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3-6

UR FAMILY – COMMUNICATIONS GUIDE

OVERVIEW

CHAPTER 3: IEC 61850 COMMUNICATION

3

The complete set of logical devices in an IED are combined into an entity at the next level up in the hierarchy known as a 
Server. Only one server exists in most IEDs, including UR devices, so a server can usually be considered synonymous with 
the IED. 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 family 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.
When a particular data attribute or data object needs to be referenced by an SCL configuration file, in many cases the 
name of each level in the information hierarchy are independently specified. For instance, to specify the reception of the 
power of AC source 1 from an external IED, SCL can contain the following:

<ExtRef iedName="Fdr1" ldInst="Meter" prefix="ACsrc" lnClass="MMXU" lnInst="1" doName="TotW" 
daName="mag.f" fc="MX" />

In other cases, an ObjectReference is used to identify the data attribute. An ObjectReference concatenates the names of 
each hierarchical level with defined delimiting characters. For instance, the ObjectReference for the previous example 
looks like the following:

Fdr1Meter/ACsrcMMXU1.TotW.mag.f

This format is known as the ACSI ObjectReference format, which is used exclusively in SCL, and in communication 
messages where the value of a data attribute containing an ObjectReference is being transmitted. However, in 
communications messages where an ObjectReference is a reference to the entity whose value is being communicated, it is 
reformatted according to the MMS addressing scheme specified in IEC 61850 8-1. Thus on the wire, one can see a 
message requesting the present value of source 1 power identifying the requested data attribute as

Fdr1Meter/ACsrcMMXU1$MX$TotW$mag$f

3.1.3  Datasets

A dataset is an ordered list of member data objects and/or data attributes. Datasets

Allow for a client to get the values of all members of a dataset with a single request rather than having to individually 
request each member

Are used to define which data attributes to include in a GOOSE message or a sampled value message or a report

A dataset member can be either a functional constrained data attribute (FCDA) or a functional constrained data object 
(FCD). An FCD is a structure containing all the data attributes of a data object or composite data object as explained in the 
previous section, except that only those data attributes with function constraint code matching the code configured for 
that member are included. An FCDA is to all intents and purposes a single data attribute or constructed data attribute; the 
words "functional constrained" are superfluous. Note that a Substation Configuration Language (SCL) element with tag 
"FCDA" is used to specify both FCDAs and FCDs. If the FCDA element attribute daName is omitted, an FCD is specified. If the 
FCDA element attribute daName is included, an FCDA is specified.
UR devices accept both FCD and FCDA as dataset members.
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 family devices do not implement that service. Datasets 
in UR devices must be pre-configured.
The following figure shows an EnerVista UR Setup dataset configuration page. Members are selected from a drop-down 
list or by dragging and dropping. Datasets also can be configured from a GOOSE or Report configuration page. Note that in 
EnerVista UR Setup the format of references to dataset members is:
<ldInst>.<LNName>.<fc>.<doName>.<daName>
where

Summary of Contents for b30

Page 1: ...Grid Solutions Product version 7 6x GE publication code 1601 0401 AF2 GEK 131009A UR Family Communications Guide 1601 0401 AF2 IISO9001 G N E I M L I U T L TE S I R G E D E R LISTED IND CONT EQ E8384...

Page 2: ...istered trademarks of GE Multilin Inc 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 t...

Page 3: ...ction codes 2 4 2 2 2 Read actual values or settings function code 03 04h 2 4 2 2 3 Execute operation function code 05h 2 5 2 2 4 Store single setting function code 06h 2 5 2 2 5 Store multiple settin...

Page 4: ...rview of process 3 234 3 9 2 SCL file storage on UR 3 235 3 9 3 Generation Of CID files 3 235 3 9 4 Schema version used by UR EnerVista 3 235 3 9 5 CID file processing steps 3 235 3 9 6 SCL log file f...

Page 5: ...COMMUNICATION 5 1 Overview 5 1 5 2 Factor and offset calculation to transmit measurand 5 1 5 3 Interoperability document 5 2 6 IEC 60870 5 104 COMMUNICATION 6 1 Interoperability document 6 1 6 2 IEC 6...

Page 6: ...vi UR FAMILY COMMUNICATIONS GUIDE TABLE OF CONTENTS...

Page 7: ...ser roles for example are explained in the Instruction Manual This chapter outlines general safety and technical support information 1 1 Products This document applies to the following UR products B30...

Page 8: ...1 1 Auxiliary Overvoltage of elements 1 per voltage bank and 3 if C70 has voltage banks 3 3 2 3 1 2 3 2 2 2 1 1 2 2 3 Auxiliary Undervoltage of elements if at least one voltage bank 3 3 3 3 3 3 3 3 3...

Page 9: ...ests 1 Installatio n 1 Voltage rail monitor 1 Temperat ure monitor 1 Breaker Arcing Current I2t of current banks 2 if current banks 2 6 6 4 3 2 2 6 4 2 2 2 2 4 2 6 6 Breaker Control of elements 2 if c...

Page 10: ...ated Bank Neutral Unbalance of current banks 3 3 Compensated Overvoltage 1 1 1 1 Cont Monitor 1 1 Contact Inputs of inputs 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 C...

Page 11: ...2 4 6 4 4 4 2 4 4 4 6 6 6 Downed Conductor Detection Hi Z Available for 8Z DSP only of HIZ records is 4 of RMS records is 4 1 EGD Protocol Fast productio n 1 slow productio n 2 1 1 1 1 1 1 1 1 1 1 1 E...

Page 12: ...a settings 1 Field unit RTDs 8 Field unit shared inputs 16 Field unit shared outputs 16 Field unit transduc ers 8 Field units 8 FlexElements 16 8 8 8 16 8 8 16 8 16 16 8 8 8 16 16 16 16 FlexLogic Equa...

Page 13: ...rent of elements if at least one CT bank 6 6 4 6 2 4 6 4 1 1 2 2 4 4 6 6 6 IEC 61850 Communicati ons 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Configur able GOOSE Rx 16 Configur able GOOSE Tx 8 GGIO2 config...

Page 14: ...1 1 1 1 1 1 1 1 Incipient Cable Fault of elements 6 1 6 2 1 L60 Channel Tests 1 1 Line Differential 87L In Zone Transformer 1 1 1 Line Differential 87L L90 1 1 L90 Power system 1 87L trip logic 1 L90...

Page 15: ...one CT bank 3 2 2 2 2 2 2 2 2 3 Neutral Current Unbalance of current banks 3 3 Neutral Directional Overcurrent 3 1 2 2 2 2 2 2 2 2 2 3 3 Neutral Instantaneou s Overcurrent of CT banks if at least one...

Page 16: ...2 3 3 Phase Distance L60 does not support fast distance L60must become fast distance 5 5 5 3 3 5 5 Phase Instantaneou s Overcurrent of elements if at least one CT bank 12 12 8 12 2 6 12 8 4 4 4 4 8 8...

Page 17: ...ng Detect 1 1 1 1 1 1 1 1 Precision Time Protocol 1588 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 Reduced Voltage Starting 1 1 Restricted Ground Fault of elements 0 if L90 has no inzone transfor mer 6 4 4...

Page 18: ...Stub Bus 1 1 1 Subharmonic Stator Ground 1 1 Switch 6 6 6 6 Synchrocheck 10 10 4 10 4 4 4 4 4 10 6 6 Synchrophas ors of PMUs software option 6 2 1 1 1 1 1 6 1 of Aggregat ors 4 2 1 1 1 1 1 4 1 Telepro...

Page 19: ...bl e Pushbuttons of pushbutt ons 16 6 for vertical front panel 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 control push buttons 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 User Definable Displays 16 16 16 16 16 16...

Page 20: ...ument See the Instruction Manual for safety information 1 5 For further assistance For product support contact the information and call center as follows GE Grid Solutions 650 Markland Street Markham...

Page 21: ...that it never initiates communications It listens and responds to requests issued by a master computer A subset of Modbus RTU and Modbus TCP IP protocol format is supported that allows extensive moni...

Page 22: ...s on the communication link take action based on the packet but none respond to the master FUNCTION CODE This is one of the supported functions codes of the unit which tells the slave what action to p...

Page 23: ...op and parity ignored as one continuous binary number This number is first shifted left 16 bits and then divided by a characteristic polynomial 11000000000000101b The 16 bit remainder of the division...

Page 24: ...ction codes 03h and 04h are therefore identical 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...

Page 25: ...U 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 d...

Page 26: ...ors sends a response packet to the master with the high order bit of the function code set to 1 The following table shows the format of the master and slave packets in Modbus RTU Modbus TCP IP ADUs ha...

Page 27: ...e read beyond the indicated block size 4 If you need to re try a block read only the size of and block of data without reading the position The file pointer is only incremented when you read the posit...

Page 28: ...ues Records by single click in the software or by oscillography The same file can be retrieved in another format in the software under Maintenance Retrieve File or some other means such as TFTP or MMS...

Page 29: ...r of cycles of data per file that can be stored in memory of the relay The Oscillography Available Records register specifies the actual number of files that are stored and still available to be read...

Page 30: ...ead from a specific time to the end of the log space startTime To read a specific range of records space startTime space endTime Replace startTime and endTime with the number of seconds since Jan 1 19...

Page 31: ...d on any of the PMU units in the relay depending on the software option in the order code up to six PMUs can be available in a relay When a new trigger occurs the associated PMU record file is assigne...

Page 32: ...l Number F203 0 0020 Manufacturing Date 0 to 4294967295 1 F050 0 0022 Modification Number 0 to 65535 1 F001 0 0040 Order Code F204 Order Code x 0090 Ethernet MAC Address F072 0 0093 Reserved 13 items...

Page 33: ...r Non Volatile Latch 9 0347 Repeated for Non Volatile Latch 10 035D Repeated for Non Volatile Latch 11 0373 Repeated for Non Volatile Latch 12 0389 Repeated for Non Volatile Latch 13 039F Repeated for...

Page 34: ...l Input 39 State 0 to 1 1 F108 0 Off 0417 Virtual Input 40 State 0 to 1 1 F108 0 Off 0418 Virtual Input 41 State 0 to 1 1 F108 0 Off 0419 Virtual Input 42 State 0 to 1 1 F108 0 Off 041A Virtual Input...

Page 35: ...050B GFP Configurable Navigation Sequence Number 10 items 0 to 65535 1 F001 0 050C GFP Configurable Navigation Target Page 0 to 27 1 F647 0 Product Information 054D GFP Mimic Single Line Diagram Statu...

Page 36: ...ted for Binary Input 31 0600 Repeated for Binary Input 32 0604 Repeated for Binary Input 33 0608 Repeated for Binary Input 34 060C Repeated for Binary Input 35 0610 Repeated for Binary Input 36 0614 R...

Page 37: ...ted for Binary Input 80 06C4 Repeated for Binary Input 81 06C8 Repeated for Binary Input 82 06CC Repeated for Binary Input 83 06D0 Repeated for Binary Input 84 06D4 Repeated for Binary Input 85 06D8 R...

Page 38: ...Offset 7 32768 to 32767 1 F002 0 071D IEC103 ASDU 1 Analog Parameter 8 0 to 65535 1 F600 0 071E IEC103 ASDU 1 Analog Factor 8 0 to 65 535 0 001 F001 1000 071F IEC103 ASDU 1 Analog Offset 8 32768 to 32...

Page 39: ...en Time Stamp 0 to 4294967295 1 F050 0 0806 Digital Counter 1 Frozen Time Stamp us 0 to 4294967295 1 F003 0 0808 Repeated for Digital Counter 2 0810 Repeated for Digital Counter 3 0818 Repeated for Di...

Page 40: ...OOSE Boolean 34 0956 Repeated for RxGOOSE Boolean 35 0958 Repeated for RxGOOSE Boolean 36 095A Repeated for RxGOOSE Boolean 37 095C Repeated for RxGOOSE Boolean 38 095E Repeated for RxGOOSE Boolean 39...

Page 41: ...Boolean 81 09B4 Repeated for RxGOOSE Boolean 82 09B6 Repeated for RxGOOSE Boolean 83 09B8 Repeated for RxGOOSE Boolean 84 09BA Repeated for RxGOOSE Boolean 85 09BC Repeated for RxGOOSE Boolean 86 09B...

Page 42: ...E Boolean 128 0A12 Repeated for RxGOOSE Boolean 129 0A14 Repeated for RxGOOSE Boolean 130 0A16 Repeated for RxGOOSE Boolean 131 0A18 Repeated for RxGOOSE Boolean 132 0A1A Repeated for RxGOOSE Boolean...

Page 43: ...E Boolean 175 0A70 Repeated for RxGOOSE Boolean 176 0A72 Repeated for RxGOOSE Boolean 177 0A74 Repeated for RxGOOSE Boolean 178 0A76 Repeated for RxGOOSE Boolean 179 0A78 Repeated for RxGOOSE Boolean...

Page 44: ...E Boolean 222 0ACE Repeated for RxGOOSE Boolean 223 0AD0 Repeated for RxGOOSE Boolean 224 0AD2 Repeated for RxGOOSE Boolean 225 0AD4 Repeated for RxGOOSE Boolean 226 0AD6 Repeated for RxGOOSE Boolean...

Page 45: ...odules N60 1320 Direct Analog Output 1 Value 0 to 65535 1 F600 0 1321 Direct Analog Output 1 Deadband 0 to 1000000000 0 001 F060 1000000 1323 Direct Analog Output 1 Trigger 0 to 4294967295 1 F300 0 13...

Page 46: ...eated for Direct Analog Input and Output 25 147E Repeated for Direct Analog Input and Output 26 148C Repeated for Direct Analog Input and Output 27 149A Repeated for Direct Analog Input and Output 28...

Page 47: ...Unreturned Message Count Channel 1 0 to 65535 1 F001 0 15D3 Direct Inputs Outputs Unreturned Message Count Channel 2 0 to 65535 1 F001 0 15D4 Direct Device States 0 to 65535 1 F500 0 15D6 Direct Input...

Page 48: ...162A Channel 2 Remote Loopback Status 0 to 2 1 F134 2 n a 162B Network Status 0 to 2 1 F134 2 n a 162E Channel 2 Loop Delay 0 to 200 ms 0 1 F001 0 162F Channel PFLL Status 0 to 2 1 F134 1 OK Channel S...

Page 49: ...eated for Restricted Ground Fault 4 T35 T60 16B0 Repeated for Restricted Ground Fault 5 16B4 Repeated for Restricted Ground Fault 6 Field Unit RTD Actuals Read Only 8 Modules All except B90 L60 16C0 F...

Page 50: ...30 C60 D60 F35 F60 G60 L60 L90 M60 T60 171C Repeated for Breaker Flashover 2 Source Current Read Only 2 4 or 6 Modules All except B90 C30 1800 Source 1 Phase A Current RMS 0 to 999999 999 A 0 001 F060...

Page 51: ...to 999999 999 V 0 001 F060 0 1A0E Source 1 Phase CG Voltage Angle 359 9 to 0 degrees 0 1 F002 0 1A0F Source 1 Phase AB or AC Voltage RMS 0 to 999999 999 V 0 001 F060 0 1A11 Source 1 Phase BC or BA Vol...

Page 52: ...1000000000000 to 1000000000000 var 0 001 F060 0 1C0C Source 1 Phase B Reactive Power 1000000000000 to 1000000000000 var 0 001 F060 0 1C0E Source 1 Phase C Reactive Power 1000000000000 to 100000000000...

Page 53: ...for Source 1 2 to 90 Hz 0 001 F003 0 1D82 Frequency for Source 2 2 to 90 Hz 0 001 F003 0 B30 C60 C70 D60 F35 F60 G30 G60 L60 L90 M60 N60 T35 T60 1D84 Frequency for Source 3 2 to 90 Hz 0 001 F003 0 1D...

Page 54: ...for Source 2 1EC0 Repeated for Source 3 1EE0 Repeated for Source 4 B30 F35 N60 T60 1F00 Repeated for Source 5 1F20 Repeated for Source 6 Source Voltage THD and Harmonics Read Only 2 4 or 6 Modules Fo...

Page 55: ...L90 T35 T60 2226 Breaker 3 Arcing Current Clear Command 0 to 1 1 F126 0 No B30 C60 F35 F60 L90 T35 T60 2227 Breaker 4 Arcing Current Clear Command 0 to 1 1 F126 0 No B30 F35 T35 T60 2228 Breaker 5 Ar...

Page 56: ...pu 0 001 F001 0 2304 Transformer Restraint Phasor Iar Angle 359 9 to 0 degrees 0 1 F002 0 2305 Transformer Differential 2nd Harm Iad Magnitude 0 to 999 9 fo 0 1 F001 0 2306 Transformer Differential 2n...

Page 57: ...Current Magnitude 0 to 999999 999 A 0 001 F060 0 2348 Fault 1 Prefault Phase C Current Angle 359 9 to 0 degrees 0 1 F002 0 2349 Fault 1 Prefault Phase A Voltage Magnitude 0 to 999999 999 V 0 001 F060...

Page 58: ...48C Terminal 2 IA Magnitude 0 to 999999 999 A 0 001 F060 0 248E Terminal 2 IB Magnitude 0 to 999999 999 A 0 001 F060 0 2490 Terminal 2 IC Magnitude 0 to 999999 999 A 0 001 F060 0 2492 Differential Cur...

Page 59: ...0 24C7 Line Current Differential 87L Terminal 1 Composite Voltage Magnitude 0 to 999999 999 V 0 001 F060 0 24C9 Line Current Differential 87L Terminal 1 Composite Voltage Angle 359 9 to 0 degrees 0 1...

