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expertmeter™
High Performance Analyzer
PM180
IEC 61850 Communications Protocol
Reference Guide
BG0523 Rev. A2
Related Manuals for Satec PM180
Summary of Contents for Satec PM180
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Page 1
High Performance Analyzer PM180 IEC 61850 Communications Protocol Reference Guide BG0523 Rev. A2… -
Page 2
Every effort has been made to ensure that the material herein is complete and accurate. However, the manufacturer is not responsible for any mistakes in printing or faulty instructions contained in this book. Notification of any errors or misprints will be received with appreciation. -
Page 3: Table Of Contents
Table of Contents 1 General…………………..6 2 ACSI (Abstract Communication Service Interface) Conformance Statement………………….7 ACSI basic conformance statement…………..7 ACSI models conformance statement …………. 7 ACSI service conformance statement………….. 8 3 MICS — Model Implementation Conformance Statement ……11 Model conformance ………………11 Common data attributes classes…………..
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Page 4
Logical node zero LLN0 ………………17 GOOSE subscription status CTRL/sbsLGOS1-sbsLGOS20 ……….. 17 3.4.2 Logical nodes for control …………….18 Switch controllers CTRL/CSWI1- CSWI16 …………… 18 Switch control interlocking status CTRL/CILO1-CILO16 ……….18 Relay control interlocking status MET1/blkCILO1-blkCILO8……..18 3.4.3 Logical nodes for switchgear…………….19 Circuit breakers CTRL/XCBR1- XCBR2 ………….. -
Page 5
Controls ………………….40 Measurement units ………………… 40 Process Measurement Limits…………….. 41 Deadbands ………………….41 Textual descriptions ……………….. 41 6 Configuring IEC 61850………………42 Licensing IEC 61850 ………………42 Configuring IED Properties …………….42 Configuring Datasets ………………43 Configuring Report Control Blocks…………..45 Configuring the GOOSE Publisher ………….. -
Page 6: General
1 General The PM180 is provided with an embedded IEC 61850 server compliant with the IEC 61850 set of standards. This document contains the IEC 61850 conformance statements that give the summary of the device data object model, protocol implementations and communication capabilities of the PM180.
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Page 7: Acsi (Abstract Communication Service Interface) Conformance Statement
2 ACSI (Abstract Communication Service Interface) Conformance Statement This chapter contains the ACSI conformance statement as defined in Annex A of IEC 61850- 7-2 that specifies the device communication features mapped to an SCSM (Specific Communication Service Mapping). 2.1 ACSI basic conformance statement Services Client/ Server/…
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Page 8: Acsi Service Conformance Statement
Services Client/ Server/ Value/ Subscriber Publisher Comments M8-5 data-reference M8-6 BufTm M8-7 IntgPd M8-8 Logging Log control M9-1 IntgPd Control If GSE (B31/B32) is supported GOOSE M12-1 entryID M12-2 DataRefInc GSSE If SVC (B41/B42) is supported Multicast SVC Unicast SVC Time Time source with required accuracy shall be available…
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Page 9
Services Client/ Server/ Comments TP/MC Subscriber Publisher Setting group control (Clause 13) SelectActiveSG SelectEditSG SetSGValues ConfirmEditSGValues GetSGValues GetSGCBValues Reporting (Clause 14) Buffered report control block (BRCB) Report S24-1 data-change (dchg) S24-2 qchg-change (qchg) S24-3 data-update (dupd) GetBRCBValues SetBRCBValues Unbuffered report control block (URCB) Report S27-1 data-change (dchg) -
Page 10
Services Client/ Server/ Comments TP/MC Subscriber Publisher Operate Command-Termination For CSWI class nodes TimeActivated-Operate File transfer (Clause 20) GetFile SetFile DeleteFile GetFileAttributeValues Time (Clause 18) Time resolution of internal clock n=10 (T1) (nearest value of 2**-n in seconds) Time accuracy of internal clock n=10 (T1) Supported TimeStamp resolution n=10 (T1) -
Page 11: Mics — Model Implementation Conformance Statement
This chapter contains the MICS conformance statement as required by IEC 61850-10. It lists data object model elements supported by the PM180 and provides definitions of the logical nodes, common data classes and data attribute types as defined in IEC 61850-7-3 and IEC 61850-7-4.
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Page 12: Pulse Configuration
Pulse configuration Attribute Name Attribute Type Value/Range M/O/C Comments cmdQual ENUMERATED pulse | persistent For boGGIO pulse output, a relay must be set to pulse mode via the device Relay Setup onDur INT32U boGGIO class nodes: default = 2000 ms CSWI class nodes: default = 0 offDur…
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Page 13: Common Data Classes
3.3 Common data classes The following tables indicate mandatory, conditional and optional attributes of each Common Data Class (CDC) that are supported by the PM180. Mandatory attributes (M) are always present. Single point status (SPS) Attribute Name Attribute Type M/O/C…
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Page 14: Complex Measured Value (Cmv)
Attribute Name Attribute Type M/O/C Comments the AnalogueValue may be present for a given instance of DATA Quality TimeStamp units Unit INT32U VISIBLE STRING64 Complex measured value (CMV) Attribute Name Attribute Type M/O/C Comments cVal Vector Quality TimeStamp units Unit INT32U VISIBLE STRING64 Sampled value (SAV)
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Page 15: Harmonic Value For Del (Hdel)
Attribute Name Attribute Type M/O/C Comments numCyc INT16U numCyc = 1 units Unit evalTm INT16U evalTm = nominal period frequency FLOAT32 frequency = nominal frequency VISIBLE STRING64 Harmonic value for DEL (HDEL) Attribute Name Attribute Type M/O/C Comments Quality TimeStamp phsABHar ARRAY[0..numHar] OF Vector…
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Page 16: Controllable Integer Status (Inc)
subVal CODED ENUM PICS_SUBST subQ Quality PICS_SUBST pulseConfig PulseConfig ctlModel CtlModels VISIBLE STRING64 Controllable integer status (INC) Attribute Name Attribute Type M/O/C Comments ctlVal INT32 stVal INT32 Quality TimeStamp VISIBLE STRING64 Binary controlled step position information (BSC) Common data class is not supported. Binary controlled step position information (ISC) Common data class is not supported.
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Page 17: Curve Shape Description (Csd)
Metering, measurements and general digital input and output elements Logical devices contain logical nodes LPHD and LLN0 dedicated to the PM180 unit, and a set of functional logical nodes for functions supported by the PM180. Logical node names are fixed.
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Page 18: Logical Nodes For Control
Attribute name Attribute Explanation/Value M/O/C/E Comments type number 3.4.2 Logical nodes for control Switch controllers CTRL/CSWI1- CSWI16 Attribute name Attribute Explanation/Value M/O/C/E Comments type LNName Object name CSWI1…CSWI16 A configurable prefix can be added to a LNName via the device Bay Control Setup Common Logical Node Information Mode Behavior…
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Page 19: Logical Nodes For Switchgear
Attribute name Attribute Explanation/Value M/O/C/E Comments type Relay outputs RO9-RO16 (blkCILO2) Relay setup. A relay can Relay outputs RO17-RO24 (blkCILO3) only be unblocked via a Relay outputs RO25-RO32 (blkCILO4) control setpoint. Relay outputs RO33-RO40 (blkCILO5) Relay outputs RO41-RO48 (blkCILO6) Relay outputs RO49-RO56 (blkCILO7) Relay outputs RO57-RO64 (blkCILO8) 3.4.3 Logical nodes for switchgear Circuit breakers CTRL/XCBR1- XCBR2…
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Page 20: Logical Nodes For Generic Reference
Attribute name Attribute Explanation/Value M/O/C/E Comments type Mode Behavior Health Health NamePlt Name plate Status Information RcdMade Recording made Set to TRUE when at least one disturbance waveform is available for a read. FltNum Fault number Indicates the last waveform series number available in a disturbance recorder.
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Page 21: Event Flags Met1/Evfggio1 — Evfggio2
Attribute name Attribute Explanation/Value M/O/C/E Comments type Local operation Controls SPCSO1…SPCSO8 Single point controllable status output: Relay outputs RO1-RO8 (boGGIO1) Relay outputs RO9-RO16 (boGGIO2) Relay outputs RO17-RO24 (boGGIO3) Relay outputs RO25-RO32 (boGGIO4) Relay outputs RO33-RO40 (boGGIO5) Relay outputs RO41-RO48 (boGGIO6) Relay outputs RO49-RO56 (boGGIO7) Relay outputs RO57-RO64 (boGGIO8) Event flags MET1/evfGGIO1 –…
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Page 22: Logical Nodes For Metering And Measurement
3.4.6 Logical nodes for metering and measurement Energy counters MET1/engMMTR1 Attribute name Attribute Explanation/Value M/O/C/E Comments type LNName Object name engMMTR1 Common Logical Node Information Mode Behavior Health Health NamePlt Name plate Measured values TotVAh Apparent energy Total TotWh Net real energy TotVArh Net reactive energy SupWh…
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Page 23: Total Harmonics Met1/Ocvmhai1
Attribute name Attribute Explanation/Value M/O/C/E Comments type HPPV HDEL Sequence of harmonics phase to In 4LL3, 3LL3, 3BLL3, phase voltages 3DIR2, 3OP2 and 3OP3 wiring modes Total harmonics MET1/ocvMHAI1 Attribute name Attribute Explanation/Value M/O/C/E Comments type LNName Object name ocvMHAI1 Common Logical Node Information Mode Behavior…
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Page 24: Sliding Power Demands Met1/Demmmxu2
Attribute name Attribute Explanation/Value M/O/C/E Comments type Phase and neutral current (*) See WYE demands TotkWImp Total active power imported block demand TotkWExp Total active power exported block demand TotkVarImp Total reactive power imported block demand TotkVarExp Total reactive power exported block demand TotVA Total apparent power demand…
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Page 25: Predicted Power Demands Met1/Demmmxu4
Predicted power demands MET1/demMMXU4 Attribute name Attribute Explanation/Value M/O/C/E Comments type LNName Object name demMMXU4 Common Logical Node Information Mode Behavior Health Health NamePlt Name plate Measured values TotkWImp Total active power imported predicted demand TotkWExp Total active power exported predicted demand TotkVarImp Total reactive power imported…
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Page 26: Phasors Met1/Phsrmmxu1
Attribute name Attribute Explanation/Value M/O/C/E Comments type TotW Total active power TotVAr Total reactive power TotVA Total apparent power TotPF Total power factor TotPFLag Total power factor lag TotPFLead Total power factor lead TotkWImp Total active power imported TotkWExp Total active power exported TotkVarImp Total reactive power imported TotkVarExp…
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Page 27: One-Cycle Imbalance Met1/Ocvmsqi1
Attribute name Attribute Explanation/Value M/O/C/E Comments type SeqExtA Zero sequence current, extended inputs Ix ImbNgV Imbalance negative sequence voltage ImbNgA Imbalance negative sequence current ImbNgExtA Imbalance negative sequence current, extended inputs Ix One-cycle imbalance MET1/ocvMSQI1 Attribute name Attribute Explanation/Value M/O/C/E Comments type LNName…
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Page 28
Attribute name Attribute Explanation/Value M/O/C/E Comments type MinPPV Minimum voltage phase to phase MinAmps Minimum current MinW Minimum phase real power MinVAr Minimum phase reactive power MinVA Minimum phase apparent power MinPFLag Minimum phase PF lag MinPFLead Minimum phase PF lead MinThdPhV Minimum voltage THD phase to ground… -
Page 29: Pics — Protocol Implementation Conformance Statement
4 PICS – Protocol Implementation Conformance Statement This chapter contains the PICS conformance statement as defined by IEC 61850-8-1 that specifies mapping to MMS and to ISO/IEC 8802-3. 4.1 Profile conformance A-Profile support Profile Profile description type Client/ Server/ Comments Subscriber Publisher Client/server…
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Page 30
MMS service supported CBB (server) M/O/C/I Supported initiateUploadSequence uploadSegment terminateUploadSequence requestDomainDownload requestDomainUpload loadDomainContent storeDomainContent deleteDomain getDomainAttributes createProgramInvocation deleteProgramInvocation start stop resume reset kill getProgramInvocationAttributes obtainFile defineEventCondition deleteEventCondition getEventConditionAttributes reportEventConditionStatus alterEventConditionMonitoring triggerEvent defineEventAction deleteEventAction alterEventEnrollment reportEventEnrollmentStatus getEventEnrollmentAttributes acknowledgeEventNotification getAlarmSummary getAlarmEnrollmentSummary readJournal writeJournal initializeJournal reportJournalStatus… -
Page 31: Goose Conformance Statement (Goose Services)
MMS service supported CBB (server) M/O/C/I Supported deleteAccessControlList alterAccessControl reconfigureProgramInvocation M: mandatory support O: optional support C: conditional support I: out of scope NP: not present (MMS minor version 1 compatibility) 4.3 GOOSE conformance statement (GOOSE Services) Service Subscriber Publisher Value/comments SendGOOSEMessage GetGoReference…
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Page 32: Pixit — Protocol Implementation Extra Information For Testing
5 PIXIT — Protocol Implementation Extra Information for Testing This chapter describes device specific implementation of the protocol and communication capabilities of the PM180. 5.1 Device configuration The device configuration except of the listed items cannot be modified and is listed for information only.
