IEC61850 for Bitronics 70 Series
Contents
1. Page 61 Logical Node MHAI_3 Description Harmonics or Interharmonics totals for Volts only including individual harmonics and harmonic demand LN Class MHAI Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Hz MV_0O Basic Frequency HPhvV HWYE_0 Sequence of Harmonics or Interharmonics phase to ground voltages HPPV HDEL_0O Sequence of Harmonics or Interharmonics phase to phase voltages ThdPhvVv WYE_1 Voltage total Harmonic or Interharmonic Distortion for phase to ground ThdOddPhV WYE_1 Voltage total Harmonic or Interharmonic Distortion for phase to ground odd components ThdEvnPhv WYE_1 Voltage total Harmonic or Interharmonic Distortion for phase to ground even components ThdPPV DEL_O Voltage total Harmonic or Interharmonic Distortion for phase to phase ThdOddPPV DEL_O Voltage total Harmonic or Interharmonic Distortion for phase to phase odd components ThdEvnPPV DEL_O Voltage total Harmonic or Interharmonic Distortion for phase to phase even components DmdlIntH ASG_1 Integration time for Thermal Demand of Voltage total xX harmonic distortion seconds RsDmdH SPC_0 Reset Thermal Demand of Voltage total harmonic X distortion Logical Node MMTR_O Description Energy measurements LN Class MMTR Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health N2. 3 5 27 Common Data Class SEQ_0 Description Sequence components of a measurement value includes Magnitudes Angles CDC Class SEQ Attribute Type FC Enumeration Comment Xx c1 CMV_1 Sequence component 1 Positive c2 CMV_1 Sequence component 2 Negative c3 CMV_1 Sequence component 3 Zero seqT ENUMERATED8 MX seqT Sequence quantity MMS Type INT8 measurement type Pos Neg Zero or Dir Quad Zero d VISIBLE_STRING255 DC Description of the status element Textual description of the data 3 5 28 Common Data Class SEQ_0_DB Description Sequence components of a measurement value includes Magnitudes Angles with deadband configuration CDC Class SEQ Attribute Type FC Enumeration Comment xX ci CMV_1_DB Sequence component 1 Positive c2 CMV_1_DB Sequence component 2 Negative c3 CMV_1_DB Sequence component 3 Zero seqT ENUMERATED8 MX seqT Sequence quantity measurement MMS Type INT8 type Pos Neg Zero or Dir Quad Zero d VISIBLE_STRING255 DC Description of the status element Textual description of the data Mx7xlI EN M M IEC 61850 Protocol Manual Page 84 70 series 3 5 29 Common Data Class SPC_0 Description Controllable Single Point Bitronics non standard data object Controllable Single Point that allows only Direct Operate with normal security CDC Class SPC Attribute Type FC Enumera
3. 2 sbo with normal security 3 direct with enhanced security NOT SUPPORTED in Mx70 devices 4 sbo with enhanced security NOT SUPPORTED in Mx70 devices NOTE ONLY the Status only and normal security control modes are supported in Mx70 devices Enumerated type Health Description Health Ordinal Semantic 1 Ok 2 Warning 3 Alarm Mx7xlI EN M M IEC 61850 Protocol Manual Page 94 70 series 3 7 5 Enumerated type hvRef Description Reference type Specifies the reference type i e ration of harmonic to fundamental to rms or to absolute that the data attribute mag of the data attribute type Vector contains Ordinal Semantic 0 fundamental 1 rms 2 absolute 3 7 6 Enumerated type Mod Description Mode Ordinal Semantic 1 on 2 blocked 3 test 4 test blocked 5 off 3 7 7 Enumerated type multiplier Description Exponents of the multiplier value in base 10 Ordinal Semantic Explanation 24 y Yocto 21 z Zepto 18 a Atto 15 f Femto 12 p Pico 9 n Nano 6 u Micro 3 m Milli 2 c Centi 1 d Deci 0 1 da Deca 2 h Hecto 3 k Kilo 6 M Mega 9 G Giga 12 T Tera 15 P Petra 18 E Exa 21 Z Zetta 24 Y Yotta IEC 61850 Protocol Manual Mx7xI EN M M 70 series 3 7 8 3 7 9 3 7 10 3 7 11 P
4. Page 24 70 series Services AA Client Server Comments TP MC Subscriber Publisher Control clause 17 5 1 S51 Select TP M N O Y S52 SelectWithValue TP M N O N S53 Cancel TP O N O Y S54 Operate TP M N M Y S55 Command TP M N O N Termination S56 TimeActivated Operate TP O N O N File transfer clause 20 S57 GetFile TP o N M Y S58 SetFile TP O N O N S59 DeleteFile TP O N O N S60 GetFileAttributeValues TP O N M Y Time 5 5 Ti Time resolution of internal clock 20 1ps nearest negative power of 2 in seconds T2 Time accuracy of internal clock TO Ti 14 100us T2 T3 T4 T5 T3 supported TimeStamp resolution 20 1ps Nearest value of 2 n in seconds according to 5 5 3 7 3 3 TABLE 3 ACSI SERVICE CONFORMANCE STATEMENT IEC 61850 Protocol Manual Mx7xl EN M M 70 series 3 3 1 3 2 3 3 Page 25 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 Objective To provide comprehensive details of the standard data object model
5. Mx7xlI EN M M IEC 61850 Protocol Manual Page 64 70 series 3 4 26 Logical Node MMXU_3 Description Standard measurements Minimum Thermal Demands Bus 1 M571 M572 M871 M872 Bus 2 M572 M872 LN Class MMXU Attribute Attr Type Explanation TAX Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Totw MV_0_DB Total active power Total P TotVAr MV_0_DB Total reactive power Total Q TotVA MV_0_DB Total apparent power Total S PPV DEL_0O_DB Phase to Phase voltages PhV WYE_2_DB Phase to Ground voltages A B C N Ww WYE_1_DB Phase active power P VAr WYE_1_DB Phase reactive power Q VA WYE_1_DB Phase apparent power S 3 4 27 Logical Node MMXU_4 Description Standard measurements Fundamental Thermal Demands Maximum Fundamental Thermal Demands for Bus 1 M871 LN Class MMXU Attribute Attr Type Explanation wu bs Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate A WYE_3_DB Phase Currents A B C N Residual IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 65 3 4 28 Logical Node MMXU_5 Description Standard measurements Fundamental Thermal Demands Maximum Fundamental Thermal Demands for Bus 1 M571 M572 M872 Fundamental Thermal Demands Maximum Fundame
