 1.25 0.001 F001 Supervision " 66E3 Third Harmonic Neutral Undervoltage 0 to 4294967295 F300 Block UR SERIES – COMMUNICATIONS GUIDE 2-81...
  • Page 102 Stator Ground Stage 2 Pickup 0 to 0.9 0.001 F001 " 6725 Stator Ground Stage 2 Pickup Delay 0 to 600 0.01 F001 " 6726 Stator Ground Stage 2 Supv 0.001 to 0.1 0.000 F001 2-82 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 103 Trip 3-Pole Input4 0 to 4294967295 F300 " 6769 Trip 3-Pole Input5 0 to 4294967295 F300 " 676B Trip 3-Pole Input6 0 to 4294967295 F300 " 676D Trip 1-Pole Input1 0 to 4294967295 F300 UR SERIES – COMMUNICATIONS GUIDE 2-83...
  • Page 104 67BD Open Pole Mode 0 to 1 F607 (Accelerated " 67BE Reserved (3 items) 0 to 1 F001 Pilot DUTT (1P) (Read/Write Setting) D60, L90 67D0 DUTT Function 0 to 1 F102 0 (Disabled) 2-84 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 105 6839 Hybrid POTT 1P Weak Infeed 0 to 2 F199 1 (Enabled) " 683A Hybrid POTT 1P Weak Infeed Condition 0 to 4294967295 F300 " 683C Hybrid POTT 1P Block 0 to 4294967295 F300 UR SERIES – COMMUNICATIONS GUIDE 2-85...
  • Page 106 F300 " 6883 Autoreclose Incomplete Sequence Time 0 to 655.35 0.01 F001 " 6884 Autoreclose Block Breaker 2 0 to 4294967295 F300 " 6886 Autoreclose Close Time Breaker 2 0 to 655.35 0.01 F001 2-86 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 107 0 to 4294967295 F300 " 68B8 Directional Comparison Unblocking Rx2 0 to 4294967295 F300 " 68BA Directional Comparison Unblocking Log2 0 to 4294967295 F300 " 68BC Directional Comparison Unblocking Rx3 0 to 4294967295 F300 UR SERIES – COMMUNICATIONS GUIDE 2-87...
  • Page 108 0.1 to 600 0.01 F001 " 6953 Mechanical Jam Reset Delay 0 to 600 0.01 F001 " 6954 Mechanical Jam Block 0 to 4294967295 F300 " 6956 Mechanical Jam Target 0 to 2 F109 0 (Self-reset) 2-88 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 109 End of Fault Protection 1 Manual Close 0 to 4294967295 F300 " 6B88 End of Fault Protection 1 Pickup Delay 0 to 65.535 0.001 F001 " 6B89 End of Fault Protection 1 Block 0 to 4294967295 F300 UR SERIES – COMMUNICATIONS GUIDE 2-89...
  • Page 110 ...Repeated for Isolator 9 " 6D28 ...Repeated for Isolator 10 " 6D34 ...Repeated for Isolator 11 " 6D40 ...Repeated for Isolator 12 " 6D4C ...Repeated for Isolator 13 " 6D58 ...Repeated for Isolator 14 2-90 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 111 6F12 ...Repeated for Terminal Current 7 " 6F15 ...Repeated for Terminal Current 8 " 6F18 ...Repeated for Terminal Current 9 " 6F1B ...Repeated for Terminal Current 10 " 6F1E ...Repeated for Terminal Current 11 UR SERIES – COMMUNICATIONS GUIDE 2-91...
  • Page 112 6F86 ...Repeated for Terminal Current 14 " 6F88 ...Repeated for Terminal Current 15 " 6F8A ...Repeated for Terminal Current 16 " 6F8C ...Repeated for Terminal Current 17 " 6F8E ...Repeated for Terminal Current 18 2-92 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 113 7048 ...Repeated for Breaker Failure 9 " 7051 ...Repeated for Breaker Failure 10 " 705A ...Repeated for Breaker Failure 11 " 7063 ...Repeated for Breaker Failure 12 " 706C ...Repeated for Breaker Failure 13 UR SERIES – COMMUNICATIONS GUIDE 2-93...
  • Page 114 Phase Distance Zone 1 Current Supervision 0.05 to 30 0.001 F001 " 7072 Phase Distance Zone 1 Reach 0.02 to 500 ohms 0.01 F001 " 7073 Phase Distance Zone 1 Direction 0 to 2 F154 0 (Forward) 2-94 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 115 Breaker Failure 1 Amp Hiset OpA 0 to 4294967295 F300 " 7119 Breaker Failure 1 Amp Hiset OpB 0 to 4294967295 F300 " 711B Breaker Failure 1 Amp Hiset OpC 0 to 4294967295 F300 UR SERIES – COMMUNICATIONS GUIDE 2-95...
  • Page 116 Ground Distance Zone 1 Events 0 to 1 F102 0 (Disabled) " 713A Ground Distance Zone 1 Shape 0 to 1 F120 0 (Mho) " 713B Ground Distance Zone 1 Z0 Z1 Magnitude 0 to 10 0.01 F001 2-96 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 117 0 (Disabled) F60, G30, G60, L30, L60, L90, M60, T60 " 7201 Phase Directional Overcurrent 1 Source 0 to 5 F167 0 (SRC 1) " 7202 Phase Directional Overcurrent 1 Block 0 to 4294967295 F300 UR SERIES – COMMUNICATIONS GUIDE 2-97...
  • Page 118 0 (SRC 1) 1 Source " 7262 Negative Sequence Directional Overcurrent 0 to 1 F179 0 (Neg 1 Type Sequence) " 7263 Neg Sequence Directional Overcurrent 1 0 to 90 ° Lag F002 Forward ECA 2-98 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 119 74A9 Disconnect Switch 1 Close 0 to 4294967295 F300 " 74AB Disconnect Switch 1 Block Close 0 to 4294967295 F300 " 74AD Disconnect Switch 1 Phase A / Three-pole 0 to 4294967295 F300 Closed UR SERIES – COMMUNICATIONS GUIDE 2-99...
  • Page 120 F300 " 7607 Instantaneous Overcurrent 1 Target 0 to 2 F109 0 (Self-reset) " 7608 Instantaneous Overcurrent 1 Events 0 to 1 F102 0 (Disabled) " 7609 Reserved (2 items) 0 to 65535 F001 2-100 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 121 Time Overcurrent 1 Pickup 0.001 to 30 0.001 F001 1200 " 7703 Time Overcurrent 1 Curve 0 to 16 F103 0 (IEEE Mod Inv) " 7704 Time Overcurrent 1 Multiplier 0 to 600 0.01 F001 UR SERIES – COMMUNICATIONS GUIDE 2-101...
  • Page 122 " 7797 Repeated for Thermal Protection 2 Broken Conductor Detection (Read/Write Settings) (2, 4, or 6 Modules) D30, D60, F35, 77AA Broken Conductor 1 Function 0 to 1 F102 0 (Disabled) F60, L30, L90 2-102 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 123 ...Repeated for PMU 6 Phasor Measurement Unit Test Values (Read/Write Setting) (1, 2, 4, or 6 Modules) C60, D60, F60, 78AE PMU 1 Test Function 0 to 1 F102 0 (Disabled) G60, L30, L90, N60, T60 UR SERIES – COMMUNICATIONS GUIDE 2-103...
  • Page 124 Thermal Model (Read/Write Grouped Setting) 7B00 Thermal Model Function 0 to 1 F102 0 (Disabled) " 7B01 Thermal Model Curve 0 to 5 F099 0 (Motor) " 7B02 Thermal Model TD Multiplier 0 to 600 0.01 F001 2-104 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 125 Voltage " 7B32 Speed 2 VD Overload Safe Stall Time at 0.1 to 1000 F001 100% Voltage × FLA " 7B33 Speed 2 VD Acceleration Intersect at 100% 1.5 to 20 0.01 F001 Voltage UR SERIES – COMMUNICATIONS GUIDE 2-105...
  • Page 126 Pushbutton 2 " 7BC0 ...Repeated for User Programmable Pushbutton 3 " 7BF0 ...Repeated for User Programmable Pushbutton 4 " 7C20 ...Repeated for User Programmable Pushbutton 5 " 7C50 ...Repeated for User Programmable Pushbutton 6 2-106 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 127 0.01 F001 " 7E7A Field Current Block 0 to 4294967295 F300 " 7E7C Field Current Target 0 to 2 F109 0 (Self-reset) " 7E7D Field Current Events 0 to 1 F102 0 (Disabled) UR SERIES – COMMUNICATIONS GUIDE 2-107...
  • Page 128 0 to 2147483647 F060 " 7EAF AG Loop Impedance Angle -359.9 to 0 degrees 0.1 F002 " 7EB0 BG Loop Resistance -2147483647 to F060 2147483647 " 7EB2 BG Loop Reactance -2147483647 to F060 2147483647 2-108 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 129 Auxiliary Undervoltage 1 Delay 0 to 600 0.01 F001 " 7F64 Auxiliary Undervoltage 1 Curve 0 to 1 F111 0 (Definite Time) " 7F65 Auxiliary Undervoltage 1 Minimum Voltage 0 to 3 0.001 F001 UR SERIES – COMMUNICATIONS GUIDE 2-109...
  • Page 130 8150 Comparator 1 Argument A Value -12700 to 12700 0.01 F004 " 8152 Comparator 1 Argument B Value -12700 to 12700 0.01 F004 " 8154 Comparator 1 Output Value -25400 to 25400 0.01 F004 2-110 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 131 Reserved Register T4 0 to 4294967295 F003 " 81C6 Reserved Register T5 0 to 4294967295 F003 " 81C8 Reserved Register T6 0 to 4294967295 F003 " 81CA Reserved Register T7 0 to 4294967295 F003 UR SERIES – COMMUNICATIONS GUIDE 2-111...
  • Page 132 0 to 65535 F001 F35, F60, G30, G60, M60, T35, " 83E1 EGD Fast Producer Exchange 1 0 to 4294967295 F003 Configuration Time " 83E3 EGD Fast Producer Exchange 1 Size 0 to 65535 F001 2-112 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 133 ...Repeated for Direct Integer Output 8 " 8590 ...Repeated for Direct Integer Output 9 " 859A ...Repeated for Direct Integer Output 10 " 85A4 ...Repeated for Direct Integer Output 11 " 85AE ...Repeated for Direct Integer Output 12 UR SERIES – COMMUNICATIONS GUIDE 2-113...
  • Page 134 Breaker Failure 1 Breaker Status 2 Phase C 0 to 4294967295 F300 B30, C60, D60, 862D ...Repeated for Breaker Failure 2 F60, G60, L30, L60, L90, M60, B30, G60, T60 865A ...Repeated for Breaker Failure 3 " 8687 ...Repeated for Breaker Failure 4 2-114 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 135 8B34 ...Repeated for Digital Element 15 " 8B4A ...Repeated for Digital Element 16 " 8B60 ...Repeated for Digital Element 17 " 8B76 ...Repeated for Digital Element 18 " 8B8C ...Repeated for Digital Element 19 UR SERIES – COMMUNICATIONS GUIDE 2-115...
  • Page 136 " 8F98 ...Repeated for Trip Bus 5 " 8FCA ...Repeated for Trip Bus 6 FlexElement (Read/Write Setting) (8 or 16 Modules) All except B90 9000 FlexElement 1 Function 0 to 1 F102 0 (Disabled) 2-116 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 137 Fault Report 1 System Z0 Magnitude 0.01 to 650.00 ohms 0.01 F001 " 9208 Fault Report 1 System Z0 Angle 25 to 90 degrees 1 F001 " 920C Fault REM1-TAP Z1 Magnitude 0.01 to 250 ohms 0.01 F001 UR SERIES – COMMUNICATIONS GUIDE 2-117...
  • Page 138 9366 ...Repeated for DCmA Output 2 " 936C ...Repeated for DCmA Output 3 " 9372 ...Repeated for DCmA Output 4 " 9378 ...Repeated for DCmA Output 5 " 937E ...Repeated for DCmA Output 6 2-118 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 139 94FC ...Repeated for Direct Input/Output 22 " 9508 ...Repeated for Direct Input/Output 23 " 9514 ...Repeated for Direct Input/Output 24 " 9520 ...Repeated for Direct Input/Output 25 " 952C ...Repeated for Direct Input/Output 26 UR SERIES – COMMUNICATIONS GUIDE 2-119...
  • Page 140 9730 ...Repeated for Direct Input/Output 69 " 973C ...Repeated for Direct Input/Output 70 " 9748 ...Repeated for Direct Input/Output 71 " 9754 ...Repeated for Direct Input/Output 72 " 9760 ...Repeated for Direct Input/Output 73 2-120 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 141 -2147483.647 to 0.001 F004 2147483.647 " 9914 FlexElement 11 Actual -2147483.647 to 0.001 F004 2147483.647 " 9916 FlexElement 12 Actual -2147483.647 to 0.001 F004 2147483.647 " 9918 FlexElement 13 Actual -2147483.647 to 0.001 F004 2147483.647 UR SERIES – COMMUNICATIONS GUIDE 2-121...