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Page 33: Dataset Model
Dataset model Item Value/Comments Predefined Datasets in ICD file Measurand data: MET1/LLN0$DSet01Mx MET1/LLN0$DSet02Mx MET1/LLN0$DSet03Mx MET1/LLN0$DSet04St MET1/LLN0$DSet05Mx Status data: MET1/LLN0$DSet01StInd MET1/LLN0$DSet02StInd MET1/LLN0$DSet03StInd MET1/LLN0$DSet04StInd MET1/LLN0$DSet04StSPCSO MET1/LLN0$DSet05StSPCSO MET1/LLN0$DSet06StSPCSO MET1/LLN0$DSet07StSPCSO MET1/LLN0$DSet08StInd MET1/LLN0$DSet09StInd MET1/LLN0$DSet09StFltNum GOOSE publisher data set: CTRL/LLN0$DSetGOOSE1 Maximum number of data elements in one Dataset Maximum number of persistent Datasets 17 predefined + 16 deletable Predefined Dataset members…
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Page 34
Data Set name Members MET1/LLN0$osvMMXU1$MX$ExtA$phsC MET1/LLN0$osvMMXU1$MX$ExtAuxA MET1/LLN0$osvMMXU1$MX$AvExtA MET1/LLN0$DSet01StInd MET1/LLN0$biGGIO1$ST$Ind1 MET1/LLN0$biGGIO1$ST$Ind2 … MET1/LLN0$biGGIO1$ST$Ind16 MET1/LLN0$biGGIO2$ST$Ind1 MET1/LLN0$biGGIO2$ST$Ind2 … MET1/LLN0$biGGIO2$ST$Ind16 MET1/LLN0$DSet02StInd MET1/LLN0$biGGIO3$ST$Ind1 MET1/LLN0$biGGIO3$ST$Ind2 … MET1/LLN0$biGGIO3$ST$Ind16 MET1/LLN0$biGGIO4$ST$Ind1 MET1/LLN0$biGGIO4$ST$Ind2 … MET1/LLN0$biGGIO4$ST$Ind16 MET1/LLN0$DSet03StInd MET1/LLN0$biGGIO5$ST$Ind1 MET1/LLN0$biGGIO5$ST$Ind2 … MET1/LLN0$biGGIO5$ST$Ind16 MET1/LLN0$biGGIO6$ST$Ind1 MET1/LLN0$biGGIO6$ST$Ind2 … MET1/LLN0$biGGIO6$ST$Ind16 MET1/LLN0$DSet04StInd MET1/LLN0$biGGIO7$ST$Ind1 MET1/LLN0$biGGIO7$ST$Ind2 … MET1/LLN0$biGGIO7$ST$Ind16 MET1/LLN0$biGGIO8$ST$Ind1 MET1/LLN0$biGGIO8$ST$Ind2 …… -
Page 35: Reporting Model
Data Set name Members MET1/LLN0$DSet08StInd MET1/LLN0$spGGIO1$ST$Ind1 MET1/LLN0$spGGIO1$ST$Ind2 … MET1/LLN0$spGGIO1$ST$Ind32 MET1/LLN0$DSet09StInd MET1/LLN0$spGGIO2$ST$Ind1 MET1/LLN0$spGGIO2$ST$Ind2 … MET1/LLN0$spGGIO2$ST$Ind32 MET1/LLN0$DSet09StFltNum MET1/LLN0$drRDRE1$ST$FltNum MET1/LLN0$drRDRE2$ST$FltNum … MET1/LLN0$drRDRE8$ST$FltNum CTRL/LLN0$DSetGOOSE1 CTRL/QA1XCBR1$ST$Pos$stVal CTRL/QA1XCBR1$ST$Pos$q CTRL/QA2XCBR2$ST$Pos$stVal CTRL/QA2XCBR2$ST$Pos$q CTRL/QB1XSWI1$ST$Pos$stVal CTRL/QB1XSWI1$ST$Pos$q CTRL/QB2XSWI2$ST$Pos$stVal CTRL/QB2XSWI2$ST$Pos$q CTRL/QB3XSWI3$ST$Pos$stVal CTRL/QB3XSWI3$ST$Pos$q CTRL/QB4XSWI4$ST$Pos$stVal CTRL/QB4XSWI4$ST$Pos$q CTRL/QB5XSWI5$ST$Pos$stVal CTRL/QB5XSWI5$ST$Pos$q CTRL/QB6XSWI6$ST$Pos$stVal CTRL/QB6XSWI6$ST$Pos$q CTRL/QE1XSWI7$ST$Pos$stVal CTRL/QE1XSWI7$ST$Pos$q CTRL/QE2XSWI8$ST$Pos$stVal CTRL/QE2XSWI8$ST$Pos$q CTRL/QE3XSWI9$ST$Pos$stVal CTRL/QE3XSWI9$ST$Pos$q CTRL/QE4XSWI10$ST$Pos$stVal…
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Item Value/Comments MET1/LLN0$RP$URep05 MET1/LLN0$RP$URep06 MET1/LLN0$RP$URep07 MET1/LLN0$RP$URep08 16 BRCBs: CTRL/LLN0$BR$BRep01 CTRL/LLN0$BR$BRep02 CTRL/LLN0$BR$BRep03 CTRL/LLN0$BR$BRep04 CTRL/LLN0$BR$BRep05 CTRL/LLN0$BR$BRep06 CTRL/LLN0$BR$BRep07 CTRL/LLN0$BR$BRep08 MET1/LLN0$BR$BRep01 MET1/LLN0$BR$BRep02 MET1/LLN0$BR$BRep03 MET1/LLN0$BR$BRep04 MET1/LLN0$BR$BRep05 MET1/LLN0$BR$BRep06 MET1/LLN0$BR$BRep07 MET1/LLN0$BR$BRep08 Number of RCB instances = 1 (indexed RCBs, RptEnabled max=1) 16 URCBs: CTRL/LLN0$RP$URepA01 CTRL/LLN0$RP$URepB01 CTRL/LLN0$RP$URepC01 CTRL/LLN0$RP$URepD01 CTRL/LLN0$RP$URepE01 CTRL/LLN0$RP$URepF01 CTRL/LLN0$RP$URepG01… -
Page 37
Item Value/Comments MET1/LLN0$RP$URepA02 MET1/LLN0$RP$URepB01 MET1/LLN0$RP$URepB02 MET1/LLN0$RP$URepC01 MET1/LLN0$RP$URepC02 MET1/LLN0$RP$URepD01 MET1/LLN0$RP$URepD02 8 BRCBs x 2 clients: CTRL/LLN0$BR$BRepA01 CTRL/LLN0$BR$BRepA02 CTRL/LLN0$BR$BRepB01 CTRL/LLN0$BR$BRepB02 CTRL/LLN0$BR$BRepC01 CTRL/LLN0$BR$BRepC02 CTRL/LLN0$BR$BRepD01 CTRL/LLN0$BR$BRepD02 MET1/LLN0$BR$BRepA01 MET1/LLN0$BR$BRepA02 MET1/LLN0$BR$BRepB01 MET1/LLN0$BR$BRepB02 MET1/LLN0$BR$BRepC01 MET1/LLN0$BR$BRepC02 MET1/LLN0$BR$BRepD01 MET1/LLN0$BR$BRepD02 Number of RCB instances = 4 (indexed RCBs, RptEnabled max=4) 4 URCBs x 4 clients: CTRL/LLN0$RP$URepA01 CTRL/LLN0$RP$URepA02… -
Page 38
Item Value/Comments Support of optional fields Sequence number Supported, default = TRUE Report time-stamp Supported, default = TRUE Reason for inclusion Supported, default = TRUE Dataset name Supported, default = TRUE Data reference Supported, default = TRUE Buffer overflow Supported, default = FALSE EntryID Supported, default = FALSE Conf-rev… -
Page 39: Control Model
Control model Item Value/Comments Control models supported Status only Supported Direct with normal security Supported for GGIO class nodes Direct with enhanced security Supported for CSWI class nodes SBO with normal security Supported for GGIO class nodes SBO with enhanced security Not supported Time activated operate (operTm) Not supported…
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Page 40: File Transfer Model
AddCause=2 Blocked-by-switching- hierarchy until REMOTE MODE is set to TRUE via a logic equation. The PM180 can provide additional protection for control nodes based on client IP addresses by enabling control commands for specific clients and disabling or conditional blocking via logic equations for others.