Page 60: ...ead Write Setting 16 Modules All 2548 RxGOOSE DPS 1 Events 0 to 1 1 F102 0 Disabled 2549 RxGOOSE DPS 1 Default State 0 to 4 1 F605 4 Latest 254A Repeated for DPS 2 254C Repeated for DPS 3 254E Repeate...

Page 61: ...ve Sequence Current Magnitude 0 to 999999 999 A 0 001 F060 0 2593 PMU 1 Negative Sequence Current Angle 180 to 180 0 01 F002 0 2594 PMU 1 Zero Sequence Current Magnitude 0 to 999999 999 A 0 001 F060 0...

Page 62: ...F003 0 274E Direct Integer Input 16 Actual Value 0 to 4294967295 1 F003 0 Source Current THD and Harmonics Read Only 2 4 or 6 Modules C70 D60 F35 F60 G30 G60 L30 L90 N60 T60 2800 Ia THD for Source 1...

Page 63: ...eated for Synchrocheck 9 2AF0 Repeated for Synchrocheck 10 Expanded FlexStates Read Only All 2B00 FlexStates one per register 256 items 0 to 1 1 F108 0 Off RxGOOSE Status Read Only 64 Modules All 2C00...

Page 64: ...epeated for Remote Device 42 2CA8 Repeated for Remote Device 43 2CAC Repeated for Remote Device 44 2CB0 Repeated for Remote Device 45 2CB4 Repeated for Remote Device 46 2CB8 Repeated for Remote Device...

Page 65: ...hase A 0 to 99999999 kA 1 F060 0 2F12 Breaker 1 Arcing Amp Max Phase B 0 to 99999999 kA 1 F060 0 2F14 Breaker 1 Arcing Amp Max Phase C 0 to 99999999 kA 1 F060 0 2F16 Repeated for Breaker 2 B30 C60 C70...

Page 66: ...Number 0 to 65535 1 F001 0 3071 Cleared Date 0 to 4294967295 1 F050 0 3073 Report Date 10 items 0 to 4294967295 1 F050 0 User Programmable Fault Report Read Write Setting 2 Modules B30 B90 C70 G30 G60...

Page 67: ...0 Disabled Security Read Write All 32DF Observer Alphanumeric Password Entry 1 F202 none Security Read Only All 32E9 Reserved for password settings of future roles 63 items 0 to 65535 1 F001 0 3328 Se...

Page 68: ...lue Read Only 0 to 0 15 0 000 1 F003 0 3415 Neutral Current Unbalance Apply Angle Actual Value Read Only 0 to 359 degrees 1 F003 0 3417 Repeated for Neutral Current Unbalance 2 341E Repeated for Neutr...

Page 69: ...age Differential 3 DCmA Input Values Read Only 24 Modules All except B90 34C0 DCMA Inputs 1 Value 9999 999 to 9999 999 0 001 F004 0 34C2 DCMA Inputs 2 Value 9999 999 to 9999 999 0 001 F004 0 34C4 DCMA...

Page 70: ...11 Value 32768 to 32767 C 1 F002 0 34FB RTD Inputs 12 Value 32768 to 32767 C 1 F002 0 34FC RTD Inputs 13 Value 32768 to 32767 C 1 F002 0 34FD RTD Inputs 14 Value 32768 to 32767 C 1 F002 0 34FE RTD Inp...

Page 71: ...t Status Read Only All except B90 L30 L90 3560 Direct Device States one per register 16 items 0 to 1 1 F155 0 Offline 3570 Direct Input States one per register 64 items 0 to 1 1 F108 0 Off GOOSE to R...

Page 72: ...s C70 36C4 Neutral Current Unbalance 1 Raw INsp 0 to 9 9999 pu 0 000 1 F003 0 36C6 Neutral Current Unbalance 1 Comp Iop 0 to 9 9999 pu 0 000 1 F003 0 36C8 Repeated for Neutral Current Unbalance 2 36CC...

Page 73: ...guration Reserved 2 items 0 to 1 1 F001 0 PTP Port Configuration Read Write Setting 3 Modules All 3756 PTP Port 1 Function 0 to 1 1 F102 0 Disabled 3757 PTP Port 1 Path Delay Adder 0 to 60000 ns 1 F00...

Page 74: ...Write Setting 8 Modules All except B90 L60 3800 Field Unit 1 ID 0 to 1 1 F205 U1 3806 Field Unit 1 Function 0 to 1 1 F102 0 Disabled 3807 Field Unit 1 Type 0 to 3 1 F243 0 CC 05 3808 Field Unit 1 Seri...

Page 75: ...I 1 395A Field Contact Input 1 Origin 0 to 8 1 F256 0 None 395B Field Contact Input 1 Input 1 to 18 1 F001 1 395C Field Contact Input 1 Failsafe Value 0 to 1 1 F108 0 Off 395D Field Contact Input 1 De...

Page 76: ...Seal In 6 items 0 to 4294967295 1 F300 0 3BFC Field Output 1 Events 6 items 0 to 1 1 F102 1 Enabled 3C02 Repeated for Field Contact Output 2 3C5C Repeated for Field Contact Output 3 3CB6 Repeated for...

Page 77: ...5E Repeated for Field Unit Transducer 3 3F6D Repeated for Field Unit Transducer 4 3F7C Repeated for Field Unit Transducer 5 3F8B Repeated for Field Unit Transducer 6 3F9A Repeated for Field Unit Trans...

Page 78: ...5 to 10 s 0 1 F001 10 4051 Default Message Timeout 10 to 900 s 1 F001 300 4052 Default Message Intensity 0 to 3 1 F101 0 25 4053 Screen Saver Feature 0 to 1 1 F102 0 Disabled 4054 Screen Saver Wait Ti...

Page 79: ...1 F112 5 19200 4086 RS485 Com2 Parity 0 to 2 1 F113 2 Even 4087 Port 1 IP Address 0 to 4294967295 1 F003 2130706433 4089 Port 1 IP Subnet Mask 0 to 4294967295 1 F003 4278190080 408B Port 1 Gateway IP...

Page 80: ...s Reserved 22 items 0 to 1 1 F001 0 40E0 TCP Port Number for the IEC 60870 5 104 Protocol 0 to 65535 1 F001 2404 40E2 IEC 60870 5 104 Protocol Common Address of ASDU 0 to 65535 1 F001 0 40E3 IEC 60870...

Page 81: ...1 F001 2 4162 IEC Available TCP IP Connections 0 to 2 1 F001 2 4163 MMS Available TCP IP Connections 0 to 5 1 F001 5 4164 PMU Available TCP IP Connections 0 to 4 1 F001 4 4165 SFTP Available Connectio...

Page 82: ...aphy Trigger Source 0 to 4294967295 1 F300 0 41C5 Oscillography AC Input Waveforms 0 to 4 1 F183 2 16 samples cycle 41D0 Oscillography Analog Channel x 16 items 0 to 65535 1 F600 0 4200 Oscillography...

Page 83: ...rammable LED 36 432C Repeated for User Programmable LED 37 432F Repeated for User Programmable LED 38 4332 Repeated for User Programmable LED 39 4335 Repeated for User Programmable LED 40 4338 Repeate...

Page 84: ...PTP Fail Function 0 to 1 1 F102 1 Enabled 444D User Programmable Third Ethernet Fail Function 0 to 1 1 F102 0 Disabled 444E User Programmable SFP Fail Function 0 to 1 1 F102 0 Disabled Current CT Set...

Page 85: ...tion 0 to 4294967295 1 F300 0 87L Power System In Zone Transformer Read Write Setting L30 L90 4606 In Zone Transformer Connection 0 to 12 1 F560 0 None 4607 87L In Zone Transformer Location 0 to 2 1 F...

Page 86: ...to 1 1 F164 0 Not within zone 4647 Transformer Winding 1 Angle w r t Winding 1 359 9 to 0 degrees 0 1 F002 0 4651 Transformer Winding 1 Resistance 0 0001 to 100 ohms 0 000 1 F003 100000 4653 Repeated...

Page 87: ...F300 0 4758 Breaker 1 Block Open 0 to 4294967295 1 F300 0 475A Breaker 1 Block Close 0 to 4294967295 1 F300 0 475C Breaker 1 Phase A Three pole Opened 0 to 4294967295 1 F300 0 475E Breaker 1 Phase B...

Page 88: ...F651 0 ORANGE 48A4 Repeated for LED 2 48A8 Repeated for LED 3 48AC Repeated for LED 4 48B0 Repeated for LED 5 48B4 Repeated for LED 6 48B8 Repeated for LED 7 48BC Repeated for LED 8 48C0 Repeated for...

Page 89: ...ms F001 0 4C20 Repeated for User Definable Display 2 4C40 Repeated for User Definable Display 3 4C60 Repeated for User Definable Display 4 4C80 Repeated for User Definable Display 5 4CA0 Repeated for...

Page 90: ...nsceiver Current 0 to 1 mA 1 F001 0 4E23 Raw Field Data Brick Tx Power 0 to 0 1 dBm 0 1 F002 0 4E24 Raw Field Data Brick Rx Power 0 to 0 1 dBm 0 1 F002 0 4E25 Raw Field Data Brick Diagnostics 2 items...

Page 91: ...ated for FlexLogic Timer 29 58E8 Repeated for FlexLogic Timer 30 58F0 Repeated for FlexLogic Timer 31 58F8 Repeated for FlexLogic Timer 32 Phase Time Overcurrent Read Write Grouped Setting 2 4 or 6 Mo...

Page 92: ...or Each Phase 3 items 0 to 4294967295 1 F300 0 5A0B Phase Instantaneous Overcurrent 1 Target 0 to 2 1 F109 0 Self reset 5A0C Phase Instantaneous Overcurrent 1 Events 0 to 1 1 F102 0 Disabled 5A0D Rese...

Page 93: ...M60 N60 T60 5B22 Repeated for Neutral Time Overcurrent 3 B30 C60 C70 D60 F35 F60 L30 L60 L90 M60 N60 T60 5B33 Repeated for Neutral Time Overcurrent 4 B30 C60 C70 F35 F60 L90 M60 N60 T60 5B44 Repeated...

Page 94: ...M60 N60 T35 T60 5D00 Ground Time Overcurrent 1 Function 0 to 1 1 F102 0 Disabled 5D01 Ground Time Overcurrent 1 Signal Source 0 to 5 1 F167 0 SRC 1 5D02 Ground Time Overcurrent 1 Input 0 to 1 1 F122...

Page 95: ...stantaneous Overcurrent 1 Events 0 to 1 1 F102 0 Disabled 5DA9 Reserved 8 items 0 to 1 1 F001 0 B30 C60 C70 D30 D60 F35 F60 L30 L60 L90 M60 N60 T35 T60 5DB1 Repeated for Ground Instantaneous Overcurre...

Page 96: ...le Fault Detector 1 Phase B Counter 0 to 65535 1 F001 0 5EC2 Incipient Cable Fault Detector 1 Phase C Counter 0 to 65535 1 F001 0 F35 F60 5EC3 Repeated for Incipient Cable Fault Detector 2 F35 5EC6 Re...

Page 97: ...Lower Frequency Array 7 items 20 to 70 Hz 0 01 F001 6000 5F51 Frequency Out Of Band Accumulator Min Value V A 0 1 to 1 25 pu 0 01 F001 10 5F52 Frequency Out Of Band Accumulator Source 0 to 5 1 F167 0...

Page 98: ...None 6014 87L Current Differential Signal Source 3 0 to 6 1 F211 0 None 6015 87L Current Differential Signal Source 4 0 to 6 1 F211 0 None Current Differential 87L In Zone Transformer Read Write Grou...

Page 99: ...F001 600 6095 Positive sequence Current Rate of Change di dt FDH High Pickup 0 01 to 5 pu 0 01 F001 50 6096 Positive sequence Current Rate of Change di dt FDH High Seal in 0 to 10 s 0 001 F001 200 60...

Page 100: ...Channel Loss 0 to 500 ms 1 F001 0 60E2 87PC Block 0 to 4294967295 1 F300 0 60E4 87PC Target 0 to 2 1 F109 0 Self reset 60E5 87PC Events 0 to 1 1 F102 0 Disabled 60E6 87PC Scheme Select 0 to 8 1 F088 0...

Page 101: ...0 Disabled Transformer Aging Factor Read Write Grouped Setting G30 T35 T60 6150 Transformer Aging Factor Function 0 to 1 1 F102 0 Disabled 6151 Transformer Aging Factor Pickup 1 to 10 PU 0 1 F001 20 6...

Page 102: ...1 F300 0 61CC Percent Differential Target 0 to 2 1 F109 0 Self reset 61CD Percent Differential Events 0 to 1 1 F102 0 Disabled 61CE Transformer Inrush Inhibit Mode 0 to 3 1 F189 0 Per phase Transform...

Page 103: ...d Setting 2 or 3 Modules C70 D30 D60 F35 F60 L30 L60 L90 T60 6300 Negative Sequence Time Overcurrent 1 Function 0 to 1 1 F102 0 Disabled 6301 Negative Sequence Time Overcurrent 1 Signal Source 0 to 5...

Page 104: ...F001 200 6345 Bank Phase Overvoltage 1 Dropout Delay 0 to 600 s 0 01 F001 25 6346 Bank Phase Overvoltage 1 Block 0 to 4294967295 1 F300 0 6348 Bank Phase Overvoltage 1 Target 0 to 2 1 F109 0 Self res...

Page 105: ...ential Break 1 1 to 1 5 pu 0 01 F001 115 6425 Stator Differential Break 2 1 5 to 30 pu 0 01 F001 800 6426 Stator Differential Block 0 to 4294967295 1 F300 0 6428 Stator Differential Targets 0 to 2 1 F...

Page 106: ...lope 50 to 100 1 F001 60 64E5 Bus Zone 1 High Breakpoint 1 to 30 pu 0 01 F001 800 64E6 Bus Zone 1 High Set 0 1 to 99 99 pu 0 01 F001 1500 64E7 Bus Zone 1 Seal In 0 to 65 535 s 0 001 F001 400 64E8 Bus...

Page 107: ...1 F001 60 65CB Power Swing Detect Delay 1 Pickup 0 to 65 535 s 0 001 F001 30 65CC Power Swing Detect Delay 1 Reset 0 to 65 535 s 0 001 F001 50 65CD Power Swing Detect Delay 2 Pickup 0 to 65 535 s 0 00...

Page 108: ...2 Motor Protection 0 to 1 1 F102 0 Disabled 660F Speed 2 Motor Switch 0 to 4294967295 1 F300 0 6611 Speed 2 Switch 2 1 Delay 0 to 600 s 0 01 F001 500 6612 Speed 2 Motor Source 0 to 5 1 F167 0 SRC 1 6...

Page 109: ...671 Loss Of Excitation Radius 2 0 1 to 300 ohm 0 01 F001 1000 6672 Loss Of Excitation UV Supervision Enable 2 0 to 1 1 F102 1 Enabled 6673 Loss Of Excitation Pickup Delay 2 0 to 65 535 s 0 001 F001 50...

Page 110: ...ncroachment Angle 5 to 50 degrees 1 F001 30 66C5 Load Encroachment Pickup Delay 0 to 65 535 s 0 001 F001 0 66C6 Load Encroachment Reset Delay 0 to 65 535 s 0 001 F001 0 66C7 Load Encroachment Block 0...

Page 111: ...c Stator Ground Stage 1 Pickup 1 to 20 kOhm 1 F001 10 6712 Subharmonic Stator Ground Stage 1 Pickup Delay 0 1 to 600 s 0 1 F001 100 6713 Subharmonic Stator Ground Stage 2 Pickup 1 to 20 kOhm 1 F001 3...

Page 112: ...se Protection Read Write Grouped Setting G30 G60 673F Split Phase Protection Block 0 to 4294967295 1 F300 0 6741 Split Phase Protection Target 0 to 2 1 F109 0 Self Reset 6742 Split Phase Protection Ev...

Page 113: ...se Input 2 0 to 4294967295 1 F300 0 6798 Start Timer Zone 2 Ground Input 1 0 to 4294967295 1 F300 0 679A Start Timer Zone 2 Ground Input 2 0 to 4294967295 1 F300 0 679C Phase Selector Reset Delay 0 5...

Page 114: ...eme Function 0 to 1 1 F102 0 Disabled 6821 Hybrid POTT 1P Permissive Echo 0 to 2 1 F199 0 Disabled 6822 Hybrid POTT 1P Rx Pickup Delay 0 to 65 535 s 0 001 F001 0 6823 Hybrid POTT 1P Trans Block Pickup...

Page 115: ...reclose Block Breaker 1 0 to 4294967295 1 F300 0 6864 Autoreclose Close Time Breaker 1 0 1 to 655 35 s 0 01 F001 10 6865 Autoreclose Breaker Manual Close 0 to 4294967295 1 F300 0 6867 Autoreclose Func...

Page 116: ...ison Unblocking Permissive Echo 0 to 2 1 F199 0 Disabled 68A4 Directional Comparison Unblocking Echo Condition 0 to 4294967295 1 F300 0 68A6 DCUB Ground Directional Overcurrent Forward 0 to 4294967295...

Page 117: ...aximum Number of Starts 1 to 16 1 F001 3 6923 Starts Per Hour Block 0 to 4294967295 1 F300 0 6925 Starts Per Hour Target 0 to 2 1 F109 0 Self reset 6926 Starts Per Hour Events 0 to 1 1 F102 0 Disabled...

Page 118: ...ed 6971 RTD Input 1 ID F205 RTD Ip 1 6977 RTD Input 1 Type 0 to 3 1 F174 0 100 ohm Platinum 6978 RTD Input 1 Application 0 to 5 1 F550 0 None 6979 RTD Input 1 Alarm Temperature 1 to 249 C 1 F001 130 6...