6. pulsQty FLOAT32 CF Engineering units PulsQty x actVal d VISIBLE_STRING255 DC Description of the status element Textual description of the data Mx7xlI EN M M IEC 61850 Protocol Manual Page 74 70 series 3 5 4 Common Data Class CMV_0 Description Complex Measured value Floating Point Magnitude CDC Class CMV Attribute Type FC Enumeration Comment Xx instCVal Vector_0 MX Instantaneous complex measured vector cVal Vector_0 MX Deadband complex measured vector value Magnitude only The value of cVal is updated to the current value of instCVal cVal will track to instCVal i e cVal will track to instVal for this CDC q Quality MX Quality of the measurement value t TimeStamp MX Measured value Timestamp 3 5 5 Common Data Class CMV_0_DB Description Complex Measured value Floating Point Magnitude with deadband configuration CDC Class CMV Attribute Type FC Enumeration Comment xX instCVal Vector_0 MX Instantaneous complex measured vector value cVal Vector_0 MX Deadband complex measured vector value Magnitude only If db 0 then cVal is updated to the current value of instCVal i e cVal will track to instCVal q Quality MX Quality of the measurement value t TimeStamp MX Measured value Timestamp units Unit_Multiplier CF Units of the attributes that represent the data db INT32U CF Configurat
7. FndDmdMMXU1 MMXU_5 Fundamental Thermal Demands of Bus 1 MMXU1 FndDmdMMxXU2 MMXU_5 Fundamental Thermal Demands of Bus 2 MMXU2 FndDmxMMXU1 MMXU_5 Fundamental Maximum Thermal Demands of Bus 1 MMXU1 FndDmxMMXU2 MMXU_5 Fundamental Maximum Thermal Demands of Bus 2 MMXU2 MMTR1 MMTR_O Bus 1 Energy Metering Measurement LN is extended to include custom measurements MMTR2 MMTR_O Bus 2 Energy Metering Measurement LN is extended to include custom measurements MSQI1 MSQI_0 Bus 1 Sequence Components Volts amp Amps MSQI2 MSQI_O Bus 2 Sequence Components Volts amp Amps MHAI 1 MHAI_2 Bus 1 Harmonics Volts amp Amps including individual harmonics phase related K factor and harmonic demand LN is extended to include custom measurements MHAI2 MHAI_2 Bus 2 Harmonics Volts amp Amps including individual harmonics phase related K factor and harmonic demand LN is extended to include custom measurements DmdMHAI1 MHAI_0O Present Thermal Demands for Bus 1 MHAI1 DmdMHAI2 MHAI_0O Present Thermal Demands for Bus 2 MHAI3 DmnMHAI1 MHAI_1 Minimum Thermal Demands for Bus 1 MHAI1 No minimum Amp demands DmnMHAI2 MHAI_1 Minimum Thermal Demands for Bus 2 MHAI2 No minimum Amp demands DmxMHAI1 MHAI_0O Maximum Thermal Demands for Bus 1 MHAI1 DmxMHAI2 MHAI_0O Maximum Thermal Demands for Bus 2 MHAI2 MLFK1 MLFK_0O Voltage Flicker Bus 1 Measurement Custom LN MLFK2 MLFK_0O Voltage Flicker Bus 2 Measurement Custom LN MSYN1 MSYN
8. Write Configuration This does not apply to BRCB DatSet in attribute of BRCBs Mx70 devices because the ICD file defines it as type Conf in the Services section TimeStamp definition Ed2 Correct the Attribute type from INT32 to INT32U in order to extend time reach from 2038 to 2106 Seconds is unsigned INT32 IEC 61850 Protocol Manual Mx7xl EN M M 70 series Page 113 Doc Ref Subject Status Comment Conformance Supported P 85 Reporting and BufOvl BRCB is supported in Mx70 devices 14 2 3 2 2 8 Para 1 BufOv fl shall indicate to the client that entries within the buffer may have been lost The detection of possible loss of information occurs when a client requests a resync to a non existent entry or to the first entry in the queue If one of the Entrys discarded causes the Report Handler to move the pointer to the Next Entry for transmission the implementation shall indicated BufOvfl TRUE in the next entry that is formatted and transmitted only In other words the buffer overflow bit should only be True if the Resync EntrylD is not found in the buffer and buffered information has been discarded prior to resync enabling of reporting See Tissue 453 p 143 SBO Control Normal Ed2 This is a specification issue such 17 2 2 Security that the control object shall turn to the Para d state Ready if sboClass OPERATE_MANY or Unselected if sboClass OPERATE_ONCE p 88 Ambiguity
9. A WYE_0_DB Phase Currents A B C Residual Ww WYE_1_DB Phase active power P VAr WYE_1_DB Phase reactive power Q VA WYE_1_DB Phase apparent power S PF WYE_1_DB Phase power factor Z WYE_1_DB Phase Impedance X DmdintA ASG_1 Integration time interval for Thermal Demand Current X DmdintP ASG_1 Integration time interval for Thermal Demand Power X DmdintV ASG_1 Integration time interval for Thermal Demand Voltage X RsDmdA SPC_0 Reset of Thermal Demand Current X RsDmdP SPC_0 Reset of Thermal Demand Power X RsDmdV SPC_0 Reset of Thermal Demand Voltage X IEC 61850 Protocol Manual 70 series 3 4 34 3 4 35 Logical Node MMXU_11 Mx7xI EN M M Page 69 Description Standard measurements Bus 2 M571 M871 LN Class MMXU Attribute Attr Type Explanation X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Hz MV_0_DB Frequency PPV DEL_O_DB Phase to Phase voltages AB BC CA PhV WYE_2_DB Phase to Ground voltages A B C N xX DmdintA ASG_1 Integration time interval for Thermal Demand Current X DmdintP ASG_1 Integration time interval for Thermal Demand Power X DmdlintV ASG_1 Integration time interval for Thermal Demand Voltage X RsDmdA SPC_0O Reset of Thermal Demand Current X RsDmdP SPC_0 Reset of Thermal Demand Power X RsDmdV SPC_0 Reset of Thermal Demand Voltage X Logical Node
