MICOM P143 - Free Download PDF Ebook

MiCOM P143 Feeder Management Relay P143/EN PM/Fe7 Software Version 44 PICS & MICS Note: The technical manual for this device gives instructions for its installation, commissioning, and operation. However, the manual cannot cover all conceivable circumstances or include detailed information on all topics. In the event of questions or specific problems, do not take any action without proper authorization. Contact the appropriate Schneider Electric technical sales office and request the necessary information. Any agreements, commitments, and legal relationships and any obligations on the part of Schneider Electric including settlements of warranties, result solely from the applicable purchase contract, which is not affected by the contents of the technical manual. This device MUST NOT be modified. If any modification is made without the express permission of Schneider Electric, it will invalidate the warranty, and may render the product unsafe. The Schneider Electric logo and any alternative version thereof are trademarks and service marks of Schneider Electric. All trade names or trademarks mentioned herein whether registered or not, are the property of their owners. This manual is provided for informational use only and is subject to change without notice. © 2011, Schneider Electric. All rights reserved. MiCOM P143 PICS & MICS CONTENTS 1 PROTOCOL IMPLEMENTATION CONFORMANCE STATEMENT (PICS) 1.1 Introduction 1.2 ACSI Basic Conformance Statement 1.3 ACSI Models Conformance Statement 1.4 ACSI Service Conformance Statement MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) 2.1 Introduction 2.2 Objective 2.3 Logical Device Definitions 2.3.1 IEC 61850 Logical Device Data Model 7 7 7 7 9 12 12 12 12 12 2 2.4 2.4.1 2.4.2 2.4.3 2.4.4 2.4.5 2.4.6 2.4.7 2.4.8 2.4.9 2.4.10 2.4.11 2.4.12 2.4.13 2.4.14 2.4.15 2.4.16 2.4.17 2.4.18 2.4.19 2.4.20 2.4.21 2.4.22 2.4.23 2.4.24 2.4.25 2.4.26 2.4.27 2.4.28 2.4.29 2.4.30 Logical Node Definitions Logical Node: CILO_INTERLOCK Logical Node: GGIO_ALM_96 Logical Node: GGIO_IND_128 Logical Node: GGIO_IND_30 Logical Node: GGIO_IND_32 Logical Node: GGIO_IND_32_CTRL Logical Node: GGIO_IND_64 Logical Node: GGIO_IND_8 Logical Node: LLN0_CONTROL Logical Node: LLN0_PROT Logical Node: LLN0_STANDARD Logical Node: LLN0_SYSTEM Logical Node: LPHD_STANDARD Logical Node: MMTR_PRIV Logical Node: MMXU_FOURIER_P145 Logical Node: MMXU_RMS_P145 Logical Node: MSQI_ALL Logical Node: MSTA_I_W_VAR Logical Node: PDIF_NEU Logical Node: PFRC_NO_SEG Logical Node: PTOC_NEU Logical Node: PTOC_NO_SEG Logical Node: PTOC_SEG Logical Node: PTOF_NO_SEG Logical Node: PTOV_NEU Logical Node: PTOV_NO_SEG Logical Node: PTOV_SEG Logical Node: PTRC_NO_SEG Logical Node: PTTR_NO_SEG Logical Node: PTUF_NO_SEG 15 16 16 18 22 23 24 25 26 27 27 28 28 28 29 29 30 30 30 31 31 31 32 32 32 32 33 33 33 34 34 P143/EN PM/Fe7 Page 1 PICS & MICS MiCOM P143 2.4.31 2.4.32 2.4.33 2.4.34 2.4.35 2.4.36 2.4.37 Logical Node: PTUV_SEG Logical Node: RBRF_EXTTRIP Logical Node: RDRE_BASIC Logical Node: RFLO_BASIC Logical Node: RREC_NO_SEG Logical Node: RSYN_DIFCLC Logical Node: XCBR_BASIC 34 35 35 35 35 36 36 2.5 2.5.1 2.5.2 2.5.3 2.5.4 2.5.5 2.5.6 2.5.7 2.5.8 2.5.9 2.5.10 2.5.11 2.5.12 2.5.13 2.5.14 2.5.15 2.5.16 2.5.17 2.5.18 2.5.19 2.5.20 2.5.21 2.5.22 2.5.23 2.5.24 2.5.25 2.5.26 2.5.27 2.5.28 2.5.29 2.5.30 2.5.31 2.5.32 2.5.33 2.5.34 2.5.35 2.5.36 Common Data Class Definitions Common Data Class: ACD_NEU Common Data Class: ACD_NO_SEG Common Data Class: ACD_SEG Common Data Class: ACT_NEU Common Data Class: ACT_NO_SEG Common Data Class: ACT_SEG Common Data Class: BCR_PRIV Common Data Class: CMV_MAG_ANG_FLOAT Common Data Class: CMV_MAG_FLOAT Common Data Class: DEL_SEG_ANG Common Data Class: DPC_CONTROL Common Data Class: DPL_STANDARD Common Data Class: INC_CTRL_PRIV Common Data Class: INC_MOD Common Data Class: INC_MOD_D_PV Common Data Class: INS_AR_STATE Common Data Class: INS_BASIC Common Data Class: INS_BEH Common Data Class: INS_BEH_D_PRIV Common Data Class: INS_HEALTH Common Data Class: LPL_LLN0 Common Data Class: LPL_LN Common Data Class: MV_FLOAT Common Data Class: MV_FLOAT_D Common Data Class: SEQ_MAG_ANG Common Data Class: SPC_CONTROL Common Data Class: SPC_CTRL_PRIV Common Data Class: SPC_STATUS Common Data Class: SPS_D Common Data Class: SPS_WD Common Data Class: SPS_WD_PRIV Common Data Class: WYE_INET Common Data Class: WYE_RES_ANG_D Common Data Class: WYE_SEG Common Data Class: WYE_SEG_D Common Data Class: WYE_SEG_RES_D 36 37 38 38 38 39 39 39 39 40 40 41 41 41 42 42 42 43 43 43 43 44 44 44 45 45 45 46 46 46 47 47 47 47 48 48 48 2.6 2.6.1 Common Data Attribute Type Definitions Component: AnalogueValue_Float 48 48 Page 2 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 2.6.2 2.6.3 2.6.4 2.6.5 2.6.6 Component: Originator Component: RangeConfig_Deadband Component: Unit_Multiplier Component: Vector_Magnitude_Float Component: Vector_MagnitudeAngle_Float 49 49 49 49 50 2.7 2.7.1 2.7.2 2.7.3 2.7.4 2.7.5 2.7.6 2.7.7 2.7.8 2.7.9 2.7.10 2.7.11 2.7.12 2.7.13 Enumerated Type Definitions Enumerated Type: AddCause Enumerated Type: AutoRecSt Enumerated Type: Beh Enumerated Type: Bypass Enumerated Type: ctlModel Enumerated Type: Dbpos Enumerated Type: dir Enumerated Type: Health Enumerated Type: Mod Enumerated Type: multiplier Enumerated Type: orCategory Enumerated Type: seqT Enumerated Type: SIUnit 50 50 50 51 51 51 51 52 52 52 52 53 53 53 2.8 MMS Data-type Conversions 55 TABLES Table 1: Basic conformance statement Table 2: Models conformance statement Table 3: Service conformance statement Table 4: Logical device definitions Table 5: Logical device data model Table 6: Logical node definitions Table 7: Logical node: CILO_INTERLOCK Table 8: Logical node: GGIO_ALM_96 Table 9: Logical node: GGIO_IND_128 Table 10: Logical node: GGIO_IND_30 Table 11: Logical node: GGIO_IND_32 Table 12: Logical node: GGIO_IND_32_CTRL Table 13: Logical node: GGIO_IND_64 Table 14: Logical node: GGIO_IND_8 Table 15: Logical node: LLN0_CONTROL Table 16: Logical node: LLN0_PROT Table 17: Logical node: LLN0_STANDARD Table 18: Logical node: LLN0_SYSTEM 7 8 11 12 15 16 16 18 21 22 23 24 26 27 27 28 28 28 P143/EN PM/Fe7 Page 3 PICS & MICS MiCOM P143 Table 19: Logical node: LPHD_STANDARD Table 20: Logical node: MMTR_PRIV Table 21: Logical node: MMXU_FOURIER_P145 Table 22: Logical node: MMXU_ RMS_P145 Table 23: Logical node: MSQI_ALL Table 24: Logical node: MSTA_I_W_VAR Table 25: Logical node: PDIF_NEU Table 26: Logical node: PFRC_NO_SEG Table 27: Logical node: PTOC_NEU Table 28: Logical node: PTOC_NO_SEG Table 29: Logical node: PTOC_SEG Table 30: Logical node: PTOF_NO_SEG Table 31: Logical node: PTOV_NEU Table 32: Logical node: PTOV_NEU PTOV_NO_SEG Table 33: Logical node: PTOV_SEG Table 34: Logical node: PTRC_NO_SEG Table 35: Logical node: PTTR_NO_SEG Table 36: Logical node: PTUF_NO_SEG Table 37: Logical node: PTUV_SEG Table 38: Logical node: RBRF_EXTTRIP Table 39: Logical node: RDRE_BASIC Table 40: Logical node: RFLO_BASIC Table 41: Logical node: RREC_NO_SEG Table 42: Logical node: RSYN_DIFCLC Table 43: Logical node: XCBR_BASIC Table 44: Common data class definitions Table 45: Common data class: ACD_NEU Table 46: Common data class: ACD_NO_SEG Table 47: Common data class: ACD_SEG Table 48: Common data class: ACT_NEU Table 49: Common data class: ACT_NO_SEG Table 50: Common data class: ACT_SEG Table 51: Common data class: BCR_PRIV Table 52: Common data class: CMV_MAG_ANG_FLOAT Table 53: Common data class: CMV_MAG_FLOAT Table 54: Common data class: DEL_SEG_ANG Table 55: Common data class: DPC_CONTROL Table 56: Common data class: DPL_STANDARD Table 57: Common data class: INC_CTRL_PRIV Table 58: Common data class: INC_MOD Table 59: Common data class: INC_MOD_D_PV Table 60: Common data class: INS_AR_STATE Table 61: Common data class: INS_BASIC 28 29 29 30 30 31 31 31 31 32 32 32 33 33 33 33 34 34 34 35 35 35 36 36 36 37 37 38 38 38 39 39 39 40 40 40 41 41 41 42 42 42 43 Page 4 P143/EN PM/Fe7 MiCOM P143 PICS & MICS Table 62: Common data class: INS_BEH Table 63: Common data class: INS_BEH_D_PRIV Table 64: Common data class: INS_HEALTH Table 65: Common data class: LPL_LLN0 Table 66: Common data class: LPL_LN Table 67: Common data class: MV_FLOAT Table 68: Common data class: MV_FLOAT_D Table 69: Common data class: SEQ_MAG_ANG Table 70: Common data class: SPC_CONTROL Table 71: Common data class: SPC_CTRL_PRIV Table 72: Common data class: SPC_STATUS Table 73: Common data class: SPS_D Table 74: Common data class: SPS_WD Table 75: Common data class: SPS_WD_PRIV Table 76: Common data class: WYE_INET Table 77: Common data class: WYE_RES_ANG_D Table 78: Common data class: WYE_SEG Table 79: Common data class: WYE_SEG_D Table 80: Common data class: WYE_SEG_RES_D Table 81: Component: AnalogueValue_Float Table 82: Component: Originator Table 83: Component: RangeConfig_Deadband Table 84: Component: Unit_Multiplier Table 85: Component: Vector_Magnitude_Float Table 86: Component: Vector_Magnitude_Float Table 87: Enumerated type: AddCause Table 88: Enumerated type: AutoRecSt Table 89: Enumerated type: Beh Table 90: Enumerated type: Bypass Table 91: Enumerated type: ctlModel Table 92: Enumerated type: Dbpos Table 93: Enumerated type: dir Table 94: Enumerated type: Health Table 95: Enumerated type: Mod Table 96: Enumerated type: multiplier Table 97: Enumerated type: orCategory Table 98: Enumerated type: seqT Table 99: Enumerated type: SIUnit Table 100: MMS data-type conversions 43 43 44 44 44 44 45 45 46 46 46 46 47 47 47 47 48 48 48 48 49 49 49 49 50 50 51 51 51 51 51 52 52 52 53 53 53 55 56 P143/EN PM/Fe7 Page 5 PICS & MICS MiCOM P143 Notes: Page 6 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 1 1.1 PROTOCOL IMPLEMENTATION CONFORMANCE STATEMENT (PICS) Introduction This specification is the Protocol Implementation Conformance Statement (PICS) and presents the ACSI conformance statements as defined in Annex A of Part 7-2 of the IEC 61850 standard specifications. 