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Page 41: Process Measurement Limits
Process Measurement Limits Measurement type Measurement limits Condition Current (standard inputs) Current Scale × CT Ratio 1, 2 (Imax) Auxiliary current I4 (standard input) 1, 2 Current Scale × I4 CT Ratio Current (extended inputs) 20 × CT Primary current Auxiliary current I4x (extended input) 20 ×…
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Page 42: Configuring Iec 61850
2. Click the “Reset IEC 61850 Configuration” button, and then confirm the command. 6.1 Licensing IEC 61850 A valid license key must be provided in the PM180 for IEC 61850 communications. The device is normally shipped with a temporary license, which is valid for a 30-day operation and then can be extended for an additional month.
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Page 43: Configuring Datasets
3. To delete dataset members, uncheck the appropriate “Included” boxes. Uncheck all dataset members to delete the entire dataset. 4. To add or change dataset members, click “Edit from file”, locate the PM180.icd template file or a CID file you generated for your device, and click Open.
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Page 45: Configuring Report Control Blocks
6.4 Configuring Report Control Blocks To configure Report Control Blocks in your device: 1. Select IEC 61850 Setup from the Meter Setup menu, and then click on the IEC 61850 Reports tab. 2. Select an RCB you wish to view or configure in the “RCB Reference” box. 3.
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Page 46: Configuring The Goose Publisher
4. Send your setup to the device. 6.6 Configuring the GOOSE Subscriber The PM180 can be subscribed to messages sent by any GOOSE network device including both PM180 and non-SATEC devices. The GOOSE subscriber supports up to 20 subscriptions with up to 16 data elements in each subscription.
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Page 47
The subscription status can be monitored from an IEC 61850 client via the GOOSE subscriber logical nodes CTRL/sbsLGOS1-CTRL/sbsLGOS20, or from a Modbus client application via the GOOSE subscriber status register (see the PM180 Modbus Reference Guide for the register location). -
Page 48
control blocks that are found in the ICD/CID file. Check the Subscribe box for the dataset you wish to subscribe to. 4. The publisher attributes and a list of dataset members for the selected dataset are displayed as shown in the picture below. PAS also indicates a basic IEC 61850 data element type and a physical MMS type for dataset members. -
Page 49
Select compatible input variables to which dataset elements will be mapped in the device. See the table below for allowable mapping options depending on the basic variable type. Basic Data Type MMS Data Type Compatible Input Variables BitString32 Bstring32 ExtInd, ExtiVal Dbpos Bstring8 ExtInd, ExtiVal… -
Page 50: Configuring Report Deadbands
See Basic Setup and Device Options Setup in the PM180 Operation Manual on how to configure these parameters in the device. See Programming Analog Inputs in the PM180 Operation Manual on how to setup the measurement scales for analog inputs.
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Page 51: Generating A Cid File
For your convenience, PAS shows the deadbands both in percent and in engineering units, and also indicates the minimum and maximum process measurements from which the percent deadband is taken. 2. Adjust the default percent deadbands to the desired values as required for your application.
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Page 52
Locate a source ICD or CID file for your device you wish to update and click Open. Use the PM180.icd file provided with your device as a primary template file to create a new CID file, and then use your new file as a source to update remaining settings.
Page 1 — OPERATION MANUAL
PM180 PM180 Series SUBSTATION AUTOMATION UNIT OPERATION MANUAL BG0525 Rev. A1
Page 2
Chapter 1 Introduction Controls and Indicators 8 PM180 Substation Automation Unit EN 50160 Power Quality recorder: onboard power quality
Page 3 — WARNING
Chapter 8 Configuring Recorders Configuring the EN50160 Power Quality Recorder 98 PM180 Substation Automation Unit the peak voltage value and is r
Page 4 — Table of Contents
Chapter 8 Configuring Recorders Configuring the EN50160 Power Quality Recorder PM180 Substation Automation Unit 99 Interharmonic Voltage Method of
Page 5
Chapter 8 Configuring Recorders Configuring the EN50160 Power Quality Recorder 100 PM180 Substation Automation Unit Configuring the EN50160 Recorde
Page 6
Chapter 8 Configuring Recorders Configuring the EN50160 Power Quality Recorder PM180 Substation Automation Unit 101 4. Select the waveform log
Page 7
Chapter 8 Configuring Recorders Configuring the EN50160 Power Quality Recorder 102 PM180 Substation Automation Unit The power quality fault signal
Page 8
Chapter 8 Configuring Recorders Configuring the EN50160 Power Quality Recorder PM180 Substation Automation Unit 103 The available options are list
Page 9 — Chapter 1 Introduction
Chapter 8 Configuring Recorders Configuring the Fault Recorder 104 PM180 Substation Automation Unit Option Range Default Description 2nd Signaling
Page 10 — Controls and Indicators
Chapter 8 Configuring Recorders Configuring the Fault Recorder PM180 Substation Automation Unit 105 Option Range Default Description Thresholds Thr
Page 11 — Communications Options
Chapter 8 Configuring Recorders Configuring the Fault Recorder 106 PM180 Substation Automation Unit them, adjust the thresholds according to
Page 12 — Firmware Versions
Chapter 9 Totalization Energy and TOU Registers Configuring Summary and TOU Registers PM180 Substation Automation Unit 107 Chapter 9 Totaliza
Page 13 — Supplemental Documents
Chapter 1 Introduction PM180 Substation Automation Unit 9 AC/DC Inputs The PM180 is provided with a set of fully isolated AC/DC inputs for connectin
Page 14 — Modes of Operation
Chapter 9 Totalization Energy and TOU Registers Configuring TOU Daily Profiles 108 PM180 Substation Automation Unit Option Format/Range Default Des
Page 16 — Using the RDM and RGM
Chapter 10 Configuring Communication Protocols Configuring MODBUS 110 PM180 Substation Automation Unit Chapter 10 Configuring Communication Protoc
Page 17 — Device Inputs
Chapter 10 Configuring Communication Protocols Configuring DNP3 PM180 Substation Automation Unit 111 1. From the Meter Setup menu select Protoco
Page 18 — Device Outputs
Chapter 10 Configuring Communication Protocols Configuring DNP3 112 PM180 Substation Automation Unit Parameter Options Default Description Analog I
Page 19 — Relay Outputs
Chapter 10 Configuring Communication Protocols Configuring DNP3 PM180 Substation Automation Unit 113 Scaling is enabled by default. It is not app
Page 20 — Metering
Chapter 10 Configuring Communication Protocols Configuring DNP3 114 PM180 Substation Automation Unit Object change events are normally polled
Page 21 — Harmonic Measurements
Chapter 10 Configuring Communication Protocols Configuring DNP3 PM180 Substation Automation Unit 115 5. In the “Ev Class” box, select the
Page 22 — Demands
Chapter 11 Device Control Remote Relay Control 116 PM180 Substation Automation Unit Chapter 11 Device Control This chapter describes how to c
Page 23 — Energy Metering
Chapter 11 Device Control Device Event Flags PM180 Substation Automation Unit 117 Device Event Flags The PM180 has 16 common event flags that are i
Page 24 — Monitoring
Chapter 1 Introduction Controls and Indicators 10 PM180 Substation Automation Unit up to five non-intrusive simultaneous connections, Telnet
Page 25 — Time Synchronization
Chapter 11 Device Control Updating the Clock 118 PM180 Substation Automation Unit To clear the device diagnostics events, click on Clear. Refer to
Page 26 — Device Diagnostics
Chapter 11 Device Control Resetting Accumulators and Clearing Log Files PM180 Substation Automation Unit 119 To reset the desired accumulation
Page 27
Chapter 12 Monitoring Devices Viewing Real-time Data 120 PM180 Substation Automation Unit Chapter 12 Monitoring Devices Viewing Real-time Data Rea
Page 28 — Chapter 3 Using the RDM
Chapter 12 Monitoring Devices Viewing Real-time Data PM180 Substation Automation Unit 121 Polling Options To change the polling options, click on
Page 29 — Navigation Keys
Chapter 12 Monitoring Devices Viewing Real-time Data 122 PM180 Substation Automation Unit Selecting Primary and Secondary Units Voltages and curr
Page 30 — Common Measurements Display
Chapter 12 Monitoring Devices Viewing Real-time Data PM180 Substation Automation Unit 123 Delta Measurements To measure the distance between two tr
Page 31
Chapter 12 Monitoring Devices Viewing Real-time Min/Max Log 124 PM180 Substation Automation Unit 5. Adjust the file update rate for automatic recor
Page 32 — Energy Display
Chapter 13 Retrieving Recorded Files Viewing Real-time Waveforms PM180 Substation Automation Unit 125 Chapter 13 Retrieving Recorded Files Using
Page 33 — Status Information Display
Chapter 13 Retrieving Recorded Files Viewing Real-time Waveforms 126 PM180 Substation Automation Unit Using the Upload Scheduler To setup the Uploa
Page 34 — Using the Menus
Chapter 13 Retrieving Recorded Files Viewing Real-time Waveforms PM180 Substation Automation Unit 127 does not cause loss of data, since the sched
Page 35 — Configuring the RDM
Chapter 1 Introduction PM180 Substation Automation Unit 11 Supplemental Documents BG0521 PM180 Installation Manual BG0527 PM180 MODBUS Referen
Page 36 — Configuring the PM180
Chapter 13 Retrieving Recorded Files Viewing Real-time Waveforms 128 PM180 Substation Automation Unit See Chapter 14, Viewing Log Files, for inform
Page 37 — Basic Setup Menu
Chapter 14 Viewing Log Files General Operations PM180 Substation Automation Unit 129 Chapter 14 Viewing Log Files General Operations Opening a Lo
Page 38 — Chapter 3 Using the RDM
Chapter 14 Viewing Log Files Viewing the Event Log 130 PM180 Substation Automation Unit units. To change the disturbance units, select Options from
Page 39 — Communication Setup Menus
Chapter 14 Viewing Log Files Viewing the Sequence-of-Events Log PM180 Substation Automation Unit 131 The event ID for which PAS finds related data
Page 40 — Device Options Menu
Chapter 14 Viewing Log Files Viewing the Power Quality Event Log 132 PM180 Substation Automation Unit To change the event sorting order, click on t
Page 41 — Reset Menu
Chapter 14 Viewing Log Files Viewing the Power Quality Event Log PM180 Substation Automation Unit 133 Linking to Waveforms and Data Records PQ eve
Page 42 — Connecting to the Device
Chapter 14 Viewing Log Files Viewing the IEEE 1159 Statistics Report 134 PM180 Substation Automation Unit Viewing the IEEE 1159 Statistics Report