10. AE Qualifier Presentation selector 00000001 values are not checked only the presence of the parameters is used to grant complete write permission Unless both parameters are AP IS i 18 3280 108 present writes to many object are disallowed AE Qualifier 106 As7 What is the maximum and minimum MMS Max MMS PDU size 16000 bytes PDU size Min MMS PDU size 1000 bytes NOTE In order to reduce the impact of file transfers during concurrent read time data transfers the file transfers are always segmented into a configuration defined block size default 1000 octets regardless of the negotiated PDU size As8 What is the maximum start up time after a For M57x and M87x with H11 CPU power supply interrupt Approximately 75 seconds For M87x with H12 CPU module Approximately 60 seconds lt additional items gt The Mx70 IED does not support having groups of client associations and releases occur consecutively In order to test the maximum number of simultaneous client IEC 61850 Protocol Manual 70 series Mx7xI EN M M Page 131 ID Description Value Clarification associations As1 it is recommended to use a minimum of 4 seconds between each group of client associations and subsequent releases In order to use the TCP IP addressing settings i e IP address Subnet address Router mask defined by the MiCOM IEC61580 IED Configuration tool the check box option SCL MCL
11. Annex A Data Set reference in CBs For ICD files change XML schema to allow control blocks CBs without a dataset reference CBs without datasets are deactivated Annex A Base type for bitstring usage Part 8 1 introduces the attribute Check as a bitstring however SCL does not support bitstrings The philosophy is to have a separate base type for each kind of bitstring usage so bType Check is added to the schema to be used for the Check attribute The Check attribute is not used in the Mx70 data model SCL schema Schema for IP Addr Schema DAI SDI elements syntax SlUnit is not used 9 3 4 Table 14 Functional naming and LDevice Mx70 uses old method which is to always use IEDName inst inst is the attribute name identifying the LDevice within the IED The full LD name contains an additional part before the inst value General LDName length LDName is not used in Mx70 IEDs Issue is supported by the S1 IED Configurator IdName iedName ldinst p 119 Appendix B Ordering of enum differs from 7 3 Angld enumeration is not used in Mx70 data models IEC 61850 Protocol Manual 70 series Doc Ref Table 21 Subject Definition of DataSet Members Status Mx7xI EN M M Comment Datasets are not allowed to contain Control Blocks The proposed solution is that a data set might contain FCDA elements as ref
12. Custom LN Records LLNO LLNO_O Records Logical Device LPHD LDHD_0O Physical Device Information WrxRDRE1 RDRE_0O Waveform Recorder 1 WrxRDRE2 RDRE_O Waveform Recorder 2 DrxRDRE1 RDRE_O Disturbance Recorder 1 DrxRDRE2 RDRE_O Disturbance Recorder 2 System LLNO LLNO_1 System Logical Device Can only Publish GOOSE in System LLNO LPHD LPHD_0O Physical Device Information GosGGIO1 GGIO_8 GOOSE Input Status GOOSE Subscriptions are done here TVTR1 TVTR_O Voltage Transformer Phase A Bus 1 TVTR2 TVTR_O Voltage Transformer Phase B Bus 1 TVTR3 TVTR_O Voltage Transformer Phase C Bus 1 TVTR4 TVTR_O Voltage Transformer Phase N Bus 1 TVTR5 TVTR_O Voltage Transformer Phase A Bus 2 TVTR6 TVTR_O Voltage Transformer Phase B Bus 2 TVTR7 TVTR_O Voltage Transformer Phase C Bus 2 TVTR8 TVTR_O Voltage Transformer Phase N Bus 2 TVTR9 TVTR_O Voltage Transformer for Vref1 TVTR10 TVTR_O Voltage Transformer for Vref2 TCTR1 TCTR_O Current Transformer Phase A Bus 1 TCTR2 TCTR_O Current Transformer Phase B Bus 1 TCTR3 TCTR_O Current Transformer Phase C Bus 1 TCTRS5 TCTR_O Current Transformer Phase A Bus 2 TCTR6 TCTR_O Current Transformer Phase B Bus 2 TCTR7 TCTR_O Current Transformer Phase C Bus 2 IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 31 LD LN Instance LN Type Description System I O Options GGIO Logical slot number is fixed at 1 Choose option based on logical slot configuration No GGIO option No GGIO opti
13. Description Enumerated Status for Behaviour CDC Class INS Attribute Type FC Enumeration Comment Xx stVal ENUMERATED8 ST Beh The element status MMS Type INT8 q Quality ST The quality of the status value t TimeStamp ST Timestamp of the last change in state Common Data Class INS_1 Ed2 Dataclass would be called ENS_1 Description Enumerated Status for Health CDC Class INS Attribute Type FC Enumeration Comment X stVal ENUMERATED8 ST Health The element status MMS Type INT8 q Quality ST The quality of the status value TimeStamp ST Timestamp of the last change in state Mx7xI EN M M IEC 61850 Protocol Manual Page 80 70 series 3 5 18 Common Data Class INS_2 Ed2 Dataclass would be called ENS_2 Description Enumerated Status for Physical Device Health CDC Class INS Attribute Type FC Enumeration Comment stVal ENUMERATED8 ST Health The element status MMS Type INT8 q Quality ST The quality of the status value t TimeStamp ST Timestamp of the last change in state d VISIBLE_STRING255 DC Description of the status element Textual description of the data 3 5 19 Common Data Class INS_3 Description Integer Status 32 bits CDC Class INS Attribute Type FC Enumeration Comment stVal INT32 ST The element status MMS Type INT32 q Quality ST Th