1.2 ACSI Basic Conformance Statement The basic conformance statement shall be as defined in Table 1. Client/ subscriber Server side (of TWO-PARTYAPPLICATION-ASSOCIATION) Client side of (TWO-PARTYAPPLICATION-ASSOCIATION) SCSM: IEC 6185-8-1 used SCSM: IEC 6185-9-1 used SCSM: IEC 6185-9-2 used SCSM: other Y Y Server/ publisher Client-Server roles B11 B12 SCSMs supported B21 B22 B23 B24 Generic substation event model (GSE) B31 B32 Transmission of sampled value model (SVC) B41 B42 – Y = supported N or empty = not supported Publisher side Subscriber side Publisher side Subscriber side Y Value/ comments Y Table 1: Basic conformance statement 1.3 ACSI Models Conformance Statement The ACSI models conformance statement shall be as defined in Table 2. Client/ subscriber Server/ publisher Value/ comments If Server or Client side (B11/12) is supported M1 M2 M3 M4 M5 M6 Logical Device Logical Node Data Data set Substitution Setting group control Reporting Y Y Y Y Y P143/EN PM/Fe7 Page 7 PICS & MICS MiCOM P143 Client/ subscriber M7 M7-1 M7-2 M7-3 M7-4 M7-5 M7-6 M7-7 M7-8 M7-9 M7-10 M7-11 M8 M8-1 M8-2 M8-3 M8-4 M8-5 M8-6 M8-7 M8-8 M8-9 Logging M9 M9-1 M10 M11 If GSE (B31/32) is supported M12 M13 If SVC (41/42) is supported M14 M15 If Server or Client side (B11/12) is supported M16 M17 Time File Transfer Y Y Y Multicast SVC Unicast SVC GOOSE GSSE Y Y Control Log Y Log control IntgPd Buffered report control sequence-number report-time-stamp reason-for-inclusion data-set-name data-reference buffer-overflow entryID BufTim IntgPd GI conf-revision Unbuffered report control sequence-number report-time-stamp reason-for-inclusion data-set-name data-reference BufTim IntgPd GI conf-revision Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Server/ publisher Value/ comments Time source with required accuracy shall be available. Y = service is supported N or empty = service is not supported Table 2: Models conformance statement Page 8 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 1.4 ACSI Service Conformance Statement The ACSI service conformance statement shall be as defined in Table 3 (depending on the statements in Table 1). Services AA: TP/MC Client (C) Server (S) Comments Server S1 Application association S2 S3 S4 Logical Device S5 Logical Node S6 S7 Data S8 S9 S10 S11 Data set S12 S13 S14 S15 S16 Substitution S17 Setting group control S18 S19 S20 S21 S22 S23 Reporting Buffered report control block (BRCB) S24 S24-1 S24-2 S24-3 S25 S26 Report data-change (dchg) qchg-change (qchg) data-update (dupd) GetBRCBValues SetBRCBValues TP TP Y Y TP Y Y SelectActiveSG SelectEditSG SetSGValues ConfirmEditSGValues GetSGValues GetSGCBValues TP TP TP TP TP TP Y Y Y SetDataValues TP GetDataSetValues SetDataSetValues CreateDataSet DeleteDataSet GetDataSetDirectory TP TP TP TP TP Y Y GetDataValues SetDataValues GetDataDirectory GetDataDefinition TP TP TP TP Y Y Y Y LogicalNodeDirectory GetAllDataValues TP TP Y Y LogicalDeviceDirectory TP Y Associate Abort Release Y Y Y ServerDirectory TP Y P143/EN PM/Fe7 Page 9 PICS & MICS MiCOM P143 Services Unbuffered report control block (URCB) S27 S27-1 S27-2 S27-3 S28 S29 Logging Log control block S30 S31 Log S32 S33 S34 Generic substation event model (GSE) GOOSE-CONTROL-BLOCK S35 S36 S37 S38 S39 GSSE-CONTROL-BLOCK S40 S41 S42 S43 S44 Transmission of sampled value model (SVC) Multicast SVC S45 S46 S47 Unicast SVC S48 S49 S50 Control S51 S52 S53 Select SelectWithValue Cancel SendUSVMessage GetUSVCBValues SetUSVCBValues SendMSVMessage GetMSVCBValues SetMSVCBValues SendGSSEMessage GetReference GetGSSEElementNumber GetGsCBValues SetGsCBValues SendGOOSEMessage GetReference GetGOOSEElementNumber GetGoCBValues SetGoCBValues QueryLogByTime QueryLogByEntry GetLogStatusValues GetLCBValues SetLCBValues Report data-change (dchg) qchg-change (qchg) data-update (dup GetURCBValues SetURCBValues AA: TP/MC TP Client (C) Server (S) Comments Y Y TP TP Y Y TP TP TP TP TP MC TP TP TP TP MC TP TP TP TP Y IED supports GOOSE publish & subscription. Y Y MC TP TP TP TP TP Y TP TP Y Y Page 10 P143/EN PM/Fe7 MiCOM P143 PICS & MICS Services S54 S55 S56 File transfer S57 S58 S59 S60 Time T1 T2 Time resolution of internal clock Time accuracy of internal clock GetFile SetFile DeleteFile GetFileAttributeValues Operate CommandTermination TimeActivated-Operate AA: TP/MC TP TP TP TP TP TP TP Client (C) Server (S) Y Y Comments Y Only from /dr_unextracted/ Operation may only be performed on .cfg files. Y Y 1 ms 1 ms Nearest negative power of 2 in seconds. T0 T1 T2 T3 T4 T5 Nearest negative power of 2 in seconds. T3 Supported TimeStamp resolution - 1 ms Table 3: Service conformance statement AA: Application association type TP: Two part (for MMS) MC: Multicast (for GOOSE and SMV) P143/EN PM/Fe7 Page 11 PICS & MICS MiCOM P143 2 2.1 MODEL IMPLEMENTATION CONFORMANCE STATEMENT (MICS) Introduction This specification is the Model Implementation Conformance Statement (MICS) and presents the top-level IEC 61850 data model that has been implemented. The definitions of all used Logical Nodes and their associated Common Data Classes, components and associated enumerated values are also included for completeness. The reader is expected to be conversant with the terminology presented within the IEC 61850 part 7 series of specifications. 2.2 Objective To provide comprehensive details of the standard data object model elements supported by the device. The MICS is conformant to the devices associated ICD (Substation Configuration Language) file, according to part 6 of the IEC 61850 standards. The layout of the presented tables within this document are conformant to the part 7 series of the IEC 61850 standard specifications with the following exceptions:    The "Trigger Options" field is not presented The "M/O" field is not present as the definitions are as deployed within the model An additional column "X" is used to signify Schneider Electric custom attributes 2.3 Logical Device Definitions The MiCOM relay implements an IEC 61850 server that can contain one or more Logical Devices. Each Logical Device contains a data model built from instances of specific Logical Nodes and must consist of at least an instance of the LPHD Logical Node (which is responsible for providing physical device information) and an instance of the LLN0 Logical Node (for addressing common issues across the Logical Device). The IEC 61850 data model is contained within the Logical Devices detailed in the table below. All MiCOM devices will name the supported Logical Devices consistently to ensure that data model variables with the same purpose will have the same name within each MiCOM server. Logical Device Control Measurements Protection Records System Comment/Usage P143 Controls Domain P143 Measurements Domain P143 Protection Domain P143 Records Domain P143 System Domain Table 4: Logical device definitions 2.3.1 IEC 61850 Logical Device Data Model The IEC 61850 Logical Device top-level data model consists of instances of Logical Nodes. The data model name for a Logical Node instance is constructed from an optional prefix (known as the wrapper), the Logical Node name, and an instance ID (or suffix). The presented data model is in an alphabetically sorted order, rather than a logical order, because this is the natural order of the data when presented by a native MMS browser. (Higher level browsers can of course impart any ordering that they desire). Page 12 P143/EN PM/Fe7 MiCOM P143 PICS & MICS LD Control LN Instance ArcRREC1 AscRSYN1 AscRSYN2 CILO1 LLN0 LPHD1 XCBR1 LN Type RREC_NO_SEG RSYN_DIFCLC RSYN_DIFCLC CILO_INTERLOCK LLN0_CONTROL LPHD_STANDARD XCBR_BASIC LLN0_STANDARD LPHD_STANDARD MMXU_FOURIER_P145 MMTR_PRIV MSQI_ALL MSTA_I_W_VAR MMXU_RMS_P145 MMXU_FOURIER_P145 MMTR_PRIV MSQI_ALL MSTA_I_W_VAR MMXU_RMS_P145 RBRF_EXTTRIP RBRF_EXTTRIP PFRC_NO_SEG PFRC_NO_SEG PFRC_NO_SEG PFRC_NO_SEG PFRC_NO_SEG PFRC_NO_SEG PFRC_NO_SEG PFRC_NO_SEG PFRC_NO_SEG PTOC_NEU PTOC_NEU PTOC_NEU PTOC_NEU PTOC_NEU PTOC_NEU PTOC_NEU PTOC_NEU PTOF_NO_SEG PTOF_NO_SEG Description Auto Reclose System Checks - Check Sync 1 System Checks - Check Sync 2 