Page 43 — Opening a Terminal Session
Chapter 14 Viewing Log Files Viewing the IEEE 1159 Statistics Report PM180 Substation Automation Unit 135 Changing the Report Time Range and Conte
Page 44 — HyperTerminal Commands
Chapter 14 Viewing Log Files Viewing EN50160 Statistics Reports 136 PM180 Substation Automation Unit Customizing Reports If you wish to add a logo
Page 45
Chapter 14 Viewing Log Files Viewing EN50160 Statistics Reports PM180 Substation Automation Unit 137 The standard compliance statistics is repor
Page 46 — Viewing Network Settings
Chapter 2 Device Description Controls and Indicators 12 PM180 Substation Automation Unit Chapter 2 Device Description Controls and Indicators Dev
Page 48 — Chapter 5 Using Telnet
Chapter 14 Viewing Log Files Viewing the Data Log PM180 Substation Automation Unit 139 To change the sorting order, click on the Sort butt
Page 49 — Opening a Telnet Session
Chapter 14 Viewing Log Files Viewing the Data Log 140 PM180 Substation Automation Unit Viewing Data Trend To view data in a graphical form, click
Page 50 — Telnet Commands
Chapter 14 Viewing Log Files Viewing Waveforms PM180 Substation Automation Unit 141 Using the Marker Lines The trend window has two blue dashed ma
Page 51 — Chapter 6 Using PAS
Chapter 14 Viewing Log Files Viewing Waveforms 142 PM180 Substation Automation Unit You can open all five views together to analyze different pr
Page 52 — Installing the USB Driver
Chapter 14 Viewing Log Files Viewing Waveforms PM180 Substation Automation Unit 143 Viewing an RMS Plot PAS can show you a cycle-by-cycle RMS
Page 53 — “Next”
Chapter 14 Viewing Log Files Viewing Waveforms 144 PM180 Substation Automation Unit The order of the highest displayed harmonic component is equal
Page 54
Chapter 14 Viewing Log Files Viewing Waveforms PM180 Substation Automation Unit 145 Viewing a Spectrum Table Click on the button on the local to
Page 55
Chapter 14 Viewing Log Files Viewing Waveforms 146 PM180 Substation Automation Unit Waveform Options Scrolling through Waveforms The status bar at
Page 56 — Setting up Communications
Chapter 14 Viewing Log Files Viewing Waveforms PM180 Substation Automation Unit 147 Viewing Phasor Diagrams The phasor diagrams show you the
Page 57
Chapter 2 Device Description Communicating with the PM180 PM180 Substation Automation Unit 13 Service Mode Service Mode is used for local upg
Page 58 — Setting Up the Device
Chapter 14 Viewing Log Files Viewing Waveforms 148 PM180 Substation Automation Unit If you leave the Triangle box checked, PAS connects the end
Page 59
Chapter 14 Viewing Log Files Viewing Synchronized Waveforms PM180 Substation Automation Unit 149 mouse button, then point to another corner of t
Page 60 — Changing Port Settings
Chapter 14 Viewing Log Files Viewing Synchronized Waveforms 150 PM180 Substation Automation Unit 4. Click on the “Channels” button and select cha
Page 62
Chapter 15 COMTRADE and PQDIF Converters Automatic Converting 152 PM180 Substation Automation Unit Automatic Converting PAS allows you to automati
Page 63 — Basic Device Setup
Appendix A Parameters for Analog Output PM180 Substation Automation Unit 153 Appendix A Parameters for Analog Output The following t
Page 64 — Device Options
Appendix A Parameters for Analog Output 154 PM180 Substation Automation Unit Designation Description PF LEAD AVR Total PF Lead VOLT AVG
Page 65 — Power Calculation Modes
Appendix B Setpoint Actions PM180 Substation Automation Unit 155 Appendix B Setpoint Actions Action Target Description NONE None (no
Page 66 — Local Settings
Appendix C Parameters for Monitoring and Data Logging 156 PM180 Substation Automation Unit Appendix C Parameters for Monitoring and Da
Page 67 — Generating Energy Pulses
Appendix C Parameters for Monitoring and Data Logging PM180 Substation Automation Unit 157 Designation Description YEAR Year MONTH Month
Page 69
Appendix C Parameters for Monitoring and Data Logging 158 PM180 Substation Automation Unit Designation Description kVA L2 kVA L2 kVA L3
Page 71
Appendix C Parameters for Monitoring and Data Logging 160 PM180 Substation Automation Unit Designation Description I2x I2x Current I3x I
Page 73
Appendix C Parameters for Monitoring and Data Logging 162 PM180 Substation Automation Unit Designation Description V31 V31 voltage I1 I1
Page 75
Appendix C Parameters for Monitoring and Data Logging 164 PM180 Substation Automation Unit Designation Description V1 THD V1/V12 THD 1 V
Page 76 — Using Counters
Appendix C Parameters for Monitoring and Data Logging PM180 Substation Automation Unit 165 Designation Description I4 TDD I4 TDD I1 KF I
Page 77 — Using Control Setpoints
Appendix C Parameters for Monitoring and Data Logging 166 PM180 Substation Automation Unit Designation Description kVA ACC DMD kVA accum
Page 78
Appendix C Parameters for Monitoring and Data Logging PM180 Substation Automation Unit 167 Designation Description Vh Volt-hours Ah Amp
Page 79
Chapter 2 Device Description Device Inputs PM180 Substation Automation Unit 15 The remote display modules communicate with the PM180 using the MODB
Page 80
Appendix C Parameters for Monitoring and Data Logging 168 PM180 Substation Automation Unit Designation Description V2 H03 H03 Harmonic v
Page 81
Appendix C Parameters for Monitoring and Data Logging PM180 Substation Automation Unit 169 Designation Description I3 H01 I3 Current HRM
Page 83
Appendix C Parameters for Monitoring and Data Logging PM180 Substation Automation Unit 171 Designation Description kW MAX Total kW kvar
Page 84
Appendix C Parameters for Monitoring and Data Logging 172 PM180 Substation Automation Unit Designation Description ANALOG INPUTS Scaled
Page 85
Appendix C Parameters for Monitoring and Data Logging PM180 Substation Automation Unit 173 Designation Description … … TOU REG8 TRF16 Ta
Page 87
Appendix C Parameters for Monitoring and Data Logging PM180 Substation Automation Unit 175 Designation Description TOU MAX DMD REG15 TOU
Page 88
Appendix D EN50160 Statistics Log Files 176 PM180 Substation Automation Unit Appendix D EN50160 Statistics Log Files The following tab
Page 89
Appendix D EN50160 Statistics Log Files PM180 Substation Automation Unit 177 Field No. Designation Description 3 N13 70%/100ms Number of
Page 90
Chapter 2 Device Description Device Outputs 16 PM180 Substation Automation Unit unlimited number of post-event cycles. The length of the captured w
Page 91
Appendix D EN50160 Statistics Log Files 178 PM180 Substation Automation Unit Field No. Designation Description 16 V1 N1 Total number of
Page 92 — PQ Recorder Setup
Appendix D EN50160 Statistics Log Files PM180 Substation Automation Unit 179 Field No. Designation Description 19 V3 HD% Max Worst-case
Page 93
Appendix D EN50160 Statistics Log Files 180 PM180 Substation Automation Unit Field No. Designation Description 2 THDO MAX Maximum odd ha
Page 94 — EN50160 Background
Appendix E Data Scales PM180 Substation Automation Unit 181 Appendix E Data Scales The maximum values for volts, amps and power
Page 95
Appendix F Device Diagnostic Codes 182 PM180 Substation Automation Unit Appendix F Device Diagnostic Codes Diagnostic Code Descripti
Page 96 — Evaluation Techniques
Chapter 2 Device Description Device Outputs PM180 Substation Automation Unit 17 supply. The AI modules may be ordered with 0-1mA, ±1mA, 0
Page 98 — 1 for 95% of a week
Chapter 2 Device Description Metering 18 PM180 Substation Automation Unit release command. The remote release command also removes the local comman
Page 99
Chapter 2 Device Description Metering PM180 Substation Automation Unit 19 Harmonic Measurements The PM180 provides harmonic measurements on four vo
Page 100 — 8% for 95% of a week
Chapter 2 Device Description Metering 20 PM180 Substation Automation Unit The device provides individual voltage and current harmonic measurements
Page 101
Chapter 2 Device Description Metering PM180 Substation Automation Unit 21 The accumulated demand represents the relative energy accumulated
Page 102 — EN50160 PQ Recorder Setup
Chapter 2 Device Description Monitoring 22 PM180 Substation Automation Unit The energy pulse LEDs are used for testing device accuracy by the exter
Page 103
Chapter 2 Device Description Recording PM180 Substation Automation Unit 23 The logical controller launches the Waveform recorder and Data recorder
Page 104 — EN50160 Advanced Setup
Chapter 2 Device Description Device Diagnostics 24 PM180 Substation Automation Unit aligned time synchronization pulses through relay contact
Page 105 — Quality Recorder
Chapter 2 Device Description Device Diagnostics PM180 Substation Automation Unit 25 NOTE The IRIG-B time faults may not be masked and may not be c
Page 106
Chapter 3 Using the RDM Connecting the RDM 26 PM180 Substation Automation Unit Chapter 3 Using the RDM Connecting the RDM Connect the RDM to th
Page 108
LIMITED WARRANTY The manufacturer offers the customer a 24-month functional warranty on the instrument for faulty workmanship or parts fr
Page 109 — Registers
Chapter 3 Using the RDM Data Display 28 PM180 Substation Automation Unit Pressing both the UP and DOWN arrow keys together returns to the first pa
Page 110
Chapter 3 Using the RDM Data Display PM180 Substation Automation Unit 29 Page Label Parameter Units LED 14 Ph.L3 Power factor L3 PF kW L3 kW/MW
Page 111 — Configuring TOU Calendars
Chapter 3 Using the RDM Data Display 30 PM180 Substation Automation Unit Page Label Parameter Units LED Hi Maximum total kvar kvar/Mvar 9 Maximum
Page 112 — Protocols
Chapter 3 Using the RDM Status Information Display PM180 Substation Automation Unit 31 Page Label Parameter Units LED EP. Mvarh export Mvarh 6
Page 113 — Configuring DNP3
Chapter 3 Using the RDM Using the Menus 32 PM180 Substation Automation Unit Resetting Counters When changing data is not password protected, you ca
Page 114
Chapter 3 Using the RDM Configuring the RDM PM180 Substation Automation Unit 33 1. If the StA window is not a current active window, use the SELEC
Page 115 — Configuring DNP Class 0
Chapter 3 Using the RDM Configuring the PM180 34 PM180 Substation Automation Unit Label Option Range Default Description Updt Update rate 0.1-10.0
Page 116
Chapter 3 Using the RDM Configuring the PM180 PM180 Substation Automation Unit 35 Label Option Format/Range Default Description date Date YY.MM.DD,
Page 117 — Communication Protocols
Chapter 3 Using the RDM Configuring the PM180 36 PM180 Substation Automation Unit Label Option Range Default Description ConF Wiring connection mod
Page 118 — Chapter 11 Device Control
Chapter 3 Using the RDM Configuring the PM180 PM180 Substation Automation Unit 37 2. Use the Up/Down arrow keys to set the desired option. 3. Pre
Page 119 — Device Event Flags