14. configuration overrides local settings found under the EC61850 section of the Identity Page of the 70 Series Configurator tool must be selected Otherwise the values selected in the 70 Series Configurator tool will take affect 5 4 Server Model Table 12 PIXIT for Server Model Description Which analogue value MX quality bits are supported can be set by server Value Clarification Validity Good Invalid Reserved Questionable Overflow OutOfRange BadReference Oscillatory Failure OldData Inconsistent Inaccurate Source Y Process N Substituted N Test N OperatorBlocked lt 2Z22Z222Z22Z22Z22 lt 2 lt lt Which status value ST quality bits are supported can be set by server Validity Good Invalid Reserved Questionable Overflow OutOfRange BadReference Oscillatory Failure OldData Inconsistent Inaccurate Source Y Process N Substituted N Test N OperatorBlocked 222222222 2 lt lt Mx7xlI EN M M Page 132 Description What is the maximum number of data values in one GetDataValues request IEC 61850 Protocol Manual 70 series Value Clarification Dependent on the negotiated size of the MMS PDU and the total length of all ObjectReferences to be included within the service request The total length of all ObjectReferences must be less than the maximum supported MMS PDU size taking into account any relevant header information What is the maxi
15. 1 2 Custom LN Mx7xlI EN M M IEC 61850 Protocol Manual Page 42 70 series LD LN Instance LN Type Description MSYN2 MSYN_O Synch check Bus1 to Bus 2 Phase B for M872 Breaker amp 1 2 Custom LN MSYN3 MSYN_O Synch check Bus1 to Bus 2 Phase C for M872 Breaker amp 1 2 Custom LN MADV1 MADV_0O Advanced Measurements Bus 1 Custom LN MADV2 MADV_0O Advanced Measurements Bus 2 Custom LN MFLO1 MFLO_O Fault Distance Measurement Bus 1 Custom LN MFLO2 MFLO_O Fault Distance Measurement Bus 2 Custom LN MTMP1 MTMP_0O Temperature Measurement internal ambient Custom LN Records LLNO LLNO_O Records Logical Device LPHD LDHD_0O Physical Device Information WrxRDRE1 RDRE_O Waveform Recorder 1 WrxRDRE2 RDRE_O Waveform Recorder 2 DrxRDRE1 RDRE_O Disturbance Recorder 1 DrxRDRE2 RDRE_0O Disturbance Recorder 2 System LLNO LLNO_1 System Logical Device Can only Publish GOOSE in System LLNO LPHD LPHD_0O Physical Device Information GosGGIO1 GGIO_8 GOOSE Input Status GOOSE Subscriptions are done here TVTR1 TVTR_O Voltage Transformer Phase A Bus 1 TVTR2 TVTR_O Voltage Transformer Phase B Bus 1 TVTR3 TVTR_O Voltage Transformer Phase C Bus 1 TVTR4 TVTR_O Voltage Transformer Phase N Bus 1 TVTR5 TVTR_O Voltage Transformer Phase A Bus 2 TVTR6 TVTR_O Voltage Transformer Phase B Bus 2 TVTR7 TVTR_O Voltage Transformer Phase C Bus 2
16. DmdMHAI1 MHAI_0 Present Thermal Demands for Bus 1 MHAI1 DmdMHAI2 MHAIL 1 Present Thermal Demands for Bus 2 MHAI2 Volts only DmnMHAI1 MHAIL 1 Minimum Thermal Demands for Bus 1 MHAI1 No minimum Amp demands DmnMHAI2 MHAI_1 Minimum Thermal Demands for Bus 2 MHAI2 Volts only DmxMHAI1 MHAI_O Maximum Thermal Demands for Bus 1 MHAI1 DmxMHAI2 MHAIL 1 Maximum Thermal Demands for Bus 2 MHAI2 Volts only MLFK1 MLFK_O Voltage Flicker Bus 1 Measurement Custom LN MLFK2 MLFK_O Voltage Flicker Bus 2 Measurement Custom LN MSYN1 MSYN_O Synch check Bus1 to Bus 2 Phase A Custom LN MSYN2 MSYN_O Synch check Bus1 to Bus 2 Phase B Custom LN MSYN3 MSYN_O Synch check Bus1 to Bus 2 Phase C Custom LN Mx7xI EN M M IEC 61850 Protocol Manual Page 36 70 series LD LN Instance LN Type Description MADV1 MADV_0O Advanced Measurements Bus 1 Custom LN MFLO1 MFLO_O Fault Distance Measurement Bus 1 Custom LN MTMP1 MTMP_0O Temperature Measurement Internal ambient Custom LN Records LLNO LLNO_O Records Logical Device LPHD LDHD_0O Physical Device Information WrxRDRE1 RDRE_O Waveform Recorder 1 WrxRDRE2 RDRE_O Waveform Recorder 2 DrxRDRE1 RDRE_O Disturbance Recorder 1 DrxRDRE2 RDRE_O Disturbance Recorder 2 System LLNO LLNO_1 System Logical Device Can only Publish GOOSE in System LLNO LPHD LPHD_O Physical Device Informa
17. LPHD time of next change to daylight saving time time of next change to standard time These settings would be of new CDC to be defined The proposed Data objects are not used Ed2 These Logical Nodes LNs for condition monitoring information from switchgear are not used Unused in Mx70 devices Unused in Mx70 devices Unused in Mx70 devices The proposal to trigger a recorder from an external command was not accepted No change to the standard has resulted Conformance 70 series Supported Local Remote Green Loc is not used Interval Meter MITV on hold Clause 4 Include or reject the suggested Abbreviated Terms in WG17 s 61850 420 behaviour attribute is not required for LLNO Numbering of extended data Str in LN PSCH ATCC ParOp on hold on hold Green Behaviour attribute Mod was mandatory and will become optional The numbering convention to be applied is unclear in regards to additional Data needed more times than defined in the Logical Node class Anin isn t used for the Logical node class in Mx70 devices GosGGIO1 has Data Objects AnIn1 and Anin2 but Anin has been suppressed per Tissue 320 The parallel operation attribute in ATCC IEC 61850 Protocol Manual 70 series Doc Ref Subject Status Comment Mx7xI EN M M Conformance Page 123 Supported 5 9 4 is not used in Mx70 p 37 5 5 3 5 5 4 ATCC LTC