XCBR Interlocking Controls Logical Device Physical Device Information Circuit Breaker Monitoring Measurements Logical Device Physical Device Information Primary Fourier Measurements Primary based metering quantities Primary Sequence Measurements Primary Metering Statistics Primary RMS Measurements Secondary Fourier Measurements Secondary based metering quantities Secondary Sequence Measurements Secondary Metering Statistics Secondary RMS Measurements CB Fail 1 CB Fail 2 df/dt> 1 Frequency Rate of Change df/dt> 2 Frequency Rate of Change df/dt> 3 Frequency Rate of Change df/dt> 4 Frequency Rate of Change df/dt> 5 Frequency Rate of Change df/dt> 6 Frequency Rate of Change df/dt> 7 Frequency Rate of Change df/dt> 8 Frequency Rate of Change df/dt> 9 Frequency Rate of Change IN2> 1 Earth Fault (Derived) IN2> 2 Earth Fault (Derived) IN2> 3 Earth Fault (Derived) IN2> 4 Earth Fault (Derived) IN1> 1 Earth Fault (Measured) IN1> 2 Earth Fault (Measured) IN1> 3 Earth Fault (Measured) IN1> 4 Earth Fault (Measured) F> 1 Overfrequency F> 2 Overfrequency Measurements LLN0 LPHD1 PriFouMMXU1 PriMMTR1 PriMSQI1 PriMSTA1 PriRmsMMXU1 SecFouMMXU1 SecMMTR1 SecMSQI1 SecMSTA1 SecRmsMMXU1 Protection CbfRBRF1 CbfRBRF2 DfpPFRC1 DfpPFRC2 DfpPFRC3 DfpPFRC4 DfpPFRC5 DfpPFRC6 DfpPFRC7 DfpPFRC8 DfpPFRC9 EfdPTOC1 EfdPTOC2 EfdPTOC3 EfdPTOC4 EfmPTOC1 EfmPTOC2 EfmPTOC3 EfmPTOC4 FrqPTOF1 FrqPTOF2 P143/EN PM/Fe7 Page 13 PICS & MICS MiCOM P143 LD LN Instance FrqPTUF1 FrqPTUF2 FrqPTUF3 FrqPTUF4 LLN0 LPHD1 NgcPTOC1 NgcPTOC2 NgcPTOC3 NgcPTOC4 NgvPTOV1 OcpPTOC1 OcpPTOC2 OcpPTOC3 OcpPTOC4 PTRC1 SenEftPTOC1 SenEftPTOC2 SenEftPTOC3 SenEftPTOC4 SenRefPDIF1 ThmPTTR1 VtpPhsPTOV1 VtpPhsPTOV2 VtpPhsPTUV1 VtpPhsPTUV2 VtpResPTOV1 VtpResPTOV2 LN Type PTUF_NO_SEG PTUF_NO_SEG PTUF_NO_SEG PTUF_NO_SEG LLN0_PROT LPHD_STANDARD PTOC_NO_SEG PTOC_NO_SEG PTOC_NO_SEG PTOC_NO_SEG PTOV_NO_SEG PTOC_SEG PTOC_SEG PTOC_SEG PTOC_SEG PTRC_NO_SEG PTOC_NEU PTOC_NEU PTOC_NEU PTOC_NEU PDIF_NEU PTTR_NO_SEG PTOV_SEG PTOV_SEG PTUV_SEG PTUV_SEG PTOV_NEU PTOV_NEU LLN0_STANDARD LPHD_STANDARD RDRE_BASIC RFLO_BASIC GGIO_ALM_96 GGIO_IND_128 GGIO_IND_32 GGIO_IND_8 LLN0_SYSTEM LPHD_STANDARD GGIO_IND_32 GGIO_IND_64 Description F< 1 Underfrequency F< 2 Underfrequency F< 3 Underfrequency F< 4 Underfrequency Protection Logical Device Physical Device Information I2> 1 Negative Sequence I2> 2 Negative Sequence I2> 3 Negative Sequence I2> 4 Negative Sequence V2> 1 Negative Sequence I> 1 Overcurrent I> 2 Overcurrent I> 3 Overcurrent I> 4 Overcurrent Protection Trip Conditioning ISEF> 1 Sensitive Earth Fault ISEF> 2 Sensitive Earth Fault ISEF> 3 Sensitive Earth Fault ISEF> 4 Sensitive Earth Fault IREF> 1 Restricted Earth Fault Thermal Overload V> 1 Overvoltage V> 2 Overvoltage V< 1 Undervoltage V< 2 Undervoltage VN> 1 Residual Overvoltage VN> 2 Residual Overvoltage Records Logical Device Physical Device Information Disturbance Recorder Fault Locator Alarms GOOSE Input Signals GOOSE Output Signals Red LED Signals System Logical Device Physical Device Information Opto Inputs Uniqueness of control "Order Running" indications for Control operations Records LLN0 LPHD1 RDRE1 RFLO1 System AlmGGIO1 GosGGIO1 GosGGIO2 LedGGIO1 LLN0 LPHD1 OptGGIO1 OrdRunGGIO1 Page 14 P143/EN PM/Fe7 MiCOM P143 PICS & MICS LD LN Instance PloGGIO1 RlyGGIO1 GGIO_IND_30 LN Type GGIO_IND_32_CTRL Description Controllable Inputs Output Contacts Table 5: Logical device data model 2.4 Logical Node Definitions The definition tables for each of the Logical Nodes in the top-level data model are presented in the following sub-sections. The following table presents a summary of the Logical Node templates used across the Logical Devices within the overall IEC 61850 product data model: LN Type (LN Class) (CILO) (GGIO) (GGIO) (GGIO) (GGIO) (GGIO) (GGIO) (GGIO) (LLN0) (LLN0) (LLN0) (LLN0) (LPHD) (MMTR) (MMXU) (MMXU) (MSQI) (MSTA) (PDIF) (PFRC) (PTOC) (PTOC) (PTOC) (PTOF) (PTOV) (PTOV) (PTOV) (PTRC) (PTTR) (PTUF) (PTUV) (RBRF) (RDRE) (RFLO) Control Interlocking Generic Process I/O (w.r.t 96 Alarm Elements) Generic Process I/O (w.r.t 128 Indication Elements) Generic Process I/O (w.r.t 30 Indication Elements) Generic Process I/O (w.r.t 32 Indication Elements) Generic Process I/O (w.r.t 32 Indications Ctrl i/p) Generic Process I/O (w.r.t 64 Indication Elements) Generic Process I/O (w.r.t 8 Indication Elements) Control Domain Logical Node 0 System Logical Node 0 Protection Domain Logical Node 0 General Logical Node 0 Px40 Physical Device Information Metering Standard measurements (w.r.t Fourier Values - P145) Standard measurements (w.r.t RMS Values - P145) Sequence and imbalance (w.r.t Pos, Neq, Zero) Metering Statistics (w.r.t Current, Real + Reactive Power - Average + Max values) Differential (w.r.t Neutral) Rate of Change of Frequency (w.r.t No Phase Segregation) Timed Overcurrent (w.r.t Neutral) Timed Overcurrent (w.r.t No Phase Segregation) Timed Overcurrent (w.r.t Phase Segregation) Overfrequency (w.r.t No Phase Segregation) Overvoltage (w.r.t Phase Segregation) Overvoltage (w.r.t Neutral) Overvoltage (w.r.t Phase Segregation) Protection trip conditioning (w.r.t No Phase Segregation) Thermal overload (w.r.t No Phase Segregation) Underfrequency (w.r.t No Phase Segregation) Undervoltage (w.r.t Phase Segregation) Breaker Failure (w.r.t External Tripping) Disturbance Recorder function (w.r.t Mandatory Attributes only) Fault Locator (w.r.t Mandatory Attributes only) Description Name Space IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 CILO_INTERLOCK GGIO_ALM_96 GGIO_IND_128 GGIO_IND_30 GGIO_IND_32 GGIO_IND_32_CTRL GGIO_IND_64 GGIO_IND_8 LLN0_CONTROL LLN0_SYSTEM LLN0_PROT LLN0_STANDARD LPHD_STANDARD MMTR_PRIV MMXU_FOURIER_P145 MMXU_RMS_P145 MSQI_ALL MSTA_I_W_VAR PDIF_NEU PFRC_NO_SEG PTOC_NEU PTOC_NO_SEG PTOC_SEG PTOF_NO_SEG PTOV_SEG PTOV_NEU PTOV_NO_SEG PTRC_NO_SEG PTTR_NO_SEG PTUF_NO_SEG PTUV_SEG RBRF_EXTTRIP RDRE_BASIC RFLO_BASIC P143/EN PM/Fe7 Page 15 PICS & MICS MiCOM P143 LN Type RREC_NO_SEG RSYN_DIFCLC XCBR_BASIC (LN Class) (RREC) (RSYN) (XCBR) Description Autoreclosing (w.r.t No Phase Segregation) Synchronism-check / Synchronizing (w.r.t Calculated Differential Measurements) Circuit Breaker (w.r.t Mandatory Attributes only) Name Space IEC 61850-7-4:2003 IEC 61850-7-4:2003 IEC 61850-7-4:2003 Table 6: Logical node definitions 2.4.1 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt EnaOpn EnaCls INC_MOD INS_BEH CILO_INTERLOCK Control Interlocking CILO Attr. Type Mode Behavior Health Name Plate Enable OPEN Commands Enable CLOSE Commands Explanation T X INS_HEALTH LPL_LN SPS_WD SPS_WD Table 7: Logical node: CILO_INTERLOCK 2.4.2 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Alm1 Alm2 Alm3 Alm4 Alm5 Alm6 Alm7 Alm8 Alm9 Alm10 Alm11 Alm12 Alm13 Alm14 Alm15 Alm16 Alm17 Alm18 INC_MOD INS_BEH GGIO_ALM_96 Generic Process I/O (w.r.t 96 Alarm Elements) GGIO Attr. Type Mode Behavior Health Name Plate General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm Explanation T X INS_HEALTH LPL_LN SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D Page 16 P143/EN PM/Fe7 MiCOM P143 PICS & MICS Attribute Alm19 Alm20 Alm21 Alm22 Alm23 Alm24 Alm25 Alm26 Alm27 Alm28 Alm29 Alm30 Alm31 Alm32 Alm33 Alm34 Alm35 Alm36 Alm37 Alm38 Alm39 Alm40 Alm41 Alm42 Alm43 Alm44 Alm45 Alm46 Alm47 Alm48 Alm49 Alm50 Alm51 Alm52 Alm53 Alm54 Alm55 Alm56 Alm57 Alm58 Alm59 Alm60 Alm61 Alm62 SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D Attr. Type Explanation General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm T X P143/EN PM/Fe7 Page 17 PICS & MICS MiCOM P143 Attribute Alm63 Alm64 Alm65 Alm66 Alm67 Alm68 Alm69 Alm70 Alm71 Alm72 Alm73 Alm74 Alm75 Alm76 Alm77 Alm78 Alm79 Alm80 Alm81 Alm82 Alm83 Alm84 Alm85 Alm86 Alm87 Alm88 Alm89 Alm90 Alm91 Alm92 Alm93 Alm94 Alm95 Alm96 SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D Attr. Type Explanation General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm General single alarm T X Table 8: Logical node: GGIO_ALM_96 2.4.3 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt INC_MOD INS_BEH GGIO_IND_128 Generic Process I/O (w.r.t 128 Indication Elements) GGIO Attr. Type Mode Behavior Health Name Plate Explanation T X INS_HEALTH LPL_LN Page 18 P143/EN PM/Fe7 MiCOM P143 PICS & MICS Attribute Ind1 Ind2 Ind3 Ind4 Ind5 Ind6 Ind7 Ind8 Ind9 Ind10 Ind11 Ind12 Ind13 Ind14 Ind15 Ind16 Ind17 Ind18 Ind19 Ind20 Ind21 Ind22 Ind23 Ind24 Ind25 Ind26 Ind27 Ind28 Ind29 Ind30 Ind31 Ind32 Ind33 Ind34 Ind35 Ind36 Ind37 Ind38 Ind39 Ind40 Ind41 Ind42 Ind43 Ind44 SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D Attr. Type Explanation General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) T X P143/EN PM/Fe7 Page 19 PICS & MICS MiCOM P143 Attribute Ind45 Ind46 Ind47 Ind48 Ind49 Ind50 Ind51 Ind52 Ind53 Ind54 Ind55 Ind56 Ind57 Ind58 Ind59 Ind60 Ind61 Ind62 Ind63 Ind64 Ind65 Ind66 Ind67 Ind68 Ind69 Ind70 Ind71 Ind72 Ind73 Ind74 Ind75 Ind76 Ind77 Ind78 Ind79 Ind80 Ind81 Ind82 Ind83 Ind84 Ind85 Ind86 Ind87 Ind88 SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D Attr. Type Explanation