  • Page 142 Teleprotection Channel 1 Number of Lost 0 to 65535 F001 Packets " 9AA2 Teleprotection Channel 2 Status 0 to 2 F134 2 (n/a) " 9AA3 Teleprotection Channel 2 Number of Lost 0 to 65535 F001 Packets 2-122 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 143 Capacitor Control 1 Events 0 to 1 F102 0 (Disabled) " 9B40 ...Repeated for Capacitor Control Element 2 " 9B80 ...Repeated for Capacitor Control Element 3 " 9BC0 ...Repeated for Capacitor Control Element 4 UR SERIES – COMMUNICATIONS GUIDE 2-123...
  • Page 144 Neutral Current Unbalance 1 Stage 3 0 to 5.000 0.001 F001 Pickup " 9CE9 Neutral Current Unbalance 1 Stage 3 Slope 0 to 10.0 F001 " 9CEA Neutral Current Unbalance 1 Stage 4 0 to 5.000 0.001 F001 Pickup 2-124 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 145 3000 Pickup Delay " 9D60 Neutral Voltage Unbalance 1 Stage 2 0 to 600.00 0.01 F001 1000 Pickup Delay " 9D61 Neutral Voltage Unbalance 1 Stage 3 0 to 600.00 0.01 F001 Pickup Delay UR SERIES – COMMUNICATIONS GUIDE 2-125...
  • Page 146 0.001 F001 Pickup " 9DD2 Phase Current Unbalance 1 Stage 1 Pickup 0 to 600.00 0.01 F001 3000 Delay " 9DD3 Phase Current Unbalance 1 Stage 2 Pickup 0 to 600.00 0.01 F001 1000 Delay 2-126 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 147 0 to 4294967295 F300 " 9E63 Voltage Differential 1 Target 0 to 2 F109 0 (Self-Reset) " 9E64 Voltage Differential 1 Events 0 to 1 F102 0 (Disabled) " 9E65 ...Repeated for Voltage Differential 2 UR SERIES – COMMUNICATIONS GUIDE 2-127...
  • Page 148 –100 to 0 F002 –1000 Level " A027 Maximum Broken Rotor Bar Component 0 to 76 0.01 F001 Frequency " A028 Motor Load at Broken Rotor Bar Maximum 0 to 1.5 × FLA 0.01 F001 2-128 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 149 C60, C70, D60, A0A2 ...Repeated for Source 3 F60, G30, G60, L60, L90, M60, N60, T60 " A0A6 ...Repeated for Source 4 C70, N60, T60 A0AA ...Repeated for Source 5 " A0AE ...Repeated for Source 6 UR SERIES – COMMUNICATIONS GUIDE 2-129...
  • Page 150 0 to 4294967295 F300 " A28C Selector 1 Bit2 0 to 4294967295 F300 " A28E Selector 1 Bit Mode 0 to 1 F083 0 (Time-out) " A28F Selector 1 Bit Acknowledge 0 to 4294967295 F300 2-130 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 151 100 to 9999 F001 " A510 PID 1 Dead Time 1 to 20 F001 " A511 PID 1 Block 0 to 4294967295 F300 " A513 PID 1 Target 0 to 2 F109 0 (Self-reset) UR SERIES – COMMUNICATIONS GUIDE 2-131...
  • Page 152 A718 ...Repeated for Non-Volatile Latch 3 " A724 ...Repeated for Non-Volatile Latch 4 " A730 ...Repeated for Non-Volatile Latch 5 " A73C ...Repeated for Non-Volatile Latch 6 " A748 ...Repeated for Non-Volatile Latch 7 2-132 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 153 POTT1 1P Number of Communication Bits 0 to 2 F198 0 (1) " A83C POTT1 1P Rx1 0 to 4294967295 F300 " A83E POTT1 1P Rx2 0 to 4294967295 F300 " A840 POTT1 1P Rx3 0 to 4294967295 F300 UR SERIES – COMMUNICATIONS GUIDE 2-133...
  • Page 154 0 to 5 F167 0 (SRC 1) " A90B Frequency Rate of Change 1 Trend 0 to 2 F224 (Increasing) " A90C Frequency Rate of Change 1 Pickup 0.1 to 15 Hz/s 0.01 F001 2-134 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 155 ...Repeated for IEC 61850 GOOSE Analog Input 8 " AA38 ...Repeated for IEC 61850 GOOSE Analog Input 9 " AA3F ...Repeated for IEC 61850 GOOSE Analog Input 10 " AA46 ...Repeated for IEC 61850 GOOSE Analog Input 11 UR SERIES – COMMUNICATIONS GUIDE 2-135...
  • Page 156 0 to 4294967295 F300 Close Interlock " AB08 ...Repeated for module number 2 " AB10 ...Repeated for module number 3 " AB18 ...Repeated for module number 4 " AB20 ...Repeated for module number 5 2-136 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 157 ...Repeated for IEC 61850 GGIO4 Analog Input 20 " AF9C ...Repeated for IEC 61850 GGIO4 Analog Input 21 " AFA3 ...Repeated for IEC 61850 GGIO4 Analog Input 22 " AFAA ...Repeated for IEC 61850 GGIO4 Analog Input 23 UR SERIES – COMMUNICATIONS GUIDE 2-137...
  • Page 158 B23A ...Repeated for Received Analog 22 " B23C ...Repeated for Received Analog 23 " B23E ...Repeated for Received Analog 24 " B240 ...Repeated for Received Analog 25 " B242 ...Repeated for Received Analog 26 2-138 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 159 " B372 FlexLogic Operand for IEC 61850 XSWI 0 to 4294967295 F300 Open Interlock " B374 FlexLogic Operand for IEC 61850 XSW 0 to 4294967295 F300 Close Interlock " B376 ...Repeated for Switch 2 UR SERIES – COMMUNICATIONS GUIDE 2-139...
  • Page 160 BB68 ...Repeated for Contact Input 14 " BB70 ...Repeated for Contact Input 15 " BB78 ...Repeated for Contact Input 16 " BB80 ...Repeated for Contact Input 17 " BB88 ...Repeated for Contact Input 18 2-140 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 161 BCE0 ...Repeated for Contact Input 61 " BCE8 ...Repeated for Contact Input 62 " BCF0 ...Repeated for Contact Input 63 " BCF8 ...Repeated for Contact Input 64 " BD00 ...Repeated for Contact Input 65 UR SERIES – COMMUNICATIONS GUIDE 2-141...
  • Page 162 BE60 ...Repeated for Virtual Input 5 " BE6C ...Repeated for Virtual Input 6 " BE78 ...Repeated for Virtual Input 7 " BE84 ...Repeated for Virtual Input 8 " BE90 ...Repeated for Virtual Input 9 2-142 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 163 C094 ...Repeated for Virtual Input 52 " C0A0 ...Repeated for Virtual Input 53 " C0AC ...Repeated for Virtual Input 54 " C0B8 ...Repeated for Virtual Input 55 " C0C4 ...Repeated for Virtual Input 56 UR SERIES – COMMUNICATIONS GUIDE 2-143...
  • Page 164 C228 ...Repeated for Virtual Output 32 " C230 ...Repeated for Virtual Output 33 " C238 ...Repeated for Virtual Output 34 " C240 ...Repeated for Virtual Output 35 " C248 ...Repeated for Virtual Output 36 2-144 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 165 C3A0 ...Repeated for Virtual Output 79 " C3A8 ...Repeated for Virtual Output 80 " C3B0 ...Repeated for Virtual Output 81 " C3B8 ...Repeated for Virtual Output 82 " C3C0 ...Repeated for Virtual Output 83 UR SERIES – COMMUNICATIONS GUIDE 2-145...
  • Page 166 N60, T35, T60 C454 Clear Event Records Operand 0 to 4294967295 F300 C456 Clear Oscillography Operand 0 to 4294967295 F300 All except B30, C458 Clear Data Logger Operand 0 to 4294967295 F300 B90, D30 2-146 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 167 C630 ...Repeated for Direct Output 17 " C633 ...Repeated for Direct Output 18 " C636 ...Repeated for Direct Output 19 " C639 ...Repeated for Direct Output 20 " C63C ...Repeated for Direct Output 21 UR SERIES – COMMUNICATIONS GUIDE 2-147...
  • Page 168 " C6BD ...Repeated for Direct Output 64 C6C0 ...Repeated for Direct Output 65 " C6C3 ...Repeated for Direct Output 66 " C6C6 ...Repeated for Direct Output 67 " C6C9 ...Repeated for Direct Output 68 2-148 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 169 0 to 1 F126 0 (No) " C841 Local Loopback Channel 1 to 2 F001 " C842 Remote Loopback Function 0 to 1 F126 0 (No) " C843 Remote Loopback Channel 1 to 2 F001 UR SERIES – COMMUNICATIONS GUIDE 2-149...
  • Page 170 C8F4 ...Repeated for Direct Input 26 " C8F8 ...Repeated for Direct Input 27 " C8FC ...Repeated for Direct Input 28 " C900 ...Repeated for Direct Input 29 " C904 ...Repeated for Direct Input 30 2-150 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 171 C9B0 ...Repeated for Direct Input 73 " C9B4 ...Repeated for Direct Input 74 " C9B8 ...Repeated for Direct Input 75 " C9BC ...Repeated for Direct Input 76 " C9C0 ...Repeated for Direct Input 77 UR SERIES – COMMUNICATIONS GUIDE 2-151...
  • Page 172 1 to 1000 F001 " CAE8 Direct Input/Output Channel 2 Unreturned 0 to 1 F102 0 (Disabled) Messages Alarm Function " CAE9 Direct Input/Output Channel 2 Unreturned 100 to 10000 F001 Messages Alarm Msg Count 2-152 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 173 0 to 2 F001 Value " D336 IEC 61850 GGIO2.CF.SPCSO23.ctlModel 0 to 2 F001 Value " D337 IEC 61850 GGIO2.CF.SPCSO24.ctlModel 0 to 2 F001 Value " D338 IEC 61850 GGIO2.CF.SPCSO25.ctlModel 0 to 2 F001 Value UR SERIES – COMMUNICATIONS GUIDE 2-153...
  • Page 174 0 to 2 F001 Value " D352 IEC 61850 GGIO2.CF.SPCSO51.ctlModel 0 to 2 F001 Value " D353 IEC 61850 GGIO2.CF.SPCSO52.ctlModel 0 to 2 F001 Value " D354 IEC 61850 GGIO2.CF.SPCSO53.ctlModel 0 to 2 F001 Value 2-154 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 175 D3B4 ...Repeated for Remote Device 22 " D3B8 ...Repeated for Remote Device 23 " D3BC ...Repeated for Remote Device 24 " D3C0 ...Repeated for Remote Device 25 " D3C4 ...Repeated for Remote Device 26 UR SERIES – COMMUNICATIONS GUIDE 2-155...
  • Page 176 D584 ...Repeated for Contact Output 29 " D593 ...Repeated for Contact Output 30 " D5A2 ...Repeated for Contact Output 31 " D5B1 ...Repeated for Contact Output 32 " D5C0 ...Repeated for Contact Output 33 2-156 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 177 D7C6 ...Repeated for DCmA Inputs 3 " D7D9 ...Repeated for DCmA Inputs 4 " D7EC ...Repeated for DCmA Inputs 5 " D7FF ...Repeated for DCmA Inputs 6 " D812 ...Repeated for DCmA Inputs 7 UR SERIES – COMMUNICATIONS GUIDE 2-157...
  • Page 178 Synchrocheck 1 Block 0 to 4294967295 F300 " DC80 Synchrocheck 1 Frequency Hysteresis 0 to 0.1 0.01 F001 " DC81 ...Repeated for Synchrocheck 2 " DC92 ...Repeated for Synchrocheck 3 " DCA3 ...Repeated for Synchrocheck 4 2-158 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 179 0 (No) " E8D5 PMU Aggregator 1 ASDUS 1 to 4 F001 " E8D6 PMU Aggregator 1 Port 1 to 3 F001 " E8D7 PMU Aggregator 1 Reserved (3 items) 0 to 1 F001 UR SERIES – COMMUNICATIONS GUIDE 2-159...
  • Page 180 PMU 1 Timed Trigger Position 1 to 50 F001 " EA36 ...Repeated for PMU 2 EA3A ...Repeated for PMU 3 " EA3E ...Repeated for PMU 4 " EA42 ...Repeated for PMU 5 " EA46 ...Repeated for PMU 6 2-160 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 181 PMU 1 Frequency Trigger Pickup Time 0 to 600 0.01 F001 " EAF0 PMU 1 Frequency Trigger Dropout Time 0 to 600 0.01 F001 " EAF1 PMU 1 Frequency Trigger Block (3 items) 0 to 4294967295 F300 UR SERIES – COMMUNICATIONS GUIDE 2-161...
  • Page 182 PMU 1 Vb Calibration Magnitude 95 to 105 F002 1000 " EBE0 PMU 1 Vc Calibration Angle -5 to 5 ° 0.05 F002 " EBE1 PMU 1 Vc Calibration Magnitude 95 to 105 F002 1000 2-162 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 183 Settings File Template (Read/Write Setting) ED09 Template Bitmask (750 items) 0 to 65535 F001 Phasor Measurement Unit Records (Read Only) C60, D60, F60, EFFF PMU Recording Number of Triggers 0 to 65535 F001 G60, L30, L90, N60, T60 UR SERIES – COMMUNICATIONS GUIDE 2-163...
  • Page 184: Data Formats