18. TVTR8 TVTR_O Voltage Transformer Phase N Bus 2 TCTR1 TCTR_O Current Transformer Phase A Bus 1 TCTR2 TCTR_O Current Transformer Phase B Bus 1 TCTR3 TCTR_O Current Transformer Phase C Bus 1 TCTRS5 TCTR_O Current Transformer Phase A Bus 2 TCTR6 TCTR_O Current Transformer Phase B Bus 2 TCTR7 TCTR_O Current Transformer Phase C Bus 2 IEC 61850 Protocol Manual 70 series Mx7xI EN M M Page 43 System I O Options GGIO Logical slot numbers may range from 1 7 Choose option based on logical slot configuration No GGIO option No GGIO option No generic Process I O Choose option GGIOx GGIO_1 Generic Process I O P30 based on logical slot configuration see Note 1 GGIO for logical slot x 1 8DI 4DO Choose option GGIOx GGIO_2 Generic Process I O P31 based on logical jot annaurcion see Note 1 GGIO for logical slot x 1 16D1 4DO Choose option GGIOx GGIO_4 Generic Process I O P30 P40 based on logical f f slot configuration see Note 1 GGIO for logical slot x 1 P30 amp logical slot x P40 8DI 4DO0 8Al Choose option GGIOx GGIO_5 Generic Process I O P31 P40 based on logical slot configuration see Note 1 GGIO for logical slot x 1 P31 amp logical slot x P40 16DI 4DO 8Al Choose option GGIOx GGIO_7 Generic Process I O P40 based on logical N slot configuration see Note 1 GGIO for logical slot x 8Al GGIO2 GGIO_9 Generic Process I O 32 Virtual
19. The following technical issues are editorial and schema related only 109 110 111 112 115 117 120 121 123 143 144 224 227 231 237 276 279 290 299 314 323 344 365 419 430 459 4 11 3 Question only Tissues The following technical issues are questions only and no compliance is required 113 131 140 162 167 175 194 200 202 207 225 226 228 229 230 232 238 242 249 301 326 380 466 470 4 11 4 Tissues Not Applicable for Mx70 143 144 222 377 4 11 5 Tissues Unresolved 246 527 528 535 541 547 583 596 4 11 6 Technical Issues Doc Ref Subject Status Comment Conformance Supported 114 17 1 1 1 Naming URCB Green amp Tissue was not accepted N A 17 1 1 2 116 8 2 1 3 GetNameList with Green The GetLogicalDeviceDirectory 9 2 2 3 empty response response should be an MMS GetNamedList response with moreFollows FALSE and a NULL List If the GetNamedList service is issued for a Domain scoped object and the Domain does not exist then a Confirmed Error response with object non existent shall be returned 117 18 1 2 5 TimeAllowedtoLive Green Tissue was not accepted however how long to wait document is revised so that Client Server v was replaced by Publisher Subscribers 118 23 1 File directory Green The File list excluded the Directory KEMA recommends always including the directory separator When the last N A character of FileName is the file separator V it s a directory 119 MMS
20. This text is posted under Tissue 456 The impact of the new type ARRAY on the services GetData and others has to be analyzed Will be resolved with clause 10 tissues Ambiguity GOOSE Issue There is a discrepancy between SqNum the 7 2 and 8 1 definitions of GOOSE SqNum 7 2 clause 15 2 3 6 states The initial value for SqNum shall be 1 The value of 0 shall be reserved Whereas 8 1 clause 18 1 2 15 states The value of 0 is reserved for the first transmission of a StNum change Proposal Change part 7 2 to match 8 1 The SqNum shall be set to 0 to indicate the first GOOSE transmission initiated by a value increment of StNum change The first GOOSE message after a state change should be easily distinguishable from all other messages The revised Text is Following a StNum change the counter SqNum shall be set to a value of 0 If the counter SqNum overruns it shall be set to a value of 1 The initial value for SqNum upon a transition of GoEna to TRUE shall be 1 Add DstAddr to Within the current scheme of 61850 the GsCB SV GSE and SMV control blocks do not contain the destination multicast MAC address while the Goose control blocks do This means that the only way of finding out the group addresses for GSE and SMV are through SCL This is fine if everything is configured correctly but does not allow for the validation of the configuration and will make diagnostics needlessly difficult If we ma
21. phsA CMV_0_DB Measurement values for Phase A phsB CMV_0_DB Measurement values for Phase B phsC CMV_0_DB Measurement values for Phase C d VISIBLE_STRING255 DC Description of the status element Textual description of the data Mx7xlI EN M M IEC 61850 Protocol Manual Page 88 70 series 3 5 38 Common Data Class WYE_2 Description Phase to ground measurements for a 3 Phase system Phase A B C Neutral including Description CDC Class WYE Attribute Type FC Enumeration Comment xX phsA CMV_0 Measurement values for Phase A phsB CMV_0 Measurement values for Phase B phsC CMV_0 Measurement values for Phase C neut CMV_0O Measurement values for neutral input d VISIBLE_STRING255 DC Description of the status element Textual description of the data 3 5 39 Common Data Class WYE_2_ DB Description Phase to ground measurements for a 3 Phase system Phase A B C Neutral including Description with deadband configuration CDC Class WYE Attribute Type FC Enumeration Comment Xx phsA CMV_0_DB Measurement values for Phase A phsB CMV_0_DB Measurement values for Phase B phsC CMV_0_DB Measurement values for Phase C neut CMV_0_DB Measurement values for neutral input d VISIBLE_STRING255 DC Description of the status element Textual description of the data 3 5 40 Common Data Class WY