General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) T X Page 20 P143/EN PM/Fe7 MiCOM P143 PICS & MICS Attribute Ind89 Ind90 Ind91 Ind92 Ind93 Ind94 Ind95 Ind96 Ind97 Ind98 Ind99 Ind100 Ind101 Ind102 Ind103 Ind104 Ind105 Ind106 Ind107 Ind108 Ind109 Ind110 Ind111 Ind112 Ind113 Ind114 Ind115 Ind116 Ind117 Ind118 Ind119 Ind120 Ind121 Ind122 Ind123 Ind124 Ind125 Ind126 Ind127 Ind128 SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D Attr. Type Explanation General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) T X Table 9: Logical node: GGIO_IND_128 P143/EN PM/Fe7 Page 21 PICS & MICS MiCOM P143 2.4.4 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Ind1 Ind2 Ind3 Ind4 Ind5 Ind6 Ind7 Ind8 Ind9 Ind10 Ind11 Ind12 Ind13 Ind14 Ind15 Ind16 Ind17 Ind18 Ind19 Ind20 Ind21 Ind22 Ind23 Ind24 Ind25 Ind26 Ind27 Ind28 Ind29 Ind30 INC_MOD INS_BEH GGIO_IND_30 Generic Process I/O (w.r.t 30 Indication Elements) GGIO Attr. Type Mode Behavior Health Name Plate General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) Explanation T X INS_HEALTH LPL_LN SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D Table 10: Logical node: GGIO_IND_30 Page 22 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 2.4.5 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Ind1 Ind2 Ind3 Ind4 Ind5 Ind6 Ind7 Ind8 Ind9 Ind10 Ind11 Ind12 Ind13 Ind14 Ind15 Ind16 Ind17 Ind18 Ind19 Ind20 Ind21 Ind22 Ind23 Ind24 Ind25 Ind26 Ind27 Ind28 Ind29 Ind30 Ind31 Ind32 INC_MOD INS_BEH GGIO_IND_32 Generic Process I/O (w.r.t 32 Indication Elements) GGIO Attr. Type Mode Behavior Health Name Plate General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) Explanation T X INS_HEALTH LPL_LN SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D Table 11: Logical node: GGIO_IND_32 P143/EN PM/Fe7 Page 23 PICS & MICS MiCOM P143 2.4.6 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt SPCSO1 SPCSO2 SPCSO3 SPCSO4 SPCSO5 SPCSO6 SPCSO7 SPCSO8 SPCSO9 SPCSO10 SPCSO11 SPCSO12 SPCSO13 SPCSO14 SPCSO15 SPCSO16 SPCSO17 SPCSO18 SPCSO19 SPCSO20 SPCSO21 SPCSO22 SPCSO23 SPCSO24 SPCSO25 SPCSO26 SPCSO27 SPCSO28 SPCSO29 SPCSO30 SPCSO31 SPCSO32 INC_MOD INS_BEH GGIO_IND_32_CTRL Generic Process I/O (w.r.t 32 Indications Ctrl i/p) GGIO Attr. Type Mode Behavior Health Name Plate Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Single point controllable status output Explanation T X INS_HEALTH LPL_LN SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL SPC_CONTROL Table 12: Logical node: GGIO_IND_32_CTRL Page 24 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 2.4.7 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Ind1 Ind2 Ind3 Ind4 Ind5 Ind6 Ind7 Ind8 Ind9 Ind10 Ind11 Ind12 Ind13 Ind14 Ind15 Ind16 Ind17 Ind18 Ind19 Ind20 Ind21 Ind22 Ind23 Ind24 Ind25 Ind26 Ind27 Ind28 Ind29 Ind30 Ind31 Ind32 Ind33 Ind34 Ind35 Ind36 Ind37 INC_MOD INS_BEH GGIO_IND_64 Generic Process I/O (w.r.t 64 Indication Elements) GGIO Attr. Type Mode Behavior Health Name Plate General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) Explanation T X INS_HEALTH LPL_LN SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D P143/EN PM/Fe7 Page 25 PICS & MICS MiCOM P143 Attribute Ind38 Ind39 Ind40 Ind41 Ind42 Ind43 Ind44 Ind45 Ind46 Ind47 Ind48 Ind49 Ind50 Ind51 Ind52 Ind53 Ind54 Ind55 Ind56 Ind57 Ind58 Ind59 Ind60 Ind61 Ind62 Ind63 Ind64 SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D Attr. Type Explanation General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) T X Table 13: Logical node: GGIO_IND_64 2.4.8 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Ind1 Ind2 Ind3 Ind4 Ind5 Ind6 INC_MOD INS_BEH GGIO_IND_8 Generic Process I/O (w.r.t 8 Indication Elements) GGIO Attr. Type Mode Behavior Health Name Plate General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) General indication (binary input) Explanation T X INS_HEALTH LPL_LN SPS_D SPS_D SPS_D SPS_D SPS_D SPS_D Page 26 P143/EN PM/Fe7 MiCOM P143 PICS & MICS Attribute Ind7 Ind8 SPS_D SPS_D Attr. Type Explanation General indication (binary input) General indication (binary input) T X Table 14: Logical node: GGIO_IND_8 2.4.9 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt AscMod AscBeh ArcMod ArcBeh INC_MOD INS_BEH LLN0_CONTROL Control Domain Logical Node 0 LLN0 Attr. Type Mode Behavior Health Name Plate Check Synchronization Check Synchronization Auto-Reclose Auto-Reclose Explanation T X INS_HEALTH LPL_LLN0 INC_MOD_D_PV INS_BEH_D_PRIV INC_MOD_D_PV INS_BEH_D_PRIV Table 15: Logical node: LLN0_CONTROL 2.4.10 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt OcpMod OcpBeh NgcMod NgcBeh EfmMod EfmBeh EfdMod EfdBeh SenMod SenBeh VtpMod VtpBeh NvdMod NvdBeh NgvMod NgvBeh FrqMod INC_MOD INS_BEH LLN0_PROT Protection Domain Logical Node 0 LLN0 Attr. Type Mode Behavior Health Name Plate Overcurrent Mode Overcurrent Behavior Negative Sequence Mode Negative Sequence Behavior Earth Fault 1 (Measured) Mode Earth Fault 1 (Measured) Behavior Earth Fault 2 (Derived) Mode Earth Fault 2 (Derived) Behavior SEF/REF Mode SEF/REF Behavior Overvoltage/Undervoltage Mode Overvoltage/Undervoltage Behavior Residual Overvoltage NVD Mode Residual Overvoltage NVD Behavior Negative Sequence Overvoltage Mode Negative Sequence Overvoltage Behavior Overfrequency/Underfrequency Mode Explanation T X INS_HEALTH LPL_LLN0 INC_CTRL_PRIV INS_BEH_D_PRIV INC_CTRL_PRIV INS_BEH_D_PRIV INC_CTRL_PRIV INS_BEH_D_PRIV INC_CTRL_PRIV INS_BEH_D_PRIV INC_CTRL_PRIV INS_BEH_D_PRIV INC_CTRL_PRIV INS_BEH_D_PRIV INC_CTRL_PRIV INS_BEH_D_PRIV INC_CTRL_PRIV INS_BEH_D_PRIV INC_CTRL_PRIV P143/EN PM/Fe7 Page 27 PICS & MICS MiCOM P143 Attribute FrqBeh ThmMod ThmBeh CbfMod CbfBeh Attr. Type INS_BEH_D_PRIV INC_CTRL_PRIV INS_BEH_D_PRIV INC_CTRL_PRIV INS_BEH_D_PRIV Explanation Overfrequency/Underfrequency Behavior Thermal Overload Mode Thermal Overload Behavior CB Fail Mode CB Fail Behavior T X Table 16: Logical node: LLN0_PROT 2.4.11 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt INC_MOD INS_BEH LLN0_STANDARD General Logical Node 0 LLN0 Attr. Type Mode Behavior Health Name Plate Explanation T X INS_HEALTH LPL_LLN0 Table 17: Logical node: LLN0_STANDARD 2.4.12 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt OrdRun SyncSt LEDRs INC_MOD INS_BEH LLN0_SYSTEM System Logical Node 0 LLN0 Attr. Type Mode Behavior Health Name Plate Indicate IED is operating a control object Indicate time synchronization in the IED is active/inactive LED reset T X X Explanation T X INS_HEALTH LPL_LLN0 SPS_WD_PRIV SPS_WD_PRIV SPC_CONTROL Table 18: Logical node: LLN0_SYSTEM 2.4.13 Logical Node: Description: LN Class: Attribute PhyNam PhyHealth Proxy PwrUp LPHD_STANDARD Px40 Physical Device Information LPHD Attr. Type Explanation Physical device name plate Physical device health Indicates if this LN is a proxy Power up detected T X DPL_STANDARD INS_HEALTH SPS_D SPS_D Table 19: Logical node: LPHD_STANDARD Page 28 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 2.4.14 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt TotWh TotVArh SupWh SupVArh DmdWh DmdVArh MTRRs INC_MOD INS_BEH MMTR_PRIV Metering MMTR Attr. Type Mode Behavior Health Name Plate Net real energy since last reset Net reactive energy since last reset Real energy supply (Energy flow towards bus bar) Reactive energy supply (Energy flow towards bus bar) Real energy demand (Energy flow from bus bar) Reactive energy demand (Energy flow from bus bar) Reset Energy Meters X Explanation T X INS_HEALTH LPL_LN BCR_PRIV BCR_PRIV BCR_PRIV BCR_PRIV BCR_PRIV BCR_PRIV SPC_CTRL_PRIV Table 20: Logical node: MMTR_PRIV 2.4.15 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt TotW TotVAr TotVA TotPF Hz PPV PhV A1 A2 A3 W VAr VA PF INC_MOD INS_BEH MMXU_FOURIER_P145 Standard measurements (w.r.t Fourier Values - P145) MMXU Attr. Type Mode Behavior Health Name Plate Total active power (Total P) Total reactive power (Total Q) Total apparent power (Total S) Average power factor (Total PF) Frequency Phase to Phase voltages Phase to Ground voltages Phase currents (Fourier Magnitudes) Phase currents (IN Measured) Phase currents (ISEF Magnitude) Phase active power (P) Phase reactive power (Q) Phase apparent power (S) Phase power factor Explanation T X INS_HEALTH LPL_LN MV_FLOAT MV_FLOAT MV_FLOAT MV_FLOAT MV_FLOAT DEL_SEG_ANG WYE_SEG_RES_D WYE_SEG_RES_D WYE_RES_ANG_D WYE_RES_ANG_D WYE_SEG WYE_SEG WYE_SEG WYE_SEG Table 21: Logical node: MMXU_FOURIER_P145 P143/EN PM/Fe7 Page 29 PICS & MICS MiCOM P143 2.4.16 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt A PhV INC_MOD INS_BEH MMXU_RMS_P145 Standard measurements (w.r.t RMS Values - P145) MMXU Attr. Type Mode Behavior Health Name Plate Phase currents Phase to Ground voltages Explanation T X INS_HEALTH LPL_LN WYE_SEG_D WYE_SEG_D Table 22: Logical node: MMXU_ RMS_P145 2.4.17 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt SeqA SeqV ImbNgA INC_MOD INS_BEH MSQI_ALL Sequence and imbalance (w.r.t Pos, Neq, Zero) MSQI Attr. Type Mode Behavior Health Name Plate Positive, Negative and Zero sequence current Positive, Negative and Zero sequence