Chapter 1 Introduction Controls and Indicators 2 PM180 Substation Automation Unit Table of Contents Chapter 1 Introduction …
Page 120 — Updating the Clock
Chapter 3 Using the RDM Configuring the PM180 38 PM180 Substation Automation Unit The following table lists available port options, their default s
Page 121 — Log Files
Chapter 3 Using the RDM Configuring the PM180 PM180 Substation Automation Unit 39 Access Control Menu This menu allows you to change the user pass
Page 122 — Viewing Real-time Data
Chapter 4 Using HyperTerminal Connecting to the Device 40 PM180 Substation Automation Unit Chapter 4 Using HyperTerminal Windows HyperTerminal a
Page 123 — Viewing a Data Table
Chapter 4 Using HyperTerminal Connecting to the Device PM180 Substation Automation Unit 41 6. From the File menu, select Save to save you
Page 124 — Viewing Data Trend
Chapter 4 Using HyperTerminal HyperTerminal Commands 42 PM180 Substation Automation Unit > If your login was successful, you are not prompted
Page 125 — Real-time Data Logging
Chapter 4 Using HyperTerminal HyperTerminal Commands PM180 Substation Automation Unit 43 COM1: Protocol [MODBUS_RTU/MODBUS_ASCII/DNP3]: MODBUS_RTU
Page 127 — Uploading Files on Demand
Chapter 4 Using HyperTerminal HyperTerminal Commands PM180 Substation Automation Unit 45 Testing the GPS Master Clock If you use a satellite G
Page 129
Chapter 5 Using Telnet Connecting to the Device PM180 Substation Automation Unit 47 Running the Telnet Client on Windows 2000 and Windows XP
Page 130
PM180 Substation Automation Unit 3 Monitoring …
Page 131 — General Operations
Chapter 5 Using Telnet Telnet Commands 48 PM180 Substation Automation Unit log — Print network log stat — Print network
Page 132 — Viewing the Event Log
Chapter 6 Using PAS Installing PAS PM180 Substation Automation Unit 49 Chapter 6 Using PAS You need the support PAS software to configure most of
Page 133
Chapter 6 Using PAS Installing the USB Driver 50 PM180 Substation Automation Unit PM180 Substation Automation Unit 3. Click «Finish» to c
Page 134
Chapter 6 Using PAS Installing the USB Driver PM180 Substation Automation Unit 51 PM180 3. Select “Search for a suitable driver for my device” (“S
Page 135
Chapter 6 Using PAS Installing the USB Driver 52 PM180 Substation Automation Unit PM180 PM180 .INF 6. On Windows 2000, select the CD ROM Drive from
Page 136
Chapter 6 Using PAS Creating a New Site for your Device PM180 Substation Automation Unit 53 The next time you power up the PM180 or connect it to
Page 137
Chapter 6 Using PAS Setting up Communications 54 PM180 Substation Automation Unit onboard logging memory. Set the current over-range to “×400%” if
Page 138 — Customizing Reports
Chapter 6 Using PAS Setting up Communications PM180 Substation Automation Unit 55 added to the message transfer time, however, increasing it excess
Page 139 — Selecting the Time Range
Chapter 6 Using PAS Setting Up the Device 56 PM180 Substation Automation Unit 4. You can also adjust the amount of time that PAS waits for a conn
Page 140 — Viewing the Fault Log
Chapter 6 Using PAS Setting Up the Device PM180 Substation Automation Unit 57 To download all setups to your device at once, check the On-line butt
Page 142
Chapter 7 Programming the PM180 Changing Port Settings 58 PM180 Substation Automation Unit Chapter 7 Programming the PM180 This chapter describes
Page 143 — Viewing Waveforms
Chapter 7 Programming the PM180 Changing Port Settings PM180 Substation Automation Unit 59 Setting Up the Local Network To enter the setup dialog,
Page 144
Chapter 7 Programming the PM180 Changing Port Settings 60 PM180 Substation Automation Unit The following table lists available options. Refe
Page 145 — Viewing a Spectrum Chart
Chapter 7 Programming the PM180 Basic Device Setup PM180 Substation Automation Unit 61 Basic Device Setup Before operating your device, define
Page 146
Chapter 7 Programming the PM180 Device Options 62 PM180 Substation Automation Unit Option Range Default Description Power demand sync source Meter
Page 147 — Viewing a Spectrum Table
Chapter 7 Programming the PM180 Device Options PM180 Substation Automation Unit 63 Option Range Default Description I4 Max. Load Current, A 0 — 100
Page 148 — Waveform Options
Chapter 7 Programming the PM180 Local Settings 64 PM180 Substation Automation Unit Local Settings This setup allows you to select the external time
Page 149 — Viewing Phasor Diagrams
Chapter 7 Programming the PM180 Generating Energy Pulses PM180 Substation Automation Unit 65 Option Format/Range Default Description Time synchroni
Page 150
Chapter 7 Programming the PM180 Configuring Digital Inputs 66 PM180 Substation Automation Unit To configure the energy pulses in your device, sele
Page 151 — Delta Measurements
Chapter 7 Programming the PM180 Configuring Digital Inputs PM180 Substation Automation Unit 67 in the order of connection when the device is po
Page 152
PM180 Substation Automation Unit 5 Configuring the Waveform Recorder …87 Conf
Page 153 — Manual Converting
Chapter 7 Programming the PM180 Programming Relay Outputs 68 PM180 Substation Automation Unit Option Range Default Description Fault Recorder Check
Page 154 — Automatic Converting
Chapter 7 Programming the PM180 Programming Relay Outputs PM180 Substation Automation Unit 69 The available relay options are described in the fol
Page 155
Chapter 7 Programming the PM180 Programming Analog Inputs 70 PM180 Substation Automation Unit Option Format/Range Default Description Retentive mod
Page 156
Chapter 7 Programming the PM180 Programming Analog Inputs PM180 Substation Automation Unit 71 The available AI options are listed in the following
Page 158 — Data Logging
Chapter 7 Programming the PM180 Programming Analog Outputs PM180 Substation Automation Unit 73 When you select an output parameter for the
Page 159
Chapter 7 Programming the PM180 Using Counters 74 PM180 Substation Automation Unit Scaling Analog Outputs for 0-2 mA and ±2 mA The output scales fo
Page 160
Chapter 7 Programming the PM180 Using Periodic Timers PM180 Substation Automation Unit 75 Using Periodic Timers The PM180 has 16 programmable
Page 161
Chapter 7 Programming the PM180 Using Control Setpoints 76 PM180 Substation Automation Unit To program the setpoints, select General Setup f
Page 162
Chapter 7 Programming the PM180 Using Control Setpoints PM180 Substation Automation Unit 77 Using Logical Expressions Logical operators OR/AND are
Page 163
Chapter 1 Introduction Controls and Indicators 6 PM180 Substation Automation Unit Retrieving EN50160 Statistics Files …
Page 164
Chapter 7 Programming the PM180 Using Control Setpoints 78 PM180 Substation Automation Unit Fault recorders, and others can be programmed to genera
Page 165
Chapter 7 Programming the PM180 Using Control Setpoints PM180 Substation Automation Unit 79 Generally, setpoint actions are performed independently
Page 166
Chapter 8 Configuring Recorders Configuring Device Memory 80 PM180 Substation Automation Unit Chapter 8 Configuring Recorders The PM180 is provid
Page 167
Chapter 8 Configuring Recorders Configuring Device Memory PM180 Substation Automation Unit 81 Option Format/Range Description Record size Shows th
Page 168
Chapter 8 Configuring Recorders Configuring the Event Recorder 82 PM180 Substation Automation Unit No. File Type Size, Bytes Sections/Channel Max.
Page 169
Chapter 8 Configuring Recorders Configuring the Sequence-of-Events Recorder PM180 Substation Automation Unit 83 conditions that caused the event an
Page 170
Chapter 8 Configuring Recorders Configuring the Data Recorder 84 PM180 Substation Automation Unit 1. Select Labels from the Meter Setup menu, and
Page 171
Chapter 8 Configuring Recorders Configuring the Data Recorder PM180 Substation Automation Unit 85 7. Highlight the data log file row with the lef
Page 172
Chapter 8 Configuring Recorders Configuring the Data Recorder 86 PM180 Substation Automation Unit No. Parameter No. Parameter 5 RT (1-cycle) I2 13
Page 173
Chapter 8 Configuring Recorders Configuring the Waveform Recorder PM180 Substation Automation Unit 87 In order to correctly allocate the memory spa
Page 174
Chapter 1 Introduction PM180 Substation Automation Unit 7 Chapter 1 Introduction expertmeter™ PM180 Features The expertmeter™ PM180 Series
Page 175
Chapter 8 Configuring Recorders Configuring the Waveform Recorder 88 PM180 Substation Automation Unit The total number of records you must allocate
Page 176
Chapter 8 Configuring Recorders Configuring the IEEE 1159 Power Quality Recorder PM180 Substation Automation Unit 89 10. To select the channels,
Page 177
Chapter 8 Configuring Recorders Configuring the IEEE 1159 Power Quality Recorder 90 PM180 Substation Automation Unit used to detect voltage and
Page 178
Chapter 8 Configuring Recorders Configuring the IEEE 1159 Power Quality Recorder PM180 Substation Automation Unit 91 PM180_USB – Log SetupThe avail
Page 179
Chapter 8 Configuring Recorders Configuring the EN50160 Power Quality Recorder 92 PM180 Substation Automation Unit (aggregation intervals) for data
Page 180
Chapter 8 Configuring Recorders Configuring the EN50160 Power Quality Recorder PM180 Substation Automation Unit 93 Indicatives Values Fo
Page 181
Chapter 8 Configuring Recorders Configuring the EN50160 Power Quality Recorder 94 PM180 Substation Automation Unit Evaluation Techniques EN50160 Ev
Page 182
Chapter 8 Configuring Recorders Configuring the EN50160 Power Quality Recorder PM180 Substation Automation Unit 95 troubleshooting problems through
Page 183 — Appendix E Data Scales
Chapter 8 Configuring Recorders Configuring the EN50160 Power Quality Recorder 96 PM180 Substation Automation Unit Target Values The maximum rate o
Page 184
Chapter 8 Configuring Recorders Configuring the EN50160 Power Quality Recorder PM180 Substation Automation Unit 97 Voltage Interruptions Voltage i
PM180
PM180 Series
SUBSTATION AUTOMATION UNIT
OPERATION MANUAL
BG0525 Rev. A1
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Page 1
High Performance Analyzer PM180 IEC 61850 Communications Protocol Reference Guide BG0523 Rev. A2… -
Page 2
Every effort has been made to ensure that the material herein is complete and accurate. However, the manufacturer is not responsible for any mistakes in printing or faulty instructions contained in this book. Notification of any errors or misprints will be received with appreciation. -
Page 3: Table Of Contents
Table of Contents 1 General…………………..6 2 ACSI (Abstract Communication Service Interface) Conformance Statement………………….7 ACSI basic conformance statement…………..7 ACSI models conformance statement …………. 7 ACSI service conformance statement………….. 8 3 MICS — Model Implementation Conformance Statement ……11 Model conformance ………………11 Common data attributes classes…………..