    UR_UINT32 TIME and DATE (UNSIGNED 32 BIT INTEGER) 0 = Time-out, 1 = Acknowledge Gives the current time in seconds elapsed since 00:00:00 January 1, 1970. F084 ENUMERATION: SELECTOR POWER UP 0 = Restore, 1 = Synchronize, 2 = Sync/Restore 2-164 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 185 ENUMERATION: DISABLED/ENABLED 0 = Disabled, 1 = Manual, 2 = Auto 0 = Disabled, 1 = Enabled F093 ENUMERATION: BANK OVERVOLTAGE GROUND TYPE 0 = Grounded, 1 = Ungrounded, 2 = Ungrounded without Vn UR SERIES – COMMUNICATIONS GUIDE 2-165...
  • Page 186 Phase Instantaneous Overcurrent 7 F60, L90, M60, N60, F113 " Phase Instantaneous Overcurrent 8 ENUMERATION: PARITY C70, F35, N60, T60 8 Phase Instantaneous Overcurrent 9 0 = None, 1 = Odd, 2 = Even 2-166 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 187 " Restricted Ground Fault 4 B30, C60, C70, F35, Neutral Time Overcurrent 5 F60, G60, L90, T60 90 Restricted Ground Fault 5 L90, T60 " Restricted Ground Fault 6 " Neutral Time Overcurrent 6 UR SERIES – COMMUNICATIONS GUIDE 2-167...
  • Page 188 L30, L60, L90, M60, N60, T35, T60 " 158 Neutral Overvoltage 3 " 233 SRC2 50DD (Disturbance Detection) D30, D60, G60, L60, 160 Phase Distance Zone 1 L90, T60 " 161 Phase Distance Zone 2 2-168 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 189 355 Underfrequency 4 T35, T60 " 356 Underfrequency 5 " 289 Breaker Arcing Current 2 " 357 Underfrequency 6 C60, D60, F35, L90, 290 Breaker Arcing Current 3 T35, T60 D60, L60, L90 360 Trip Output UR SERIES – COMMUNICATIONS GUIDE 2-169...
  • Page 190 C70, F35, G30, G60, 408 FlexElement 9 " 461 Breaker Supervision 22 M60, N60, T35, T60 " 462 Breaker Supervision 23 " 409 FlexElement 10 " 463 Breaker Supervision 24 " 410 FlexElement 11 2-170 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 191 579 Isolator 20 " 523 Bus 6 " 580 Isolator 21 " 524 CT Trouble1 " 581 Isolator 22 " 525 CT Trouble2 " 582 Isolator 23 " 526 CT Trouble3 " 583 Isolator 24 UR SERIES – COMMUNICATIONS GUIDE 2-171...
  • Page 192 625 Breaker Fail 18 " 670 TOC 15 " 626 Breaker Fail 19 " 671 TOC 16 " 627 Breaker Fail 20 " 672 TOC 17 " 628 Breaker Fail 21 " 673 TOC 18 2-172 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 193 767 PMU 4 Rate of Change of Frequency " 729 Digital Element 38 " 768 PMU 5 Rate of Change of Frequency " 730 Digital Element 39 " 769 PMU 6 Rate of Change of Frequency UR SERIES – COMMUNICATIONS GUIDE 2-173...
  • Page 194 " 833 Bank phase overvoltage 2 phase A " 883 RTD Input 35 " 834 Bank phase overvoltage 2 phase B " 884 RTD Input 36 " 835 Bank phase overvoltage 2 phase C 2-174 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 195 994 Remote RTD Input 4 " 929 Disconnect switch 10 " 995 Remote RTD Input 5 " 930 Disconnect switch 11 " 996 Remote RTD Input 6 " 931 Disconnect switch 12 " 997 Remote RTD Input 7 UR SERIES – COMMUNICATIONS GUIDE 2-175...
  • Page 196 Wattmetric 1 0 = Disabled, 1 = Self-Reset, 2 = Latched " Wattmetric 2 Wattmetric 3 F139 ENUMERATION: DEMAND CALCULATIONS " Wattmetric 4 0 = Thermal Exponential, 1 = Block Interval, 2 = Rolling Demand 2-176 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 197 0 = Disabled, 1 = Open, 2 = Closed IEC 61850 Data Set Aggregator Error Unit Not Calibrated Settings Save Error SRAM Data Error Program Memory Watchdog Error Low on Memory Prototype Firmware Module Failure 01 Module Failure 02 UR SERIES – COMMUNICATIONS GUIDE 2-177...
  • Page 198 " Slot H Module RTD 4 RTD 21 RTD 37 " Slot J Module RTD 5 RTD 22 RTD 38 " Slot K Module RTD 6 RTD 23 RTD 39 " Slot L Module 2-178 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 199 ENUMERATION: BREAKER MODE 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) UR SERIES – COMMUNICATIONS GUIDE 2-179...
  • Page 200 5 = Network - UDP F179 ENUMERATION: NEGATIVE SEQUENCE DIRECTIONAL OVERCURRENT TYPE 0 = Neg Sequence, 1 = Zero Sequence F183 ENUMERATION: AC INPUT WAVEFORMS Bitmask Definition 8 samples/cycle 16 samples/cycle 32 samples/cycle 64 samples/cycle 2-180 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 201 ENUMERATION: ETHERNET OPERATION MODE F206 0 = Half-Duplex, 1 = Full-Duplex TEXT6: 6-CHARACTER ASCII TEXT F193 F207 ENUMERATION: ACCIDENTAL ENERGIZATION ARMING MODE TEXT4: 4-CHARACTER ASCII TEXT 0 = UV AND OFFLINE, 1 = UV OR OFFLINE UR SERIES – COMMUNICATIONS GUIDE 2-181...
  • Page 202 ENUMERATION: DIRECTIONAL POLARIZING MMXU1.MX.VAr.phsB.cVal.mag.f 0 = Voltage, 1 = Current, 2 = Dual, 3 = Dual-V, 4 = Dual-I MMXU1.MX.VAr.phsC.cVal.mag.f MMXU1.MX.VA.phsA.cVal.mag.f MMXU1.MX.VA.phsB.cVal.mag.f F231 ENUMERATION: POLARIZING VOLTAGE MMXU1.MX.VA.phsC.cVal.mag.f MMXU1.MX.PF.phsA.cVal.mag.f 0 = Calculated V0, 1 = Measured VX 2-182 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 203 MMXU2.MX.W.phsC.cVal.mag.f MMXU3.MX.PF.phsC.cVal.mag.f MMXU2.MX.VAr.phsA.cVal.mag.f MMXU4.MX.TotW.mag.f MMXU2.MX.VAr.phsB.cVal.mag.f MMXU4.MX.TotVAr.mag.f MMXU2.MX.VAr.phsC.cVal.mag.f MMXU4.MX.TotVA.mag.f MMXU2.MX.VA.phsA.cVal.mag.f MMXU4.MX.TotPF.mag.f MMXU2.MX.VA.phsB.cVal.mag.f MMXU4.MX.Hz.mag.f MMXU2.MX.VA.phsC.cVal.mag.f MMXU4.MX.PPV.phsAB.cVal.mag.f MMXU2.MX.PF.phsA.cVal.mag.f MMXU4.MX.PPV.phsAB.cVal.ang.f MMXU2.MX.PF.phsB.cVal.mag.f MMXU4.MX.PPV.phsBC.cVal.mag.f MMXU2.MX.PF.phsC.cVal.mag.f MMXU4.MX.PPV.phsBC.cVal.ang.f MMXU3.MX.TotW.mag.f MMXU4.MX.PPV.phsCA.cVal.mag.f MMXU3.MX.TotVAr.mag.f MMXU4.MX.PPV.phsCA.cVal.ang.f MMXU3.MX.TotVA.mag.f MMXU4.MX.PhV.phsA.cVal.mag.f MMXU3.MX.TotPF.mag.f MMXU4.MX.PhV.phsA.cVal.ang.f MMXU3.MX.Hz.mag.f MMXU4.MX.PhV.phsB.cVal.mag.f MMXU3.MX.PPV.phsAB.cVal.mag.f MMXU4.MX.PhV.phsB.cVal.ang.f MMXU3.MX.PPV.phsAB.cVal.ang.f MMXU4.MX.PhV.phsC.cVal.mag.f UR SERIES – COMMUNICATIONS GUIDE 2-183...
  • Page 204 MMXU5.MX.PPV.phsBC.cVal.ang.f MMXU6.MX.A.phsA.cVal.mag.f MMXU5.MX.PPV.phsCA.cVal.mag.f MMXU6.MX.A.phsA.cVal.ang.f MMXU5.MX.PPV.phsCA.cVal.ang.f MMXU6.MX.A.phsB.cVal.mag.f MMXU5.MX.PhV.phsA.cVal.mag.f MMXU6.MX.A.phsB.cVal.ang.f MMXU5.MX.PhV.phsA.cVal.ang.f MMXU6.MX.A.phsC.cVal.mag.f MMXU5.MX.PhV.phsB.cVal.mag.f MMXU6.MX.A.phsC.cVal.ang.f MMXU5.MX.PhV.phsB.cVal.ang.f MMXU6.MX.A.neut.cVal.mag.f MMXU5.MX.PhV.phsC.cVal.mag.f MMXU6.MX.A.neut.cVal.ang.f MMXU5.MX.PhV.phsC.cVal.ang.f MMXU6.MX.W.phsA.cVal.mag.f MMXU5.MX.A.phsA.cVal.mag.f MMXU6.MX.W.phsB.cVal.mag.f MMXU5.MX.A.phsA.cVal.ang.f MMXU6.MX.W.phsC.cVal.mag.f MMXU5.MX.A.phsB.cVal.mag.f MMXU6.MX.VAr.phsA.cVal.mag.f MMXU5.MX.A.phsB.cVal.ang.f MMXU6.MX.VAr.phsB.cVal.mag.f MMXU5.MX.A.phsC.cVal.mag.f MMXU6.MX.VAr.phsC.cVal.mag.f MMXU5.MX.A.phsC.cVal.ang.f MMXU6.MX.VA.phsA.cVal.mag.f MMXU5.MX.A.neut.cVal.mag.f MMXU6.MX.VA.phsB.cVal.mag.f MMXU5.MX.A.neut.cVal.ang.f MMXU6.MX.VA.phsC.cVal.mag.f 2-184 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 205 GGIO3.ST.Ind2.q GGIO4.MX.AnIn28.mag.f GGIO3.ST.Ind2.stVal GGIO4.MX.AnIn29.mag.f ↓ ↓ GGIO4.MX.AnIn30.mag.f GGIO3.ST.Ind64q GGIO4.MX.AnIn31.mag.f GGIO3.ST.Ind64.stVal GGIO4.MX.AnIn32.mag.f GGIO3.MX.AnIn1.mag.f GGIO5.ST.UIntIn1.q GGIO3.MX.AnIn2.mag.f GGIO5.ST.UIntIn1.stVal GGIO3.MX.AnIn3.mag.f GGIO5.ST.UIntIn2.q GGIO3.MX.AnIn4.mag.f GGIO5.ST.UIntIn2.stVal GGIO3.MX.AnIn5.mag.f GGIO5.ST.UIntIn3.q GGIO3.MX.AnIn6.mag.f GGIO5.ST.UIntIn3.stVal GGIO3.MX.AnIn7.mag.f GGIO5.ST.UIntIn4.q GGIO3.MX.AnIn8.mag.f GGIO5.ST.UIntIn4.stVal GGIO3.MX.AnIn9.mag.f GGIO5.ST.UIntIn5.q GGIO3.MX.AnIn10.mag.f GGIO5.ST.UIntIn5.stVal GGIO3.MX.AnIn11.mag.f GGIO5.ST.UIntIn6.q GGIO3.MX.AnIn12.mag.f UR SERIES – COMMUNICATIONS GUIDE 2-185...
  • Page 206 FlexCurve C GGIO3.ST.UIntIn5.q FlexCurve D GGIO3.ST.UIntIn5.stVal GGIO3.ST.UIntIn6.q GGIO3.ST.UIntIn6.stVal F237 GGIO3.ST.UIntIn7.q ENUMERATION: REAL TIME CLOCK MONTH (FOR EXAMPLE, DAYLIGHT SAVINGS TIME) GGIO3.ST.UIntIn7.stVal GGIO3.ST.UIntIn8.q Value Month GGIO3.ST.UIntIn8.stVal January GGIO3.ST.UIntIn9.q February GGIO3.ST.UIntIn9.stVal March GGIO3.ST.UIntIn10.q April GGIO3.ST.UIntIn10.stVal GGIO3.ST.UIntIn11.q June 2-186 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 207 Inverse B U1/AC5..7 Inverse C U2/AC1..3 FlexCurve A U2/AC5..7 FlexCurve B U3/AC1..3 FlexCurve C U3/AC5..7 FlexCurve D U4/AC1..3 U4/AC5..7 F241 U5/AC1..3 ENUMERATION: NEUTRAL VOLTAGE UNBALANCE BUS 3V0 U5/AC5..7 0 = Calculated, 1 = Measured U6/AC1..3 UR SERIES – COMMUNICATIONS GUIDE 2-187...
  • Page 208 0 = None, 1 = Dependability Biased, 2 = Security Biased U1/DC2 U1/DC3 F262 U2/DC1 ENUMERATION: BRICK STATUS ↓ ↓ 0 = Disabled, 1 = OK, 2 = Communications Trouble, 3 = Equipment U8/DC3 Mismatch, 4 = Brick Trouble 2-188 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 209 [62] MISCELLANEOUS EVENTS (see F146 for range) [64] PDC NETWORK CONTROL [66] PMU RECORDER OUT OF MEMORY [68] PMU RECORDER STOPPED [128 to 255] ELEMENT STATES (see the Element States section in the Modbus memory map) UR SERIES – COMMUNICATIONS GUIDE 2-189...
  • Page 210 The number of registers required is determined by the specific data item. A bit value of 0 = Off and 1 = On. F521 ENUMERATION: GROUND DISTANCE POLARIZING CURRENT 0 = Off, 1 = On 0 = Zero-Sequence, 1 = Negative-Sequence 2-190 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 211 Vbg, 8 = Vcg F536 ENUMERATION: AUTOMATIC VOLTAGE REGULATOR CONTROL MODE 0 = Voltage, 1 = VAR F537 ENUMERATION: AUTOMATIC VOLTAGE REGULATOR VAR OPEN MODE 0 = Minimize uptime, 1 = Minimize number of operations UR SERIES – COMMUNICATIONS GUIDE 2-191...
  • Page 212 120/second F552 ENUMERATION: RTD INPUT OPEN F546 ENUMERATION: PMU REPORTING STYLE Enumeration RTD open None 0 = Polar, 1 = Rectangular Alarm Block F547 ENUMERATION: PMU REPORTING FORMAT 0 = Integer, 1 = Floating 2-192 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 213 UR_UINT16: FLEXANALOG PARAMETER Corresponds to the Modbus address of the value used when this parameter is selected. Only certain values can be used as FlexAn- bad-stqte alogs (basically all metering quantities used in protection). Latest UR SERIES – COMMUNICATIONS GUIDE 2-193...
  • Page 214 Mode 1 (1 & 3 Pole) ENUMERATION: FIELD GROUND MODULE (FGM) INJECTION CONNECTION TYPE Mode 2 (1 Pole) Mode 3 (3 Pole - A) Enumeration Connection type Mode 4 (3 Pole - B) Single point Double point 2-194 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 215 F628 ENUMERATION: SECURITY BYPASS ACCESS F635 Disables security on local access, remote access, or both. ENUMERATION: RS232 BAUD RATE Enumeration Item 0 = 19200, 1 = 115200 Disabled Local and Remote Local Remote UR SERIES – COMMUNICATIONS GUIDE 2-195...
  • Page 216 MEMORY MAP CHAPTER 2: MODBUS COMMUNICATION 2-196 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 217: Iec 61850 Communication