voltage Imbalance negative sequence current Explanation T X INS_HEALTH LPL_LN SEQ_MAG_ANG SEQ_MAG_ANG MV_FLOAT Table 23: Logical node: MSQI_ALL 2.4.18 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt AvAmps1 AvAmps2 AvAmps3 AvAmps4 AvAmps5 AvAmps6 MaxAmps1 MaxAmps2 MaxAmps3 AvW1 MSTA_I_W_VAR Metering Statistics (w.r.t Current, Real + Reactive Power Average + Max values) MSTA Attr. Type Explanation Mode Behavior Health Name Plate Average current Average current Average current Average current Average current Average current Maximum current Maximum current Maximum current Average real power T X INC_MOD INS_BEH INS_HEALTH LPL_LN MV_FLOAT_D MV_FLOAT_D MV_FLOAT_D MV_FLOAT_D MV_FLOAT_D MV_FLOAT_D MV_FLOAT_D MV_FLOAT_D MV_FLOAT_D MV_FLOAT_D Page 30 P143/EN PM/Fe7 MiCOM P143 PICS & MICS Attribute AvW2 MaxW AvVAr1 AvVAr2 MaxVAr Attr. Type MV_FLOAT_D MV_FLOAT_D MV_FLOAT_D MV_FLOAT_D MV_FLOAT_D Explanation Average real power Maximum real power Average reactive power Average reactive power Maximum reactive power T X Table 24: Logical node: MSTA_I_W_VAR 2.4.19 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Op DifAClc RstA INC_MOD INS_BEH PDIF_NEU Differential (w.r.t Neutral) PDIF Attr. Type Mode Behavior Health Name Plate Operate Differential current Restraint current T Explanation T X INS_HEALTH LPL_LN ACT_NEU WYE_INET WYE_INET Table 25: Logical node: PDIF_NEU 2.4.20 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Str Op INC_MOD INS_BEH PFRC_NO_SEG Rate of Change of Frequency (w.r.t No Phase Segregation) PFRC Attr. Type Mode Behavior Health Name Plate Start Operate T Explanation T X INS_HEALTH LPL_LN ACD_NO_SEG ACT_NO_SEG Table 26: Logical node: PFRC_NO_SEG 2.4.21 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Str Op INC_MOD INS_BEH PTOC_NEU Timed Overcurrent (w.r.t Neutral) PTOC Attr. Type Mode Behavior Health Name Plate Start Operate T Explanation T X INS_HEALTH LPL_LN ACD_NEU ACT_NEU Table 27: Logical node: PTOC_NEU P143/EN PM/Fe7 Page 31 PICS & MICS MiCOM P143 2.4.22 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Str Op INC_MOD INS_BEH PTOC_NO_SEG Timed Overcurrent (w.r.t No Phase Segregation) PTOC Attr. Type Mode Behavior Health Name Plate Start Operate T Explanation T X INS_HEALTH LPL_LN ACD_NO_SEG ACT_NO_SEG Table 28: Logical node: PTOC_NO_SEG 2.4.23 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Str Op INC_MOD INS_BEH PTOC_SEG Timed Overcurrent (w.r.t Phase Segregation) PTOC Attr. Type Mode Behavior Health Name Plate Start Operate T Explanation T X INS_HEALTH LPL_LN ACD_SEG ACT_SEG Table 29: Logical node: PTOC_SEG 2.4.24 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Str Op INC_MOD INS_BEH PTOF_NO_SEG Overfrequency (w.r.t No Phase Segregation) PTOF Attr. Type Mode Behavior Health Name Plate Start Operate T Explanation T X INS_HEALTH LPL_LN ACD_NO_SEG ACT_NO_SEG Table 30: Logical node: PTOF_NO_SEG 2.4.25 Logical Node: Description: LN Class: Attribute Mod Beh INC_MOD INS_BEH PTOV_NEU Overvoltage (w.r.t Neutral) PTOV Attr. Type Mode Behavior Explanation T X Page 32 P143/EN PM/Fe7 MiCOM P143 PICS & MICS Attribute Health NamPlt Str Op LPL_LN Attr. Type INS_HEALTH ACD_NEU ACT_NEU Health Name Plate Start Operate Explanation T X T Table 31: Logical node: PTOV_NEU 2.4.26 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Str Op INC_MOD INS_BEH PTOV_NO_SEG Overvoltage (w.r.t Phase Segregation) PTOV Attr. Type Mode Behavior Health Name Plate Start Operate T Explanation T X INS_HEALTH LPL_LN ACD_NO_SEG ACT_NO_SEG Table 32: Logical node: PTOV_NEU PTOV_NO_SEG 2.4.27 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Str Op INC_MOD INS_BEH PTOV_SEG Overvoltage (w.r.t Phase Segregation) PTOV Attr. Type Mode Behavior Health Name Plate Start Operate T Explanation T X INS_HEALTH LPL_LN ACD_SEG ACT_SEG Table 33: Logical node: PTOV_SEG 2.4.28 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Tr Str INC_MOD INS_BEH PTRC_NO_SEG Protection trip conditioning (w.r.t No Phase Segregation) PTRC Attr. Type Mode Behavior Health Name Plate Trip Sum of all starts of all connected Logical Nodes Explanation T X INS_HEALTH LPL_LN ACT_NO_SEG ACD_NO_SEG Table 34: Logical node: PTRC_NO_SEG P143/EN PM/Fe7 Page 33 PICS & MICS MiCOM P143 2.4.29 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Amp TmpRl Op AlmThm MTRRs INC_MOD INS_BEH PTTR_NO_SEG Thermal Overload (w.r.t No Phase Segregation) PTTR Attr. Type Mode Behavior Health Name Plate Current for thermal load model Relation between temperature and maximum temperature Operate Thermal alarm Reset Thermal State T T X Explanation T X INS_HEALTH LPL_LN MV_FLOAT MV_FLOAT ACT_NO_SEG ACT_NO_SEG SPC_CTRL_PRIV Table 35: Logical node: PTTR_NO_SEG 2.4.30 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Str Op INC_MOD INS_BEH PTUF_NO_SEG Underfrequency (w.r.t No Phase Segregation) PTUF Attr. Type Mode Behavior Health Name Plate Start Operate T Explanation T X INS_HEALTH LPL_LN ACD_NO_SEG ACT_NO_SEG Table 36: Logical node: PTUF_NO_SEG 2.4.31 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Str Op INC_MOD INS_BEH PTUV_SEG Undervoltage (w.r.t Phase Segregation) PTUV Attr. Type Mode Behavior Health Name Plate Start Operate T Explanation T X INS_HEALTH LPL_LN ACD_SEG ACT_SEG Table 37: Logical node: PTUV_SEG Page 34 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 2.4.32 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt OpEx INC_MOD INS_BEH RBRF_EXTTRIP Breaker Failure (w.r.t External Tripping) RBRF Attr. Type Mode Behavior Health Name Plate Breaker failure trip ("External trip") T Explanation T X INS_HEALTH LPL_LN ACT_NO_SEG Table 38: Logical node: RBRF_EXTTRIP 2.4.33 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt RcdMade FltNum INC_MOD INS_BEH RDRE_BASIC Disturbance Recorder function (w.r.t Mandatory Attributes only) RDRE Attr. Type Mode Behavior Health Name Plate Recording made Fault number Explanation T X INS_HEALTH LPL_LN SPS_WD INS_BASIC Table 39: Logical node: RDRE_BASIC 2.4.34 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt FltZ FltDiskm INC_MOD INS_BEH RFLO_BASIC Fault Locator (w.r.t Mandatory Attributes only) RFLO Attr. Type Mode Behavior Health Name Plate Fault impedance Fault distance in km Explanation T X INS_HEALTH LPL_LN CMV_MAG_FLOAT MV_FLOAT Table 40: Logical node: RFLO_BASIC 2.4.35 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt INC_MOD INS_BEH RREC_NO_SEG Autoreclosing (w.r.t No Phase Segregation) RREC Attr. Type Mode Behavior Health Name Plate Explanation T X INS_HEALTH LPL_LN P143/EN PM/Fe7 Page 35 PICS & MICS MiCOM P143 Attribute Op AutoRecSt Attr. Type ACT_NO_SEG INS_AR_STATE Explanation Operate (used here to provide close to XCBR) Auto reclosing status T T X Table 41: Logical node: RREC_NO_SEG 2.4.36 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Rel VInd AngInd HzInd DifHzClc DifAngClc INC_MOD INS_BEH RSYN_DIFCLC Synchronism-check / Synchronizing (w.r.t Calculated Differential Measurements) RSYN Attr. Type Mode Behavior Health Name Plate Release Voltage difference indicator Angle difference indicator Frequency difference indicator Calculated difference in frequency Calculated difference of phase angle Explanation T X INS_HEALTH LPL_LN SPS_WD SPS_WD SPS_WD SPS_WD MV_FLOAT MV_FLOAT Table 42: Logical node: RSYN_DIFCLC 2.4.37 Logical Node: Description: LN Class: Attribute Mod Beh Health NamPlt Loc EEHealth OpCnt Pos BlkOpn BlkCls Lock CBOpCap INC_MOD INS_BEH XCBR_BASIC Circuit Breaker (w.r.t Mandatory Attributes only) XCBR Attr. Type Mode Behavior Health Name Plate Local operation External equipment health Operation counter Switch position Block opening Block closing Prevention, i.e Lock, Trip/Close operations of the Circuit Breaker over IEC 61850 Circuit Breaker operating capability X Explanation T X INS_HEALTH LPL_LN SPS_WD INS_HEALTH INS_BASIC DPC_CONTROL SPC_STATUS SPC_STATUS SPC_CTRL_PRIV INS_HEALTH Table 43: Logical node: XCBR_BASIC 2.5 Common Data Class Definitions The definition tables for each of the Common Data Classes used in the Logical Node definitions are presented in the following sub-sections. Page 36 P143/EN PM/Fe7 MiCOM P143 PICS & MICS From an application point-of-view the data attributes of a Common Data Class are classified according to their specific use. The characterization of data attributes, and the services that they support/provide, will be through the use of 'Functional Constraints'. The Functional Constraints are specified by the table below: FC Name BR CF CO DC EX GO GS LG MS MX RP SE SG SP ST SV US XX Configuration Control Description Extended Definition GOOSE Control GSSE Control (UCA2 GOOSE) Logging Multicast sampled value control Measurands (Analogue values) Unbuffered reports Setting Group Editable Setting Group Set Point Status Information Substitution Values Unicast sampled value control Data attribute service parameters Semantic Buffered reports Source Definition IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 IEC 61850-7-2 Table 44: Common data class definitions 2.5.1 Common Data Class: Description: CDC Class: Attribute general