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Page 4
Logical node zero LLN0 ………………17 GOOSE subscription status CTRL/sbsLGOS1-sbsLGOS20 ……….. 17 3.4.2 Logical nodes for control …………….18 Switch controllers CTRL/CSWI1- CSWI16 …………… 18 Switch control interlocking status CTRL/CILO1-CILO16 ……….18 Relay control interlocking status MET1/blkCILO1-blkCILO8……..18 3.4.3 Logical nodes for switchgear…………….19 Circuit breakers CTRL/XCBR1- XCBR2 ………….. -
Page 5
Controls ………………….40 Measurement units ………………… 40 Process Measurement Limits…………….. 41 Deadbands ………………….41 Textual descriptions ……………….. 41 6 Configuring IEC 61850………………42 Licensing IEC 61850 ………………42 Configuring IED Properties …………….42 Configuring Datasets ………………43 Configuring Report Control Blocks…………..45 Configuring the GOOSE Publisher ………….. -
Page 6: General
1 General The PM180 is provided with an embedded IEC 61850 server compliant with the IEC 61850 set of standards. This document contains the IEC 61850 conformance statements that give the summary of the device data object model, protocol implementations and communication capabilities of the PM180.
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Page 7: Acsi (Abstract Communication Service Interface) Conformance Statement
2 ACSI (Abstract Communication Service Interface) Conformance Statement This chapter contains the ACSI conformance statement as defined in Annex A of IEC 61850- 7-2 that specifies the device communication features mapped to an SCSM (Specific Communication Service Mapping). 2.1 ACSI basic conformance statement Services Client/ Server/…
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Page 8: Acsi Service Conformance Statement
Services Client/ Server/ Value/ Subscriber Publisher Comments M8-5 data-reference M8-6 BufTm M8-7 IntgPd M8-8 Logging Log control M9-1 IntgPd Control If GSE (B31/B32) is supported GOOSE M12-1 entryID M12-2 DataRefInc GSSE If SVC (B41/B42) is supported Multicast SVC Unicast SVC Time Time source with required accuracy shall be available…
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Page 9
Services Client/ Server/ Comments TP/MC Subscriber Publisher Setting group control (Clause 13) SelectActiveSG SelectEditSG SetSGValues ConfirmEditSGValues GetSGValues GetSGCBValues Reporting (Clause 14) Buffered report control block (BRCB) Report S24-1 data-change (dchg) S24-2 qchg-change (qchg) S24-3 data-update (dupd) GetBRCBValues SetBRCBValues Unbuffered report control block (URCB) Report S27-1 data-change (dchg) -
Page 10
Services Client/ Server/ Comments TP/MC Subscriber Publisher Operate Command-Termination For CSWI class nodes TimeActivated-Operate File transfer (Clause 20) GetFile SetFile DeleteFile GetFileAttributeValues Time (Clause 18) Time resolution of internal clock n=10 (T1) (nearest value of 2**-n in seconds) Time accuracy of internal clock n=10 (T1) Supported TimeStamp resolution n=10 (T1) -
Page 11: Mics — Model Implementation Conformance Statement
This chapter contains the MICS conformance statement as required by IEC 61850-10. It lists data object model elements supported by the PM180 and provides definitions of the logical nodes, common data classes and data attribute types as defined in IEC 61850-7-3 and IEC 61850-7-4.
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Page 12: Pulse Configuration
Pulse configuration Attribute Name Attribute Type Value/Range M/O/C Comments cmdQual ENUMERATED pulse | persistent For boGGIO pulse output, a relay must be set to pulse mode via the device Relay Setup onDur INT32U boGGIO class nodes: default = 2000 ms CSWI class nodes: default = 0 offDur…
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Page 13: Common Data Classes
3.3 Common data classes The following tables indicate mandatory, conditional and optional attributes of each Common Data Class (CDC) that are supported by the PM180. Mandatory attributes (M) are always present. Single point status (SPS) Attribute Name Attribute Type M/O/C…
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Page 14: Complex Measured Value (Cmv)
Attribute Name Attribute Type M/O/C Comments the AnalogueValue may be present for a given instance of DATA Quality TimeStamp units Unit INT32U VISIBLE STRING64 Complex measured value (CMV) Attribute Name Attribute Type M/O/C Comments cVal Vector Quality TimeStamp units Unit INT32U VISIBLE STRING64 Sampled value (SAV)
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Page 15: Harmonic Value For Del (Hdel)
Attribute Name Attribute Type M/O/C Comments numCyc INT16U numCyc = 1 units Unit evalTm INT16U evalTm = nominal period frequency FLOAT32 frequency = nominal frequency VISIBLE STRING64 Harmonic value for DEL (HDEL) Attribute Name Attribute Type M/O/C Comments Quality TimeStamp phsABHar ARRAY[0..numHar] OF Vector…
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Page 16: Controllable Integer Status (Inc)
subVal CODED ENUM PICS_SUBST subQ Quality PICS_SUBST pulseConfig PulseConfig ctlModel CtlModels VISIBLE STRING64 Controllable integer status (INC) Attribute Name Attribute Type M/O/C Comments ctlVal INT32 stVal INT32 Quality TimeStamp VISIBLE STRING64 Binary controlled step position information (BSC) Common data class is not supported. Binary controlled step position information (ISC) Common data class is not supported.
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Page 17: Curve Shape Description (Csd)
Metering, measurements and general digital input and output elements Logical devices contain logical nodes LPHD and LLN0 dedicated to the PM180 unit, and a set of functional logical nodes for functions supported by the PM180. Logical node names are fixed.
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Page 18: Logical Nodes For Control
Attribute name Attribute Explanation/Value M/O/C/E Comments type number 3.4.2 Logical nodes for control Switch controllers CTRL/CSWI1- CSWI16 Attribute name Attribute Explanation/Value M/O/C/E Comments type LNName Object name CSWI1…CSWI16 A configurable prefix can be added to a LNName via the device Bay Control Setup Common Logical Node Information Mode Behavior…
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Page 19: Logical Nodes For Switchgear
Attribute name Attribute Explanation/Value M/O/C/E Comments type Relay outputs RO9-RO16 (blkCILO2) Relay setup. A relay can Relay outputs RO17-RO24 (blkCILO3) only be unblocked via a Relay outputs RO25-RO32 (blkCILO4) control setpoint. Relay outputs RO33-RO40 (blkCILO5) Relay outputs RO41-RO48 (blkCILO6) Relay outputs RO49-RO56 (blkCILO7) Relay outputs RO57-RO64 (blkCILO8) 3.4.3 Logical nodes for switchgear Circuit breakers CTRL/XCBR1- XCBR2…
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Page 20: Logical Nodes For Generic Reference
Attribute name Attribute Explanation/Value M/O/C/E Comments type Mode Behavior Health Health NamePlt Name plate Status Information RcdMade Recording made Set to TRUE when at least one disturbance waveform is available for a read. FltNum Fault number Indicates the last waveform series number available in a disturbance recorder.
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Page 21: Event Flags Met1/Evfggio1 — Evfggio2
Attribute name Attribute Explanation/Value M/O/C/E Comments type Local operation Controls SPCSO1…SPCSO8 Single point controllable status output: Relay outputs RO1-RO8 (boGGIO1) Relay outputs RO9-RO16 (boGGIO2) Relay outputs RO17-RO24 (boGGIO3) Relay outputs RO25-RO32 (boGGIO4) Relay outputs RO33-RO40 (boGGIO5) Relay outputs RO41-RO48 (boGGIO6) Relay outputs RO49-RO56 (boGGIO7) Relay outputs RO57-RO64 (boGGIO8) Event flags MET1/evfGGIO1 –…
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Page 22: Logical Nodes For Metering And Measurement
3.4.6 Logical nodes for metering and measurement Energy counters MET1/engMMTR1 Attribute name Attribute Explanation/Value M/O/C/E Comments type LNName Object name engMMTR1 Common Logical Node Information Mode Behavior Health Health NamePlt Name plate Measured values TotVAh Apparent energy Total TotWh Net real energy TotVArh Net reactive energy SupWh…
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Page 23: Total Harmonics Met1/Ocvmhai1
Attribute name Attribute Explanation/Value M/O/C/E Comments type HPPV HDEL Sequence of harmonics phase to In 4LL3, 3LL3, 3BLL3, phase voltages 3DIR2, 3OP2 and 3OP3 wiring modes Total harmonics MET1/ocvMHAI1 Attribute name Attribute Explanation/Value M/O/C/E Comments type LNName Object name ocvMHAI1 Common Logical Node Information Mode Behavior…
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Page 24: Sliding Power Demands Met1/Demmmxu2
Attribute name Attribute Explanation/Value M/O/C/E Comments type Phase and neutral current (*) See WYE demands TotkWImp Total active power imported block demand TotkWExp Total active power exported block demand TotkVarImp Total reactive power imported block demand TotkVarExp Total reactive power exported block demand TotVA Total apparent power demand…
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Page 25: Predicted Power Demands Met1/Demmmxu4
Predicted power demands MET1/demMMXU4 Attribute name Attribute Explanation/Value M/O/C/E Comments type LNName Object name demMMXU4 Common Logical Node Information Mode Behavior Health Health NamePlt Name plate Measured values TotkWImp Total active power imported predicted demand TotkWExp Total active power exported predicted demand TotkVarImp Total reactive power imported…
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Page 26: Phasors Met1/Phsrmmxu1
Attribute name Attribute Explanation/Value M/O/C/E Comments type TotW Total active power TotVAr Total reactive power TotVA Total apparent power TotPF Total power factor TotPFLag Total power factor lag TotPFLead Total power factor lead TotkWImp Total active power imported TotkWExp Total active power exported TotkVarImp Total reactive power imported TotkVarExp…
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Page 27: One-Cycle Imbalance Met1/Ocvmsqi1
Attribute name Attribute Explanation/Value M/O/C/E Comments type SeqExtA Zero sequence current, extended inputs Ix ImbNgV Imbalance negative sequence voltage ImbNgA Imbalance negative sequence current ImbNgExtA Imbalance negative sequence current, extended inputs Ix One-cycle imbalance MET1/ocvMSQI1 Attribute name Attribute Explanation/Value M/O/C/E Comments type LNName…
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Page 28
Attribute name Attribute Explanation/Value M/O/C/E Comments type MinPPV Minimum voltage phase to phase MinAmps Minimum current MinW Minimum phase real power MinVAr Minimum phase reactive power MinVA Minimum phase apparent power MinPFLag Minimum phase PF lag MinPFLead Minimum phase PF lead MinThdPhV Minimum voltage THD phase to ground… -
Page 29: Pics — Protocol Implementation Conformance Statement
4 PICS – Protocol Implementation Conformance Statement This chapter contains the PICS conformance statement as defined by IEC 61850-8-1 that specifies mapping to MMS and to ISO/IEC 8802-3. 4.1 Profile conformance A-Profile support Profile Profile description type Client/ Server/ Comments Subscriber Publisher Client/server…
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Page 30
MMS service supported CBB (server) M/O/C/I Supported initiateUploadSequence uploadSegment terminateUploadSequence requestDomainDownload requestDomainUpload loadDomainContent storeDomainContent deleteDomain getDomainAttributes createProgramInvocation deleteProgramInvocation start stop resume reset kill getProgramInvocationAttributes obtainFile defineEventCondition deleteEventCondition getEventConditionAttributes reportEventConditionStatus alterEventConditionMonitoring triggerEvent defineEventAction deleteEventAction alterEventEnrollment reportEventEnrollmentStatus getEventEnrollmentAttributes acknowledgeEventNotification getAlarmSummary getAlarmEnrollmentSummary readJournal writeJournal initializeJournal reportJournalStatus… -
Page 31: Goose Conformance Statement (Goose Services)
MMS service supported CBB (server) M/O/C/I Supported deleteAccessControlList alterAccessControl reconfigureProgramInvocation M: mandatory support O: optional support C: conditional support I: out of scope NP: not present (MMS minor version 1 compatibility) 4.3 GOOSE conformance statement (GOOSE Services) Service Subscriber Publisher Value/comments SendGOOSEMessage GetGoReference…
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Page 32: Pixit — Protocol Implementation Extra Information For Testing
5 PIXIT — Protocol Implementation Extra Information for Testing This chapter describes device specific implementation of the protocol and communication capabilities of the PM180. 5.1 Device configuration The device configuration except of the listed items cannot be modified and is listed for information only.