    UR devices of previous releases using these features have to be converted to configurable GOOSE to communicate with a 7.3x device. The figure shows IEC 61850 as it pertains to an IED, such as a UR device. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 218 IEDs. The standard specifies several "services" for doing the translation, each of which is designed for different performance/capability needs. The main services, the ones implemented by UR series devices, are as follows: UR SERIES – COMMUNICATIONS GUIDE...
  • Page 219: Abstract Communication Service Interface (asci)

    These services are implemented on a stack consisting of MMS, TCP, IP, and Ethernet protocols. UR series devices participate in these services as server IEDs, not as clients.
  • Page 220 (its "semantic"), what data objects an implementing logical node is required to contain, and which data objects an implementing logical node can optionally UR SERIES – COMMUNICATIONS GUIDE...
  • Page 221 IED. The logical devices in an IED can be arranged in a hierarchical structure. Certain entities like revision counters have a scope that extends to lower levels that do not contain an instance of that entity. UR series devices arrange their logical devices such that the Master logical device is the root of the hierarchy, and all other logical devices are direct descendants of Master.
  • Page 222: Datasets

    The standards allow dataset names to be configured in SCL files as required, as do UR devices. The standards define a service that creates a dataset online through MMS services, but UR series devices do not implement that service. Datasets in UR devices must be pre-configured.
  • Page 223: Txgoose

    GOOSE instead employs a scheme whereby messages encoding a change of state are repeated several times; if the first event message is lost, the closely following repetition gets through. The figure shows the timing of GOOSE transmissions. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 224 However, if the TxGOOSE RETRANS TIME setting is set to zero, there are no retransmissions. UR devices implement the publisher side of each GOOSE service under the name TxGOOSE. See the applicable UR instruction manual for the number of TxGOOSE elements available, and the performance of each. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 225: Rxgoose

    In EnerVista UR Setup, the structure must consist of the basic data types BOOLEAN, FLOAT32, INT32, Dbpos, Quality, and TimeStamp; that is to say, EnerVista UR Setup cannot configure structured GOOSE messages that are used to communicate FCDs. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 226: Reports

    (for example, periodic), and/or general-interrogation (for example, on request). BufTm specifies how long 3-10 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 227: Commands

    In SCL files, the root element is named SCL. Its standard child elements are as follows: • Header, which can be used to identify the SCL file, its version, and history UR SERIES – COMMUNICATIONS GUIDE 3-11...
  • Page 228 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 229 "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 7.31 on Thu Oct 1 8:56:15 2014--> <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 230 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 name="TEMPLATE" manufacturer="GE Multilin" type="D60" desc="UR" configVersion="7.31"> <Private type="GE_Digital_Energy_UR D60-UB9-HPH-F8L-H6R-M8L-P6S-U4L-W2H_7.31"><![CDATA[...
  • Page 231: 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 232 Create ICD File, and enter a name for the file. A URS file is a file containing all the settings of a single UR series device in the native EnerVista UR Setup format.
  • Page 233 Private setting data to be detected. As these ICD files apply to all UR series devices with the same order code and firmware version, they can be given an appropriate file name, saved in a templates database, and reused for each similar UR device in the system and in future systems.
  • Page 234 EnerVista UR Setup, or the SCT. Changes made at any level in the SCT/UR Setup/UR device chain can be propagated down using the methods described in the preceding paragraphs. It is important that any changes made at a 3-18 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 235 While the E3-2.0 model does not employ the standard's vision for subscription, it only requires CID files to contain one IED element, and the extensions do conform to the standard's rules for extensions. Figure 3-11: Creating CID file UR SERIES – COMMUNICATIONS GUIDE 3-19...
  • Page 236: Protocol Implementation Conformance Statement (pics)

    The table contains the Abstract Communication Service Interface (ACSI) conformance statement. Table 3-4: ACSI basic conformance statement Client / subscriber Server / publisher Value / comments Client-server roles Server side (of Two-party Application-Association) Client side (of Two-party Application-Association) SCSMs supported SCSM: IEC 61850-8-1 used 3-20 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 237: Acsi Models Conformance Statement

    M7-7 entryID M7-8 BufTm M7-9 IntgPd M7-10 M7-11 conf-revision Unbuffered report control M8-1 sequence-number M8-2 report-time-stamp M8-3 reason-for-inclusion M8-4 data-set-name M8-5 data-reference M8-6 BufTm M8-7 IntgPd M8-8 M8-9 conf-revision Logging Log control (LCB) UR SERIES – COMMUNICATIONS GUIDE 3-21...
  • Page 238: Acsi Services Conformance Statement

    Data object (IEC 61850-7-2 clause 11) GetDataValues SetDataValues GetDataDirectory GetDataDefinition Data set (IEC 61850-7-2 clause 13) GetDataSetValues SetDataSetValues CreateDataSet DeleteDataSet GetDataSetDirectory Setting group control (IEC 61850-7-2 clause 16) SelectActiveSG SelectEditSG SetEditSGValue automatic confirm ConfirmEditSGValues 3-22 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 239 GetGoReference GetGOOSEElementNumber GetGoCBValues SetGoCBValues GSSE (IEC 61850-7-2 clause 18) SendGSSEMessage GetGsReference GetGSSEElementNumber GetGsCBValues SetGsCBValues Transmission of sampled value model (SVC) (IEC 61850-7-2 clause 19) Multicast SVC SendMSVMessage GetMSVCBValues SetMSVCBValues Unicast SVC SendUSVMessage GetUSVCBValues SetUSVCBValues UR SERIES – COMMUNICATIONS GUIDE 3-23...
  • Page 240: Model Implementation Conformance Statement (mics)

    EnerVista UR Setup software. This section contains an outline of the information model of the UR series of devices; the information model of a particular UR device consists of the subset of what is shown here that is relevant to that UR device.
  • Page 241: Master (root) Logical Device

    Many of the UR series device elements have multiple instances, and in many cases the number of instances depends on the product or the device's order code. Also, many UR elements have operands and/or settings that are repetitive, such as for every phase, or for every step.
  • Page 242 CHAPTER 3: IEC 61850 COMMUNICATION The logical devices in UR series 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 243 (heartbeat interval) setVal INT32 TxGOOSE UPDATE TIME minVal INT32 maxVal INT32 stepSize INT32 units Unit units.SIUnit ENUMERATED 4, the code for time in seconds units.multiplier ENUMERATED 0, the code for a multiplier of 1 UR SERIES – COMMUNICATIONS GUIDE 3-27...
  • Page 244 BOOLEAN Factory default is true entryID OpFlds. BOOLEAN Factory default is true conf-revision BufTm INT32U RP Unbuffered Reportγγ BufTm Factory default is 0 R/W/C SqNum INT8U TrgOps Trigger Conditions RP Unbuffered Reportγγ TrgOps R/W/C 3-28 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 245 Trigger Conditions BR Buffered Reportγγ TrgOps R/W/C TrgOps. Factory default is true data-change TrgOps. Factory default is true quality-change TrgOps. Factory default is false data-update TrgOps. Factory default is true integrity TrgOps.general- Factory default is true interrogation UR SERIES – COMMUNICATIONS GUIDE 3-29...
  • Page 246 INT8U SG Setting Group for Modbus Comms CnfEdit BOOLEAN False LActTm TimeStamp Relay UTC time when the last service SelectActiveSG has been processed successfully DataSet# DATA-SET Data set # DSMemberRef[η] ObjectReference DataSet Member η 3-30 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 247 CHAPTER 3: IEC 61850 COMMUNICATION MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) 3.5.1.3 Physical device information (LPHD1) LPHD1 is instantiated in all UR series devices. Table 3-12: Physical device data objects LPHD1 Master UR element: LNName: LDevice inst: data attribute data obj.
  • Page 248 BOOLEAN ProcBusTrb PROCESS BUS TROUBLE operand stVal ST PROCESS BUS TROUBLE BOOLEAN VoltMntr VOLTAGE MONITOR operand stVal ST VOLTAGE MONITOR BOOLEAN BrckTrbl BRICK TROUBLE operand stVal ST BRICK TROUBLE BOOLEAN RtdTrbl RTD TROUBLE operand 3-32 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 249 ObjectReference Source GoCB of input if via GOOSE 3.5.1.4 GOOSE subscription monitor (LGOS) LGOS is instantiated in all UR series devices. See the G2 implementation model for GOOSE configuration via SCL section on page 3-162 for descriptions of data objects MAC, APPID, GoDatSetRef, GoID, ConfRev and InRefδδ.
  • Page 250 Reference to the data attribute to input intermediate data object for RxGOOSE# Member δδ intAddr VISIBLE STRING255 3.5.1.5 FlexLogic operand interface (GGIO1) GGIO1 is instantiated in all UR series devices. Table 3-14: FlexLogic data objects <configured GGIO1 Master FlexLogic Operand Interface functionality LNName: LDevice inst: UR element: prefix>GGIO1...
  • Page 251 SboClasses 0 (operate-once) operTimeout INT32U 3.5.1.7 Intermediate GOOSE subscription objects (GGIO3) GGIO3 is instantiated in all UR series devices. Table 3-16: Intermediate GOOSE subscription data objects LNName: GGIO3 LDevice inst: Prot UR element: RxGOOSE Inputs data obj. data attribute...
  • Page 252 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) CHAPTER 3: IEC 61850 COMMUNICATION 3.5.1.8 FlexAnalog operand interface (GGIO4) GGIO4 is instantiated in all UR series devices. Table 3-17: FlexAnalog data objects <configured GGIO4 Master FlexAnalog Operand Interface functionality LNName: LDevice inst: UR element: prefix>GGIO4...
  • Page 253: Protection (prot) Logical Device