Page 119: ...6C7C Repeated for RTD Input 40 6C90 Repeated for RTD Input 41 6CA4 Repeated for RTD Input 42 6CB8 Repeated for RTD Input 43 6CCC Repeated for RTD Input 44 6CE0 Repeated for RTD Input 45 6CF5 Repeated...

Page 120: ...f Fault Protection 2 6B9A Repeated for End of Fault Protection 3 6BA7 Repeated for End of Fault Protection 4 6BB4 Repeated for End of Fault Protection 5 6BC1 Repeated for End of Fault Protection 6 6BC...

Page 121: ...16 6D7C Repeated for Isolator 17 6D88 Repeated for Isolator 18 6D94 Repeated for Isolator 19 6DA0 Repeated for Isolator 20 6DAC Repeated for Isolator 21 6DB8 Repeated for Isolator 22 6DC4 Repeated for...

Page 122: ...Current 16 6F30 Repeated for Terminal Current 17 6F33 Repeated for Terminal Current 18 6F36 Repeated for Terminal Current 19 6F39 Repeated for Terminal Current 20 6F3C Repeated for Terminal Current 2...

Page 123: ...A Repeated for Terminal Current 24 VT Terminal Settings Read Write Setting 12 Modules B90 6F9C Terminal Voltage 1 Ratio 1 to 24000 1 0 01 F060 1 6F9E Terminal Voltage 1 Secondary 50 to 240 V 0 1 F001...

Page 124: ...Breaker Failure 17 7099 Repeated for Breaker Failure 18 70A2 Repeated for Breaker Failure 19 70AB Repeated for Breaker Failure 20 70B4 Repeated for Breaker Failure 21 70BD Repeated for Breaker Failure...

Page 125: ...65 535 s 0 001 F001 0 7076 Phase Distance Zone 1 Block 0 to 4294967295 1 F300 0 7078 Phase Distance Zone 1 Target 0 to 2 1 F109 0 Self reset 7079 Phase Distance Zone 1 Events 0 to 1 1 F102 0 Disabled...

Page 126: ...aker Failure 1 Amp Hiset OpB 0 to 4294967295 1 F300 0 711B Breaker Failure 1 Amp Hiset OpC 0 to 4294967295 1 F300 0 711D Breaker Failure 1 Amp Loset OpA 0 to 4294967295 1 F300 0 711F Breaker Failure 1...

Page 127: ...grees 1 F001 85 713E Ground Distance Zone 1 DIR RCA 30 to 90 degrees 1 F001 85 713F Ground Distance Zone 1 DIR Comp Limit 30 to 90 degrees 1 F001 90 7140 Ground Distance Zone 1 Quad Right Blinder 0 02...

Page 128: ...4294967295 1 F300 0 71FE Phase Directional Overcurrent 1 ECA 0 to 359 1 F001 30 71FF Phase Directional Overcurrent 1 Pol V Threshold 0 004 to 3 pu 0 001 F001 700 7200 Phase Directional Overcurrent 1...

Page 129: ...rcurrent 1 Source 0 to 5 1 F167 0 SRC 1 72A2 Negative Sequence Directional Overcurrent 1 Type 0 to 1 1 F179 0 Neg Sequence 72A3 Neg Sequence Directional Overcurrent 1 Forward ECA 0 to 90 Lag 1 F002 75...

Page 130: ...odules All except B90 7370 Disconnect Switch 1 Function 0 to 1 1 F102 0 Disabled 7371 Disconnect Switch 1 Name F206 SW 1 7374 Disconnect Switch 1 Mode 0 to 1 1 F157 0 3 Pole 7375 Disconnect Switch 1 O...

Page 131: ...0A Repeated for Disconnect Switch 19 762F Repeated for Disconnect Switch 20 7654 Repeated for Disconnect Switch 21 7679 Repeated for Disconnect Switch 22 769E Repeated for Disconnect Switch 23 76C3 Re...

Page 132: ...ous Overcurrent 20 76C8 Repeated for Instantaneous Overcurrent 21 76D2 Repeated for Instantaneous Overcurrent 22 76DC Repeated for Instantaneous Overcurrent 23 76E6 Repeated for Instantaneous Overcurr...

Page 133: ...Repeated for Time Overcurrent 24 Disconnect Breaker Switch Actual Values Read Only 8 12 16 or 24 Modules All except B90 7720 Disconnect Switch 1 States 0 to 14 1 F281 0 CLOSED BIT 7721 Repeated for Di...

Page 134: ...witch 14 774E Repeated for Disconnect Switch 15 774F Repeated for Disconnect Switch 16 B30 C60 F35 L90 N60 T35 T60 7750 Repeated for Disconnect Switch 17 7751 Repeated for Disconnect Switch 18 7752 Re...

Page 135: ...5 77E6 Repeated for Broken Conductor 6 Ohm Inputs Read Write Setting 2 Modules All except B90 77F8 Ohm Inputs 1 Function 0 to 1 1 F102 0 Disabled 77F9 Ohm Inputs 1 ID F205 Ohm Ip 1 77FF Ohm Inputs 1 R...

Page 136: ...999 kA 0 001 F003 1000 78C3 PMU 1 Phase C Current Test Angle 180 to 180 0 05 F002 11000 78C4 PMU 1 Ground Current Test Magnitude 0 to 9 999 kA 0 001 F004 0 78C6 PMU 1 Ground Current Test Angle 180 to...

Page 137: ...l Model TD Multiplier 0 to 600 0 01 F001 100 7AF3 Reserved 0 to 600 0 01 F001 100 7AF4 Thermal Model IEC Curve K Factor 1 to 1 5 0 05 F001 110 7AF5 Thermal Model IEC Curve Time Constant 0 to 1000 min...

Page 138: ...1 1 F097 0 Definite Time 7B2B Speed 2 Motor Acceleration Speed 1 2 0 05 to 180 s 0 01 F001 1000 7B2C Speed 2 Motor Acceleration Block 0 to 4294967295 1 F300 0 7B2E Reserved 9 items F001 0 User Progra...

Page 139: ...hbutton 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 Pushbut...

Page 140: ...ld Current Under Current UC Delay 0 to 600 seconds 0 01 F001 100 7E7A Field Current Block 0 to 4294967295 1 F300 0 7E7C Field Current Target 0 to 2 1 F109 0 Self reset 7E7D Field Current Events 0 to 1...

Page 141: ...3647 to 2147483647 ohm 1 F060 0 7EAD AG Loop Impedance Magnitude 0 to 2147483647 ohm 1 F060 0 7EAF AG Loop Impedance Angle 359 9 to 0 degrees 0 1 F002 0 7EB0 BG Loop Resistance 2147483647 to 214748364...

Page 142: ...ce 0 to 5 1 F167 0 SRC 1 7F62 Auxiliary Undervoltage 1 Pickup 0 004 to 3 pu 0 001 F001 700 7F63 Auxiliary Undervoltage 1 Delay 0 to 600 s 0 01 F001 100 7F64 Auxiliary Undervoltage 1 Curve 0 to 1 1 F11...

Page 143: ...5 1 F001 0 8044 Repeated for Comparator 2 8078 Repeated for Comparator 3 80AC Repeated for Comparator 4 80E0 Repeated for Comparator 5 8114 Repeated for Comparator 6 Generic Comparator Actual Values R...

Page 144: ...Input 30 Value 0 to 2147483647 1 F060 0 81BC Direct Analog Input 31 Value 0 to 2147483647 1 F060 0 81BE Direct Analog Input 32 Value 0 to 2147483647 1 F060 0 Temp Monitor Actual Values Read Only Non...

Page 145: ...EGD Fast Production Status Read Only Non Volatile and Read Only B30 C30 C60 F35 F60 G30 G60 M60 T35 T60 83E0 EGD Fast Producer Exchange 1 Signature 0 to 65535 1 F001 0 83E1 EGD Fast Producer Exchange...

Page 146: ...teger Output 4 8568 Repeated for Direct Integer Output 5 8572 Repeated for Direct Integer Output 6 857C Repeated for Direct Integer Output 7 8586 Repeated for Direct Integer Output 8 8590 Repeated for...

Page 147: ...1 Breaker Failure 1 Phase B Initiate 0 to 4294967295 1 F300 0 8623 Breaker Failure 1 Phase C Initiate 0 to 4294967295 1 F300 0 8625 Breaker Failure 1 Breaker Status 1 Phase B 0 to 4294967295 1 F300 0...

Page 148: ...ital Element 8 8AB0 Repeated for Digital Element 9 8AC6 Repeated for Digital Element 10 8ADC Repeated for Digital Element 11 8AF2 Repeated for Digital Element 12 8B08 Repeated for Digital Element 13 8...

Page 149: ...8EF9 Trip Bus 1 Events 0 to 1 1 F102 0 Disabled 8EFA Reserved 8 items 0 to 1 1 F001 0 8F02 Repeated for Trip Bus 2 8F34 Repeated for Trip Bus 3 8F66 Repeated for Trip Bus 4 8F98 Repeated for Trip Bus...

Page 150: ...01 900 91F6 Fault Report 1 Z0 Angle 25 to 90 degrees 1 F001 75 91F7 Fault Report 1 Line Length Units 0 to 1 1 F147 0 km 91F8 Fault Report 1 Line Length 0 to 2000 0 1 F001 1000 91F9 Fault Report 1 VT S...

Page 151: ...7295 1 F300 0 9271 RRTD RTD 1 Open 0 to 2 1 F552 0 None 9272 RRTD RTD 1 Target 0 to 2 1 F109 0 Self reset 9273 RRTD RTD 1 Events 0 to 1 1 F102 0 Disabled 9274 Repeated for RRTD RTD 2 9288 Repeated for...

Page 152: ...430 Repeated for Direct Input Output 5 943C Repeated for Direct Input Output 6 9448 Repeated for Direct Input Output 7 9454 Repeated for Direct Input Output 8 9460 Repeated for Direct Input Output 9 9...

Page 153: ...Repeated for Direct Input Output 51 9664 Repeated for Direct Input Output 52 9670 Repeated for Direct Input Output 53 967C Repeated for Direct Input Output 54 9688 Repeated for Direct Input Output 55...

Page 154: ...put 31 9174 Repeated for Direct Input Output 32 9180 Repeated for Direct Input Output 33 918C Repeated for Direct Input Output 34 9198 Repeated for Direct Input Output 35 91A4 Repeated for Direct Inpu...

Page 155: ...78 93A8 Repeated for Direct Input Output 79 93B4 Repeated for Direct Input Output 80 93C0 Repeated for Direct Input Output 81 93CC Repeated for Direct Input Output 82 93D8 Repeated for Direct Input O...

Page 156: ...125 95DC Repeated for Direct Input Output 126 95E8 Repeated for Direct Input Output 127 95F4 Repeated for Direct Input Output 128 9600 Repeated for Direct Input Output 129 960C Repeated for Direct Inp...

Page 157: ...172 9810 Repeated for Direct Input Output 173 981C Repeated for Direct Input Output 174 9828 Repeated for Direct Input Output 175 9834 Repeated for Direct Input Output 176 9840 Repeated for Direct Inp...

Page 158: ...219 9A44 Repeated for Direct Input Output 220 9A50 Repeated for Direct Input Output 221 9A5C Repeated for Direct Input Output 222 9A68 Repeated for Direct Input Output 223 9A74 Repeated for Direct Inp...

Page 159: ...lexElement 6 Actual 2147483 647 to 2147483 647 0 001 F004 0 990C FlexElement 7 Actual 2147483 647 to 2147483 647 0 001 F004 0 990E FlexElement 8 Actual 2147483 647 to 2147483 647 0 001 F004 0 C70 F35...

Page 160: ...1 0 99F6 Reserved 10 items 0 to 1 1 F001 0 9A00 Teleprotection Input 1 n Default States 16 items 0 to 3 1 F086 0 Off 9A10 Teleprotection Input 2 n Default States 16 items 0 to 3 1 F086 0 Off 9A20 Tele...

Page 161: ...itor Control 1 Automatic Open 0 to 4294967295 1 F300 0 9B2C Capacitor Control 1 Breaker Open 52b 0 to 4294967295 1 F300 0 9B2E Capacitor Control 1 Trip Seal in Delay 0 to 60 s 0 001 F001 400 9B2F Capa...

Page 162: ...ze No of Ops 9C9D Automatic Voltage Regulator 1 Delay Before Close 0 to 65 535 s 0 001 F001 1000 9C9E Automatic Voltage Regulator 1 Delay Before Open 0 to 65 535 s 0 001 F001 1000 9C9F Automatic Volta...

Page 163: ...lance Settings Read Write Grouped Setting 3 Modules C70 9D50 Neutral Voltage Unbalance 1 Function 0 to 1 1 F102 0 Disabled 9D51 Neutral Voltage Unbalance 1 Neutral Point Source 0 to 5 1 F167 0 SRC 1 9...

Page 164: ...1 F167 0 SRC 1 9DC3 Phase Current Unbalance 1 Inherent Factor A 0 1 to 0 1 0 000 1 F002 0 9DC4 Phase Current Unbalance 1 Inherent Factor B 0 1 to 0 1 0 000 1 F002 0 9DC5 Phase Current Unbalance 1 Inh...

Page 165: ...age 1A Pickup 0 001 to 1 pu 0 001 F001 10 9E4B Voltage Differential 1 Stage 2A Pickup 0 001 to 1 pu 0 001 F001 20 9E4C Voltage Differential 1 Stage 3A Pickup 0 001 to 1 pu 0 001 F001 30 9E4D Voltage D...

Page 166: ...Delay 0 to 600 s 0 01 F001 50 9F0C Undercurrent Speed 2 Alarm Pickup 0 1 to 0 95 FLA 0 01 F001 70 9F0D Undercurrent Speed 2 Alarm Pickup Delay 0 to 600 s 0 01 F001 200 9F0E Undercurrent Speed 2 Trip P...

Page 167: ...otor Bar Component Frequency 0 to 76 Hz 0 01 F001 0 A028 Motor Load at Broken Rotor Bar Maximum 0 to 1 5 FLA 0 01 F001 0 A029 Motor Load Deviation at Broken Rotor Bar Maximum 0 to 1 5 FLA 0 01 F001 0...

Page 168: ...30 G60 L30 L60 L90 M60 N60 T60 A09A VT Fuse Failure Function 0 to 1 1 F102 0 Disabled A09B VT Fuse Failure Neutral Wire Open Function 0 to 1 1 F102 0 Disabled A09C VT Fuse Failure Neutral Wire Open 3r...

Page 169: ...o 7 1 F001 7 A282 Selector 1 Timeout 3 to 60 s 0 1 F001 50 A283 Selector 1 Step Up 0 to 4294967295 1 F300 0 A285 Selector 1 Step Mode 0 to 1 1 F083 0 Time out A286 Selector 1 Acknowledge 0 to 42949672...

Page 170: ...al 0 to 65535 1 F600 0 A503 PID 1 Setpoint Signal 99999 99 to 99999 99 0 01 F004 0 A505 PID 1 Tracking Signal 0 to 65535 1 F600 0 A506 PID 1 Proportional Gain 0 01 to 100 0 01 F001 100 A507 PID 1 Setp...

Page 171: ...ciator Alarm Input 96 items 0 to 4294967295 1 F300 0 A7C0 Clear Latched Alarms 0 to 4294967295 1 F300 0 Annunciator Actual Values Read Only All A7D0 Annunciator Acknowledge or Reset Alarm 3 items 0 to...

Page 172: ...A845 POTT1 1P Event 0 to 1 1 F102 0 Disabled A846 POTT1 1P Echo Condition 0 to 4294967295 1 F300 0 A848 POTT1 1P Scheme Block 0 to 4294967295 1 F300 0 A84A POTT1 1P OC Fwd2 0 to 4294967295 1 F300 0 A8...

Page 173: ...elf reset A89C POTT3 Events 0 to 1 1 F102 0 Disabled Pilot DCB3 Read Write Setting F60 A89D DCB3 Scheme Function 0 to 1 1 F102 0 Disabled A89E DCB3 Scheme Block 0 to 4294967295 1 F300 0 A8A0 DCB3 Rx C...

Page 174: ...ource 0 to 5 1 F167 0 SRC 1 A962 Restricted Ground Fault 1 Pickup 0 005 to 30 pu 0 001 F001 80 A963 Restricted Ground Fault 1 Slope 0 to 100 1 F001 40 A964 Restricted Ground Fault 1 Delay 0 to 600 s 0...

Page 175: ...IEC 61850 GOOSE Analog Input 17 AA77 Repeated for IEC 61850 GOOSE Analog Input 18 AA7E Repeated for IEC 61850 GOOSE Analog Input 19 AA85 Repeated for IEC 61850 GOOSE Analog Input 20 AA8C Repeated for...

Page 176: ...GGIO4 Analog Input Points Configuration Settings Read Write 32 Modules All AB70 IEC 61850 GGIO4 Analog Input 1 Value F600 0 AB71 IEC 61850 GGIO4 Analog Input 1 db deadband 0 to 100000 1 F003 0 AB73 IE...

Page 177: ...Repeated for IEC 61850 GGIO4 Analog Input 29 AC3B Repeated for IEC 61850 GGIO4 Analog Input 30 AC42 Repeated for IEC 61850 GGIO4 Analog Input 31 AC49 Repeated for IEC 61850 GGIO4 Analog Input 32 IEC...

Page 178: ...for Contact Input 32 ADD8 Repeated for Contact Input 33 ADE4 Repeated for Contact Input 34 ADF0 Repeated for Contact Input 35 ADFC Repeated for Contact Input 36 AE08 Repeated for Contact Input 37 AE1...