22. the following tree structure Device Root COMTRADE IEDNAME icd soelog txt Files soelog txt and the icd file are stored in the device s root directory Disturbance recorder files are stored in the Comtrade directory for example Comtrade DR1_0001 zip Y lt Zip includes cfg and dat gt Directory names are separated from the file name by Forward slash character The use of MS DOS directory separator characters V will return a positive result to the file transfer MMS service requests but with no data elements directory or filenames The maximum file name size including path recommended 64 chars 256 chars Are directory file name case sensitive N Maximum file size Maximum file size is not defined Free space varies and depends completely on configuration The maximum file size is limited by the maximum number of data elements and number of clients Maximum file size is not restricted over the MMS file transfer interface Refer to the section covering the PIXIT for Data Set Model Is the requested file path included in the MMS fileDirectory respond file name Y Is the wild char supported MMS fileDirectory request Y wild card Is it allowed that 2 clients get a file at the same time Y Is the IETF FTP protocol also implemented Yes The File Transfer Protocol FTP as defined by the Internet Engineering Task Force IETF is sup
23. time synchronization parameters SNTP Server 1 SNTP Server 2 and polling interval is performed by the IED Configurator tool so if these parameters are not available via an SCL file they must be configured manually If the assigned IP address is duplicated elsewhere on the same network the remote communications will operate in an indeterminate way However a check is performed for a conflict on every IP configuration change and at power up The Mx70 allows other devices to perform duplicate IP address detection An Mx70 device can be configured to accept data from networks other than the local network by using the Gateway setting The data model of Mx70 Measurement IEDs The data model naming convention which was adopted in the M57x and M87x Measurement IEDs has been standardized for consistency Hence the Logical Nodes are allocated to one of the three Logical Devices Measurements Records or System as appropriate and the wrapper names used to instantiate Logical Nodes will remain consistent between the M57x and M87x measuring IEDs The data model is described in the Model Implementation Conformance Statement MICS document which is available as a separate section of this IEC 61850 user manual The MICS document provides lists of Logical Device definitions Logical Node definitions Common Data Class and Attribute definitions Enumeration definitions and MMS data type conversions It generally follows the format used in Parts
24. 519 ThdPhV WYE_1 Voltage total Harmonic or Interharmonic Distortion for phase to ground ThdPPV DEL_O Voltage total Harmonic or Interharmonic Distortion for phase to phase Logical Node MHAI_1 Description Harmonics or Inter harmonics totals for voltage only without individual harmonics LN Class MHAI Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate ThdPhV WYE_1 Voltage total Harmonic or Interharmonic Distortion for phase to ground ThdPPV DEL_O Voltage total Harmonic or Interharmonic Distortion for phase to phase Mx7xlI EN M M Page 60 IEC 61850 Protocol Manual 70 series 3 4 19 Logical Node MHAI_ 2 Description Harmonics or Interharmonics totals for Volts and Amps including individual harmonics phase related K factor and harmonic demand LN Class MHAI Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Hz MV_0O Basic Frequency HA HWYE_0O Phase related sequence of harmonics or interharmonics Current for A B C N Residual HPhvV HWYE_0 Sequence of Harmonics or Interharmonics for phase to ground voltages AN BN CN NG HPPV HDEL_O Sequence of Harmonics or Interharmonics for phase to phase voltages AB BC CA HKf WYE_0O Phase related K factor for A B C Transformer dera
25. 61850 1 edition It was necessary to eliminate some confusion that existed in the data definitions The corresponding data objects of Mod Beh IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 73 Health and PhyHealth use the enumerated versions for the CDCs All other uses of the 3 CDCs use the INT32 version An 8 bit enumeration is possible because all enumerations so far have less the 128 possible standardized values 3 5 1 Common Data Class ASG_0 Description Analogue Setting CDC Class ASG Attribute Type FC Enumeration Comment Xx setMag AnalogueValue_0 SP Analogue Value d VISIBLE_STRING255 DC Description of the status element Textual description of the data 3 5 2 Common Data Class ASG_1 Description Analogue Setting for Bitronics non standard data class CDC Class ASG Attribute Type FC Enumeration Comment X setMag AnalogueValue_0 SP Analogue Value d VISIBLE_STRING255 DC Description of the status element Textual description of the data dataNs VISIBLE_STRING255 EX Data name space 3 5 3 Common Data Class BCR_0O Description Binary counter reading CDC Class BCR Attribute Type FC Enumeration Comment Xx actVal INT32 ST Binary counter status is a 32 bit Integer value q Quality ST Quality of the measurement value t TimeStamp ST Time deadbanded magnitude last exceeded its db configuration parameter