    The Prot logical device is available when the Advanced IEC 61850 option is purchased with the UR device. 3.5.2.1 Logical node zero (LLN0) LLN0 is instantiated in all UR series devices implementing the Prot logical device. Table 3-18: Logical node zero data objects for protection...
  • Page 254 Source GoCB of input if via GOOSE InRefγ04 BF# AMP SUPV OP C setting for setting group γ setSrcRef SP BF# AMP SUPV OP C for group γ ObjectReference Reference to the data attribute to input 3-38 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 255 1 for Forward, and it is mapped to same operand BUS # BIASED PKP (since differential DIR logic condition is part of differential logic) BUS # OP operand general ST BUS # OP BOOLEAN UR SERIES – COMMUNICATIONS GUIDE 3-39...
  • Page 256 γ setSrcRef SP BUS ZONE # DIFF BLK for group γ Reference to the data attribute to input ObjectReference setSrcCB ObjectReference Source GoCB of input if via GOOSE InRef9ττ BUS ZONE #τ STATUS setting 3-40 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 257 SP IOC# BLOCK ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE 3.5.2.8 B90 time overcurrent (B_Toc) This element is instantiated in the following products: B90. UR SERIES – COMMUNICATIONS GUIDE 3-41...
  • Page 258 Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE InRefγ03 BF# BKR POS1 φA/3P setting for setting group γ setSrcRef SP BF# BKR POS1 φA/3P ObjectReference Reference to the data attribute to input 3-42 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 259 Table 3-29: B30 bus differential data objects LNName: BusDifPDIF# LDevice inst: Prot UR element: Bus Differential element # (ANSI 87B) data attribute data obj. Type FC UR Name Description R/W/C BUS # BIASED PKP operands (including individual three phases) UR SERIES – COMMUNICATIONS GUIDE 3-43...
  • Page 260 FREQUENCY AND PHASE REFERENCE RstA Phase restraint currents phsθ phsθ.instCVal Vector phsθ.instCVal.mag FLOAT32 BUS # REST Iθr magnitude, in primary amps phsθ.instCVal.ang FLOAT32 BUS # REXT UR range -180...+180 converted to 0...360 phsθ.cVal Vector 3-44 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 261 COMP OV STG$ OP operand general ST COMP OV STG$ OP BOOLEAN COMP OV STG$ DPO operand, which is the inverse of COMP OV STG$ PKP stVal ST COMP OV STG$ DPO BOOLEAN UR SERIES – COMMUNICATIONS GUIDE 3-45...
  • Page 262 BOOLEAN phsB ST DIR BLOCK TRIP B BOOLEAN phsC ST DIR BLOCK TRIP C BOOLEAN Tr3p DIR BLOCK TRIP 3P operand general ST DIR BLOCK TRIP 3P BOOLEAN TxBlk DIR BLOCK TX INIT operand 3-46 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 263 ST DIR BLOCK1 TRIP 3P BOOLEAN TxBlk DIR BLOCK1 TX INIT operand general ST DIR BLOCK1 TX INIT BOOLEAN TxStop1 DIR BLOCK1 TX1 STOP operand stVal ST DIR BLOCK1 TX1 STOP BOOLEAN TxStop2 DIR BLOCK1 TX2 STOP operand UR SERIES – COMMUNICATIONS GUIDE 3-47...
  • Page 264 SP BLOCK1 SCHEME RX4 ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE 3.5.2.16 Directional comparison unblocking (DCUB_) This element is instantiated in the following products: D60. 3-48 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 265 ObjectReference Source GoCB of input if via GOOSE InRef04 DCUB RX4 setting setSrcRef SP DCUB RX4 ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE UR SERIES – COMMUNICATIONS GUIDE 3-49...
  • Page 266 ST GND DIST Z# PKP A BOOLEAN dirPhsA ST dirGeneral ENUMERATED phsB ST GND DIST Z# PKP B BOOLEAN dirPhsB ST dirGeneral ENUMERATED phsC ST GND DIST Z# PKP C BOOLEAN dirPhsC ST dirGeneral ENUMERATED 3-50 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 267 ST GROUND TOC# DPO BOOLEAN BlkRefγ1 GROUND TOC# BLOCK setting in setting group γ setSrcRef SP GROUND TOC# BLOCK ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE UR SERIES – COMMUNICATIONS GUIDE 3-51...
  • Page 268 SP HYB POTT RX4 ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE 3.5.2.22 Line current differential (LinDif) This element is instantiated in the following products: L30, L90. 3-52 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 269 ST 87L DIFF CH ζ FAIL BOOLEAN LosPktζ 87L DIFF CHζ LOSTPKT operand, which becomes on when the differential element’s has detected the lost packet threshold has been exceeded on channel ζ UR SERIES – COMMUNICATIONS GUIDE 3-53...
  • Page 270 Unit phsθ.units.SIUnit ENUMERATED 5, the code for amps phsθ.units ENUMERATED 0, the code for a multiplier of 1 .multiplier phsθ.db CF LinDfPDIF1.DifAClc.phsθ.db R/W/C INT32U phsθ.zeroDb CF CURRENT CUT-OFF LEVEL setting INT32U multiplied by 100000/46 3-54 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 271 InRef001 CHNL ASYM COMP setting setSrcRef SP CHNL ASYM COMP setting ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE BlkRef9 BLOCK GPS TIME REF setting UR SERIES – COMMUNICATIONS GUIDE 3-55...
  • Page 272 LOCAL Iθ an UR range -180...+180 converted to 0...360 phsθ.cVal Vector phsθ.cVal.mag.f FLOAT32 LOCAL Iθ magnitude, in primary amps, with deadband phsθ.cVal.ang.f FLOAT32 LOCAL Iθ an UR range -180...+180 converted to 0...360 phsθ.units Unit 3-56 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 273 FLOAT32 TERMINAL 2 UR range -180...+180 converted to 0...360 phsθ.units Unit phsθ.units.SIUnit ENUMERATED 5, the code for amps phsθ.units ENUMERATED 0, the code for a multiplier of 1 .multiplier phsθ.db CF LinDf2MMXU1.A.phsθ.db R/W/C INT32U UR SERIES – COMMUNICATIONS GUIDE 3-57...
  • Page 274 1 for forward 2 for backward 0 for none 3 for both FwdOp NEG SEQ DIR OC# FWD operand stVal ST NEG SEQ DIR OC# FWD BOOLEAN RvOp NEG SEQ DIR OC# REV operand stVal ST NEG SEQ DIR OC# REV BOOLEAN 3-58 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 275 Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE 3.5.2.27 Negative sequence time overcurrent (NegToc) This element is instantiated in the following products: C70, D30, D60, F35, F60, L30, L60, L90. UR SERIES – COMMUNICATIONS GUIDE 3-59...
  • Page 276 Op operates when delay expires general ST NEUTRAL IOC# PKP BOOLEAN dirGeneral ENUMERATED 0, the code for unknown NEUTRAL IOC# OP operand general ST NEUTRAL IOC# OP BOOLEAN NEUTRAL IOC# DPO operand 3-60 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 277 Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE 3.5.2.32 Overfrequency (OvHz) This element is instantiated in the following products: D60, F60, G30, G60, L90, M60, N60, T60. UR SERIES – COMMUNICATIONS GUIDE 3-61...
  • Page 278 ObjectReference Source GoCB of input if via GOOSE InRef2 POTT RX2 setting setSrcRef SP POTT RX2 ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE 3-62 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 279 ObjectReference Source GoCB of input if via GOOSE InRef2 POTT1 RX2 setting setSrcRef SP POTT1 RX2 ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE UR SERIES – COMMUNICATIONS GUIDE 3-63...
  • Page 280 Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE 3.5.2.36 Phase directional (PhsDir) This element is instantiated in the following products: C70, D30, D60, F60, G30, G60, L30, L60, L90, M60, T60. 3-64 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 281 Source GoCB of input if via GOOSE InRefγ3 Instantiated only in logical node instance 1 setSrcRef SP Setting FORCE MEM-POLAR l ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE UR SERIES – COMMUNICATIONS GUIDE 3-65...
  • Page 282 0, the code for unknown. It is unknown as the element is non-directional phsC ST PHASE OV # PKP C BOOLEAN dirPhsC ENUMERATED 0, the code for unknown. It is unknown as the element is non-directional 3-66 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 283 SP PHASE TOC# BLOCK β for group γ ObjectReference Reference to the data attribute to input (where β refers to Phase-A, B or C) setSrcCB ObjectReference Source GoCB of input if via GOOSE UR SERIES – COMMUNICATIONS GUIDE 3-67...
  • Page 284 POWER SWING OUTGOING operand stVal ST POWER SWING OUTGOING BOOLEAN POWER SWING TRIP general ST POWER SWING TRIP BOOLEAN BlkZn POWER SWING BLOCK operand stVal ST POWER SWING BLOCK BOOLEAN Z1Chr1 POWER SWING OUTER operand 3-68 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 285 RGF# DIFF Igd magnitude, in primary amps, with deadband net.units Unit net.units.SIUnit ENUMERATED 5, the code for amps net.units ENUMERATED 0, the code for a multiplier of 1 .multiplier net.db CF RgDifPDIF#.DifAClc.net.db R/W/C INT32U net.zeroDb INT32U UR SERIES – COMMUNICATIONS GUIDE 3-69...
  • Page 286 DIR POWER # BLK setting for setting group γ setSrcRef SP DIR POWER # BLK for group γ ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE 3-70 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 287 STATOR DIFF# PKP C operand general ST logical OR of phsA, phsB, phsC BOOLEAN dirGeneral ENUMERATED phsA ST STATOR DIFF# PKP A BOOLEAN dirPhsA ENUMERATED phsB ST STATOR DIFF# PKP B BOOLEAN dirPhsB ENUMERATED UR SERIES – COMMUNICATIONS GUIDE 3-71...
  • Page 288 PKP B & XFMR PCNT DIFF PKP C operand general ST logical OR of phsA, phsB & phsB BOOLEAN dirGeneral ENUMERATED phsA ST XFMR PCNT DIFF PKP A BOOLEAN dirPhsA ENUMERATED phsB ST XFMR PCNT DIFF PKP B BOOLEAN 3-72 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 289 See UR product manual regarding FREQUENCY AND PHASE REFERENCE DifA5thH Phase differential currents phsθ phsθ.instCVal Vector phsθ.instCVal.mag FLOAT32 DIFF 5TH HARM Iθd magnitude, in primary amps phsθ.instCVal.ang FLOAT32 DIFF 5TH HA UR range -180...+180 converted to 0...360 UR SERIES – COMMUNICATIONS GUIDE 3-73...
  • Page 290 0, the code for unknown InRefαα TRIP BUS # INPUT α setting setSrcRef SP TRIP BUS # INPUT α setting ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE 3-74 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 291 Source GoCB of input if via GOOSE InRef02 START TMR Z2PH Inp2 setting setSrcRef SP START TMR Z2PH Inp2 setting ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE UR SERIES – COMMUNICATIONS GUIDE 3-75...
  • Page 292 Volts per Hertz element # data attribute data obj. Type FC UR Name Description R/W/C VOLTS PER HERTZ # OP operand general ST VOLTS PER HERTZ # OP BOOLEAN VOLTS PER HERTZ # DPO operand 3-76 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 293 0, the code for a multiplier of 1 CF WattPSDE#.Watt.db R/W/C INT32U zeroDb INT32U 3-phase power cut-off level in percent multiplied by 1000 BlkRefγ WATTMETRIC GND FLT # BLK setting for setting group γ UR SERIES – COMMUNICATIONS GUIDE 3-77...
  • Page 294: Control (ctrl) Logical Device

    The Ctrl logical device is available when the Advanced IEC 61850 option is purchased with the UR device. 3.5.3.1 Logical node zero (LLN0) LLN0 is instantiated in all UR series devices implementing the Ctrl logical device. Table 3-77: LLN0 data objects and attributes...
  • Page 295 FAULT LOCATION in Fault Report Data file ψψ, converted to kilometers where required units Unit units.SIUnit ENUMERATED 2, the code for meter units.multiplier ENUMERATED 3, the code for a multiplier of 1000 RecCyc FAULT RECLOSE SHOT UR SERIES – COMMUNICATIONS GUIDE 3-79...
  • Page 296 AR CLOSE BKR2 operand stVal ST AR CLOSE BKR2 BOOLEAN P3Tr AR FORCE 3-P TRIP operand stVal ST AR FORCE 3-P TRIP BOOLEAN AnyShotCn AR SHOT CNT>0 operand stVal ST AR SHOT CNT>0 BOOLEAN 3-80 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 297 InRef08 AR 3P INIT setting setSrcRef SP AR 3P INIT setting ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE InRef09 AR 3P TD INIT setting UR SERIES – COMMUNICATIONS GUIDE 3-81...
  • Page 298 Off when all synchrocheck criteria are fulfilled stVal ST SYNC # CLS DPO BOOLEAN LivV1 SYNC # V1 ABOVE MIN operand, which indicates that V1 is above the LivVal1 setting stVal ST SYNC # V1 ABOVE MIN BOOLEAN 3-82 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 299 SYNCHROCHECK # DELTA FREQ multiplied by 100, on deadband exception units Unit units.SIUnit ENUMERATED 33, the code for hertz (1/s) units.multiplier ENUMERATED 0, the code for a multiplier of 1 CF SynChkRSYN#.DifHzClc.db R/W/C INT32U zeroDb INT32U UR SERIES – COMMUNICATIONS GUIDE 3-83...
  • Page 300 AUTORECLOSE# SHOT COUNT actual value stVal ST AUTORECLOSE# SHOT COUNT INT32 AutoRecSt Autoreclosing status stVal ENUMERATED Ena1 AR# ENABLED operand stVal ST AR# ENABLED BOOLEAN ArRip AR# RIP operand stVal ST AR# RIP BOOLEAN 3-84 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 301 AR# ADD DELAY 1 setting setSrcRef SP AR# ADD DELAY 1 setting ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE InRef10 AR# ADD DELAY 2 setting UR SERIES – COMMUNICATIONS GUIDE 3-85...
  • Page 302 ST XFMR HST-SPOT °C PKP BOOLEAN dirGeneral ENUMERATED ToOilTmp TOP OIL °C actual Value instMag AnalogueValue instMag.f FLOAT32 TOP OIL °C Analogue Value mag.f FLOAT32 instMag.i on deadband exception units Unit units.SIUnit ENUMERATED 23, the code for °C 3-86 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 303 AnalogueValue instMag.f FLOAT32 XFMR LIFE LOST Analogue Value mag.f FLOAT32 instMag.f on deadband exception units Unit units.SIUnit ENUMERATED 4, the code for second units.multiplier ENUMERATED 0 is multiplier for 1 CF LosLifSPTR1.LosLife.db R/W/C INT32 UR SERIES – COMMUNICATIONS GUIDE 3-87...
  • Page 304: System Logical Device