Page 179: ...r Contact Input 79 B00C Repeated for Contact Input 80 B018 Repeated for Contact Input 81 B024 Repeated for Contact Input 82 B030 Repeated for Contact Input 83 B03C Repeated for Contact Input 84 B048 R...

Page 180: ...Received Analog 4 B218 Repeated for Received Analog 5 B21A Repeated for Received Analog 6 B21C Repeated for Received Analog 7 B21E Repeated for Received Analog 8 B220 Repeated for Received Analog 9 B...

Page 181: ...h 15 B2B9 Repeated for Switch 16 B2C0 Repeated for Switch 17 B2C7 Repeated for Switch 18 B2CE Repeated for Switch 19 B2D5 Repeated for Switch 20 B2DC Repeated for Switch 21 B2E3 Repeated for Switch 22...

Page 182: ...tmetric Ground Fault 2 F35 B364 Repeated for Wattmetric Ground Fault 3 B366 Repeated for Wattmetric Ground Fault 4 IEC 61850 GGIO1 Configuration Settings Read Write Setting All B400 Number of Status I...

Page 183: ...for Virtual Input 36 BBF2 Repeated for Virtual Input 37 BC02 Repeated for Virtual Input 38 BC12 Repeated for Virtual Input 39 BC22 Repeated for Virtual Input 40 BC32 Repeated for Virtual Input 41 BC4...

Page 184: ...ted for Virtual Output 16 BE72 Repeated for Virtual Output 17 BE7E Repeated for Virtual Output 18 BE8A Repeated for Virtual Output 19 BE96 Repeated for Virtual Output 20 BEA2 Repeated for Virtual Outp...

Page 185: ...Virtual Output 63 C0A6 Repeated for Virtual Output 64 C0B2 Repeated for Virtual Output 65 C0BE Repeated for Virtual Output 66 C0CA Repeated for Virtual Output 67 C0D6 Repeated for Virtual Output 68 C...

Page 186: ...ll C309 CID File Status 0 to 4 1 F632 0 None Mandatory Read Write All C30A CID Validation Reboot Handshake 0 to 1 1 F126 0 No Mandatory Read Write Setting All C30B Spare Setting 1 0 to 1 1 F102 0 Disa...

Page 187: ...Breaker 6 Arcing Current Operand 0 to 4294967295 1 F300 0 L30 L90 C466 Clear Channel Tests Status Operand 0 to 4294967295 1 F300 0 B30 C60 D60 F35 F60 G30 G60 L90 M60 N60 T60 C468 Clear Energy Operan...

Page 188: ...irect Output 27 C651 Repeated for Direct Output 28 C654 Repeated for Direct Output 29 C657 Repeated for Direct Output 30 C65A Repeated for Direct Output 31 C65D Repeated for Direct Output 32 C30 N60 C...

Page 189: ...1 to 16 1 F001 1 C881 Direct I O Channel 1 Ring Configuration Function 0 to 1 1 F126 0 No C882 Platform Direct I O Data Rate 0 to 2 1 F492 0 64 kbps C883 Direct I O Channel 2 Ring Configuration Functi...

Page 190: ...epeated for Direct Input 33 C914 Repeated for Direct Input 34 C918 Repeated for Direct Input 35 C91C Repeated for Direct Input 36 C920 Repeated for Direct Input 37 C924 Repeated for Direct Input 38 C9...

Page 191: ...essages Alarm Function 0 to 1 1 F102 0 Disabled CAE1 Direct Input Output Channel 1 Unreturned Messages Alarm Msg Count 100 to 10000 1 F001 600 CAE2 Direct Input Output Channel 1 Unreturned Messages Al...

Page 192: ...ntact Output 23 CCA5 Repeated for Contact Output 24 CCB8 Repeated for Contact Output 25 CCCB Repeated for Contact Output 26 CCDE Repeated for Contact Output 27 CCF1 Repeated for Contact Output 28 CD04...

Page 193: ...tput 69 D00F Repeated for Contact Output 70 D022 Repeated for Contact Output 71 D035 Repeated for Contact Output 72 Force Contact Inputs Outputs Read Write Settings All D048 Force Contact Input x Stat...

Page 194: ...IO2 CF SPCSO12 ctlModel Value 0 to 2 1 F001 1 D32C IEC 61850 GGIO2 CF SPCSO13 ctlModel Value 0 to 2 1 F001 1 D32D IEC 61850 GGIO2 CF SPCSO14 ctlModel Value 0 to 2 1 F001 1 D32E IEC 61850 GGIO2 CF SPCS...

Page 195: ...IO2 CF SPCSO40 ctlModel Value 0 to 2 1 F001 1 D348 IEC 61850 GGIO2 CF SPCSO41 ctlModel Value 0 to 2 1 F001 1 D349 IEC 61850 GGIO2 CF SPCSO42 ctlModel Value 0 to 2 1 F001 1 D34A IEC 61850 GGIO2 CF SPCS...

Page 196: ...le Difference 0 to 100 degrees 1 F001 30 D436 Synchrocheck 1 Maximum Frequency Difference 0 to 2 Hz 0 01 F001 100 D437 Synchrocheck 1 Maximum Frequency Hysteresis 0 to 0 1 Hz 0 01 F001 6 D438 Synchroc...

Page 197: ...ut 10 D642 Repeated for Field Shared Input 11 D64F Repeated for Field Shared Input 12 D65C Repeated for Field Shared Input 13 D669 Repeated for Field Shared Input 14 D676 Repeated for Field Shared Inp...

Page 198: ...r DCmA Inputs 6 D812 Repeated for DCmA Inputs 7 D825 Repeated for DCmA Inputs 8 D838 Repeated for DCmA Inputs 9 D84B Repeated for DCmA Inputs 10 D85E Repeated for DCmA Inputs 11 D871 Repeated for DCmA...

Page 199: ...6AA Repeated for PMU 6 Phasor Measurement Unit Aggregator Read Write Setting 1 2 or 4 Modules C60 D60 F60 G60 L30 L90 N60 T60 E8A8 PMU Aggregator 1 Name F209 MSVID 1 E8C9 Aggregator 1 IDcode 1 to 6553...

Page 200: ...nd Read Write Command 1 2 or 6 Modules C60 D60 F60 G60 L30 L90 N60 T60 EA22 PMU 1 Recording Clear Command 0 to 1 1 F126 0 No EA23 PMU 1 Recording Force Trigger 0 to 1 1 F126 0 No C60 N60 EA24 Repeated...

Page 201: ...tion 0 to 1 1 F102 0 Disabled EAA5 PMU 1 Current Trigger Pickup 0 1 to 30 pu 0 001 F001 1800 EAA6 PMU 1 Current Trigger Pkp Time 0 to 600 s 0 01 F001 10 EAA7 PMU 1 Current Trigger Dpo Time 0 to 600 s...

Page 202: ...01 F001 1250 EB8A PMU 1 Power Trigger Reactive 0 25 to 3 pu 0 001 F001 1250 EB8B PMU 1 Power Trigger Apparent 0 25 to 3 pu 0 001 F001 1250 EB8C PMU 1 Power Trigger Pkp Time 0 to 600 s 0 01 F001 10 EB8...

Page 203: ...nt Unit Network Reporting Configuration Read Write Setting C60 D60 F60 G60 L30 L90 N60 T60 EC48 PMU Network Reporting Function 0 to 1 1 F102 0 Disabled EC49 PMU Network Reporting ID Code 1 to 65534 1...

Page 204: ...se address where the correspond ing time value is stored F013 POWER_FACTOR SIGNED 16 BIT INTEGER Positive values indicate lagging power factor negative values indicate leading F050 UR_UINT32 TIME and...

Page 205: ...nly 1 Current or Timer 2 Current and Timer F096 ENUMERATION THERMAL MODEL CURVE EFFECT 0 Cutoff 1 Shift F097 ENUMERATION MOTOR ACCELERATION MODE 0 Definite Time 1 Adaptive F098 ENUMERATION MOTOR STATU...

Page 206: ...RY 0 1 A 1 5 A F124 ENUMERATION LIST OF ELEMENTS 8 IAC Very Inv Bitmask Value Bitmask Value Bitmask Value 0 300 4 9600 8 115200 1 1200 5 19200 9 14400 2 2400 6 38400 10 28800 3 4800 7 57600 11 33600 B...

Page 207: ...rcurrent 5 53 Neutral Time Overcurrent 6 C70 D30 D60 F60 G30 G60 L30 L60 L90 M60 T60 56 Neutral Directional Overcurrent 1 Products Bit mas k Element D30 D60 F60 G30 G60 L30 L60 L90 M60 T60 57 Neutral...

Page 208: ...e 1 145 Phase Undervoltage 2 146 Phase Undervoltage 3 All except B90 C30 N60 T35 148 Auxiliary Overvoltage 1 Products Bit mas k Element B30 C60 C70 D60 F35 F60 G30 G60 L90 M60 T60 149 Auxiliary Overvo...

Page 209: ...268 Digitizer 3 269 Digitizer 4 270 Digitizer 5 D30 D60 F60 G30 G60 L30 L60 L90 M60 N60 T35 T60 272 CT Fail 1 273 CT Fail 2 Products Bit mas k Element D60 F60 G30 G60 L60 L90 M60 N60 T35 T60 274 CT F...

Page 210: ...starts 379 Restart delay 380 Mechanical jam L60 382 87PC channel test 383 87PC phase comparison trip 384 87PC negative sequence voltage fault detector 385 87PC negative sequence current rate of change...

Page 211: ...ault Protection 14 486 End of Fault Protection 15 487 End of Fault Protection 16 488 End of Fault Protection 17 489 End of Fault Protection 18 490 End of Fault Protection 19 491 End of Fault Protectio...

Page 212: ...r 38 598 Isolator 39 599 Isolator 40 600 Isolator 41 601 Isolator 42 602 Isolator 43 603 Isolator 44 604 Isolator 45 Products Bit mas k Element 605 Isolator 46 606 Isolator 47 607 Isolator 48 608 Brea...

Page 213: ...ent 20 712 Digital Element 21 713 Digital Element 22 714 Digital Element 23 715 Digital Element 24 716 Digital Element 25 717 Digital Element 26 718 Digital Element 27 719 Digital Element 28 720 Digit...

Page 214: ...ltage regulator 2 789 Automatic voltage regulator 3 790 Phase current unbalance 1 791 Phase current unbalance 2 792 Phase current unbalance 3 793 Phase current unbalance 1 continued 794 Phase current...

Page 215: ...it mas k Element 910 User Programmable Pushbutton 11 911 User Programmable Pushbutton 12 912 User Programmable Pushbutton 13 913 User Programmable Pushbutton 14 914 User Programmable Pushbutton 15 915...

Page 216: ...3 Thermal overload protection 2 D30 D60 F35 F60 L30 L60 L90 101 4 Broken conductor detection 1 101 5 Broken conductor detection 2 F35 101 6 Broken conductor detection 3 101 7 Broken conductor detectio...

Page 217: ...141 ENUMERATION SELF TEST ERRORS Products Bitmask Error All 0 Any Self Tests 1 IRIG B Failure 2 Port 1 Offline 3 Port 2 Offline 4 Port 3 Offline 5 Port 4 Offline 6 Port 5 Offline 7 Port 6 Offline 8 RR...

Page 218: ...iagnostic Alarm Cop 111 Diagnostic Alarm 112 System Failure 113 Diagnostics Failure 114 Maintenance Alert Products Bitmask Error Products Bitmask Definition All 0 Events Cleared 1 Oscillography Trigge...

Page 219: ...D Imported 55 ICD Applied 56 SYS INTEGR RECOV 08 C60 D60 F60 G60 L30 L90 N60 T60 57 PMU 1 Record Triggered C60 N60 58 PMU 2 Record Triggered N60 59 PMU 3 Record Triggered 60 PMU 4 Record Triggered 61...

Page 220: ...6 F168 ENUMERATION INRUSH INHIBIT FUNCTION 0 Disabled 1 Adapt 2nd 2 Trad 2nd F169 ENUMERATION OVEREXCITATION INHIBIT FUNCTION 0 Disabled 1 5th F172 ENUMERATION SLOT LETTERS F173 ENUMERATION DCmA INPU...

Page 221: ...owned Conductor Bitmask Trigger type 0 None 1 Loss Of Load 2 Arc Suspected 3 Arcing 4 Overcurrent 5 Down Conductor 6 External Bitma sk Keypress Bitma sk Keypress 0 No key use between real keys 23 Rese...

Page 222: ...sters numerical data For every 16 bit register two characters the most significant byte repre sents the first character and the least significant byte represents the second character F207 TEXT4 4 CHAR...

Page 223: ...cVal mag f 290 MMXU1 MX VA phsC cVal mag f 291 MMXU1 MX PF phsA cVal mag f 292 MMXU1 MX PF phsB cVal mag f 293 MMXU1 MX PF phsC cVal mag f 294 MMXU2 MX TotW mag f 295 MMXU2 MX TotVAr mag f 296 MMXU2...

Page 224: ...sA cVal ang f 381 MMXU4 MX PhV phsB cVal mag f 382 MMXU4 MX PhV phsB cVal ang f 383 MMXU4 MX PhV phsC cVal mag f Value IEC 61850 GOOSE Tx dataset item 384 MMXU4 MX PhV phsC cVal ang f 385 MMXU4 MX A p...

Page 225: ...f 469 MMXU6 MX W phsC cVal mag f 470 MMXU6 MX VAr phsA cVal mag f 471 MMXU6 MX VAr phsB cVal mag f 472 MMXU6 MX VAr phsC cVal mag f 473 MMXU6 MX VA phsA cVal mag f 474 MMXU6 MX VA phsB cVal mag f 475...

Page 226: ...IO3 MX AnIn11 mag f 140 GGIO3 MX AnIn12 mag f Value IEC 61850 GOOSE Tx dataset item 141 GGIO3 MX AnIn13 mag f 142 GGIO3 MX AnIn14 mag f 143 GGIO3 MX AnIn15 mag f 144 GGIO3 MX AnIn16 mag f 145 GGIO3 MX...

Page 227: ...0 GGIO3 ST UIntIn13 q 191 GGIO3 ST UIntIn13 stVal 192 GGIO3 ST UIntIn14 q 193 GGIO3 ST UIntIn14 stVal 194 GGIO3 ST UIntIn15 q 195 GGIO3 ST UIntIn15 stVal 196 GGIO3 ST UIntIn16 q 197 GGIO3 ST UIntIn16...

Page 228: ...CK TRANSDUCER ORIGIN Value Instance 0 Disabled 1 Isolated 2 Forcible Value Description 0 5 5V 1 1 1mA 2 0 1mA 3 0 1mA 4 0 5mA 5 0 10mA 6 0 20mA 7 4 20mA 8 potentiometer 9 tap position Value Descriptio...

Page 229: ...RATION BREAKER SWITCH PACKED STATES BIT POSI TIONS F282 ENUMERATION BREAKER SWITCH COMMAND F300 UR_UINT32 FLEXLOGIC BASE TYPE 15 bit type Value Function 0 Number of Counts 1 Counts per Window Value De...

Page 230: ...EOUS EQUATION 26 TELEPROTECTION INPUTS 28 INSERT via keypad only 30 DELETE via keypad only 32 END 34 NOT 1 INPUT 36 2 INPUT XOR 0 38 LATCH SET RESET 2 inputs 40 OR 2 to 16 inputs 42 AND 2 to 16 inputs...

Page 231: ...4 format code for a list of element IDs The operate bit for element ID X is bit X mod 16 in register X 16 F513 ENUMERATION POWER SWING MODE 0 Two Step 1 Three Step F514 ENUMERATION POWER SWING TRIP MO...

Page 232: ...G RATE F546 ENUMERATION PMU REPORTING STYLE 0 Polar 1 Rectangular F547 ENUMERATION PMU REPORTING FORMAT 0 Integer 1 Floating Value Keypress Value Keypress Value Keypress 0 None 15 3 33 User PB 3 1 Men...

Page 233: ...alues can be used as FlexAnalogs basically all metering quantities used in protection Enumeration RTD input application 0 None 1 Stator 2 Bearing 3 Ambient 4 Group 1 5 Group 2 Enumeration RTD trip vot...

Page 234: ...FlexIntegers F613 ENUMERATION FIELD GROUND MODULE FGM INJECTION CONNECTION TYPE Enumeration COM2 port usage 0 RS485 1 RRTD 2 GPM F 3 RRTD GPM F Enumeration RRTD baud rate 0 1200 bps 1 2400 bps 2 4800...

Page 235: ...EDUNDANCY MODE F628 ENUMERATION SECURITY BYPASS ACCESS Disables security on local access remote access or both Enumeration Role 0 None 1 Administrator 2 Supervisor 3 Engineer 4 Operator 5 Factory Enum...

Page 236: ...F637 TEXT20 20 CHARACTER ASCII TEXT DISPLAYED TRUNCATED TO 6 CHARACTERS F639 ENUMERATION SCADA EVENT TIME BASE DNP 104 103 0 UTC 1 LOCAL F647 ENUMERATION GRAPHICAL FRONT PANEL PAGE Enumeration Item 0...

Page 237: ...NP SCALE 0 0 01 1 0 1 2 1 3 10 4 100 5 1000 6 10000 7 100000 8 0 001 9 1000000 10 10000000 11 100000000 Enumeration Item 0 yyyy mm dd 1 dd mmm yy 2 yyyy mm dd 3 m d yyyy 4 m d yy 5 mm dd yy 6 mm dd yy...

Page 238: ...2 218 UR FAMILY COMMUNICATIONS GUIDE MEMORY MAP CHAPTER 2 MODBUS COMMUNICATION 2...

Page 239: ...r configuration tools to understand each other s configuration files The standards can be obtained from the IEC http www iec ch The UR supports a large subset of the IEC 61850 features These are descr...