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Page 33: Dataset Model
Dataset model Item Value/Comments Predefined Datasets in ICD file Measurand data: MET1/LLN0$DSet01Mx MET1/LLN0$DSet02Mx MET1/LLN0$DSet03Mx MET1/LLN0$DSet04St MET1/LLN0$DSet05Mx Status data: MET1/LLN0$DSet01StInd MET1/LLN0$DSet02StInd MET1/LLN0$DSet03StInd MET1/LLN0$DSet04StInd MET1/LLN0$DSet04StSPCSO MET1/LLN0$DSet05StSPCSO MET1/LLN0$DSet06StSPCSO MET1/LLN0$DSet07StSPCSO MET1/LLN0$DSet08StInd MET1/LLN0$DSet09StInd MET1/LLN0$DSet09StFltNum GOOSE publisher data set: CTRL/LLN0$DSetGOOSE1 Maximum number of data elements in one Dataset Maximum number of persistent Datasets 17 predefined + 16 deletable Predefined Dataset members…
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Data Set name Members MET1/LLN0$osvMMXU1$MX$ExtA$phsC MET1/LLN0$osvMMXU1$MX$ExtAuxA MET1/LLN0$osvMMXU1$MX$AvExtA MET1/LLN0$DSet01StInd MET1/LLN0$biGGIO1$ST$Ind1 MET1/LLN0$biGGIO1$ST$Ind2 … MET1/LLN0$biGGIO1$ST$Ind16 MET1/LLN0$biGGIO2$ST$Ind1 MET1/LLN0$biGGIO2$ST$Ind2 … MET1/LLN0$biGGIO2$ST$Ind16 MET1/LLN0$DSet02StInd MET1/LLN0$biGGIO3$ST$Ind1 MET1/LLN0$biGGIO3$ST$Ind2 … MET1/LLN0$biGGIO3$ST$Ind16 MET1/LLN0$biGGIO4$ST$Ind1 MET1/LLN0$biGGIO4$ST$Ind2 … MET1/LLN0$biGGIO4$ST$Ind16 MET1/LLN0$DSet03StInd MET1/LLN0$biGGIO5$ST$Ind1 MET1/LLN0$biGGIO5$ST$Ind2 … MET1/LLN0$biGGIO5$ST$Ind16 MET1/LLN0$biGGIO6$ST$Ind1 MET1/LLN0$biGGIO6$ST$Ind2 … MET1/LLN0$biGGIO6$ST$Ind16 MET1/LLN0$DSet04StInd MET1/LLN0$biGGIO7$ST$Ind1 MET1/LLN0$biGGIO7$ST$Ind2 … MET1/LLN0$biGGIO7$ST$Ind16 MET1/LLN0$biGGIO8$ST$Ind1 MET1/LLN0$biGGIO8$ST$Ind2 …… -
Page 35: Reporting Model
Data Set name Members MET1/LLN0$DSet08StInd MET1/LLN0$spGGIO1$ST$Ind1 MET1/LLN0$spGGIO1$ST$Ind2 … MET1/LLN0$spGGIO1$ST$Ind32 MET1/LLN0$DSet09StInd MET1/LLN0$spGGIO2$ST$Ind1 MET1/LLN0$spGGIO2$ST$Ind2 … MET1/LLN0$spGGIO2$ST$Ind32 MET1/LLN0$DSet09StFltNum MET1/LLN0$drRDRE1$ST$FltNum MET1/LLN0$drRDRE2$ST$FltNum … MET1/LLN0$drRDRE8$ST$FltNum CTRL/LLN0$DSetGOOSE1 CTRL/QA1XCBR1$ST$Pos$stVal CTRL/QA1XCBR1$ST$Pos$q CTRL/QA2XCBR2$ST$Pos$stVal CTRL/QA2XCBR2$ST$Pos$q CTRL/QB1XSWI1$ST$Pos$stVal CTRL/QB1XSWI1$ST$Pos$q CTRL/QB2XSWI2$ST$Pos$stVal CTRL/QB2XSWI2$ST$Pos$q CTRL/QB3XSWI3$ST$Pos$stVal CTRL/QB3XSWI3$ST$Pos$q CTRL/QB4XSWI4$ST$Pos$stVal CTRL/QB4XSWI4$ST$Pos$q CTRL/QB5XSWI5$ST$Pos$stVal CTRL/QB5XSWI5$ST$Pos$q CTRL/QB6XSWI6$ST$Pos$stVal CTRL/QB6XSWI6$ST$Pos$q CTRL/QE1XSWI7$ST$Pos$stVal CTRL/QE1XSWI7$ST$Pos$q CTRL/QE2XSWI8$ST$Pos$stVal CTRL/QE2XSWI8$ST$Pos$q CTRL/QE3XSWI9$ST$Pos$stVal CTRL/QE3XSWI9$ST$Pos$q CTRL/QE4XSWI10$ST$Pos$stVal…
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Page 36
Item Value/Comments MET1/LLN0$RP$URep05 MET1/LLN0$RP$URep06 MET1/LLN0$RP$URep07 MET1/LLN0$RP$URep08 16 BRCBs: CTRL/LLN0$BR$BRep01 CTRL/LLN0$BR$BRep02 CTRL/LLN0$BR$BRep03 CTRL/LLN0$BR$BRep04 CTRL/LLN0$BR$BRep05 CTRL/LLN0$BR$BRep06 CTRL/LLN0$BR$BRep07 CTRL/LLN0$BR$BRep08 MET1/LLN0$BR$BRep01 MET1/LLN0$BR$BRep02 MET1/LLN0$BR$BRep03 MET1/LLN0$BR$BRep04 MET1/LLN0$BR$BRep05 MET1/LLN0$BR$BRep06 MET1/LLN0$BR$BRep07 MET1/LLN0$BR$BRep08 Number of RCB instances = 1 (indexed RCBs, RptEnabled max=1) 16 URCBs: CTRL/LLN0$RP$URepA01 CTRL/LLN0$RP$URepB01 CTRL/LLN0$RP$URepC01 CTRL/LLN0$RP$URepD01 CTRL/LLN0$RP$URepE01 CTRL/LLN0$RP$URepF01 CTRL/LLN0$RP$URepG01… -
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Item Value/Comments MET1/LLN0$RP$URepA02 MET1/LLN0$RP$URepB01 MET1/LLN0$RP$URepB02 MET1/LLN0$RP$URepC01 MET1/LLN0$RP$URepC02 MET1/LLN0$RP$URepD01 MET1/LLN0$RP$URepD02 8 BRCBs x 2 clients: CTRL/LLN0$BR$BRepA01 CTRL/LLN0$BR$BRepA02 CTRL/LLN0$BR$BRepB01 CTRL/LLN0$BR$BRepB02 CTRL/LLN0$BR$BRepC01 CTRL/LLN0$BR$BRepC02 CTRL/LLN0$BR$BRepD01 CTRL/LLN0$BR$BRepD02 MET1/LLN0$BR$BRepA01 MET1/LLN0$BR$BRepA02 MET1/LLN0$BR$BRepB01 MET1/LLN0$BR$BRepB02 MET1/LLN0$BR$BRepC01 MET1/LLN0$BR$BRepC02 MET1/LLN0$BR$BRepD01 MET1/LLN0$BR$BRepD02 Number of RCB instances = 4 (indexed RCBs, RptEnabled max=4) 4 URCBs x 4 clients: CTRL/LLN0$RP$URepA01 CTRL/LLN0$RP$URepA02… -
Page 38
Item Value/Comments Support of optional fields Sequence number Supported, default = TRUE Report time-stamp Supported, default = TRUE Reason for inclusion Supported, default = TRUE Dataset name Supported, default = TRUE Data reference Supported, default = TRUE Buffer overflow Supported, default = FALSE EntryID Supported, default = FALSE Conf-rev… -
Page 39: Control Model
Control model Item Value/Comments Control models supported Status only Supported Direct with normal security Supported for GGIO class nodes Direct with enhanced security Supported for CSWI class nodes SBO with normal security Supported for GGIO class nodes SBO with enhanced security Not supported Time activated operate (operTm) Not supported…
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Page 40: File Transfer Model
AddCause=2 Blocked-by-switching- hierarchy until REMOTE MODE is set to TRUE via a logic equation. The PM180 can provide additional protection for control nodes based on client IP addresses by enabling control commands for specific clients and disabling or conditional blocking via logic equations for others.