    The System logical device is available when the Advanced IEC 61850 option is purchased with the UR device. 3.5.4.1 Logical node zero (LLN0) LLN0 is instantiated in all UR series devices implementing the System logical device. Table 3-88: LLN0 data objects and attributes...
  • Page 305 Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE InRef3 XCBR# INTERLOCK CLS setting. setSrcRef SP XCBR# INTERLOCK CLS ObjectReference Reference to the data attribute to input UR SERIES – COMMUNICATIONS GUIDE 3-89...
  • Page 306 ST BREAKER # ANY P OPEN BOOLEAN OnePoleOp BREAKER # ONE P OPEN operand stVal ST BREAKER # ONE P OPEN BOOLEAN OutOfSrv BREAKER # OOS operand stVal ST BREAKER # OOS BOOLEAN 3-90 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 307 Source GoCB of input if via GOOSE InRef3 BREAKER # CLOSE setting setSrcRef SP BREAKER # CLOSE ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE UR SERIES – COMMUNICATIONS GUIDE 3-91...
  • Page 308 ST Bkr0XCBR#.BlkCls.stVal BOOLEAN ctlModel CtlModels 0, the code for status-only InRef1 BREAKER # φA/3P CLSD setting” if Θ=”1”, “BREAKER # φB CLSD setting” if Θ=”2”, or “BREAKER # φC CLSD setting” if Θ=”3 3-92 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 309 Source GoCB of input if via GOOSE InRef2Θ CONTACT OUTPUT φ SEAL-IN setting. setSrcRef SP CONTACT OUTPUT φ SEAL-IN ObjectReference Reference to the data attribute to input setting setSrcCB ObjectReference Source GoCB of input if via GOOSE UR SERIES – COMMUNICATIONS GUIDE 3-93...
  • Page 310 Source GoCB of input if via GOOSE InRef3 XSWI# INTERLOCK CLS setting. setSrcRef ObjectReferenc XSWI# INTERLOCK CLS Reference to the data attribute to input R/C setSrcCB ObjectReferenc Source GoCB of input if via GOOSE 3-94 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 311 0 (pulse) .cmdQual pulseConfig.onDu INT32U 2 ms (actually one pass) pulseConfig INT32U .offDur pulseConfig INT32U .numPls ctlModel CtlModels CF XSWI# Pos ctlModel R/W/C sboTimeout INT32U CF XSWI# Pos sboTimeout R/W/C sboClass SboClasses 0 (operate-once) UR SERIES – COMMUNICATIONS GUIDE 3-95...
  • Page 312 Source GoCB of input if via GOOSE InRef3 SWITCH # CLOSE setting setSrcRef ObjectReferenc SWITCH # CLOSE Reference to the data attribute to input R/C setSrcCB ObjectReferenc Source GoCB of input if via GOOSE 3-96 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 313 BOOLEAN Disc0XSWI#.BlkOpn.stVal ctlModel CtlModels 0, the code for status-only BlkCls Disconnect switch close commands blocked from all sources stVal BOOLEAN Disc0XSWI#.BlkCls.stVal ctlModel CtlModels 0, the code for status-only UR SERIES – COMMUNICATIONS GUIDE 3-97...
  • Page 314: Meter Logical Device

    The Meter logical device is available when the Advanced IEC 61850 option is purchased with the UR device. 3.5.5.1 Logical node zero (LLN0) LLN0 is instantiated in all UR series devices implementing the Meter logical device. Table 3-100: LLN0 data objects...
  • Page 315 ENUMERATED 0, the code for a multiplier of 1 INT32U CF MMXU# TotVA DEADBAND R/W/C zeroDb INT32U Power cut-off level ClcTotVA Calculation method used for total apparent power (TotVA) is Vector setVal ENUMERATED UR SERIES – COMMUNICATIONS GUIDE 3-99...
  • Page 316 Unit units.SIUnit ENUMERATED 33, the code for hertz (1/s) units.multiplier ENUMERATED 0, the code for a multiplier of 1 INT32U CF MMXU# Hz DEADBAND R/W/C zeroDb INT32U ScaledValue Config sVC.scaleFactor FLOAT32 1/1000 sVC.offset FLOAT32 3-100 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 317 SRC # Phase BC Voltage .mag.f Magnitude phsBC.instCVal INT32 SRC # Phase BC Voltage Angle UR range -180...+180 converted to .ang.i 0...360 phsBC.cVal Vector phsBC.cVal.mag.f FLOAT32 instCVal.mag.f deadbanded phsBC.cVal.ang.i INT32 instCVal.ang.i deadbanded phsBC.units Unit UR SERIES – COMMUNICATIONS GUIDE 3-101...
  • Page 318 Unit units.SIUnit ENUMERATED 29, the code for primary volts (W/A) units.multiplier ENUMERATED 0, the code for a multiplier of 1 INT32U CF MMXU# RMS PPV.phsAB R/W/C DEADBAND zeroDb INT32U Voltage cut-off level 3-102 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 319 29, the code for primary volts (W/A) phsA.units ENUMERATED 0, the code for a multiplier of 1 .multiplier phsA.db INT32U CF MMXU# PhV.phsA DEADBAND R/W/C phsA.zeroDb INT32U Voltage cut-off level phsA.angSVC ScaledValue Config phsA.angSVC FLOAT32 1/10 .scaleFactor phsA.angSVC FLOAT32 .offset UR SERIES – COMMUNICATIONS GUIDE 3-103...
  • Page 320 INT32U CF MMXU# PhV.phsC DEADBAND R/W/C phsC.zeroDb INT32U Voltage cut-off level phsC.angSVC ScaledValue Config phsC.angSVC FLOAT32 1/10 .scaleFactor phsC.angSVC FLOAT32 .offset angRef ENUMERATED See UR product manual regarding FREQUENCY AND PHASE REFERENCE phsToNeut BOOLEAN 3-104 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 321 Unit units.SIUnit ENUMERATED 29, the code for primary volts (W/A) units.multiplier ENUMERATED 0, the code for a multiplier of 1 INT32U CF MMXU# RMS PhV.phsC R/W/C DEADBAND zeroDb INT32U Voltage cut-off level UR SERIES – COMMUNICATIONS GUIDE 3-105...
  • Page 322 0, the code for a multiplier of 1 .multiplier phsB.db INT32U CF MMXU# A.phsB DEADBAND R/W/C phsB.zeroDb INT32U Current cut-off level phsB.angSVC ScaledValue Config phsB.angSVC FLOAT32 1/10 .scaleFactor phsB.angSVC FLOAT32 .offset phsC phsC.instCVal Vector 3-106 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 323 0, the code for a multiplier of 1 .multiplier res.db INT32U CF MMXU# A.neut DEADBAND R/W/C res.zeroDb INT32U Current cut-off level res.angSVC ScaledValue Config res.angSVC FLOAT32 1/10 .scaleFactor res.angSVC.offset FLOAT32 angRef ENUMERATED See UR product manual regarding FREQUENCY AND PHASE REFERENCE UR SERIES – COMMUNICATIONS GUIDE 3-107...
  • Page 324 Unit units.SIUnit ENUMERATED 5, the code for primary amperes units.multiplier ENUMERATED 0, the code for a multiplier of 1 INT32U CF MMXU# RMS A.neut R/W/C DEADBAND zeroDb INT32U Current cut-off level 3-108 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 325 Vector phsB.cVal.mag.f FLOAT32 instCVal.mag.f deadbanded phsB.units Unit phsB.units.SIUnit ENUMERATED 38, the code for primary watts (J/s) phsB.units ENUMERATED 0, the code for a multiplier of 1 .multiplier phsB.db INT32U CF MMXU# W.phsB DEADBAND R/W/C UR SERIES – COMMUNICATIONS GUIDE 3-109...
  • Page 326 0, the code for a multiplier of 1 .multiplier phsB.db INT32U CF MMXU# VAr.phsB DEADBAND R/W/C phsB.zeroDb INT32U Power cut-off level phsC phsC.instCVal Vector phsC.instCVal.ma FLOAT32 SRC # Phase C Reactive Power phsC.cVal Vector 3-110 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 327 FLOAT32 instCVal.mag.f deadbanded phsC.units Unit phsC.units.SIUnit ENUMERATED 61, the code for primary volt amperes (VA) phsC.units ENUMERATED 0, the code for a multiplier of 1 .multiplier phsC.db INT32U CF MMXU# VA.phsC DEADBAND R/W/C UR SERIES – COMMUNICATIONS GUIDE 3-111...
  • Page 328 CF MMXU# PF.phsB DEADBAND R/W/C phsB.zeroDb INT32U phsB.magSVC ScaledValue Config phsB.magSVC FLOAT32 1/1000 .scaleFactor phsB.magSVC FLOAT32 .offset phsC phsC.instCVal Vector phsC.instCVal.ma INT32 SRC # Phase C Power Factor phsC.cVal Vector phsC.cVal.mag.i INT32 instCVal.mag.i deadbanded phsC.units Unit 3-112 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 329 0, the code for a multiplier of 1 CF MMXN# RMS AuxV DEADBAND R/W/C INT32U zeroDb INT32U Voltage cut-off level Agnd SRC # Ground Current phasor, in primary amperes instCVal Vector instCVal.mag.f FLOAT32 SRC # Ground Current Magnitude UR SERIES – COMMUNICATIONS GUIDE 3-113...
  • Page 330 ENUMERATED 0, the code for a multiplier of 1 .multiplier c1.db CF MSQI# Seq1 Cur DEADBAND R/W/C INT32U c1.zeroDb INT32U Current cut-off level c2.instCVal Vector c2.instCVal.mag.f FLOAT32 SRC # Negative Sequence Current Magnitude 3-114 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 331 INT32U Voltage cut-off level c2.instCVal Vector c2.instCVal.mag.f FLOAT32 SRC # Negative Sequence Voltage Magnitude c2.instCVal.ang.f FLOAT32 SRC # Negative Sequence Voltage UR range -180...+180 converted to 0...360 Angle c2.cVal Vector c2.cVal.mag.f FLOAT32 instCVal.mag.f deadbanded UR SERIES – COMMUNICATIONS GUIDE 3-115...
  • Page 332 B_VolMMXN# LDevice inst: Meter UR element: B90 Metering for voltage input φ data attribute data obj. Type FC UR Name Description R/W/C φ voltage in primary volts instCVal Vector instCVal.mag.f FLOAT32 φ VOLTAGE magnitude 3-116 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 333 Signal Source # NAME Demand Metering LNName: LDevice inst: UR element: data attribute data obj. Type FC UR Name Description R/W/C ClcExp Status information to indicate the calculation period has expired stVal ST TRUE | FALSE BOOLEAN UR SERIES – COMMUNICATIONS GUIDE 3-117...
  • Page 334 SRC # DMD IB AnalogueValue mag.f FLOAT32 instMag.f deadbanded units Unit units.SIUnit ENUMERATED 5, the code for primary amperes units.multiplier ENUMERATED 0, the code for a multiplier of 1 CF DmdMtrMMTR#.AbDmd.db INT32U zeroDb INT32U Current cut-off level 3-118 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 335 SRC # DMD W, in primary watt, with associated date, SRC # DMD W DATE instMag AnalogueValue instMag.f FLOAT32 SRC # DMD W MAX AnalogueValue mag.f FLOAT32 instMag.f deadbanded units Unit units.SIUnit ENUMERATED 38 is unit for power in watts UR SERIES – COMMUNICATIONS GUIDE 3-119...
  • Page 336 FLOAT32 instMag.f deadbanded units Unit units.SIUnit ENUMERATED 61 is unit for apparent power in volt- ampere units.multiplier ENUMERATED 0, the code for a multiplier of 1 CF DmdMtrMMTR#.VAMaxDmdDt.db INT32U zeroDb INT32U Power cut-off level 3-120 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 337 0, the code for a multiplier of 1 CF EnrMtrMMTR#.NegTotVArh.db R/W/C INT32U R/Ctrl RsStat Only instantiated in EnrMtrMMTR1 pulseConfig PulseConfig pulseConfig ENUMERATED 0 (pulse) .cmdQual pulseConfig.onDur INT32U 0 indicates the duration is locally defined pulseConfig INT32U .offDur UR SERIES – COMMUNICATIONS GUIDE 3-121...
  • Page 338: General (gen) Logical Device