Page 240: ...ignals of these functions other than the process signals are represented in the figure by the lines connecting the Traditional Relay Functions block to the Abstract Communications Service Interface Th...

Page 241: ...defined set of signal values to one or more subscriber IEDs periodically and or whenever one of the signals undergoes a change of state or value This service is intended for trip and blocking signals...

Page 242: ...an optionally contain CDCs also define the functional constraint FC of each data attribute An FC is a two letter code with additional information such as ST status information or SP setting For instan...

Page 243: ...t the next level up in the hierarchy known as a Logical Device Logical devices are required to have one logical node implementing logical node LLN0 which addresses common issues for the containing log...

Page 244: ...scheme specified in IEC 61850 8 1 Thus on the wire one can see a message requesting the present value of source 1 power identifying the requested data attribute as Fdr1Meter ACsrcMMXU1 MX TotW mag f 3...

Page 245: ...e which since UR 7 30 is represented by a TxGOOSE element Each GOOSE message includes the values of all of the members of the dataset to which it is configured and a number of fields that can be used...

Page 246: ...e connection These messages called heartbeat messages also allow a subscriber recovering from an interruption or outage to obtain the values of the members in the absence of event messages A timeAllow...

Page 247: ...formation necessary to subscribe to a specific GOOSE message Both the UR and EnerVista UR Setup software automatically extract this information on receiving an appropriate SCL file However EnerVista U...

Page 248: ...ODE is set to ASM R RxGOOSE DST IP must be in the range of 224 0 0 1 to 239 255 255 255 excluding the SSM range Note that the SSM range is inside the ASM range and therefore the ASM use excludes the S...

Page 249: ...he events during an interruption are necessary to prevent gaps in the history Each report service is controlled by a report control block in the information model of the publishing device which since...

Page 250: ...ctlVal determines whether the control is open or close For SBO Control with Normal Security the Pos SBO element is used A read of this element is the select operation The Pos Oper structure can then...

Page 251: ...files there can be a third Private element that contains information regarding subscribed GOOSE messages information that in CID and SCD files is in Public elements 3 1 8 1 File types SCL file names...

Page 252: ...on Tue Dec 1 05 38 26 2015 3 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...

Page 253: ...ement the beginning of which is as follows As this example is an ICD file that has not been configured the IED name has the filler TEMPLATE The first element in the IED element at line 296 is the Priv...

Page 254: ...ng Services The ReportSettings element attributes rptID optFields bufTime trgOps and intgPd are configurable under Settings Product Setup Communications IEC 61850 Reports Report Settings to either Dyn...

Page 255: ...e Val element on line 47186 was within the same LN element shown previously so the text of the Val element is the configured value of TEMPLATEProt PhsIocPIOC1 BlkRef11 setSrcRef which has here a 61850...

Page 256: ...related to the Energy metering are configurable under Settings Product Setup Communications IEC 61850 Product Setup Energy 3 2 Configuring the UR using SCL This section discusses use of an IEC 61850...

Page 257: ...nor EnerVista UR Setup software deals with SSD or SED files so they are not discussed further here see instead the documentation of the SCT ICD files for UR devices can be obtained a number of ways as...

Page 258: ...ver starting the configuration from the factory default values for each of several similar UR devices applications unnecessarily duplicates setting efforts In these cases it is more efficient to begin...

Page 259: ...e it to program each of the IEDs For UR devices there are several ways in which this can be done A CID file can be sent directly to the UR device using any of the supported file transfer protocols CID...

Page 260: ...online IEC 61850 screen sends a CID file to the UR EnerVista UR Setup can also generate a CID from a URS using the Create CID File option in the Offline Window area These CID files are the only ones...

Page 261: ...standard to have only one IED element and so for IID files the G2 model and the E3 2 0 model are equivalent provided the E3 2 0 extensions are populated which they are Thus only CID files generated by...

Page 262: ...a text editor The _MergeReports txt file indicates when the Default was used to merge common settings 7 To use a merged file drag and drop it into the Online Window area 3 2 2 Configurable logical dev...

Page 263: ...for Client server A Profile A6 Security for GOOSE GSE management A Profile A7 SV A Profile per IEC 61850 9 2 clause 5 3 2 Profile description Client subscriber Server publisher Value comments T1 TCP...

Page 264: ...on Yes M7 4 data set name Yes M7 5 data reference Yes M7 6 buffer overflow Yes M7 7 entryID Yes M7 8 BufTm Yes M7 9 IntgPd Yes M7 10 GI Yes M7 11 conf revision Yes M8 Unbuffered report control Yes M8...

Page 265: ...lause 10 S6 GetLogicalNodeDirectory Yes S7 GetAllDataValues Yes Data object IEC 61850 7 2 clause 11 S8 GetDataValues Yes S9 SetDataValues Yes S10 GetDataDirectory Yes S11 GetDataDefinition Yes Data se...

Page 266: ...etGoReference S37 GetGOOSEElementNumber S38 GetGoCBValues Yes S39 SetGoCBValues Yes GSSE IEC 61850 7 2 clause 18 S40 SendGSSEMessage deprecated S41 GetGsReference deprecated S42 GetGSSEElementNumber d...

Page 267: ...is Forcible otherwise on In all other logical nodes the value of Beh stVal is off if the function modeled by the logical node has a Function Disabled Enabled setting and that setting is selected Disa...

Page 268: ...ice has a section in this chapter that defines the logical nodes implemented for that logical device In UR 7 40 and later new LDevice elements other than those originally in the Master logical device...

Page 269: ...ute paramRev has a scope that includes the entire device and thus is modified whenever any setting in the device changes The UR increments the value of paramRev by one whenever one or multiple setting...

Page 270: ...S et DATA SET R DSMemberRef ObjectReference DataSet Member R C LNName LPHD1LDevice inst MasterUR element data obj data attribute Type FC UR Name Description R W C PhyNam DPL This physical device s nam...

Page 271: ...mag AnalogueValue MX R mag i INT32 5 minus the value of MMS TCP max 5 R units Unit CF R units SIUnit ENUMERATED 1 the code for dimensionless R units multiplier ENUMERATED 0 the code for a multiplier...

Page 272: ...HIRD ETHERNET FAIL operand R stVal BOOLEAN ST THIRD ETHERNET FAIL R SntpFail SPS SNTP FAILURE operand R stVal BOOLEAN ST SNTP FAILURE R SysExcp SPS SYSTEM EXCEPTION operand R stVal BOOLEAN ST SYSTEM E...

Page 273: ...E Off R SimSt SPS Status showing that Sim messages are being received and accepted for R stVal BOOLEAN ST Status showing that really Sim messages are received and R LastStNu m INS Actual value RxGOOSE...

Page 274: ...FC UR Name Description R W C Ind SPS RxGOOSE Boolean operand R stVal BOOLEAN ST RxGOOSE Boolean On R IndPos DPS RxGOOSE DPS actual value R stVal CODED ENUM ST R OpnSt SPS RxGOOSE DPS Off operand R st...

Page 275: ...R maxVal f FLOAT32 1 000 000 000 000 R stepSize AnalogueValue CF R stepSize f FLOAT32 0 001 R DbMin ASG Value of min in deadband calculations R setMag AnalogueValue SP R setMag f FLOAT32 ANALOG IN MI...

Page 276: ...he concatenation of the IED name and Master reference to the data attribute to input R MltLev SPG Instantiated only in the Master logical device R setVal BOOLEAN SP R TT DataS et DATA SET R DSMemberRe...

Page 277: ...r setting group R setSrcRef ObjectReference SP AUX OV BLK for group reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C LNName AuxUvPTUV LDev...

Page 278: ...ce to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C InRef 06 ORG BF BKR POS2 setting for setting group R setSrcRef ObjectReference SP BF BKR POS2 fo...

Page 279: ...ACT BUS OP operand R general BOOLEAN ST BUS OP R OpBia ACT BUS BIASED OP operand R general BOOLEAN ST BUS BIASED OP R OpUnBia ACT BUS UNBIASED OP operand R general BOOLEAN ST BUS UNBIASED OP R DpoBia...

Page 280: ...etSrcCB ObjectReference SP source GoCB of input if via GOOSE R C BlkRef ORG BUS ZONE DIFF BLK setting for setting group R setSrcRef ObjectReference SP BUS ZONE DIFF BLK for group reference to the data...

Page 281: ...es that Op operates when delay expires R general BOOLEAN ST IOC PKP R dirGeneral ENUMERATED ST 0 the code for unknown R Op ACT IOC OP operand R general BOOLEAN ST IOC OP R Dpo SPS IOC DPO operand R st...

Page 282: ...put if via GOOSE R C BlkRef ORG BF BLOCK setting for setting group R setSrcRef ObjectReference SP BF BLOCK reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input...

Page 283: ...o the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C LNName FlshOvPIOC LDevice inst Prot UR element BREAKER FLASHOVER element data obj data attribute Typ...

Page 284: ...ference SP source GoCB of input if via GOOSE R C InRef6 ORG BKR FLSHOVR SPV C setting R setSrcRef ObjectReference SP BKR FLSHOVR SPV C reference to the data attribute to input R C setSrcCB ObjectRefer...

Page 285: ...hs instCVal Vector MX R phs instCVal mag f FLOAT32 BUS REST I r magnitude in primary amps R phs instCVal ang f FLOAT32 BUS REXT UR range 180 180 converted to 0 360R phs cVal Vector MX R phs cVal mag f...

Page 286: ...ORG BANK OV BLK setting for setting group R setSrcRef ObjectReference SP BANK OV BLK for group reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOO...

Page 287: ...dirPhsA ENUMERATED ST 0 the code for unknown R phsB BOOLEAN ST BANK OV STG B PKP R dirPhsB ENUMERATED ST 0 the code for unknown R phsC BOOLEAN ST BANK OV STG C PKP R dirPhsC ENUMERATED ST 0 the code...

Page 288: ...CONT MONITOR PKP R dirGeneral ENUMERATED ST 0 the code for unknown R Op ACT CONT MONITOR OP operand R general BOOLEAN ST CONT MONITOR OP R InRef1 ORG CONT MONITOR I OP setting R setSrcRef ObjectRefere...

Page 289: ...ame DUTT_PSCH1 LDevice inst Prot UR element Direct Under reaching Transfer Trip element data obj data attribute Type FC UR Name Description R W C Op ACT DUTT OP operand R general BOOLEAN ST DUTT OP R...

Page 290: ...and R stVal BOOLEAN ST DIR BLOCK TX2 STOP R TxStop3 SPS DIR BLOCK TX3 STOP operand R stVal BOOLEAN ST DIR BLOCK TX3 STOP R TxStop4 SPS DIR BLOCK TX4 STOP operand R stVal BOOLEAN ST DIR BLOCK TX4 STOP...

Page 291: ...3 STOP R TxStop4 SPS Instantiated only on products with single pole tripping R stVal BOOLEAN ST DIR BLOCK1 TX4 STOP R BlkRef1 ORG BLOCK1 SCHEME BLOCK setting R setSrcRef ObjectReference SP BLOCKI1 SCH...

Page 292: ...ia GOOSE R C InRef04 ORG Instantiated only on products with single pole tripping R setSrcRef ObjectReference SP BLOCK1 SCHEME RX4 reference to the data attribute to input R C setSrcCB ObjectReference...

Page 293: ...ence to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C LNName DCUB_PSCH1 LDevice inst Prot UR element Directional Comparison Unblocking element data...

Page 294: ...R C setSrcCB ObjectReference SP Source GoCB of input if via GOOSE R C InRef13 ORG DCUB LOGX3 setting Loss of Guard R setSrcRef ObjectReference SP DCUB LOG3 Reference to the data attribute to input R C...

Page 295: ...general BOOLEAN ST FIELD GND INJ UC PKP R dirGeneral ENUMERATED ST 0 the code for unknown It is unknown as the element may be connected configured to look forward or backward R Op ACT FIELD GND INJ U...

Page 296: ...nstMag f deadbanded R units Unit CF R units SIUnit ENUMERATED 29 the code for volts W A R units multiplier ENUMERATED 0 the code for a multiplier of 1 R db INT32U CF FldGnd0PHIZ1 InjVol db R W C zeroD...

Page 297: ...Description R W C Str ACD FIELD GND STG2 PKP operand R general BOOLEAN ST FIELD GND STG2 PKP R dirGeneral ENUMERATED ST 0 the code for unknown It is unknown as the element may be connected configured...

Page 298: ...GEN UNBAL DPO operand R stVal BOOLEAN ST GEN UNBAL DPO R BlkRef ORG GEN UNBAL BLK setting for setting group R setSrcRef ObjectReference SP GEN UNBAL BLK for group reference to the data attribute to i...

Page 299: ...R setSrcRef ObjectReference SP GND DIST Z BLK reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C LNName GndIocPIOC LDevice inst Prot UR elem...

Page 300: ...T HYBRID POTT TX3 R Tx4 SPS HYBRID POTT TX4 operand R stVal BOOLEAN ST HYBRID POTT TX4 R BlkRef1 ORG HYB POTT SCHEME BLOCK setting R setSrcRef ObjectReference SP HYB POTT SCHEME BLOCK Reference to the...

Page 301: ...RATED ST 1 the code for forward R phsA BOOLEAN ST 87L DIFF OP A R dirPhsA ENUMERATED ST 1 the code for forward R phsB BOOLEAN ST 87L DIFF OP B R dirPhsB ENUMERATED ST 1 the code for forward R phsC BOO...

Page 302: ...nt s ID check for a peer L90 on channel has failed R stVal BOOLEAN ST 87L DIFF CH ID FAIL R AnyGpsFail SPS 87L DIFF GPS FAIL operand which becomes on when the GPS signal failed or is not configured pr...

Page 303: ...t cVal ang f FLOAT32 IG DIFF CU UR range 180 180 converted to 0 360R neut units Unit CF R neut units SIUnit ENUMERATED 5 the code for amps R neut units multiplier ENUMERATED 0 the code for a multiplie...

Page 304: ...CT setting of setting group R setSrcRef ObjectReference SP STUB BUS DISCONNECT setting reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C In...

Page 305: ...hs zeroDb INT32U CF CURRENT CUT OFF LEVEL setting multiplied by 100000 46 R angRef ENUMERATED CF See UR product manual regarding FREQUENCY AND PHASE REFERENCE R LNName LinDf1MMXU1 LDevice inst Prot UR...

Page 306: ...egarding FREQUENCY AND PHASE REFERENCE R LNName LinPkpPIOC1 LDevice inst Prot UR element Line Pickup functions data obj data attribute Type FC UR Name Description R W C Str ACD LINE PICKUP PKP operand...

Page 307: ...ence to the data attribute to input R C VISIBLE STRING255 SP Reference to the ultimate source of value selected by setting LOAD ENCRMNT BLK for setting group R C setSrcCB ObjectReference SP source GoC...

Page 308: ...cription R W C Mod INC This logical node s mode R Ctrl stVal ENUMERATED ST 1 on R ctlModel CtlModels CF 0 status only R Health INS This logical node s health R stVal ENUMERATED ST LPHD1 PhyHealth stVa...

Page 309: ...R element Acceleration Time element data obj data attribute Type FC UR Name Description R W C Op ACT MOTOR ACCEL TIME OP operand R general BOOLEAN ST MOTOR ACCEL TIME OP R Dpo SPS MOTOR ACCEL TIME DPO...

Page 310: ...10 ORG MOTOR OFFLINE setting R setSrcRef ObjectReference SP MOTOR OFFLINE setting reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C InRef20...

Page 311: ...units multiplier ENUMERATED 0 the code for a multiplier of 1 R db INT32 CF MotThmPTTR1 Amp db R W C zeroDb INT32 CF 0 R OvlTripTm MV ESTIMATED TRIP TIME ON OVERLOAD in seconds R instMag AnalogueValue...

Page 312: ...nless R units multiplier ENUMERATED 2 is code for percent R db INT32 CF MotThmPTTR1 MotUnb db R W C zeroDb INT32 CF 0 R BiasMotLo d MV THERMAL MODEL BIASED MOTOR LOAD in x FLA R instMag AnalogueValue...

Page 313: ...OOLEAN ST NEG SEQ DIR OC REV R BlkRef ORG NEG SEQ DIR OC BLOCK setting for setting group R setSrcRef ObjectReference SP NEG SEQ DIR OC BLOCK for group reference to the data attribute to input R C setS...

Page 314: ...te when delay expires R general BOOLEAN ST NEG SEQ TOC PKP R dirGeneral ENUMERATED ST 0 the code for unknown R Op ACT NEG SEQ TOC OP operand R general BOOLEAN ST NEG SEQ TOC OP R Dpo SPS NEG SEQ TOC D...

Page 315: ...ST NTRL CUR STG OP R BlkRef ORG NTRL CUR BLK STG setting for setting group R setSrcRef ObjectReference SP NTRL CUR BLK STG for group where refers to STAGE 1 2 3 4 reference to the data attribute to i...

Page 316: ...po SPS NEUTRAL IOC DPO operand R stVal BOOLEAN ST NEUTRAL IOC DPO R BlkRef 1 ORG NEUTRAL IOC BLOCK setting in setting group R setSrcRef ObjectReference SP NEUTRAL IOC BLOCK reference to the data attri...

Page 317: ...al ENUMERATED ST 0 R Op ACT NTRL VOLT OP operand R general BOOLEAN ST NTRL VOLT OP R Dpo SPS NTRL VOLT DPO operand which is the inverse of NTRL VOLT PKP R stVal BOOLEAN ST NTRL VOLT DPO R NeutVx CMV N...