dirGeneral neut dirNeut q t Type BOOLEAN ACD_NEU Directional Protection Activation Information (w.r.t Neutral) ACD FC ST ST ST ST ST ST dir dir Enumeration Comment Trip or start has happened General direction (unknown, forward, backward or both) Trip or start event with earth current has happened Earth current direction (unknown, forward or backward) Quality of the protection activation information Timestamp of the last change in state of protection activation information X ENUMERATED8 (MMS Type: INT8) BOOLEAN ENUMERATED8 (MMS Type: INT8) Quality TimeStamp Table 45: Common data class: ACD_NEU P143/EN PM/Fe7 Page 37 PICS & MICS MiCOM P143 2.5.2 Common Data Class: Description: CDC Class: Attribute general dirGeneral q t Type BOOLEAN ENUMERATED8 (MMS Type: INT8) Quality TimeStamp ACD_NO_SEG Directional Protection Activation Information (w.r.t No Phase Segregation) ACD FC ST ST ST ST dir Enumeration Comment Trip or start has happened General direction (unknown, forward, backward or both) Quality of the protection activation information Timestamp of the last change in state of protection activation information X Table 46: Common data class: ACD_NO_SEG 2.5.3 Common Data Class: Description: CDC Class: Attribute general dirGeneral phsA dirPhsA phsB dirPhsB phsC dirPhsC q t Type BOOLEAN ENUMERATED8 (MMS Type: INT8) BOOLEAN ENUMERATED8 (MMS Type: INT8) BOOLEAN ENUMERATED8 (MMS Type: INT8) BOOLEAN ENUMERATED8 (MMS Type: INT8) Quality TimeStamp ACD_SEG Directional Protection Activation Information (w.r.t Phase Segregation) ACD FC ST ST ST ST ST ST ST ST ST ST dir dir dir dir Enumeration Comment Trip or start has happened General direction (unknown, forward, backward or both) Trip or start event of Phase A has happened Phase A direction (unknown, forward or backward) Trip or start event of Phase B has happened Phase B direction (unknown, forward or backward) Trip or start event of Phase C has happened Phase C direction (unknown, forward or backward) Quality of the protection activation information Timestamp of the last change in state of protection activation information X Table 47: Common data class: ACD_SEG 2.5.4 Common Data Class: Description: CDC Class: Attribute general neut q t Type BOOLEAN BOOLEAN Quality TimeStamp ST ST ST ST ACT_NEU Protection Activation Information (w.r.t Neutral) ACT FC Enumeration Comment Trip or start has happened Trip or start event with earth current has happened Quality of the protection activation information Timestamp of the last change in state of protection activation information X Table 48: Common data class: ACT_NEU Page 38 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 2.5.5 Common Data Class: Description: CDC Class: Attribute general q t Type BOOLEAN Quality TimeStamp ST ST ST ACT_NO_SEG Protection Activation Information (w.r.t No Phase Segregation) ACT FC Enumeration Comment Trip or start has happened Quality of the protection activation information Timestamp of the last change in state of protection activation information X Table 49: Common data class: ACT_NO_SEG 2.5.6 Common Data Class: Description: CDC Class: Attribute general phsA phsB phsC q t Type BOOLEAN BOOLEAN BOOLEAN BOOLEAN Quality TimeStamp ST ST ST ST ST ST ACT_SEG Protection Activation Information (w.r.t Phase Segregation) ACT FC Enumeration Comment Trip or start has happened Trip or start event of Phase A has happened Trip or start event of Phase B has happened Trip or start event of Phase C has happened Quality of the protection activation information Timestamp of the last change in state of protection activation information X Table 50: Common data class: ACT_SEG 2.5.7 Common Data Class: Description: CDC Class: Attribute actVal q t pulsQty Type INT128 Quality TimeStamp FLOAT32 ST ST ST CF BCR_PRIV Binary Counter Reading BCR FC Enumeration Comment Binary counter status represented as an integer Quality of counter value Time of last counter change Magnitude of the counted value 'per count' (value = actVal x pulsQty) X Table 51: Common data class: BCR_PRIV 2.5.8 Common Data Class: Description: CDC Class: Attribute Type CMV_MAG_ANG_FLOAT Complex Measured value (w.r.t Floating Point Magnitude and Angle) CMV FC Enumeration Comment Deadbanded complex measured vector. Updated to the current value of instCVal when the value has changed according to the configuration parameter db. X cVal Vector_MagnitudeAngle_Float MX P143/EN PM/Fe7 Page 39 PICS & MICS MiCOM P143 Attribute q t units db rangeC Quality TimeStamp Type FC MX MX CF CF CF Enumeration Comment Quality of the measurement value Time deadbanded magnitude last exceeded its db configuration parameter Unit of the attribute representing the data Measurement deadband Measurement range configuration attributes X Unit_Multiplier INT32U RangeConfig_Deadband Table 52: Common data class: CMV_MAG_ANG_FLOAT 2.5.9 Common Data Class: Description: CDC Class: Attribute cVal q t units db rangeC Type CMV_MAG_FLOAT Complex Measured value (w.r.t Floating Point Magnitude) CMV FC Enumeration MX MX MX CF CF CF Comment Deadbanded complex measured vector. Updated to the current value of instCVal when the value has changed according to the configuration parameter db. Quality of the measurement value Time deadbanded magnitude last exceeded its db configuration parameter Unit of the attribute representing the data Measurement deadband Measurement range configuration attributes X Vector_Magnitude_Float Quality TimeStamp Unit_Multiplier INT32U RangeConfig_Deadband Table 53: Common data class: CMV_MAG_FLOAT 2.5.10 Common Data Class: Description: CDC Class: Attribute phsAB phsBC phsCA Type DEL_SEG_ANG Phase to phase measurements for a 3-Phase system (w.r.t Phase Segregation + Angle) DEL FC Enumeration Comment Measurement values for Phase A to Phase B Measurement values for Phase B to Phase C Measurement values for Phase C to Phase A X CMV_MAG_ANG_FLOAT -CMV_MAG_ANG_FLOAT -CMV_MAG_ANG_FLOAT -- Table 54: Common data class: DEL_SEG_ANG Page 40 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 2.5.11 Common Data Class: Description: CDC Class: Attribute ctlVal origin stVal q t ctlModel sboTimeout Type BOOLEAN Originator CODED_ENUM (MMS Type: _BSTR2) Quality TimeStamp ENUMERATED8 (MMS Type: INT8) INT32U DPC_CONTROL Controllable Double Point DPC FC CO ST ST ST ST CF CF ctlModel Dbpos Enumeration Comment Control value (Off - FALSE, On - TRUE) Originator of the last change of the controllable data Status value of the data (Intermediate state, Off, On or Bad-state) Quality of the status value Timestamp of the last change in state of status value Control model (Corresponding to the behavior of the data) Select Before Operate timeout period (in milliseconds) X Table 55: Common data class: DPC_CONTROL 2.5.12 Common Data Class: Description: CDC Class: Attribute vendor hwRev swRev serNum model location Type VISIBLE_STRING255 VISIBLE_STRING255 VISIBLE_STRING255 VISIBLE_STRING255 VISIBLE_STRING255 VISIBLE_STRING255 DPL_STANDARD Standard Device Name Plate DPL FC DC DC DC DC DC DC Enumeration Comment Name of the vendor Hardware revision Software revision Serial Number Model Number Physical location of device X Table 56: Common data class: DPL_STANDARD 2.5.13 Common Data Class: Description: CDC Class: Attribute ctlVal stVal q t ctlModel dataNs INT32 INT32 Quality TimeStamp ENUMERATED8 (MMS Type: INT8) VISIBLE_STRING255 Type INC_CTRL_PRIV Controllable Integer Status (with NameSpace) INC FC CO ST ST ST CF EX ctlModel Enumeration Control value Status value of the data Quality of the status value Timestamp of the last change in state of status value Control model (Corresponding to the behavior of the data) Data name space Comment X Table 57: Common data class: INC_CTRL_PRIV P143/EN PM/Fe7 Page 41 PICS & MICS MiCOM P143 2.5.14 Common Data Class: Description: CDC Class: Attribute stVal q t ctlModel Type INT32 (MMS Type: INT8) Quality TimeStamp ENUMERATED8 (MMS Type: INT8) INC_MOD Controllable Integer Status (w.r.t Mode) INC FC ST ST ST CF ctlModel Enumeration Mod Comment Status value of the data Quality of the status value Timestamp of the last change in state of status value Control model (Corresponding to the behavior of the data) X Table 58: Common data class: INC_MOD 2.5.15 Common Data Class: Description: CDC Class: Attribute ctlVal stVal q t ctlModel d dataNs INT32 INT32 (MMS Type: INT8) Quality TimeStamp ENUMERATED8 (MMS Type: INT8) VISIBLE_STRING255 VISIBLE_STRING255 Type INC_MOD_D_PV Controllable Integer Status (w.r.t Mode, with description (Private DO)) INC FC CO ST ST ST CF DC EX ctlModel Mod Enumeration Comment Control value Status value of the data Quality of the status value Timestamp of the last change in state of status value Control model (Corresponding to the behavior of the data) Description of the status element Data name space X Table 59: Common data class: INC_MOD_D_PV 2.5.16 Common Data Class: Description: CDC Class: Attribute stVal q t Type INT32 (MMS Type: INT8) Quality TimeStamp INS_AR_STATE Integer Status (w.r.t Auto Reclose Status) INS FC ST ST ST Enumeration