26. 8 IEC 61850 Protocol Manual 70 series Component Vector_0 Comment Complex vector Floating Point Magnitude value Parent Type Vector Attribute Type Enumeration Comment xX mag AnalogueValue_0 The magnitude of the complex value Component Vector_1 Comment Complex vector Floating Point Magnitude and Angle values Parent Type Vector Attribute Type Enumeration Comment X mag AnalogueValue_0 The magnitude of the complex value ang AnalogueValue_0 The angle of the complex value the unit is degrees IEC 61850 Protocol Manual Mx7xI EN M M 70 series 3 7 3 7 1 3 7 2 3 7 3 3 7 4 Page 93 Enumerated type definitions The following sub sections specify the enumerations that are associated to some Common Data Class attributes The definition of the enumerations is according to IEC 61850 7 3 and IEC 61850 7 4 unless otherwise stated Enumerated type Beh Description Behaviour Ordinal Semantic 1 on 2 blocked 3 test 4 test blocked 5 off Enumerated type Check Description Check specifies the kind of checks a control object shall perform before issuing the control operation Ordinal Semantic 0 No check 1 synchrocheck 2 Interlocking check 3 both Enumerated type ctlModel Description Control Model Ordinal Semantic 0 status only direct with normal security
27. 87x Change BCR actVal TYPE to INT32 add Amp amp Vol to TCTR amp TVTR N A 1 33 4 08 0 4 05 1 05 4 04 6 26 14 H10 H11 70 SERIES MANUAL SET M87x User Manual M57x User Manual 70 SERIES Modbus Protocol 70 SERIES DNP3 Protocol M870D Remote Display Manual M570Dx Remote Display Manual 70 SERIES IEC 61850 Protocol Manual CERTIFICATION Alstom Grid certifies that the calibration of our products is based on measurements using equipment whose calibration is traceable to the United States National Institute of Standards Technology NIST INSTALLATION AND MAINTENANCE Alstom Grid products are designed for ease of installation and maintenance As with any product of this nature installation and maintenance can present electrical hazards and should be performed only by properly trained and qualified personnel If the equipment is used in a manner not specified by Alstom Grid the protection provided by the equipment may be impaired ASSISTANCE For assistance contact the Alstom Grid Worldwide Contact Centre http www alstom com grid contactcentre Tel 44 0 1785 250 070 SAFETY SECTION Please refer to the M87x and M57x User Manuals for information regarding safety installation commissioning and decommissioning Mx7xl EN M M IEC 61850 Protocol Manual Page 6 70 series COPYRIGHT NOTICE This manual is copyrighted and all rights are reserved The distribution and sale of this manual is intended for the
28. 9 e No pre defined datasets e 32 pre defined URCBs Unbuffered Report Control Blocks in System LLNO e 4 pre defined BCRBs Buffered Report Control Blocks in System LLNO e 8 pre defined GoCB GOOSE Control Blocks in System LLNO Data Section 10 e Includes all features except access controls however the ability to write to points depends upon association parameters Datasets Section 11 e 26 definable datasets with FCD FCDA capability A dataset consists of a named list of variables Substitution Section 12 NOT SUPPORTED in 70 Series Settings Groups Section 13 NOT SUPPORTED in 70 Series Report Control Blocks and Reports e 32 indexed UCRBs Unbuffered Report Control Blocks e Power on configurability includes coName control block name and DatSet dataset e Dynamic configurability includes RptID report ID OptFlds option fields Section 14 BufTm buffer time and TrgOps trigger options e 4 indexed BRCB Buffered Report Control Blocks e LCBs Logic Control Blocks are UNSUPPORTED e Dynamic RCBs Report Control Blocks are UNSUPPORTED New RCBs cannot be created after power on once the configuration reboot occurs to accept the 61850 configuration IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 9 Section 15 Generic Substation Events GSE and GOOSE 8 publishing GOOSEs with GOOSE Control Block GoCB Power on configurability includes Control Block name cbName Dataset DatSet Applicati
29. Binary Input 27 Ind28 SPS_0 GOOSE Binary Input 28 Ind29 SPS_0 GOOSE Binary Input 29 Ind30 SPS_0 GOOSE Binary Input 30 Ind31 SPS_0 GOOSE Binary Input 31 Ind32 SPS_0 GOOSE Binary Input 32 Logical Node GGIO_9 Description Generic Process I O Virtual Output signals LN Class GGIO Attribute Attr Type Explanation T Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Ind1 SPS_0 Virtual Output 1 Ind2 SPS_0 Virtual Output 2 Ind3 SPS_0 Virtual Output 3 Ind4 SPS_0 Virtual Output 4 Ind5 SPS_0 Virtual Output 5 Ind6 SPS_0 Virtual Output 6 Ind7 SPS_0 Virtual Output 7 Ind8 SPS_0 Virtual Output 8 Ind9 SPS_0 Virtual Output 9 Ind10 SPS_0 Virtual Output 10 Ind11 SPS_0 Virtual Output 11 Ind12 SPS_0 Virtual Output 12 Ind13 SPS_0 Virtual Output 13 Ind14 SPS_0 Virtual Output 14 Ind15 SPS_0 Virtual Output 15 Ind16 SPS_0 Virtual Output 16 Ind17 SPS_0 Virtual Output 17 Ind18 SPS_0 Virtual Output 18 Ind19 SPS_0 Virtual Output 19 Ind20 SPS_0 Virtual Output 20 Mx7xI EN M M Page 55 Mx7xI EN M M Page 56 3 4 11 3 4 12 IEC 61850 Protocol Manual 70 series General Logical Node 0 Measurement Domain and Record Domain Attribute Attr Type Explanation Ind21 SPS_0 Virtual Output 21 Ind22 SPS_0 Virtual Output 22 Ind23 SPS_0 Virtual Output 23 Ind24 SP