    The Ctrl logical device is available when the Advanced IEC 61850 option is purchased with the UR device. 3.5.6.1 Logical node zero (LLN0) LLN0 is instantiated in all UR series devices implementing the Gen logical device. Table 3-109: LLN0 data objects...
  • Page 339 ST actual value of Counter # FROZEN INT64 (count) frTm ST actual value of Counter # FROZEN TimeStamp (date/time) combined with Counter # MICROS (fractional seconds) units.SIUnit ENUMERATED COUNTER # UNITS units.multiplier ENUMERATED COUNTER # UNITS pulsQty FLOAT32 UR SERIES – COMMUNICATIONS GUIDE 3-123...
  • Page 340 Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE BlkRef1 DIG ELEM # BLOCK setting setSrcRef SP DIG ELEM # BLOCK ObjectReference Reference to the data attribute to input 3-124 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 341 FLEXLOGIC ERR TOKEN self-test stVal ST FLEXLOGIC ERR TOKEN, 1 (Ok) ENUMERATED when operand is Off, 3 (Alarm) when operand is On Indξ Concatenation of value of VIRTUAL OUTPUT ξ ID + “ On (VOξ) operand value UR SERIES – COMMUNICATIONS GUIDE 3-125...
  • Page 342 ST Actual value LAST CLEARED DATE INT32 units Unit units.SIUnit ENUMERATED 4, the code for time units.multiplier ENUMERATED 0, the code for a multiplier of 1 R/Ctrl RcdTrg External command to trigger recorder 3-126 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 343 InRef2 SELECTOR # ACK setting setSrcRef SP SELECTOR # ACK setting ObjectReference Reference to the data attribute to input setSrcCB ObjectReference Source GoCB of input if via GOOSE InRef3 SELECTOR # 3BIT A0 setting UR SERIES – COMMUNICATIONS GUIDE 3-127...
  • Page 344: 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 345 Auxiliary AC input connection: 0 = Vn, 1 = Vag, 2 = Vbg, 3 = Vcg, 4 = Vab, 5 = Vbc, 6 = Vca ACinTVTR CrcFail1 The CRC error threshold has been exceeded LinDfPDIF DbMax1 Value of “max.” in deadband calculations GGIO4 DbMin1 Value of “min.” in deadband calculations GGIO4 UR SERIES – COMMUNICATIONS GUIDE 3-129...
  • Page 346 The Direct I/O settings is for a ring but the connection is not in a ring LPHD DscDlTmms Time delay in milliseconds allowed with discrepant pole position till discrepancy is Bkr?XCBR declared Ena1 Function is Enabled Rec3pRREC, Rec13pRREC 3-130 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 347 A difference is detected between the desired and actual latch contact state LPHD LeoSt Line end open status LinPkpPIOC LivDea This data object indicates that live/dead conditions have been met SynChkRSYN LivDeaDpo This data object indicates that live/dead conditions have not been met SynChkRSYN UR SERIES – COMMUNICATIONS GUIDE 3-131...
  • Page 348 Indicates Phase Comparison of differential is satisfied per phase, where the last digit of B_DifPDIF, instance number 1, 2, or 3 refers to phase A, B, and C respectively BusDifPDIF, SttDifPDIF PosTotVArh Total VAr-hour in positive direction EnrMtrMMTR PosTotWh Total Watt-hour in positive direction EnrMtrMMTR 3-132 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 349 The ambient temperature is greater than the maximum operating temperature LPHD TgtEna1 Enable generation of targets (front panel display messages) setting: 0 = Self-reset, 1 = AuxOvPTOV, Latched, and 2 = Disabled AuxUvPTUV, B_IocPIOC, B_TocPTOC, BkrFaRBRF ThrdEthFail Third Ethernet failure LPHD UR SERIES – COMMUNICATIONS GUIDE 3-133...
  • Page 350 Connection arrangement of voltage transformers: 0 = wye, 1 = delta ACinTVTR Z1Chr1 Positive-sequence impedance is within the configured characteristic. This Data Object PwrSwgRPSB1 is used by power swing detection element for outer characteristic. 3-134 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 351: Scl Implementation Conformance Statement (sics)

    Configure values of (existing) control block from SCD (9.3) Prepare (new) control block instances according to SCD file Prepare / configure data sets according to SCD file Modify predefined data sets according to SCD UR SERIES – COMMUNICATIONS GUIDE 3-135...
  • Page 352: Pixit Conformance Statement

    120 seconds (if there is no MMS traffic for this time, the connection is dropped) What association parameters are Transport selector Y necessary for successful association? Session selector Y Presentation selector Y AP Title N AE Qualifier N 3-136 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 353 Send report immediately same analogue data value within buffer period (Compare IEC 61850-7-2 $14.2.2.9) What is the buffer size for each BRCB or how many reports can Buffer size = 36864 bytes be buffered? UR SERIES – COMMUNICATIONS GUIDE 3-137...
  • Page 354 Arrays are not supported. Are subscribed GOOSE with test=T (Ed1) / simulation=T (Ed2) accepted in test/simulation mode? Table 3-126: PIXIT for GOOSE performance Description Value / Clarification Performance class GOOSE ping-pong processing method Scan cycle based 3-138 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 355 Y automatic-bay Y automatic-station Y automatic-remote Y maintenance Y process Ct14 What happens if the orCat value is not DOns: Operate fails supported or invalid? SBOns: Operate fails DOes: Operate fails SBOes: Select fails UR SERIES – COMMUNICATIONS GUIDE 3-139...
  • Page 356 Are directory/file name case sensitive? Not case sensitive Maximum file size for SetFile 16 megabytes Is it allowed that two clients get a file at the same time? N same file Y different files 3-140 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 357: Tics Conformance Statement

    AP or as IED element SupSubscription parameter usage is difficult 1175 IPv6 address lowercase only Table 3-131: Part 7 Tissues Part 7 Tissue Description Implemented by server? Part 7-1 Data model namespace revision IEC 61850-7-4:2007[A] UR SERIES – COMMUNICATIONS GUIDE 3-141...
  • Page 358 Enum QVVR.IntrDetMth Enum ParTraMod New annex H - enums types in XML Data object CmdBlk LSVS.St (Status of subscription) Interpretation of quality operatorBlocked DO Naming of time constants in FFIL ANCR.Auto Loc in LN A-group 3-142 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 359 853 — In UR ICD/IID files, ProtNs is not applied to SBO. 780 — The TrgOps "dupd" value is not accepted by the UR. 1038 — To be conformance tested. 1091 — The initial value of EditSG is 1. 1163 — To be conformance tested. UR SERIES – COMMUNICATIONS GUIDE 3-143...
  • Page 360: Scl Log Messages

    If the order code in the header does not match the order code of the relay in SYS_Permanent data CID FLASH file uncompress error This message is logged when the decompression of the CID file fails. 3-144 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 361 This message is logged when empty doName is detected. The GOOSE subscription parsing is in progress at this stage. FCDA: NO LNodeType=\<lnType><instance>\ found This message is logged when no lnType associated with the logical node instance is found. The GOOSE subscription parsing is in progress at this stage. UR SERIES – COMMUNICATIONS GUIDE 3-145...
  • Page 362 This message is logged when iedName or apName of the target IED is missing. The GOOSE subscription parsing is in progress at this stage. E3-2.0 ERROR: missing IED=<IED name> This message is logged when the IED cannot be located. The GOOSE subscription parsing is in progress at this stage. 3-146 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 363 This message is logged when DataSet name has an illegal character. The GOOSE subscription parsing is in progress at this stage. E3-2.0 ERROR: no DatSet in GoDatSetRef=<GoDatSetRef in LGOS> This message is logged when GoDatsetRef has missing DatSet. The GOOSE subscription parsing is in progress at this stage. UR SERIES – COMMUNICATIONS GUIDE 3-147...
  • Page 364 The GOOSE subscription parsing is in progress at this stage. E3-2.0 ERROR: Couldn't add LNodeType=<lnType> This message is logged when the IED cannot add dummy LNodeType/DOType/DAType/BDAType for the logical node. The GOOSE subscription parsing is in progress at this stage. 3-148 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 365 E3-2.0 ERROR: Couldn't add GGIO1 to the dummy ied This message is logged when GGIO1 logical node cannot be added to dummy IED. A dummy IED is created for each remote IED. The GOOSE subscription parsing is in progress at this stage. UR SERIES – COMMUNICATIONS GUIDE 3-149...
  • Page 366 This message is logged when gocbref of LGOS validation fails. The GOOSE subscription parsing is in progress at this stage. Could not find doTYPE=<data object type> for SDO=<data object> This message is logged when unable to find the doType for the data object. 3-150 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 367 Cannot create type for LNodeType id=<logical node> RUNTIME type elements are data attributes. This message is logged when a new runtime type could not be created since the maximum allowed limit is reached. UR SERIES – COMMUNICATIONS GUIDE 3-151...
  • Page 368 Attribute ConfRev not found so not initialized. This message is logged when GOOSE ConfRev was not found. Attribute FixedOffs not found so not initialized. This message is logged when GOOSE FixedOffs was not found. 3-152 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 369 This message is logged when unable to locate the GCB from the srcCBName. ERROR: unable to find addressing information for GSEControl <gcb of publisher> in ldInst <logical device instance> in IED <IED name> This message is logged when unable to locate the GOOSE publisher. UR SERIES – COMMUNICATIONS GUIDE 3-153...
  • Page 370 This message is logged when VLANID > 4095. ERROR: iecGoosePubCreate failed for finding GCB <gcb name> in <logical device instance>/LLN0 in IED <ied name> This message is logged when failed to get update time and address of GoEna from @Master/LLN0. 3-154 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 371 This message is logged when a matching IP address is not detected in the ConnectedAPs for the target. Or, it is also logged when the order code and firmware revision used to generate the CID file differ from that currently running in the relay. A minor revision mismatch is tolerated. UR SERIES – COMMUNICATIONS GUIDE 3-155...
  • Page 372 Array index <array index of DAI> out of bounds for array size <number of DAIs> on component <component name> This message is logged when the flattened name of DAI is not an array, implying invalid DAI. 3-156 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 373 RxGOOSE(<number of gcb>), should be <maximum number of supported RxGOOSE> This message is logged when the number of RxGOOSE are more than supported (16 for most products and 32 for C30). UR SERIES – COMMUNICATIONS GUIDE 3-157...
  • Page 374 Missing configurable DAIs in LN <logical node prefix><lnClass> in LD <ldinst> This message is logged if a configurable instantiated data attribute (DAI), that is not a "d" attribute, is missing from the new CID file. 3-158 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 375 New LNodeType=<logical node type> has different lnClass=<lnClass> The logical node type has a different lnClass than supported. No DO=<data object> found in LNodeType=<logical node type> The given logical node type does not have any data objects in it. UR SERIES – COMMUNICATIONS GUIDE 3-159...
  • Page 376 The specified data object type is missing in the existing CID file. DOType=<new data object type> mismatch vs <reference data object type> The DOType of the specified data object in the new CID file does not match the reference file. 3-160 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 377 CID is invalid, restored backup CID copy. Manually reboot the relay to initialize with backup CID. The working copy of the CID file is invalid, hence the backup copy is ready to be used. To activate the configuration from the backup copy, a reboot is required. UR SERIES – COMMUNICATIONS GUIDE 3-161...
  • Page 378: G2 Implementation Model For Goose Configuration Via Scl

    The standards suggest but do not require that the IED configurator sends the input to output bindings and other settings to the IED through the use of an SCL file with the file extension .cid (an acronym for Configured IED Description). 3-162 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 379: Configuration Process

    Typically, the complete configuration of the project including all configuration/settings of all IEDs is saved in an SCD (an acronym for System Configuration Description) file, although that is outside the scope of this document. UR SERIES – COMMUNICATIONS GUIDE 3-163...
  • Page 380: Configuration Process With Ied Setup Tool

    Use of the IED setup tool for configuring GOOSE is optional under normal conditions. However, if the hardware configuration of the IED is changed, for instance by changing the number or type of contact I/O modules, use of the IED setup tool can be required. 3-164 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 381: Ied Capability Description (icd) File

    When a CID file is received that requires such a local output to be published, the IED allocates and configures the local resources as necessary to include the value of the local output in the GOOSE message. UR SERIES – COMMUNICATIONS GUIDE 3-165...
  • Page 382 GOOSE message, the IED is to allocate and configure the local resources as necessary to make this happen, which can include mapping the GOOSE value to a data attribute and using local means to connect this data attribute to the local input. 3-166 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 383 GOOSE publishing or subscription. Each of these SubNetwork elements is to contain one ConnectedAP element. Each of these ConnectedAP elements is to contain a GSE element for each factory-configured transmit GOOSE message on the corresponding Ethernet port. UR SERIES – COMMUNICATIONS GUIDE 3-167...
  • Page 384 GOOSE. FCDA elements are not to reference data objects (that is, omit the daName element attribute) except where the IED and all subscribing IEDs are capable of using such in GOOSE messages. 3-168 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 385: Instantiated Ied Capability Description (iid) File

    Logical node type id • DO type id • EnumType id Change the following parameters to their project values: • MAC address • APPID • VLAN ID • VLAN priority • MinTime • MaxTime UR SERIES – COMMUNICATIONS GUIDE 3-169...
  • Page 386 The relay makes available for upload the last CID file accepted exactly as received. Setting changes since the CID file was accepted are not reflected in the uploaded file in either the Private or Public sections. 3-170 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 387: Sample Scl Files