Page 318: ...MX R mag f FLOAT32 instMag f deadbanded R units Unit CF R units SIUnit ENUMERATED 1 R units multiplier ENUMERATED 0 R db INT32U CF NuVUnPTOV VRst db R W C zeroDb INT32U CF 0 R LNName NuVUn PTOV LDevic...

Page 319: ...ta attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C ColOpn SPS Logical OR of status value of mapped FlexLogic operands in TRIP PHASE A TRIP PHASE B TRIP PHASE C...

Page 320: ...rand R general BOOLEAN ST POTT OP R phsA BOOLEAN ST POTT TRIP A R phsB BOOLEAN ST POTT TRIP B R phsC BOOLEAN ST POTT TRIP C R Tr3p ACT POTT TRIP 3P operand R general BOOLEAN ST POTT TRIP 3P R Tx1 SPS...

Page 321: ...x3 SPS Instantiated only on products with single pole tripping R stVal BOOLEAN ST POTT1 TX3 R Tx4 SPS Instantiated only on products with single pole tripping R stVal BOOLEAN ST POTT1 TX4 R BlkRef1 ORG...

Page 322: ...eneral BOOLEAN ST POTT3 TX R BlkRef1 ORG POTT3 SCHEME BLOCK setting R setSrcRef ObjectReference SP POTT3 SCHEME BLOCK reference to the data attribute to input R C setSrcCB ObjectReference SP source Go...

Page 323: ...jectReference SP PUTT RX3 Reference to the data attribute to input R C setSrcCB ObjectReference SP Source GoCB of input if via GOOSE R C InRef4 ORG PUTT RX4 setting R setSrcRef ObjectReference SP PUTT...

Page 324: ...db INT32U CF PhCmp1PDIF1 CmpCt I1 db R W C zeroDb INT32U CF 0 R CmpCt I2 MV CT COMP I2 Mag in amperes R instMag AnalogueValue MX R instMag f FLOAT32 CT COMP I2 Mag R mag AnalogueValue MX R mag f FLOAT...

Page 325: ...ent Negative Sequence Voltage element specific to FDH element as a part of Phase comparison function data obj data attribute Type FC UR Name Description R W C Str ACD 87PC V2 FDH OP operand R general...

Page 326: ...ENUMERATED 0 the code for a multiplier of 1 R minVal AnalogueValue CF R minVal f FLOAT32 0 01 R maxVal AnalogueValue CF R maxVal f FLOAT32 5 00 R stepSize AnalogueValue CF R stepSize f FLOAT32 0 01 R...

Page 327: ...FLOAT32 0 01 R maxVal AnalogueValue CF R maxVal f FLOAT32 5 00 R stepSize AnalogueValue CF R stepSize f FLOAT32 0 01 R Op ACT 87PC di2 dt FDH OP operand R general BOOLEAN ST 87PC di2 dt FDH OP R LNNam...

Page 328: ...nput if via GOOSE R C InRef 3 ORG BRK 2 AUX CONTACT setting of setting group R setSrcRef ObjectReference SP BRK 2 AUX CONTACT setting reference to the data attribute to input R C setSrcCB ObjectRefere...

Page 329: ...sA units SIUnit ENUMERATED 1 the code for dimensionless per unit R phsA units multiplier ENUMERATED 0 the code for a multiplier of 1 R phsA db INT32U CF PhAUnPTOC RawAPh phsA db R W C phsA zeroDb INT3...

Page 330: ...32U CF 0 R phsC CMV R phsC instCVal Vector MX R phsC instCVal mag f FLOAT32 Cm Iop C R phsC cVal Vector MX R phsC cVal mag f FLOAT32 instCVal mag f deadbanded R phsC units Unit CF R phsC units SIUnit...

Page 331: ...s flowing in the set direction R general BOOLEAN ST PH DIR BLK R dirGeneral ENUMERATED ST 0 the code for unknown It is unknown as the element may be connected configured to look forward or backward R...

Page 332: ...cCB ObjectReference SP source GoCB of input if via GOOSE R C LNName PhsIocPIOC LDevice inst Prot UR element Phase Instantaneous Overcurrent element data obj data attribute Type FC UR Name Description...

Page 333: ...rectional R phsC BOOLEAN ST PHASE OV PKP C R dirPhsC ENUMERATED ST 0 the code for unknown It is unknown as the element is non directional R Op ACT PHASE OV OP operand including individual three phases...

Page 334: ...HASE SELECT VOID operand R stVal BOOLEAN ST PHASE SELECT VOID R LNName PhsTocPTOC LDevice inst Prot UR element Phase Time Overcurrent element data obj data attribute Type FC UR Name Description R W C...

Page 335: ...D ST 0 the code for unknown It is unknown as the element is non directional R phsB BOOLEAN ST PHASE UV PKP B R dirPhsB ENUMERATED ST 0 the code for unknown It is unknown as the element is non directio...

Page 336: ...tVal BOOLEAN ST POWER SWING UN BLOCK R DistDet SPS POWER SWING 50DD operand R stVal BOOLEAN ST POWER SWING 50DD R InRef 2 ORG POWER SW I2 SUPV ENAB setting for setting group R setSrcRef ObjectReferenc...

Page 337: ...net db R W C net zeroDb INT32U CF R BlkRef ORG RESTD GND FT BLOCK for setting group R setSrcRef ObjectReference SP RESTD GND FT BLOCK for group reference to the data attribute to input R C setSrcCB O...

Page 338: ...ue selected by setting RTD INPUT BLOCK R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C VISIBLE STRING255 SP If reference is external to this IED mapped to the source s GOOSE cont...

Page 339: ...Reference SP RRTD BLOCK reference to the data attribute to input R C VISIBLE STRING255 SP Reference to the ultimate source of value selected by setting RRTD BLOCK R C setSrcCB ObjectReference SP sourc...

Page 340: ...ata obj data attribute Type FC UR Name Description R W C Str ACD DIR POWER STG1 PKP operand which becomes On when the directional power comparator has operated R general BOOLEAN ST DIR POWER STG1 PKP...

Page 341: ...e SP SPEED2 ACCEL BLOCK reference to the data attribute to input R C VISIBLE STRING255 SP Reference to the ultimate source of value selected by setting SPEED2 ACCEL BLOCK R C setSrcCB ObjectReference...

Page 342: ...via GOOSE R C VISIBLE STRING255 SP If reference is external to this IED mapped to the source s GOOSE control block else empty string R C cdcNs VISIBLE STRING255 EX Name of the GE Multilin namespace at...

Page 343: ...al BOOLEAN ST 100 STATOR DPO R Ha3NV MV STATOR GND 3RD HARM VN in volts R instMag AnalogueValue MX R instMag f FLOAT32 STATOR GND 3RD HARM VN R mag AnalogueValue MX R mag f FLOAT32 instMag f deadbande...

Page 344: ...tVal BOOLEAN ST 100 STATOR STG DPO R LNName SubHaPHIZ1 LDevice inst Prot UR element Sub harmonic stator ground overcurrent functions data obj data attribute Type FC UR Name Description R W C Str ACD S...

Page 345: ...f FLOAT32 SH CURRENT ANGLE R mag AnalogueValue MX R mag f FLOAT32 instMag f deadbanded R units Unit CF R units SIUnit ENUMERATED 9 the code for degrees deg R units multiplier ENUMERATED 0 the code for...

Page 346: ...RL UV BLK reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C LNName PiDifPDIF1 LDevice inst Prot UR element Transformer Instantaneous Differ...

Page 347: ...UMERATED 1 the code for dimensionless R phs units multiplier ENUMERATED 2 the code for a multiplier of Centi R phs db INT32U CF PctDifPDIF1 DifAClc phs db R W C phs dbAng INT32U CF PctDifPDIF1 DifAClc...

Page 348: ...tCVal ang f FLOAT32 REST PHASOR UR range 180 180 converted to 0 360R phs cVal Vector MX R phs cVal mag f FLOAT32 REST PHASOR I r magnitude in pu with deadband R phs cVal ang f FLOAT32 REST PHASOR UR r...

Page 349: ...E operand phsA is TRIP PHASE A operand phsB is TRIP PHASE B operand and phsC is TRIP PHASE C operand R general BOOLEAN ST TRIP 1 POLE R phsA BOOLEAN ST TRIP PHASE A R phsB BOOLEAN ST TRIP PHASE B R ph...

Page 350: ...G BKR C OPEN setting R setSrcRef ObjectReference SP BKR C OPEN setting reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C InRef08 ORG TRIP F...

Page 351: ...etting R setSrcRef ObjectReference SP UNDERFREQ BLOCK reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C LNName UnPwrPDUP LDevice inst Prot...

Page 352: ...LEAN ST VOLT DIF OP B R phsC BOOLEAN ST VOLT DIF OP C R Dpo SPS VOLT DIF DPO operand R stVal BOOLEAN ST VOLT DIF DPO R DifVPh WYE Differential voltage in per unit for phase A B and C R phs CMV R phs i...

Page 353: ...T DIF STG OP operands R general BOOLEAN ST Logical OR of data attributes phsA phsB phsC R phsA BOOLEAN ST VOLT DIF STG A OP R phsB BOOLEAN ST VOLT DIF STG B OP R phsC BOOLEAN ST VOLT DIF STG C OP R Bl...

Page 354: ...ibute Type FC UR Name Description R W C Str ACD WATTMETRIC GND FLT PKP operand R general BOOLEAN ST WATTMETRIC GND FLT PKP R dirGeneral ENUMERATED ST 0 unknown R Op ACT WATTMETRIC GND FLT OP operand R...

Page 355: ...mapped to Master ldName if not empty otherwise to the concatenation of the IED name and Master For SCL mapped to the concatenation of the IED name and Master reference to the data attribute to input...

Page 356: ...DPO R StrOpn SPS AVR OPEN PKP operands R stVal BOOLEAN ST AVR OPEN PKP R OpOpn ACT AVR OPEN OP operand R general BOOLEAN ST AVR OPEN OP R DpoOpn SPS AVR OPEN DPO operand R stVal BOOLEAN ST AVR OPEN DP...

Page 357: ...zeroDb INT32 CF 0 R MemClr SPC CLEAR BREAKER ARCING AMPS command R Ctrl pulseConfig PulseConfig CF R pulseConfig cmdQual ENUMERATED 0 pulse R pulseConfig onDurINT32U 2 ms actually one pass R pulseCon...

Page 358: ...OAT32 BKR 1 AMP MAX R mag Analogue Value MX R mag f FLOAT32 instMag f on deadband exception R units Unit CF R units SIUnit ENUMERATED 5 the code for ampere R units multiplier ENUMERATED 0 the code for...

Page 359: ...R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C VISIBLE STRING255 SP If reference is external to this IED mapped to the source s GOOSE control block else empty string R C cdcNs V...

Page 360: ...R Str ACD BROKEN CONDUCT PKP operand R general BOOLEAN ST BROKEN CONDUCT PKP R dirGeneral ENUMERATED ST 0 R Op ACT BROKEN CONDUCT OP operand R general BOOLEAN ST BROKEN CONDUCT OP R BlkRef1 ORG BROKEN...

Page 361: ...R instMag f FLOAT32 COMPONENT LEVEL R mag AnalogueValue MX R mag f FLOAT32 instMag f deadbanded exception R units Unit CF R units SIUnit ENUMERATED 79 R units multiplier ENUMERATED 0 R db INT32 CF Bk...

Page 362: ...ATED 0 R db INT32 CF BknRotSVBR1 MaxCompLevel db R W C zeroDb INT32 CF 0 R MaxComp Hz MV MAXIMUM COMPONENT FREQ in Hz R instMag AnalogueValue MX R instMag f FLOAT32 MAXIMUM COMPONENT FREQ R mag Analog...

Page 363: ...2U 1 R ctlModel CtlModels CF BknRotSVBR1 BknRotClr ctlModel R W C sboTimeout INT32U CF 30000 R sboClass SboClasses CF 0 operate once R operTimeout INT32U CF 0 R LNName CapCtlGAPC LDevice inst Ctrl UR...

Page 364: ...input if via GOOSE R C InRef07 ORG CAP RMT SET AUTO setting R setSrcRef ObjectReference SP CAP RMT SET AUTO setting reference to the data attribute to input R C setSrcCB ObjectReference SP source GoC...

Page 365: ...bjectReference SP source GoCB of input if via GOOSE R C InRef30 ORG CAP BKR CLSD 52a setting R setSrcRef ObjectReference SP CAP BKR CLSD 52a setting reference to the data attribute to input R C setSrc...

Page 366: ...BlkRef1 ORG CT FAIL BLOCK setting R setSrcRef ObjectReference SP CT FAIL BLOCK reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C LNName CtT...

Page 367: ...CMV Mandatory data attribute which in this case is fixed at zero R cVal Vector MX R cVal mag f FLOAT32 0 R cVal ang f FLOAT32 0 R RsStat SPC instantiated only in FltRptRFLO1 R Ctrl pulseConfig PulseCo...

Page 368: ...in ohm V A R units multiplier ENUMERATED 0 the code for a multiplier of 1 R FltLoopRis MV FAUL T LOOP RESIST converted to primary ohms R mag AnalogueValue MX R LNName HzBndPTUF1 LDevice inst Ctrl UR...

Page 369: ...ECTED R phsA BOOLEAN ST HI Z ARC DETECTED A R phsB BOOLEAN ST HI Z ARC DETECTED B R phsC BOOLEAN ST HI Z ARC DETECTED C R neut BOOLEAN ST HI Z ARC DETECTED N R Dpo SPS HI Z ARC DETECTED DPO operand R...

Page 370: ...e 0 None 1 Loss of Load 2 Arc Suspected 3 Arcing 4 Overcurrent 5 Down Conductor 6 External R Trigger2 ENS HIZ RECORDS RMS actual value R stVal ENUMERATED ST HI Z RMS Capture Trigger Type where 0 None...

Page 371: ...ffDur INT32U 0 R pulseConfig numPls INT32U 1 R ctlModel CtlModels CF HiZPHIZ1 ReSigma ctlModel R W C sboTimeout INT32U CF 30000 R sboClass SboClasses CF 0 operate once R operTimeout INT32U CF 0 R LNNa...

Page 372: ...tribute to input R C VISIBLE STRING255 SP Reference to the ultimate source of value selected by setting INCIPNT FLT BLOCK R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C VISIBLE...

Page 373: ...gueValue MX R instMag f FLOAT32 Start Hour Lockout Time R mag Analogue Value MX R mag f FLOAT32 instMag f on deadband exception R units Unit CF R units SIUnit ENUMERATED 4 R units multiplier ENUMERATE...

Page 374: ...IN R units Unit CF R units SIUnit ENUMERATED 1 the code for dimensionless R units multiplier ENUMERATED 0 the code for a multiplier of 1 R sVC ScaledValue Config CF R sVC scaleFactor FLOAT32 1 100 R s...

Page 375: ...e the result in milliseconds R units Unit CF R units SIUnit ENUMERATED 4 the code for time in seconds R units multiplier ENUMERATED 3 the code for a multiplier of 0 001 i e Milli R InRef1 ORG PID PROC...

Page 376: ...Name StrDlPMRI1 LDevice inst Ctrl UR element RESTART DELAY element data obj data attribute Type FC UR Name Description R W C Mod INC This logical node s mode R Ctrl stVal ENUMERATED ST 1 on R ctlModel...

Page 377: ...l BOOLEAN ST AR RIP R P1Rip SPS AR 1 P RIP operand R stVal BOOLEAN ST AR 1 P RIP R P3Rip1 SPS AR 3 P 1 RIP operand R stVal BOOLEAN ST AR 3 P 1 RIP R P3Rip2 SPS AR 3 P 2 RIP operand R stVal BOOLEAN ST...

Page 378: ...ORG Mode 4 Activation setting R setSrcRef ObjectReference SP AR Mode 4 Activation setting reference to the data attribute to input R setSrcCB ObjectReference SP source GoCB of input if via GOOSE R Blk...

Page 379: ...SrcCB ObjectReference SP source GoCB of input if via GOOSE R C InRef17 ORG AR PAUSE setting R setSrcRef ObjectReference SP AR PAUSE setting reference to the data attribute to input R C setSrcCB Object...

Page 380: ...y and voltage difference and range conditions have been met R stVal BOOLEAN ST SYNC SYNC DPO R DynOp SPS SYNC S CLOSE OP operand which becomes on when all criteria for dynamic mode are fulfilled R stV...

Page 381: ...UMERATED 9 R units multiplier ENUMERATED 0 R db INT32U CF SynChkRSYN DifAngDis db R W C zeroDb INT32U CF 0 R V1Src CMV SYNCHROCHECK V1 voltage phasor in primary volts R instCVal Vector MX R instCVal m...

Page 382: ...mag AnalogueValue MX R mag f FLOAT32 instMag f deadbanded R units Unit CF R units SIUnit ENUMERATED 9 R units multiplier ENUMERATED 0 R db INT32U CF SynChkRSYN ProjectedDif db R W C zeroDb INT32U CF 0...

Page 383: ...R Str ACD THERMAL PROT PKP operand R general BOOLEAN ST THERMAL PROT PKP R dirGeneral ENUMERATED ST 0 the code for unknown R InRef2 ORG THERMAL PROT RESET setting R setSrcRef ObjectReference SP THERM...

Page 384: ...OSE R C InRef04 ORG AR REDUCE MAX TO 3 setting R setSrcRef ObjectReference SP AR REDUCE MAX TO 3 setting reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input i...

Page 385: ...tSrcRef ObjectReference SP TIME BTWN STARTS BLK reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C StrInhTmm INS TIME BTWN STARTS LO TIME in...

Page 386: ...instMag i on deadband exception R units Unit CF R units SIUnit ENUMERATED 23 the code for C R units multiplier ENUMERATED 0 is code for a multiplier 1 R db INT32U CF HPTmpSPTR1 ToOilTmp db R W C zero...