AutoRecSt Comment The element status The quality of the status value Timestamp of the last change in state X Table 60: Common data class: INS_AR_STATE Page 42 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 2.5.17 Common Data Class: Description: CDC Class: Attribute stVal q t INT32 Quality TimeStamp Type INS_BASIC Integer Status (w.r.t Mandatory Options only) INS FC ST ST ST Enumeration Comment The element status The quality of the status value Timestamp of the last change in state X Table 61: Common data class: INS_BASIC 2.5.18 Common Data Class: Description: CDC Class: Attribute stVal q t Type INT32 (MMS Type: INT8) Quality TimeStamp INS_BEH Integer Status (w.r.t Behavior) INS FC ST ST ST Beh Enumeration Comment The element status The quality of the status value Timestamp of the last change in state X Table 62: Common data class: INS_BEH 2.5.19 Common Data Class: Description: CDC Class: Attribute stVal q t d dataNs Type INT32 (MMS Type: INT8) Quality TimeStamp INS_BEH_D_PRIV Integer Status (w.r.t Behavior, with Description (Private DO)) INS FC ST ST ST DC EX Enumeration Beh Comment The element status The quality of the status value Timestamp of the last change in state Description of the status element Data name space X VISIBLE_STRING255 VISIBLE_STRING255 Table 63: Common data class: INS_BEH_D_PRIV 2.5.20 Common Data Class: Description: CDC Class: Attribute stVal q Type INT32 (MMS Type: INT8) Quality INS_HEALTH Integer Status (w.r.t health) INS FC ST ST Enumeration Health Comment The element status The quality of the status value X P143/EN PM/Fe7 Page 43 PICS & MICS MiCOM P143 Attribute t Type TimeStamp ST FC Enumeration Comment Timestamp of the last change in state X Table 64: Common data class: INS_HEALTH 2.5.21 Common Data Class: Description: CDC Class: Attribute vendor swRev d configRev ldNs Type LPL_LLN0 Logical Node 0 Name Plate LPL FC DC DC DC DC EX Enumeration Comment Name of the vendor Software revision Description Uniquely identifies the configuration of a local device instance Logical Device name space X VISIBLE_STRING255 VISIBLE_STRING255 VISIBLE_STRING255 VISIBLE_STRING255 VISIBLE_STRING255 Table 65: Common data class: LPL_LLN0 2.5.22 Common Data Class: Description: CDC Class: Attribute vendor swRev d Type LPL_LN Standard Logical Node Name Plate LPL FC DC DC DC Enumeration Comment Name of the vendor Software revision Description X VISIBLE_STRING255 VISIBLE_STRING255 VISIBLE_STRING255 Table 66: Common data class: LPL_LN 2.5.23 Common Data Class: Description: CDC Class: Attribute Type MV_FLOAT Measured value (w.r.t. Floating Point value) MV FC Enumeration Comment Deadbanded magnitude of the instantaneous value of a measured value or harmonic value. Updated to the current value of instMag when the value has changed according to the configuration parameter db. Quality of the measurement value Time deadbanded magnitude last exceeded its db configuration parameter Unit of the attribute representing the data Measurement deadband Measurement range configuration attributes X mag AnalogueValue_Float MX q t units db rangeC Quality TimeStamp Unit_Multiplier INT32U MX MX CF CF RangeConfig_Deadband CF Table 67: Common data class: MV_FLOAT Page 44 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 2.5.24 Common Data Class: Description: CDC Class: Attribute Type MV_FLOAT_D Measured value (w.r.t Floating Point Value with Description) MV FC Enumeration Comment Deadbanded magnitude of the instantaneous value of a measured value or harmonic value. Updated to the current value of instMag when the value has changed according to the configuration parameter db. Quality of the measurement value Time deadbanded magnitude last exceeded its db configuration parameter Unit of the attribute representing the data Measurement deadband Measurement range configuration attributes Description of the status element X mag AnalogueValue_Float MX q t units db rangeC d Quality TimeStamp Unit_Multiplier INT32U VISIBLE_STRING255 MX MX CF CF DC RangeConfig_Deadband CF Table 68: Common data class: MV_FLOAT_D 2.5.25 Common Data Class: Description: CDC Class: Attribute c1 c2 c3 seqT Type SEQ_MAG_ANG Sequence components of a measurement value (w.r.t Magnitudes + Angles) SEQ FC Enumeration Comment Sequence component 1 (For semantic meaning see seqT) Sequence component 2 (For semantic meaning see seqT) Sequence component 3 (For semantic meaning see seqT) seqT Sequence quantity measurement type (PosNeg-Zero or Dir-Quad-Zero) X CMV_MAG_ANG_FLOAT -CMV_MAG_ANG_FLOAT -CMV_MAG_ANG_FLOAT -ENUMERATED8 (MMS Type: INT8) MX Table 69: Common data class: SEQ_MAG_ANG 2.5.26 Common Data Class: Description: CDC Class: Attribute ctlVal origin ctlModel stVal q Type BOOLEAN Originator ENUMERATED8 (MMS Type: INT8) BOOLEAN Quality SPC_CONTROL Controllable Single Point SPC FC CO ST CF ST ST ctlModel Enumeration Comment Control value (Off - FALSE, On - TRUE) Originator of the last change of the controllable data Control model (Corresponding to the behavior of the data) Status value of the data Quality of the status value X P143/EN PM/Fe7 Page 45 PICS & MICS MiCOM P143 Attribute t sboTimeout Type TimeStamp INT32U FC ST CF Enumeration Comment Timestamp of the last change in state of status value Select Before Operate timeout period (in milliseconds) X Table 70: Common data class: SPC_CONTROL 2.5.27 Common Data Class: Description: CDC Class: Attribute ctlVal origin ctlModel stVal q t sboTimeout dataNs Type BOOLEAN Originator ENUMERATED8 (MMS Type: INT8) BOOLEAN Quality TimeStamp INT32U SPC_CTRL_PRIV Controllable Single Point SPC FC CO ST CF ST ST ST CF ctlModel Enumeration Comment Control value (Off - FALSE, On - TRUE) Originator of the last change of the controllable data Control model (Corresponding to the behavior of the data) Status value of the data Quality of the status value Timestamp of the last change in state of status value Select Before Operate timeout period (in milliseconds) Data name space X VISIBLE_STRING255 EX Table 71: Common data class: SPC_CTRL_PRIV 2.5.28 Common Data Class: Description: CDC Class: Attribute stVal q t ctlModel Type BOOLEAN Quality TimeStamp ENUMERATED8 (MMS Type: INT8) SPC_STATUS Controllable Single Point (w.r.t Status only) SPC FC ST ST ST CF ctlModel Enumeration Comment Status value of the data Quality of the status value Timestamp of the last change in state of status value Control model (Corresponding to the behavior of the data) X Table 72: Common data class: SPC_STATUS 2.5.29 Common Data Class: Description: CDC Class: Attribute stVal q t d Quality TimeStamp Type BOOLEAN SPS_D Standard Single Point Status (with Description) SPS FC ST ST ST Enumeration Comment The element status (TRUE or FALSE) The quality of the status value Timestamp of the last change in state Description of the status element X VISIBLE_STRING255 DC Table 73: Common data class: SPS_D Page 46 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 2.5.30 Common Data Class: Description: CDC Class: Attribute stVal q t Type BOOLEAN Quality TimeStamp SPS_WD Single Point Status (without Description) SPS FC ST ST ST Enumeration Comment The element status (TRUE or FALSE) The quality of the status value Timestamp of the last change in state X Table 74: Common data class: SPS_WD 2.5.31 Common Data Class: Description: CDC Class: Attribute stVal q t dataNs Quality TimeStamp Type BOOLEAN SPS_WD_PRIV Single Point Status (without Description with Name Space)) SPS FC ST ST ST Enumeration Comment The element status (TRUE or FALSE) The quality of the status value Timestamp of the last change in state Data name space X VISIBLE_STRING255 EX Table 75: Common data class: SPS_WD_PRIV 2.5.32 Common Data Class: Description: CDC Class: Attribute net Type CMV_MAG_FLOAT WYE_INET Phase to ground measurements for a 3-Phase system (w.r.t Net Current) WYE FC -Enumeration Comment Measurement values for the net (sum of all phases) system current X Table 76: Common data class: WYE_INET 2.5.33 Common Data Class: Description: CDC Class: Attribute res d Type WYE_RES_ANG_D Phase to ground measurements for a 3-Phase system (w.r.t Residual + Description + Angle) WYE FC -DC Enumeration Comment Measurement values for the residual system current Description of the status element X CMV_MAG_ANG_FLOAT VISIBLE_STRING255 Table 77: Common data class: WYE_RES_ANG_D P143/EN PM/Fe7 Page 47 PICS & MICS MiCOM P143 2.5.34 Common Data Class: Description: CDC Class: Attribute phsA phsB phsC Type CMV_MAG_FLOAT CMV_MAG_FLOAT CMV_MAG_FLOAT WYE_SEG Phase to ground measurements for a 3-Phase system (w.r.t Phase Segregation) WYE FC ---Enumeration Comment Measurement values for Phase A Measurement values for Phase B Measurement values for Phase C X Table 78: Common data class: WYE_SEG 2.5.35 Common Data Class: Description: CDC Class: Attribute phsA phsB phsC d Type CMV_MAG_FLOAT CMV_MAG_FLOAT CMV_MAG_FLOAT WYE_SEG_D Phase to ground measurements for a 3-Phase system (w.r.t Phase Segregation + Description) WYE FC ---DC Enumeration Comment Measurement values for Phase A Measurement values for Phase B Measurement values for Phase C Description of the status element X VISIBLE_STRING255 Table 79: Common data class: WYE_SEG_D 2.5.36 Common Data Class: Description: CDC Class: Attribute phsA phsB phsC neut d Type WYE_SEG_RES_D Phase to ground measurements for a 3-Phase system (w.r.t Phase Segregation + Residual + Description) WYE FC ----DC Enumeration Comment Measurement values for Phase A Measurement values for Phase B Measurement values for Phase C Measurement values for neutral input Description of the status element X CMV_MAG_ANG_FLOAT CMV_MAG_ANG_FLOAT CMV_MAG_ANG_FLOAT CMV_MAG_ANG_FLOAT VISIBLE_STRING255 Table 80: Common data class: WYE_SEG_RES_D 2.6 Common Data Attribute Type Definitions Common data attribute types, known herein as components, are defined for use in the Common Data Classes defined in the sections above. 