    <GSEControl name="GoCB1" appID="GOOSE1"/> </LN0> <LN lnClass="LPHD" inst="1" lnType="LPHD" /> <LN lnClass="PIOC" inst="1" lnType="PIOC"> <DOI name="Op" desc="Instantaneous Overcurrent Operated" /> </LN> <LN lnClass="GGIO" prefix="ConOut" lnType="GGIO" inst="1"> <DOI name="InRef1" desc="Contact Output Control"> <DAI name="setSrcRef"><Val></Val></DAI> <DAI name="setSrcCB"><Val></Val></DAI> </DOI> </LN> UR SERIES – COMMUNICATIONS GUIDE 3-171...
  • Page 388 <DA name="t" fc="ST" bType="Timestamp" /> </DOType> <DOType id="LN0NamPlt" cdc="LPL"> <DA name="vendor" fc="DC" bType="VisString255" /> <DA name="swRev" fc="DC" bType="VisString255" ><Val>1v00</Val></DA> <DA name="ldNs" fc="EX" bType="VisString255" ><Val>IEC 61850-7-4:2007</Val></DA> <DA name="configRev" fc="DC" bType="VisString255" ><Val>not configured</Val></DA> </DOType> <DOType id="Beh" cdc="ENS"> 3-172 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 389 The configurator makes a CID file for each of the two IEDs. The changes from the ICD files are shown in red. CID file for E1Q1BP1 (Publishing IED) <?xml version="1.0" encoding="UTF-8"?> <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 E1Q1BP1" /> <Communication> <SubNetwork name="W1" type="8-MMS"> <ConnectedAP iedName="E1Q1BP1" apName="S1"> <GSE ldInst="LD1" cbName="GoCB1"> UR SERIES – COMMUNICATIONS GUIDE 3-173...
  • Page 390 <DAI name="setSrcRef"><Val></Val></DAI> </DOI> </LN> </LDevice> </Server> </AccessPoint> </IED> <DataTypeTemplates> … In this simple case, the rest of this file is the same as the ICD file. CID file for E1Q2BP1 (Subscribing IED) <?xml version="1.0" encoding="UTF-8"?> 3-174 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 391 <DOI name="InRef1" desc="Contact Output Control"> <DAI name="setSrcRef"><Val>E1Q1BP1LD1/PIOC1.Op.general</Val></DAI> <DAI name="setSrcCB"><Val>E1Q1BP1LD1/LLN0.GoCB1</Val></DAI> </DOI> </LN> <LN prefix="" lnClass="LGOS" inst="1" lnType="LGOS"> <DOI name="GoCBRef"> <DAI name="setSrcRef"><Val>E1Q1BP1LD1/GoCB1</Val></DAI> </DOI> </LN> </LDevice> </Server> </AccessPoint> </IED> <IED name="E1Q1BP1"> <AccessPoint name="S1"> <Server> <Authentication none="true"/> UR SERIES – COMMUNICATIONS GUIDE 3-175...
  • Page 392: Annex - Optional Intermediate Goose Reception Objects

    Figure 3-17: Logical nodes communicate with logical nodes Receiving IED Logical Node InRef1 Sending IED Reference Logical Node Logical Node InRef1 GOOSE Reference Logical Node InRef1 Reference 859737A1.vsd 3-176 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 393 When template configuration is complete, the configurator exports either an IID or CID file depending on the tool used, which becomes the template file. UR SERIES – COMMUNICATIONS GUIDE 3-177...
  • Page 394 <DAI name="setSrcRef"><Val>E1Q2BP1LD1/GGIO3.Ind1.stVal</Val></DAI> <DAI name="setSrcCB"><Val></Val></DAI> </DOI> <LN lnClass="GGIO" prefix="" lnType="ExtRefs" inst="3"> <Inputs> <ExtRef desc="Overcurrent alarm" intAddr="Ind1" iedName="E1Q1BP1" ldInst="LD1" prefix="" lnClass="PIOC" lnInst="1" doName="Op" daName="general" srcLDInst="LD1" srcPrefix="" srcLNClass="LLN0" srcCBName="GoCB1"/> <ExtRef desc="unassigned GOOSE Analog input #1" intAddr="AnIn1"/> </Inputs> </LN> 3-178 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 395: E3-2.0 Implementation Model For Goose Configuration Via Scl

    The UR and UR Setup software exchange 61850 configuration, including GOOSE configuration, using IID and/or CID file transfer exclusively. Modbus is retained as an alternative for non-61850 settings. Other than IP Address settings, SCL file transfer is the only means to configure 61850. UR SERIES – COMMUNICATIONS GUIDE 3-179...
  • Page 396: Icd Files

    LastStNum Last state number received LastSqNum Last sequence number received ConfRevNum Last configuration revision number received Settings GoCBRef Reference to the subscribed GOOSE control block Publisher IED MAC address APPID GOOSE message application identifier 3-180 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 397: Cid Files

    Alternatively, the setSrcRef data attribute can be configured to the empty string. If the configured value is not the empty string, only GOOSE messages with the corresponding MMS Object Name in the datSet field are accepted. If the configured value is the empty string, any value in the datSet field is acceptable. UR SERIES – COMMUNICATIONS GUIDE 3-181...
  • Page 398: Iid Files

    In UR-generated IID files, the LGOS configuration values outlined are identical to those in the most recently accepted CID file. UR Setup software offers the user a choice to generate an E3-2.0 model IID file or a G2 model IID file. 3-182 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 399: Dnp Communication

    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 Device Name: UR Series Relay Highest DNP level supported Device function For Requests: Level 2  Master For Responses: Level 2 ...
  • Page 400 Analog input change scanning period: 500 ms Counter change scanning period: 500 ms Frozen counter event scanning period: 500 ms Unsolicited response notification delay: 100 ms Unsolicited response retry delay: configurable 0 to 60 sec. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 401  Default Object:20  16 Bits (Counter 8) Default Variation:1  32 Bits (Counters 0 to 7, 9)  Point-by-point list attached  Other Value: _____  Point-by-point list attached Sends multi-fragment responses  Yes  No UR SERIES – COMMUNICATIONS GUIDE...
  • Page 402: Implementation Table

    Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change-event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts, meaning that the UR is not restarted, but the DNP process is restarted. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 403 Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change-event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts, meaning that the UR is not restarted, but the DNP process is restarted. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 404 Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change-event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts, meaning that the UR is not restarted, but the DNP process is restarted. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 405 Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change-event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts, meaning that the UR is not restarted, but the DNP process is restarted. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 406 Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change-event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts, meaning that the UR is not restarted, but the DNP process is restarted. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 407: Dnp Point Lists

    Request Function Codes supported: 1 (read) Default Variation reported when Variation 0 requested: 2 (Binary Output Status) CONTROL RELAY OUTPUT BLOCKS Object Number: 12 Request Function Codes supported: 3 (select), 4 (operate), 5 (direct operate), 6 (direct operate, noack) UR SERIES – COMMUNICATIONS GUIDE...
  • Page 408 Virtual Input 27 Virtual Input 59 Virtual Input 28 Virtual Input 60 Virtual Input 29 Virtual Input 61 Virtual Input 30 Virtual Input 62 Virtual Input 31 Virtual Input 63 Virtual Input 32 Virtual Input 64 4-10 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 409: Counters

    It is important to note that 16-bit and 32-bit variations of analog inputs are transmitted through DNP as signed numbers. Even for analog input points that are not valid as negative values, the maximum positive representation is 32767 for 16-bit values and 2147483647 for 32-bit values. This is a DNP requirement. UR SERIES – COMMUNICATIONS GUIDE 4-11...
  • Page 410 Static Variation reported when variation 0 requested: 1 (32-Bit Analog Input) Change Event Variation reported when variation 0 requested: 1 (Analog Change Event without Time) Change Event Scan Rate: defaults to 500 ms Change Event Buffer Size: 256 Default Class for all Points: 2 4-12 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 411: Iec 60870-5-103

    5-103 address space. This data is recognized by any IEC 60870-5-103 master. 5.2 Factor and offset calculation to transmit measurand The general formula for the transmitted value is Xt = a * X + b where UR SERIES – COMMUNICATIONS GUIDE...
  • Page 412: Interoperability Document

     EIA RS-485 32 Number of loads for one protection equipment Optical interface  Glass fibre  Plastic fibre  F-SMA type connector  BFOC/2.5 type connector Transmission speed  9600 bits/s  19200 bits/s UR SERIES – COMMUNICATIONS GUIDE...
  • Page 413  <36> Trip circuit supervision  <37> I>> back-up operation  <38> VT fuse failure  <39> Teleprotection disturbed  <46> Group warning  <47> Group alarm Earth fault indications in monitor direction INF Semantics UR SERIES – COMMUNICATIONS GUIDE...
  • Page 414  <129> CB ’on’ by long-time AR  <130> AR blocked Measurands in monitor direction INF Semantics  <144> Measurand I  <145> Measurands I, V  <146> Measurands I, V, P, Q  <147> Measurands I UR SERIES – COMMUNICATIONS GUIDE...
  • Page 415  <251> Write entry abort Basic application functions  Test mode  Blocking of monitor direction  Disturbance data  Generic services  Private data Miscellaneous Measurand max Mval = times rated value Current L   UR SERIES – COMMUNICATIONS GUIDE...
  • Page 416  Current L   Voltage L   Voltage L   Voltage L   Active power P   Reactive power Q   Frequency f   Voltage L   UR SERIES – COMMUNICATIONS GUIDE...
  • Page 417 – cannot be selected in IEC 60870-5-104 standard SYSTEM OR DEVICE  System Definition  Controlling Station Definition (Master)  Controlled Station Definition (Slave) NETWORK CONFIGURATION   Point-to-Point Multipoint   Multiple Point-to-Point Multipoint Star UR SERIES – COMMUNICATIONS GUIDE...
  • Page 418 Mode 1 (least significant octet first), as defined in Clause 4.10 of IEC 60870-5-4, is used exclusively in this companion standard. Common address of ASDU  One Octet  Two Octets Information object address  One Octet  Structured  Two Octets  Unstructured  Three Octets UR SERIES – COMMUNICATIONS GUIDE...
  • Page 419 <38> := Event of protection equipment with time tag CP56Time2a M_EP_TD_1  <39> := Packed start events of protection equipment with time tag CP56Time2a M_EP_TE_1  <40> := Packed output circuit information of protection equipment with time tag CP56Time2a M_EP_TF_1 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 420 <121> := Section Ready F_SR_NA_1  <122> := Call directory, select file, call file, call section F_SC_NA_1  <123> := Last section, last segment F_LS_NA_1  <124> := Ack file, ack section F_AF_NA_1  <125> := Segment F_SG_NA_1 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 421 M_DP_TA_1 <5> M_ST_NA_1 <6> M_ST_TA_1 <7> M_BO_NA_1 <8> M_BO_TA_1 <9> M_ME_NA_1 <10> M_ME_TA_1 <11> M_ME_NB_1 <12> M_ME_TB_1 <13> M_ME_NC_1 <14> M_ME_TC_1 <15> M_IT_NA_1 <16> M_IT_TA_1 <17> M_EP_TA_1 <18> M_EP_TB_1 <19> M_EP_TC_1 <20> M_PS_NA_1 <21> M_ME_ND_1 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 422 C_RC_NA_1 <48> C_SE_NA_1 <49> C_SE_NB_1 <50> C_SE_NC_1 <51> C_BO_NA_1 <58> C_SC_TA_1 <59> C_DC_TA_1 <60> C_RC_TA_1 <61> C_SE_TA_1 <62> C_SE_TB_1 <63> C_SE_TC_1 <64> C_BO_TA_1 <70> M_EI_NA_1*) <100> C_IC_NA_1 <101> C_CI_NA_1 <102> C_RD_NA_1 <103> C_CS_NA_1 <104> C_TS_NA_1 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 423 The following type identifications may be transmitted in succession caused by a single status change of an information object. The particular information object addresses for which double transmission is enabled are defined in a project-specific list. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 424  Counter freeze without reset  Counter freeze with reset  Counter reset  General request counter  Request counter group 1  Request counter group 2  Request counter group 3  Request counter group 4 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 425 8 APDUs Maximum range of values k:1 to 32767 (2 – 1) APDUs, accuracy 1 APDU Maximum range of values w:1 to 32767 APDUs, accuracy 1 APDU Recommendation: w should not exceed two-thirds of k. UR SERIES – COMMUNICATIONS GUIDE...
  • Page 426: Iec 60870-5-104 Points

    The IEC 60870-5-104 data points are configured through the SETTINGS  PRODUCT SETUP  COMMUNICATIONS  DNP / menu. See the Communications section of chapter 5 in the Instruction Manual for details. IEC104 POINT LISTS 6-10 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 427: A.1 Revision History

    Initial release, moving Appendices B through F from UR instruction manuals Added features per product table Updated Modbus memory map and F codes Added IEC 61850 Communication chapter Updated product warranty from 24 months to 10 years UR SERIES – COMMUNICATIONS GUIDE...
  • Page 428 REVISION HISTORY APPENDIX A: MISCELLANEOUS UR SERIES – COMMUNICATIONS GUIDE...
  • Page 429 .............2-122 Current Brick, Modbus ..................2-60 differential, Modbus registers ............. 2-32 Broken conductor detection, Modbus ........2-102 metering, Modbus ..............2-23, 2-91 Broken rotor bar, Modbus ............2-128 unbalance, Modbus ............2-76, 2-130 Bus differential, Modbus ..........2-27, 2-33, 2-77 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 430 ....... 2-57, 2-67 Instantaneous overcurrent, Modbus ........2-100 Fault IOC, Modbus ..................2-100 report, Modbus ............2-36, 2-53, 2-117 IPv4, Modbus ..................2-55 Features per product ................1-1 Field unit, Modbus .......... 2-22, 2-32, 2-44, 2-60 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 431 ............... 2-50 Neutral directional OC, Modbus Repair ..........2-98 ......................1-13 Neutral IOC, Modbus ................2-65 Reset, Modbus ..................2-149 Neutral overvoltage, Modbus ............2-109 Restart delay, Modbus ..............2-88 Neutral TOC, Modbus Restricted ground fault, Modbus ................2-64 .........2-22, 2-135 UR SERIES – COMMUNICATIONS GUIDE...
  • Page 432 Time overcurrent, Modbus ............2-101 Time, acceleration Modbus ............2-106 Tissues .....................3-141 TOC, Modbus ..................2-101 Tracking frequency, Modbus ..........2-93, 2-110 Transformer differential, Modbus ..........2-30 Transformer, Modbus ............... 2-57 Trip bus, Modbus ................2-116 Trip output, Modbus .............. 2-83, 2-84 UR SERIES – COMMUNICATIONS GUIDE...

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