Page 387: ...ing group R setSrcRef ObjectReference SP LOSS OF LIFE BLOCK for group reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C LNName UFltRFLO LDe...

Page 388: ...STRING255 EX GEORG R LNName UFlt0RFLO1 LDevice inst ctrl UR element USER PROGRAMMABLE FAULT REPORT actual values and clear data obj data attribute Type FC UR Name Description R W C Mod INC This logica...

Page 389: ...TED ST LPHD1 PhyHealth stVal R On SPS Only instantiated in the Master logical device R stVal BOOLEAN ST R Off SPS Only instantiated in the Master logical device R stVal BOOLEAN ST R Zero MV Only insta...

Page 390: ...0 pulse R pulseConfig onDurINT32U 2 R pulseConfig offDur INT32U 0 R pulseConfig numPls INT32U 1 R ctlModel CtlModels CF BkrCSWI Pos ctlModel R W C sboTimeout INT32U CF BkrCSWI Pos sboTimeout R W C sbo...

Page 391: ...ment Breaker Control element data obj data attribute Type FC UR Name Description R W C Mod INC This logical node s mode R Ctrl stVal ENUMERATED ST 1 on R ctlModel CtlModels CF 0 status only R Health I...

Page 392: ...n SPS BREAKER ONE P OPEN operand R stVal BOOLEAN ST BREAKER ONE P OPEN R OutOfSrv SPS BREAKER OOS operand R stVal BOOLEAN ST BREAKER OOS R TagOn SPS BREAKER TAG ON operand R stVal BOOLEAN ST BREAKER...

Page 393: ...Config numPls INT32U 0 R ctlModel CtlModels CF XCBR BlkCls ctlModel R W C sboTimeout INT32U CF 30000 R sboClass SboClasses CF 0 operate once R operTimeout INT32U CF 0 R InRef1 ORG BREAKER OPEN setting...

Page 394: ...BREAKER BLK CLOSE R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C VISIBLE STRING255 SP If reference is external to this IED mapped to the source s GOOSE control block else empty...

Page 395: ...the data attribute to input R C VISIBLE STRING255 SP Reference to the ultimate source of value selected by setting XCBR ST LOC OPERAND R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE...

Page 396: ...stVal BOOLEAN ST Bkr0XCBR BlkOpn stVal R ctlModel CtlModels CF 0 R BlkCls SPC Breaker close commands blocked from all sources including protection R stVal BOOLEAN ST Bkr0XCBR BlkCls stVal R ctlModel C...

Page 397: ...PS ISOLATOR ALARM operand R stVal BOOLEAN ST ISOLATOR ALARM R IsoPos ACT ISOLATOR POSITION operand R general BOOLEAN ST ISOLATOR POSITION R IsoBlk ACT ISOLATOR BLOCK OP operand R general BOOLEAN ST IS...

Page 398: ...is equipped with a voltage detector R stVal BOOLEAN ST Cont Op VOn R Ind3 SPS only instantiated where the order code indicates that contact output is equipped with a voltage detector R stVal BOOLEAN...

Page 399: ...NUMERATED ST LPHD1 PhyHealth stVal R EnaOpn SPS Enable Open status R stVal BOOLEAN ST The state of the operand selected by setting XSWI INTERLOCK OPN R EnaCls SPS Enable Close status R stVal BOOLEAN S...

Page 400: ...by XSWI ST LOC OPERAND R stVal BOOLEAN ST Value of operand selected by setting XSWI ST LOC OPERAND R OpCnt INS Disconnect switch operations counter R stVal INT32 ST R units Unit CF R units SIUnit ENU...

Page 401: ...Models CF XSWI Pos ctlModel R W C sboTimeout INT32U CF XSWI Pos sboTimeout R W C sboClass SboClasses CF 0 operate once R operTimeout INT32U CF SWITCH Toperate R C BlkOpn SPC Blocks disconnect switch o...

Page 402: ...o the source s GOOSE control block else empty string R C cdcNs VISIBLE STRING255 EX Name of the GE Multilin namespace at the time of this firmware release R cdcName VISIBLE STRING255 EX GEORG R InRef3...

Page 403: ...data attribute Type FC UR Name Description R W C Mod INC This logical node s mode R Ctrl stVal ENUMERATED ST 1 on R ctlModel CtlModels CF 0 status only R Health INS This logical node s health R stVal...

Page 404: ...R C VISIBLE STRING255 SP If reference is external to this IED mapped to the source s GOOSE control block else empty string R C cdcNs VISIBLE STRING255 EX Name of the GE Multilin namespace at the time...

Page 405: ...e OUT1 to OUT4 R stVal BOOLEAN ST FCO VOn R InRef1 ORG FCO Operate setting R setSrcRef ObjectReference SP Operate setting of FCO reference to the data attribute to input R C setSrcCB ObjectReference...

Page 406: ...ture R mag AnalogueValue MX R mag f FLOAT32 instMag f deadbanded R units Unit CF R units SIUnit ENUMERATED 23 the code for degree Celsius C R units multiplier ENUMERATED 0 the code for a multiplier of...

Page 407: ...e inst System UR element Field Latching Outputs data obj data attribute Type FC UR Name Description R W C Ind1 SPS FLO Opened operand value R stVal BOOLEAN ST FLO Opened R Ind2 SPS FLO Closed operand...

Page 408: ...inst System UR element DCmA Inputs data obj data attribute Type FC UR Name Description R W C Mod INC This logical node s mode R Ctrl stVal ENUMERATED ST 1 on R ctlModel CtlModels CF 0 status only R He...

Page 409: ...bject selected by DCMA OUTPUT SOURCE reference to the data attribute to input R C VISIBLE STRING255 SP Reference to the data object selected by DCMA OUTPUT SOURCE R C setSrcCB ObjectReference SP sourc...

Page 410: ...e for degree Celsius C R units multiplier ENUMERATED 0 the code for a multiplier of 1 R db INT32U CF TRTDsGGIO1 AnIn db R W C zeroDb INT32U CF 0 R LNName LLN0 LDevice inst Meter UR element Nameplate i...

Page 411: ...urce R general BOOLEAN ST SRC 50DD R dirGeneral ENUMERATED ST 0 the code for unknown R TotW MV SRC Three Phase Real Power in primary watts R instMag AnalogueValue MX R instMag f FLOAT32 SRC Three Phas...

Page 412: ...ues standard R Hz MV SRC Frequency in Hz R instMag AnalogueValue MX R instMag f FLOAT32 SRC Frequency R mag AnalogueValue MX R mag f FLOAT32 instMag f deadbanded R units Unit CF R units SIUnit ENUMERA...

Page 413: ...units SIUnit ENUMERATED 29 the code for primary volts W A R phsCA units multiplier ENUMERATED 0 the code for a multiplier of 1 R phsCA db INT32U CF MMXU PPV phsCA db R W C phsCA dbAng INT32U CF MMXU P...

Page 414: ...A units multiplier ENUMERATED 0 the code for a multiplier of 1 R phsA db INT32U CF MMXU PhV phsA db R W C phsA dbAng INT32U CF MMXU PhV phsA dbAng R W C phsA zeroDb INT32U CF voltage cut off level R p...

Page 415: ...g AnalogueValue MX R instMag f FLOAT32 SRC Phase BG Voltage RMS R mag AnalogueValue MX R mag f FLOAT32 instMag f deadbanded R units Unit CF R units SIUnit ENUMERATED 29 the code for primary volts W A...

Page 416: ...phsC CMV R phsC instCVal Vector MX R phsC instCVal mag f FLOAT32 SRC Phase C Current Magnitude R phsC instCVal ang f FLOAT32 SRC Phase C Current Angle UR range 180 180 converted to 0 360R phsC cVal V...

Page 417: ...eroDb INT32U CF current cut off level R AcRMS MV SRC Phase C Current RMS in primary amperes R instMag AnalogueValue MX R instMag f FLOAT32 SRC Phase C Current RMS R mag AnalogueValue MX R mag f FLOAT3...

Page 418: ...U W phsA DEADBAND R W C phsA zeroDb INT32U CF power cut off level R phsB CMV R phsB instCVal Vector MX R phsB instCVal mag f FLOAT32 SRC Phase B Real Power R phsB cVal Vector MX R phsB cVal mag f FLOA...

Page 419: ...l Vector MX R phsC cVal mag f FLOAT32 instCVal mag f deadbanded R phsC units Unit CF R phsC units SIUnit ENUMERATED 63 the code for primary volt amperes reactive VIsin R phsC units multiplier ENUMERAT...

Page 420: ...hsA units SIUnit ENUMERATED 65 the code for power factor dimensionless R phsA units multiplier ENUMERATED 0 the code for a multiplier of 1 R phsA db INT32U CF MMXU PF phsA DEADBAND R W C phsA zeroDb I...

Page 421: ...instMag AnalogueValue MX R instMag f FLOAT32 SRC Auxiliary Voltage RMS R mag AnalogueValue MX R mag f FLOAT32 instMag f deadbanded R units Unit CF R units SIUnit ENUMERATED 29 the code for primary vol...

Page 422: ...1 db INT32U CF MSQI Seq1 Cur db R W C c1 dbAng INT32U CF MSQI Seq1 Cur dbAng R W C c1 zeroDb INT32U CF current cut off level R c2 CMV R c2 instCVal Vector MX R c2 instCVal mag f FLOAT32 SRC Negative S...

Page 423: ...Vector MX R cVal mag f FLOAT32 instCVal mag f deadbanded R cVal ang f FLOAT32 instCVal ang i deadbanded R units Unit CF R units SIUnit ENUMERATED 5 the code for primary amperes R units multiplier ENU...

Page 424: ...its SIUnit ENUMERATED 33 the code for hertz 1 s R units multiplier ENUMERATED 0 the code for a multiplier of 1 R db INT32U CF B_FrqMMXN1 TrcHz db R W C zeroDb INT32U CF 0 R LNName DmdMtrMMTR LDevice i...

Page 425: ...a multiplier of 1 R db INT32U CF DmdMtrMMTR AbDmd db R W C zeroDb INT32U CF current cut off level R AbMaxDm dDt MV SRC DMD IB MAX in primary amperes with associated date SRC DMD IB DATE R mag Analogue...

Page 426: ...wer in volt ampere R units multiplier ENUMERATED 0 the code for a multiplier of 1 R db INT32U CF DmdMtrMMTR VArDmd db R W C zeroDb INT32U CF power cut off level R VArMaxDm dDt MV SRC DMD VAR in primar...

Page 427: ...X R instMag f FLOAT32 SRC NEG WATTHOUR R mag AnalogueValue MX R mag f FLOAT32 instMag f deadbanded R units Unit CF R units SIUnit ENUMERATED 72 the code for real energy in watt hours Wh R units multip...

Page 428: ...nce to clear Energy which shows the receiving of dynamically clearing signal for energy calculation reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via...

Page 429: ...or dimensionless percentage R phs Har 0 units multiplier ENUMERATED 2 R phs Har 0 db INT32U CF 0 R phs Har 0 zeroDb INT32U CF 0 R phs Har 1 CMV R phs Har 1 instCVal Vector MX R phs Har 1 instCVal mag...

Page 430: ...phs Har 0 instCVal Vector MX R phs Har 0 instCVal mag f FLOAT32 0 R phs Har 0 cVal Vector MX R phs Har 0 cVal mag f FLOAT32 0 R phs Har 0 units Unit CF R phs Har 0 units SIUnit ENUMERATED 1 the code...

Page 431: ...c INT16U CF 1 R LNName LLN0 LDevice inst Gen UR element Nameplate information for the logical nodes data obj data attribute Type FC UR Name Description R W C Beh ENS This logical device s behavior R s...

Page 432: ...MERATED ST 0 the code for unknown R Op ACT 8BIT COMP OP operand R general BOOLEAN ST 8BIT COMP OP R Dpo SPS 8BIT COMP DPO operand R stVal BOOLEAN ST 8BIT COMP DPO R Ind SPS 8BIT COMP BIT operand value...

Page 433: ...Mod INC This logical node s mode R Ctrl stVal ENUMERATED ST 1 on R ctlModel CtlModels CF 0 status only R Health INS This logical node s health R stVal ENUMERATED ST LPHD1 PhyHealth stVal R GrInd SPS A...

Page 434: ...U1 LDevice inst Gen UR element Current Differential Composite Voltage element data obj data attribute Type FC UR Name Description R W C VolLoc CMV Local Vcomp phasor in primary volts R instCVal Vector...

Page 435: ...R element Data Logger data obj data attribute Type FC UR Name Description R W C FltNum INS Fault number R stVal INT32 ST 0 if data logger is cleared 1 once a sample has been recorded R RcdMade SPS Rec...

Page 436: ...AT32 CF 1 R frEna BOOLEAN CF R strTm TimeStamp CF 0 R frPd INT32 CF 0 R frRs BOOLEAN CF R InRef1 ORG COUNTER UP setting R setSrcRef ObjectReference SP COUNTER UP setting reference to the data attribut...

Page 437: ...d which indicates the element will drop out Reset when delay expires R stVal BOOLEAN ST Dig Element DE DPO R InRef1 ORG DIG ELEM INPUT setting R setSrcRef ObjectReference SP DIG ELEM INPUT setting ref...

Page 438: ...FLEXELEMENT IN setting R setSrcRef ObjectReference SP FLEXELEMENT IN reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C LNName FlxLgcGAPC1...

Page 439: ...ENUMERATED 0 R NumRcd INS AVAILABLE RECORDS actual value R stVal INT32 ST actual value AVAILABLE RECORDS R units Unit CF R units SIUnit ENUMERATED 1 R units multiplier ENUMERATED 0 R NumCycPe r INS C...

Page 440: ...he Fraction Of Second R stVal INT32 ST R TmSrc VSS RTC Sync Source R stVal VISIBLE STRING255 SP Dotted decimal IP address of the time source R TmChSt1 SPS Time channel status R stVal BOOLEAN ST logica...

Page 441: ...d Clear Security DataR Ctrl pulseConfig PulseConfig CF R pulseConfig cmdQual ENUMERATED 0 pulse R pulseConfig onDurINT32U 0 indicated the duration is locally definedR pulseConfig offDur INT32U 0 R pul...

Page 442: ...POS Y operand value R stVal BOOLEAN ST SELECTOR POS Y R Ind SPS SELECTOR BIT operand value R stVal BOOLEAN ST SELECTOR BIT R Alm2 SPS SELECTOR STP ALARM operand value R stVal BOOLEAN ST SELECTOR STP A...

Page 443: ...NS This logical node s health R stVal ENUMERATED ST LPHD1 PhyHealth stVal R RsOp SPS RESET OP operand value R stVal BOOLEAN ST RESET OP R RsOpRem SPS RESET OP COMMS operand value R stVal BOOLEAN ST RE...

Page 444: ...OLEAN ST MONTH R Month SPS Instantiated only in the first instance of TmDayGAPC R stVal BOOLEAN ST DAY R SecondOfD ay INS Instantiated only in the first instance of TmDayGAPC R stVal INT32 ST SecondOf...

Page 445: ...tSrcRef ObjectReference SP PUSHBTN RESET setting reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C InRef3 ORG PUSHBTN REMOTE setting R setS...

Page 446: ...eference SP source GoCB of input if via GOOSE R C InRef51 ORG TRIP LED INPUT setting R setSrcRef ObjectReference SP TRIP LED INPUT setting reference to the data attribute to input R C setSrcCB ObjectR...

Page 447: ...e includes graphical front panel R setSrcRef ObjectReference SP LED 8 OPERAND setting reference to the data attribute to input R C setSrcCB ObjectReference SP source GoCB of input if via GOOSE R C InR...

Page 448: ...The ANY SELF TESTS operand LPHD AnyGpsFail SPS The GPS signal failed or is not configured properly at any terminal The 87L DIFF GPS FAIL operand which becomes On when the GPS signal failed or is not c...

Page 449: ...rential element from operating LinDfPDIF L90 BlkPhDis SPS Indicates blocking signal for neutral ground or negative sequence overcurrent elements The OPEN POLE BLK Phase AB BC CA N operand OpnPl SCBR B...

Page 450: ...n deadband calculations FTDRsGGIO1 GGIO4 Deactivated SPS Indicates PUSHBUTTON OFF state When user pushbutton is asserted status is false when user pushbutton is released status is true The PUSHBUTTON...

Page 451: ...mBtwnPMRI UnHzPTUF UnPwrPDUP VDifPDIF VpHzPVPH VtffGAPC DpoAlm SPS Inverse of alarm Pkp RRTD RTD 1 ALARM DPO operand RTD Ip 1 ALARM DPO operand UNDERPWR 1 ALARM DPO operand PRTDsSTMP RRTDsSTMP UnPwrPD...

Page 452: ...nd FldGnd0PHIZ FDLOp SPS Overcurrent fault detector low has operated The 87PC FDL OP operand PhCmp1PDIF FlexErrTkn SPS A FlexLogic equation is incorrect The FLEXLOGIC ERR TOKEN operand LPHD Flt3Ph SPS...

Page 453: ...RRENT in amperes FldGnd0PHIZ GndNeutInd SPS An LED The LED NEUTRAL GROUND operand LEDsIHMI GndRis MV Ground resistance FIELD GROUND RESIST in ohms STATOR GND RESIST in kilo ohms FldGnd0PHIZ SubHaPHIZ...

Page 454: ...ween the wanted and actual latch contact state The LATCHING OUT ERROR operand LPHD LeoSt SPS Line end open status The LINE PICKUP LEO PKP operand LinPkpPIOC LivDea SPS This data object indicates that...