2.6.1 Component: AnalogueValue_Float Comment: General analogue value (w.r.t Floating Point value) Parent Type: AnalogueValue Attribute f Type FLOAT32 Enumeration Comment Floating point value X Table 81: Component: AnalogueValue_Float Page 48 P143/EN PM/Fe7 MiCOM P143 PICS & MICS 2.6.2 Component: Originator Comment: Parent Type: Attribute orIdent Type OCTET_STRING64 ENUMERATED8 (MMS Type: INT8) Enumeration Comment Originator identification (Null value indicates unknown or not reported) orCategory Originator category (Not-supported, bay-control, station-control, remote-control, automatic-bay, automatic-station, automatic-remote, maintenance or process) X Originator of the last change of data attribute representing the value of a controllable data object orCat Table 82: Component: Originator 2.6.3 Component: RangeConfig_Deadband Comment: Measurement range configuration Parent Type: RangeConfig Attribute min max llLim lLim hLim hhLim Type AnalogueValue_Float AnalogueValue_Float AnalogueValue_Float AnalogueValue_Float AnalogueValue_Float AnalogueValue_Float Enumeration Comment Minimum process measurement for which values of i and f are considered within limits Maximum process measurement for which values of i and f are considered within limits Low Low range limit Low range limit High range limit High High range limit X Table 83: Component: RangeConfig_Deadband 2.6.4 Component: Unit_Multiplier Comment: SI Unit definitions Parent Type: Unit Attribute SIUnit multiplier Type ENUMERATED8 (MMS Type: INT8) ENUMERATED8 (MMS Type: INT8) Enumeration SIUnit multiplier SI Unit Multiplier value, the default of which is 0 (i.e. multiplier = 1) Comment X Table 84: Component: Unit_Multiplier 2.6.5 Component: Vector_Magnitude_Float Comment: Complex vector (w.r.t Floating Point Magnitude value) Parent Type: Vector Attribute mag Type AnalogueValue_Float Enumeration Comment The magnitude of the complex value X Table 85: Component: Vector_Magnitude_Float P143/EN PM/Fe7 Page 49 PICS & MICS MiCOM P143 2.6.6 Component: Vector_MagnitudeAngle_Float Comment: Complex vector (w.r.t Floating Point Magnitude and Angle values) Parent Type: Vector Attribute mag ang Type AnalogueValue_Float AnalogueValue_Float Enumeration Comment The magnitude of the complex value The angle of the complex value (the unit is degrees) X Table 86: Component: Vector_Magnitude_Float 2.7 Enumerated Type Definitions The following sub-sections specify the enumerations that are associated to some Common Data Class attributes. The definition of the enumerations are according to IEC 61850-7-3 and IEC 61850-7-4 unless otherwise stated. 2.7.1 Enumerated Type: AddCause Description: Ordinal 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Unknown Not supported Blocked by switching hierarchy Select failed Invalid position Position reached Parameter change in execution Step-limit Blocked by mode Blocked by process Blocked by interlocking Blocked by synchrocheck Command already in execution Blocked by health 1-of-n control Abortion by trip Time-limit over Abortion by trip Object not selected AddCause Semantic Table 87: Enumerated type: AddCause 2.7.2 Enumerated Type: AutoRecSt Description: Ordinal 1 2 Ready InProgress Auto-Reclose Status Semantic Page 50 P143/EN PM/Fe7 MiCOM P143 PICS & MICS Ordinal 3 4 Successful Unsuccessful Semantic Table 88: Enumerated type: AutoRecSt 2.7.3 Enumerated Type: Beh Description: Ordinal 1 2 3 4 5 on blocked test test/blocked off Behavior Semantic Table 89: Enumerated type: Beh 2.7.4 Enumerated Type: Bypass Description: Ordinal 0 1 2 3 4 5 locking-bypass mode-bypass automation-bypass uniqueness-bypass select-bypass status-bypass Bypass Semantic Table 90: Enumerated type: Bypass 2.7.5 Enumerated Type: ctlModel Description: Ordinal 0 1 2 3 4 status-only direct-with-normal-security sbo-with-normal-security direct-with-enhanced-security sbo-with-enhanced-security Control Model Semantic Table 91: Enumerated type: ctlModel 2.7.6 Enumerated Type: Dbpos Description: Ordinal 0 1 2 3 intermediate off on bad Circuit Breaker position Semantic Table 92: Enumerated type: Dbpos P143/EN PM/Fe7 Page 51 PICS & MICS MiCOM P143 2.7.7 Enumerated Type: dir Description: Ordinal 0 1 2 3 unknown forward backward both Direction Semantic Table 93: Enumerated type: dir 2.7.8 Enumerated Type: Health Description: Ordinal 1 2 3 Ok Warning Alarm Health Semantic Table 94: Enumerated type: Health 2.7.9 Enumerated Type: Mod Description: Ordinal 1 2 3 4 5 on blocked test test/blocked off Mode Semantic Table 95: Enumerated type: Mod 2.7.10 Enumerated Type: multiplier Description: Ordinal -24 -21 -18 -15 -12 -9 -6 -3 -2 -1 0 1 2 3 da h k y z a f p n µ m c d Exponents of the multiplier value in base 10. Semantic Page 52 P143/EN PM/Fe7 MiCOM P143 PICS & MICS Ordinal 6 9 12 15 18 21 24 M G T P E Z Y Semantic Table 96: Enumerated type: multiplier 2.7.11 Enumerated Type: orCategory Description: Ordinal 0 1 2 3 4 5 6 7 8 not-supported bay-control station-control remote-control automatic-bay automatic-station automatic-remote maintenance process orCategory Semantic Table 97: Enumerated type: orCategory 2.7.12 Enumerated Type: seqT Description: Ordinal 0 1 pos-neg-zero dir-quad-zero Sequence Measurement Type Semantic Table 98: Enumerated type: seqT 2.7.13 Enumerated Type: SIUnit Description: Ordinal -16 -15 -14 -13 -12 -11 -10 -9 -8 -7 -6 years months weeks V/s mins hours days °F ratio miles inches SI Units derived from ISO/IEC 1000 Semantic P143/EN PM/Fe7 Page 53 PICS & MICS MiCOM P143 Ordinal -5 -4 -3 -2 -1 1 2 3 4 5 6 7 8 9 10 11 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 41 42 43 44 45 46 47 48 49 feet df/dt Hz/s % pu none m kg s A K mol cd deg rad sr Gy q °C Sv F C S H V ohm J N Hz lx Lm Wb T W Pa m² m³ m/s m/s² m³/s m/m³ M kg/m³ m²/s Semantic Page 54 P143/EN PM/Fe7 MiCOM P143 PICS & MICS Ordinal 50 51 52 53 54 61 62 63 64 65 66 67 68 69 70 71 72 73 74 W/m K J/K ppm 1/s rad/s VA Watts VAr phi cos(phi) Vs V² As A² A²t VAh Wh VArh V/Hz Semantic Table 99: Enumerated type: SIUnit 2.8 MMS Data-type Conversions The following table shows the relationships between the Part 7 and Part 8-1 data types. The definitions presented above use Part 7 data types, however these are subject to 'translation' when exposed over an MMS (Part 8-1) interface: Part 7 Type BOOLEAN BSTR16 BVstring13 Check CODED_ENUM CODED_ENUM2 EntryTime ENUMERATED16 ENUMERATED8 FLOAT32 FLOAT64 INT128 INT16 INT16U INT24U INT32 INT32U INT8 Bool Bstring16 BVstring13 BVstring2 Byte Byte Btime6 Short Byte Float Double Int64 Short Ushort Ulong Long Ulong Byte MMS Type Bit-string -16 bits Variable bit string (upto 13 bits) Control Object check flags Coded enumeration Coded enumeration (2) 8.1 Section 8.1.3.7 16 bit enumerated value 8 bit enumerated value 32 bit floating point value 64 bit floating point value 128 bit signed integer value 16 bit signed integer value 16 bit unsigned integer value 24 bit unsigned integer value 32 bit signed integer value 32 bit unsigned integer value 8 bit signed integer value Part 7 Description Logical TRUE/FALSE value P143/EN PM/Fe7 Page 55 PICS & MICS MiCOM P143 Part 7 Type INT8U OCTET_STRING6 OCTET_STRING64 OCTET_STRING8 Quality TimeStamp UNICODE_STRING255 UTC_TM VISIBLE_STRING255 VISIBLE_STRING64 VISIBLE_STRING65 VISIBLE_STRING97 Ubyte MMS Type Ostring6 OVstring64 OVstring8 BVstring13 Utctime UTF8Vstring255 Utctime Vstring255 Vstring64 Vstring65 Vstring97 Part 7 Description 8 bit unsigned integer value 6 character string (8 bits per character) 64 character string (8 bits per character) 8 character string (8 bits per character) IEC 61850 Quality IEC 61850 Time stamp 255 character string (16 bits per unicode character) UTC Timestamp 255 character string 64 character string 65 character string 97 character string Table 100: MMS data-type conversions Page 56 P143/EN PM/Fe7 Customer Care Centre http://www.schneider-electric.com/CCC Schneider Electric 35 rue Joseph Monier 92506 Rueil-Malmaison FRANCE Phone: Fax: +33 (0) 1 41 29 70 00 +33 (0) 1 41 29 71 00 Publisher: Schneider Electric June 2011 www.schneider-electric.com Publication: P143/EN PM/Fe7  2011 Schneider Electric. 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