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Page 41: Process Measurement Limits
Process Measurement Limits Measurement type Measurement limits Condition Current (standard inputs) Current Scale × CT Ratio 1, 2 (Imax) Auxiliary current I4 (standard input) 1, 2 Current Scale × I4 CT Ratio Current (extended inputs) 20 × CT Primary current Auxiliary current I4x (extended input) 20 ×…
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Page 42: Configuring Iec 61850
2. Click the “Reset IEC 61850 Configuration” button, and then confirm the command. 6.1 Licensing IEC 61850 A valid license key must be provided in the PM180 for IEC 61850 communications. The device is normally shipped with a temporary license, which is valid for a 30-day operation and then can be extended for an additional month.
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Page 43: Configuring Datasets
3. To delete dataset members, uncheck the appropriate “Included” boxes. Uncheck all dataset members to delete the entire dataset. 4. To add or change dataset members, click “Edit from file”, locate the PM180.icd template file or a CID file you generated for your device, and click Open.
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Page 45: Configuring Report Control Blocks
6.4 Configuring Report Control Blocks To configure Report Control Blocks in your device: 1. Select IEC 61850 Setup from the Meter Setup menu, and then click on the IEC 61850 Reports tab. 2. Select an RCB you wish to view or configure in the “RCB Reference” box. 3.
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Page 46: Configuring The Goose Publisher
4. Send your setup to the device. 6.6 Configuring the GOOSE Subscriber The PM180 can be subscribed to messages sent by any GOOSE network device including both PM180 and non-SATEC devices. The GOOSE subscriber supports up to 20 subscriptions with up to 16 data elements in each subscription.
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Page 47
The subscription status can be monitored from an IEC 61850 client via the GOOSE subscriber logical nodes CTRL/sbsLGOS1-CTRL/sbsLGOS20, or from a Modbus client application via the GOOSE subscriber status register (see the PM180 Modbus Reference Guide for the register location). -
Page 48
control blocks that are found in the ICD/CID file. Check the Subscribe box for the dataset you wish to subscribe to. 4. The publisher attributes and a list of dataset members for the selected dataset are displayed as shown in the picture below. PAS also indicates a basic IEC 61850 data element type and a physical MMS type for dataset members. -
Page 49
Select compatible input variables to which dataset elements will be mapped in the device. See the table below for allowable mapping options depending on the basic variable type. Basic Data Type MMS Data Type Compatible Input Variables BitString32 Bstring32 ExtInd, ExtiVal Dbpos Bstring8 ExtInd, ExtiVal… -
Page 50: Configuring Report Deadbands
See Basic Setup and Device Options Setup in the PM180 Operation Manual on how to configure these parameters in the device. See Programming Analog Inputs in the PM180 Operation Manual on how to setup the measurement scales for analog inputs.
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Page 51: Generating A Cid File
For your convenience, PAS shows the deadbands both in percent and in engineering units, and also indicates the minimum and maximum process measurements from which the percent deadband is taken. 2. Adjust the default percent deadbands to the desired values as required for your application.
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Page 52
Locate a source ICD or CID file for your device you wish to update and click Open. Use the PM180.icd file provided with your device as a primary template file to create a new CID file, and then use your new file as a source to update remaining settings.
File Specifications:1380/1380877-pm180.pdf file (31 Aug 2023) |
Accompanying Data:
Satec Expertmeter PM180 Measuring Instruments PDF Reference Manual (Updated: Thursday 31st of August 2023 03:04:57 PM)
Rating: 4.9 (rated by 98 users)
Compatible devices: PM172 Series, EM132, PRO EM235, PM172P, PM175 Series, EM133, Expertmeter Series, PM171 series.
Recommended Documentation:
Reference Manual (Text Version):
(Ocr-Read Summary of Contents of some pages of the Satec Expertmeter PM180 Document (Main Content), UPD: 31 August 2023)
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18, 18 Attribute name Attribute type Explanation/Value T M/O/C/E Comments number 3.4.2 Logical nodes for control Switch controllers CTRL/CSWI1- CSWI16 Attribute name Attribute type Explanation/Value T M/O/C/E Comments LNName Object name CSWI1…CSWI16 M A configurable prefix can be added to a LNName via the device Bay Control Setup Common Logical Node Information Mod INC Mode M Beh INS Behavior M Health …
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9, Satec Expertmeter PM180 9 Services AA: TP/MC Client/ Subscriber Server/ Publisher Comments Setting group control (Clause 13) S18 SelectActiveSG TP S19 SelectEditSG TP S20 SetSGValues TP S21 ConfirmEditSGValues TP S22 GetSGValues TP S23 GetSGCBValues TP Reporting (Clause 14) Buffered report control block (BRCB) S24 Report TP z S24-1 data-change (dchg) z S24-2 qchg-change (qchg) z S24-3 dat…
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4, 4 Logical node zero LLN0…………………………………………………………………………….17 GOOSE subscription status CTRL/sbsLGOS1-sbsLGOS20…………………………………….17 3.4.2 Logical nodes for control…………………………………………………………………..18 Switch controllers CTRL/CSWI1- CSWI16 ………………………………….…
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29, 29 4 PICS – Protocol Implementation Conformance Statement This chapter contains the PICS conformance statement as defined by IEC 61850-8-1 that specifies mapping to MMS and to ISO/IEC 8802-3. 4.1 Profile conformance A-Profile support Profile Profile description type Client/ Subscriber Server/ Publisher Comments A1 Client/server Yes A2 GOOSE/GSE Management Yes SendGOOSEMessage only A3 GSSE A4 Time sync Yes SNTP (RFC 20…
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20, 20 Attribute name Attribute type Explanation/Value T M/O/C/E Comments Mod INC Mode M Beh INS Behavior M Health INS Health M NamePlt LPL Name plate M Status Information RcdMade SPS Recording made M Set to TRUE when at least one disturbance waveform is available for a read. FltNum INS Fault number M Indicates the last waveform series number available in a disturbance recorder. 3.4.5 Logical nodes for generic reference External (GOOSE) indication…
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48, 48 control blocks that are found in the ICD/CID file. Check the Subscribe box for the dataset you wish to subscribe to. 4. The publisher attributes and a list of dataset members for the selected dataset are displayed as shown in the picture below. PAS also indicates a basic IEC 61850 data element type and a physical MMS type for dataset members. Check the Subscribe boxes for elements you want to subscribe to, and then click OK. You a…
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21, 21 Attribute name Attribute type Explanation/Value T M/O/C/E Comments Loc SPS Local operation O Controls SPCSO1…SPCSO8 SPC Single point controllable status output: Relay outputs RO1-RO8 (boGGIO1) Relay outputs RO9-RO16 (boGGIO2) Relay outputs RO17-RO24 (boGGIO3) Relay outputs RO25-RO32 (boGGIO4) Relay outputs RO33-RO40 (boGGIO5) Relay outputs RO41-RO48 (boGGIO6) Relay outputs RO49-RO56 (boGGIO7) Relay outputs RO57-RO64 (boGGIO8) O Even…
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46, 46 6.5 Configuring the GOOSE Publisher The PM180 GOOSE publisher provides the dedicated dataset CTRL/LLN0$DSetGOOSE1 for GOOSE communications. The default dataset variables list can be modified via the IEC 61850 Datasets setup (see Section 6.3). To configure the GOOSE publisher: 1. Select IEC 61850 Setup from the Meter Setup menu, and then click on the GOOSE Publisher Setup tab. 2. Configure the destinat…
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1, expertmeter™ High Performance Analyzer PM180 IEC 61850 Communications Protocol Reference Guide BG0523 Rev. A2
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6, 6 1 General The PM180 is provided with an embedded IEC 61850 server compliant with the IEC 61850 set of standards. This document contains the IEC 61850 conformance statements that give the summary of the device data object model, protocol implementations and communication capabilities of the PM180. For detailed information on operating the PM180 and communication settings refer to the PM180 Operatio…
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5, Satec Expertmeter PM180 5 Controls ………………………………………………………………………………………………40 Measurement units …………………………………………………………………………………40 Process Measurement Limits………………………………………………………………………41 Deadbands ……………………………………………………………..…
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34, 34 Data Set name Members MET1/LLN0$osvMMXU1$MX$ExtA$phsC MET1/LLN0$osvMMXU1$MX$ExtAuxA MET1/LLN0$osvMMXU1$MX$AvExtA MET1/LLN0$DSet01StInd MET1/LLN0$biGGIO1$ST$Ind1 MET1/LLN0$biGGIO1$ST$Ind2 … MET1/LLN0$biGGIO1$ST$Ind16 MET1/LLN0$biGGIO2$ST$Ind1 MET1/LLN0$biGGIO2$ST$Ind2 … MET1/LLN0$biGGIO2$ST$Ind16 MET1/LLN0$DSet02StInd MET1/LLN0$biGGIO3$ST$Ind1 MET1/LLN0$biGGIO3$ST$Ind2 … MET1/LLN0$biGGIO3$ST$Ind16 MET1/LLN0$biGGIO4…
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41, 41 Process Measurement Limits Measurement limits Measurement type Condition min max Current (standard inputs) 0 Current Scale × CT Ratio 1, 2 (Imax) Auxiliary current I4 (standard input) 0 Current Scale × I4 CT Ratio 1, 2 Current (extended inputs) 0 20 × CT Primary current Auxiliary current I4x (extended input) 0 20 × I4 CT Primary current Voltage AC 0 Voltage Scale × P…
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7, 7 2 ACSI (Abstract Communication Service Interface) Conformance Statement This chapter contains the ACSI conformance statement as defined in Annex A of IEC 61850- 7-2 that specifies the device communication features mapped to an SCSM (Specific Communication Service Mapping). 2.1 ACSI basic conformance statement Services Client/ Subscriber Server/ Publisher Value/ Comments Client-server role…
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22, Satec Expertmeter PM180 22 3.4.6 Logical nodes for metering and measurement Energy counters MET1/engMMTR1 Attribute name Attribute type Explanation/Value T M/O/C/E Comments LNName Object name engMMTR1 M Common Logical Node Information Mod INC Mode M Beh INS Behavior M Health INS Health M NamePlt LPL Name plate M Measured values TotVAh BCR Apparent energy O Total TotWh BCR Net real energy O Net TotVArh BCR Net reactive energy O Net SupWh BCR Real…
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28, 28 Attribute name Attribute type Explanation/Value T M/O/C/E Comments MinPPV MV Minimum voltage phase to phase E MinAmps MV Minimum current O MinW MV Minimum phase real power O MinVAr MV Minimum phase reactive power O MinVA MV Minimum phase apparent power O MinPFLag MV Minimum phase PF lag E MinPFLead MV Minimum phase PF lead E MinThdPhV MV Minimum voltage THD phase to groun…
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Satec Expertmeter PM180 User Manual
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Satec Expertmeter PM180 User Guide
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Satec Expertmeter PM180 PDF Manual
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Satec Expertmeter PM180 Owner’s Manuals
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