Page 455: ...ast data clear MAXIMUM COMPONENT LEVEL in dB BknRotSVBR MaxIntrA MV Indicates Breaker Arcing Current per phase BKR 1 AMP MAX phase A B C CBArc SCBR MaxLoadDev MV Indicates the motor load standard devi...

Page 456: ...St1 SPS Open status detected The BREAKER SWITCH OPEN operand The RxGOOSE DPS1 Off operand Bkr XCBR Bkr0XCBR Disc0XSWI Disc XSWI GGIO3 OpPhs1 SPS Indicates a trip decision for a particular cause per ph...

Page 457: ...lly block autoreclose The BREAKER 1 BLK RCLS operand Bkr0XCBR RecEna SPS Manually enable autoreclose The BREAKER 1 ENA RCLS operand Bkr0XCBR RefWinding INS Reference winding Number of windings used as...

Page 458: ...Pulse received on channel 1 or 2 The 87PC RX1 operand PhCmp1PDIF RxGooseOff SPS One or more RxGOOSE is not responding The RxGOOSE OFF operand LPHD Sat1 SPS Indicates CT saturation is detected The BUS...

Page 459: ...tart effective current START 1 EFFECTIVE CURRENT in x FLA MAccTmPMSS StrHrLOTm MV Start Hour Lockout Time in minutes StrRtePMRI StrInd SPS An LED The LED PICKUP operand LEDsIHMI StrOpn SPS Open start...

Page 460: ...elapsed since 1970 01 01 00 00 00 The TIME OF BRB CALC actual value BknRotSVBR TmOfMax INS The TIME OF MAXIMUM BRB actual value BknRotSVBR TmStr1 SPS Power swing timer picked up The POWER SWING TMR2...

Page 461: ...MXU VADmd MV Apparent power demand in VA SRC 1 DMD VA in primary volt ampere DmdMtrMMTR VAMaxDmdDt MV Max apparent power demand in VA with associated date time stamp The ClcMth cannot be used for MAX...

Page 462: ...sInd SPS An LED The LED VOLTAGE operand LEDsIHMI VOp MV NEUTRAL VOLTAGE UNBALANCE Vop in pu NuVUnPTOV VRst MV NEUTRAL VOLTAGE UNBALANCE Vres in pu NuVUnPTOV VSigLos SPS Indicates source has lost volta...

Page 463: ...PTP Clock EnumVal EnumVal ord 4 IRIG B EnumVal EnumVal ord 5 SNTP EnumVal EnumType The table outlines the logical nodes and data objects that use the extended enumerations Table 3 224 GE extended enu...

Page 464: ...e 9 3 13 I114 Exports in UTF 8 coding Yes Yes SCD import If renamed CID Yes I21 Identify IED to be configured in SCD file by IED name Yes IP address is used to locate the IED name Yes I22 Configure LD...

Page 465: ...LD or remove unused LD LN Data object Tool functionality I41 Support MustUnderstand concept 8 2 Yes Yes I42 Bind incoming 61850 signals to IED internal input signals Yes Yes I43 Use or create IED Inp...

Page 466: ...d ID Edition Description Value Clarification Sg2 1 2 What is the effect of when and how the non volatile storage is updated compare IEC 61850 8 1 16 2 4 Not applicable Sg6 2 When ResvTms is not presen...

Page 467: ...Y APPID Y gocbRef Y timeAllowedtoLive Y datSet Y goID N t Y stNum N sqNum Y simulation test Y confRev Y ndsCom Y numDatSetEntries Gs2 1 2 When is a subscribed GOOSE marked as lost TAL time allowed to...

Page 468: ...hority N Ended with overshoot N Abortion due to deviation N Abortion by communication loss Y Blocked by command N None Y Inconsistent parameters Y Locked by other client Ct10 1 2 How to force a test n...

Page 469: ...n one time server Internal clock is used On all time servers Internal clock is used 120 seconds Tm3 1 2 How long does it take to take over the new time from time server 200 seconds Tm4 1 2 When is the...

Page 470: ...cking related features na 663 FCDA element cannot be a functionally constrained logical node Y 668 Autotransformer modeling na 687 SGCB ResvTms Y 719 ConfDataSet maxAttributes definition is confusing...

Page 471: ...and UTS na 1202 GI not optional Y Part 7 3 697 Persistent command PulseConfig na 698 Wrong case is BAC dB attribute na 722 Units for h and min not in UnitKind enumeration Y 919 Presence Condition for...

Page 472: ...s automatically if EnerVista is used to import the CID file to the UR 743 CCGR PmpCtl and CCGR FanCtl na 744 LN STMP EEHealth and EEName Y 773 Loc LocKey and LocSta YPSH and YLTC na 774 ITCI LocKey na...

Page 473: ...chema on a computer before the file is transferred to the UR While the UR performs a number of parsing and data validation checks as described as follows send only syntactically valid files to the UR...

Page 474: ...ED not found in file 2015 12 08 09 20 30 311192 ERROR Parsing SCL file failed In the following log file the CID file load fails because the lnType logical node type for the PhsIocPIOCx logical nodes i...

Page 475: ...g the next occurrence of the same type of error So when an error is found determine if it is a single error or just the first occurrence of a systemic error As described in the Schema version used by...

Page 476: ...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...

Page 477: ...he target IED In addition to the IED element of the target IED the CID files have IED elements for each IED that the target IED subscribes to these other IED elements contain descriptions of the GOOSE...

Page 478: ...the IED The IED setup tool provides the same ability as the IED to generate ICD and IID files and to consume CID files See the following figure Use of the IED setup tool for configuring GOOSE is opti...

Page 479: ...nd a detailed functional description of the output in the IED instruction manual As a result of compliance with this clause a generic configurator on importing this ICD file has at least the IED desig...

Page 480: ...t names with any number in place of the 1 are also defined Thus the standards allow any number of inputs to be modeled in a logical node using ORG data objects Where the input is a grouped setting the...

Page 481: ...that the IED can support max 0 means the IED is only a GOOSE subscriber The Services element is not to contain a ClientServices element with element attribute called goose The IED element also contai...

Page 482: ...e that it is subscribing to has been reconfigured changing the outputs published As the IED is unaware of this it cannot be certain that the external object references given to it in a CID file contin...

Page 483: ...an ICD or IID file from the target IED the CID also contains one IED element for each IED that the target IED receives a GOOSE message from These other IED elements are to be identical to the IED ele...

Page 484: ...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 ICD file for Acme Mini model 123 Communi...

Page 485: ...lnClass GGIO DO name InRef1 type ORG LNodeType LNodeType id LGOS lnClass LGOS DO name St type SPS DO name GoCBRef type ORG LNodeType DOType id ORG cdc ORG DA name setSrcRef fc SG dchg true bType ObjR...

Page 486: ...Proxy cdc SPS DA name stVal fc ST dchg true bType BOOLEAN Val false Val DA DA name q fc ST qchg true bType Quality DA name t fc ST bType Timestamp DOType EnumType id Beh EnumVal ord 1 on EnumVal Enum...

Page 487: ...name GOOSE1DS FCDA ldInst LD1 prefix lnClass PIOC lnInst 1 doName Op fc ST daName general DataSet GSEControl name GoCB1 datSet GOOSE1DS appID E1Q1BP1LD1_GOOSE1 LN0 LN lnClass LPHD inst 1 lnType LPHD L...

Page 488: ...edAP SubNetwork Communication IED name E1Q2BP1 Services GSESettings appID Conf cbName Conf datSet Conf GOOSE max 1 Services AccessPoint name S1 Server Authentication none true LDevice inst LD1 LN0 ins...

Page 489: ...Optional intermediate GOOSE reception objects 3 10 8 1 Introduction IEC 61850 standards require that logical nodes communicate with other logical nodes IEC 61850 7 1 Edition 2 0 2011 07 clause 9 6 Tha...

Page 490: ...9 Intermediate object at the receiving end Each intermediate object is represented in the SCL as an ExtRef element and a data object Ind1 in the figure within the same logical node In devices that imp...

Page 491: ...d GOOSE Boolean input 1 intAddr Ind1 ExtRef desc unassigned GOOSE Analog input 1 intAddr AnIn1 Inputs LN LNodeType id ExtRefs lnClass GGIO DO name Ind1 type SPS DO name AnIn1 type MV LNodeType To spec...

Page 492: ...standard envisioned for SCL Except for being implemented under edition 1 0 of the standard Option B is the same as the G2 Implementation Model which is outlined later To satisfy customer preference UR...

Page 493: ...data class Explanation T LNName The name shall be composed of the class name the LN Prefix and LN Instance ID according to IEC 61850 7 2 Clause 22 Data objects Descriptions NamPlt LPL Name plate of t...

Page 494: ...ed naming that is its LDevice element contains an ldName attribute the LDName portion of the reference must use the value of ldName Only GOOSE messages with the corresponding MMS Object Name in the go...

Page 495: ...renced logical node name a period the data object name a period and the data attribute name The LGOS InRef intAddr data attributes are in the same IED and same LDevice element as the referenced interm...

Page 496: ...3 258 UR FAMILY COMMUNICATIONS GUIDE E3 2 0 IMPLEMENTATION MODEL FOR GOOSE CONFIGURATION VIA SCL CHAPTER 3 IEC 61850 COMMUNICATION 3...

Page 497: ...ries Relay Highest DNP level supported For Requests Level 2 For Responses Level 2 Device function Master Slave Notable objects functions and or qualifiers supported in addition to the Highest DNP Leve...

Page 498: ...t responses Sometimes Configurable Timeouts while waiting for Data Link Confirm None Fixed at ____ Variable Configurable Complete Appl Fragment None Fixed at ____ Variable Configurable Application Con...

Page 499: ...reset after one pass of FlexLogic The On Off times and Count value are ignored Pulse Off and Latch Off operations put the appropriate Virtual Input into the Off state Trip and Close operations both pu...

Page 500: ...Time 1 read 06 no range or all 07 08 limited quantity 129 response 130 unsol resp 17 28 index 2 Binary Input Change with Time 1 read 06 no range or all 07 08 limited quantity 129 response 130 unsol re...

Page 501: ...dex see Note 2 6 16 Bit Binary Counter without Flag 1 read 7 freeze 8 freeze noack 9 freeze clear 10 frz cl noack 22 assign class 00 01 start stop 06 no range or all 07 08 limited quantity 17 28 index...

Page 502: ...Change Event with Time 1 read 06 no range or all 07 08 limited quantity 129 response 130 unsol resp 17 28 index 6 16 Bit Counter Change Event with Time 1 read 06 no range or all 07 08 limited quantity...

Page 503: ...ut Flag 1 read 22 assign class 00 01 start stop 06 no range or all 07 08 limited quantity 17 28 index 129 response 00 01 start stop 17 28 index see Note 2 5 short floating point 1 read 22 assign class...

Page 504: ...antity 17 28 index 129 response 00 01 start stop 17 28 index see Note 2 2 write 00 01 start stop 07 08 limited quantity 17 28 index 34 cont d 2 32 bit Analog Input Reporting Deadband 1 read 00 01 star...

Page 505: ...esp 5b free format 7 File descriptor 28 get file info 5b free format 129 response 130 unsol resp 5b free format 80 1 Internal Indications 1 read 00 01 start stop index 7 129 response 00 01 start stop...

Page 506: ...h On Latch Off Paired Trip Paired Close BINARY INPUT POINTS Static Steady State Object Number 1 Change Event Object Number 2 Request Function Codes supported 1 read 22 assign class Static Variation re...

Page 507: ...nput 25 25 Virtual Input 26 26 Virtual Input 27 27 Virtual Input 28 28 Virtual Input 29 29 Virtual Input 30 30 Virtual Input 31 31 Virtual Input 32 32 Virtual Input 33 33 Virtual Input 34 34 Virtual I...

Page 508: ...as negative values the maximum positive representation is 32767 for 16 bit values and 2147483647 for 32 bit values This is a DNP requirement BINARY COUNTERS Static Steady State Object Number 20 Change...

Page 509: ...ay settings are available to set default deadband values according to data type Deadbands for individual Analog Input Points can be set using DNP Object 34 Static Steady State Object Number 30 Change...

Page 510: ...4 14 UR FAMILY COMMUNICATIONS GUIDE DNP POINT LISTS CHAPTER 4 DNP COMMUNICATION 4...

Page 511: ...60870 5 103 IEC 60870 5 1 Transmission frame formats IEC 60870 5 2 Link transmission procedures IEC 60870 5 3 General structure of application data IEC 60870 5 4 Definition and coding of application...

Page 512: ...x Xmin So Xt 8191 Xmax Xmin X 4096 Xmax Xmin Xmax Xmin We can further simplify the formula for situations where 1 Xmin Xmax positive and negative values Xt 8191 2 Xmax X a 4096 Xmax b 0 2 If Xmin 0 on...

Page 513: ...terrogation 0 Time synchronization 2 Reset FCB 3 Reset CU 4 Start restart 5 Power on Status indications in monitor direction INF Semantics 16 Auto recloser active 17 Teleprotection active 18 Protectio...

Page 514: ...Fault location X in ohms 74 Fault forward line 75 Fault reverse busbar 76 Teleprotection signal transmitted 77 Teleprotection signal received 78 Zone 1 79 Zone 2 80 Zone 3 81 Zone 4 82 Zone 5 83 Zone...

Page 515: ...rrogation 0 Time synchronization General commands in control direction INF Semantics 16 Auto recloser on off 17 Teleprotection on off 18 Protection on off 19 LED reset 23 Activate characteristic 1 24...

Page 516: ...INTEROPERABILITY DOCUMENT CHAPTER 5 IEC 60870 5 103 COMMUNICATION 5 Current L2 Current L3 Voltage L1 E Voltage L2 E Voltage L3 E Active power P Reactive power Q Frequency f Voltage L1 L2 Measurand max...

Page 517: ...pted from the IEC 60870 5 104 standard The boxes indicate the following used in standard direction not used cannot be selected in IEC 60870 5 104 standard 1 SYSTEM OR DEVICE System Definition Controll...

Page 518: ...Three Octets Unbalanced interchange circuit V 24 V 28 standard Unbalanced interchange circuit V 24 V 28 recommended if 1200 bits s Balanced interchange circuit X 24 X 27 100 bits sec 200 bits sec 300...

Page 519: ...lue M_ME_NC_1 14 Measured value short floating point value with time tag M_NE_TC_1 15 Integrated totals M_IT_NA_1 16 Integrated totals with time tag M_IT_TA_1 17 Event of protection equipment with tim...

Page 520: ...point command normalized value with time tag CP56Time2a C_SE_TA_1 62 Set point command scaled value with time tag CP56Time2a C_SE_TB_1 63 Set point command short floating point value with time tag CP...

Page 521: ...20 to 36 37 to 41 44 45 46 47 1 M_SP_NA_1 X X X X X 2 M_SP_TA_1 3 M_DP_NA_1 4 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...

Page 522: ...70 M_EI_NA_1 X 100 C_IC_NA_1 X X X X X 101 C_CI_NA_1 X X X 102 C_RD_NA_1 X 103 C_CS_NA_1 X X X 104 C_TS_NA_1 Type identification Cause of transmission No Mnemonic 1 2 3 4 5 6 7 8 9 10 11 12 13 20 to...

Page 523: ...bled are defined in a project specific list 105 C_RP_NA_1 X X 106 C_CD_NA_1 107 C_TS_TA_1 110 P_ME_NA_1 111 P_ME_NB_1 112 P_ME_NC_1 X X X 113 P_AC_NA_1 120 F_FR_NA_1 121 F_SR_NA_1 122 F_SC_NA_1 123 F_...

Page 524: ...cute setpoint command C_SE ACTTERM used No additional definition Short pulse duration duration determined by a system parameter in the outstation Long pulse duration duration determined by a system pa...

Page 525: ...ion of transmission delay Acquisition of transmission delay Definition of time outs Maximum range of values for all time outs 1 to 255 s accuracy 1 s Maximum number of outstanding I format APDUs k and...

Page 526: ...rds used in the Internet The suitable selection of documents from RFC 2200 defined in this standard for given projects has to be chosen by the user of this standard Ethernet 802 3 Serial X 21 interfac...

Page 527: ...2017 17 3561 GEK 131009 1601 0401 AF1 7 6x 30 June 2017 17 3779 GEK 131009A 1601 0401 AF2 7 6x 31 October 2017 17 3935 Page Change Updated Modbus memory map and F codes for example added Polish and Ja...

Page 528: ...map and F codes including addition of PEAP GTC and PAP protocols for user logins when using a RADIUS server 2 9 Added information on the four time code fields added under the IEEE 2013 COMTRADE standa...

Page 529: ...over Modbus 2 30 Breaker restrike Modbus 2 139 Brick Modbus 2 69 Broken conductor detection Modbus 2 115 Broken rotor bar Modbus 2 146 2 147 Bus differential Modbus 2 35 2 40 2 86 Bus replica Modbus 2...

Page 530: ...fault protection Modbus 2 100 Energy commands Modbus 2 33 Energy metering Modbus 2 33 Errors in file transfer 3 235 Event recorder files explained for Modbus 2 10 Modbus registers 2 48 Exception respo...

Page 531: ...ve sequence directional OC Modbus 2 109 Negative sequence IOC Modbus 2 84 Negative sequence overvoltage Modbus 2 85 Negative sequence TOC Modbus 2 83 Negative sequence voltage Modbus 2 78 Negative seq...

Page 532: ...uration 2 1 Technical Issues Tissues 3 232 Technical support 1 14 Teleprotection Modbus 2 140 Temp monitor Modbus 2 124 Test mode Modbus 2 28 THD Modbus 2 36 2 42 Thermal inputs Modbus 2 81 Thermal mo...

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