30. Bus 1 MMXU1 FndDmdMMXU2 MMXU_5 Fundamental Thermal Demands of Bus 2 MMXU2 FndDmxMMXU1 MMXU_5 Fundamental Maximum Thermal Demands of Bus 1 MMXU1 FndDmxMMXU2 MMXU_5 Fundamental Maximum Thermal Demands of Bus 2 MMXU2 MMTR1 MMTR_O Bus 1 Energy Metering Measurement LN is extended to include custom measurements MMTR2 MMTR_O Bus 2 Energy Metering Measurement LN is extended to include custom measurements MSQl1 MSQI_0 Bus 1 Sequence Components Volts amp Amps MSQI2 MSQI_0 Bus 2 Sequence Components Volts amp Amps MHAI1 MHAIL 2 Bus 1 Harmonics Volts amp Amps including individual harmonics phase related K factor and harmonic demand LN is extended to include custom measurements MHAI2 MHAIL 2 Bus 2 Harmonics Volts amp Amps including individual harmonics phase related K factor and harmonic demand LN is extended to include custom measurements DmdMHAI1 MHAI_0 Present Thermal Demands for Bus 1 MHAI1 DmdMHAI2 MHAI_0 Present Thermal Demands for Bus 2 MHAI2 DmnMHAI1 MHAIL 1 Minimum Thermal Demands for Bus 1 MHAI1 No minimum Amp demands DmnMHAI2 MHAIL 1 Minimum Thermal Demands for Bus 2 MHAI2 No minimum Amp demands DmxMHAI1 MHAI_0O Maximum Thermal Demands for Bus 1 MHAI1 DmxMHAI2 MHAI_0 Maximum Thermal Demands for Bus 2 MHAI2 MLFK1 MLFK_O Voltage Flicker Bus 1 Measurement Custom LN MLFK2 MLFK_O Voltage Flicker Bus 2 Measurement Custom LN MSYN1 MSYN_O Synch check Bus1 to Bus 2 Phase A for M872 Breaker amp
31. CF Number of cycles of power frequency used for harmonic calculation d VISIBLE_STRING255 DC Description of the status element Textual description of the data Mx7xlI EN M M IEC 61850 Protocol Manual Page 78 70 series 3 5 12 Common Data Class HDEL_0 Description Phase to Phase harmonics measurements for a 3 phase system CDC Class HWYE The Harmonic value for Delta represents the harmonic content of phase to phase quantities Both magnitudes and phase angles are represented as arrays of floating point quantities The first index index 0 of each array represents the DC component and index N represents the component at FREQ N f where f is the fundamental frequency Attribute Type FC Enumeration Comment xX q Quality MX The quality of the status value t TimeStamp MX Timestamp of the last change in state phsABHar Vector_1 64 MX Magnitude and Angle of all 64 phase A harmonics phsBCHar Vector_1 64 MX Magnitude and Angle of al 64 phase B harmonics phsCAHar Vector_1 64 MX Magnitude and Angle of all 64 phase C harmonics numHar INT16U CF Number of harmonic values evalTm INT16U CF Time window applied to interharmonic calculations Value is in ms frequency FLOAT32 CF Frequency hvRef ENUMERATED8 CF hvRef Reference type i e ratio of harmonic to fundamental to RMS or to absolute numCyc INT16U CF Number of cycles of power frequency used
32. Delta class DEL_0 used for multi phase measurements for WYE or Logical Node MLFO_0 Custom LN not contained in IEC 61850 part 7 4 definitions Description LN Class DELTA connections since neutral is not measured for flicker Fault Distance Measurement indicates the Fault Location MFLO Custom LN Class not contained in IEC 61850 part 7 4 definitions This LN shall be used for calculation of flicker including voltage fluctuations according to IEC Standard 61000 4 15 The main use is for operative applications Attribute Attr Type Explanation X Mod INC_O Mode Beh INS_O Behaviour Health INS_O Health NamPIt LPL_2 Name Plate FltDiskm MV_0 Fault Distance Use the 70Series Configurator to program the unit of measure IEC 61850 protocol has standardized on a unit of measure in kilometers If during configuration another unit of measure is programmed the user then the value for Farult Distance will be measured in that unit of measure IEC 61850 Protocol Manual 70 series 3 4 17 3 4 18 Mx7xI EN M M Page 59 Logical Node MHAI_0 Description Harmonics or Interharmonics totals current and voltage without individual harmonics LN Class MHAI Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate TddA WYE_0 Total Current Demand Distortion per IEEE
33. GOOSE Floating point input 25 Anln26 MV_1 GOOSE Floating point input 26 Anln27 MV_1 GOOSE Floating point input 27 Anln28 MV_1 GOOSE Floating point input 28 Anln29 MV_1 GOOSE Floating point input 29 AnIn30 MV_1 GOOSE Floating point input 30 Anln31 MV_1 GOOSE Floating point input 31 Anln32 MV_1 GOOSE Floating point input 32 IntIn1 INS_3 GOOSE Integer input 1 IntIn2 INS_3 GOOSE Integer input 2 IntIn3 INS_3 GOOSE Integer input 3 IntIn4 INS_3 GOOSE Integer input 4 IntIn5 INS_3 GOOSE Integer input 5 Mx7xI EN M M Page 53 Mx7xI EN M M Page 54 Attribute Attr Type Explanation IntIn6 INS_3 GOOSE Integer input 6 IntIn7 INS_3 GOOSE Integer input 7 IntIn8 INS_3 GOOSE Integer input 8 IntIng INS_3 GOOSE Integer input 9 IntIn10 INS_3 GOOSE Integer input 10 IntIn11 INS_3 GOOSE Integer input 11 IntiIn12 INS_3 GOOSE Integer input 12 Intin13 INS_3 GOOSE Integer input 13 IntiIn14 INS_3 GOOSE Integer input 14 IntiIn15 INS_3 GOOSE Integer input 15 IntIn16 INS_3 GOOSE Integer input 16 IntIn17 INS_3 GOOSE Integer input 17 Intin18 INS_3 GOOSE Integer input 18 IntIn19 INS_3 GOOSE Integer input 19 IntIn20 INS_3 GOOSE Integer input 20 IntIn21 INS_3 GOOSE Integer input 21 IntIn22 INS_3 GOOSE Integer input 22 IntIn23 INS_3 GOOSE Integer input 23 IntIn24 INS_3 GOOSE Integer input 24 IntIn25 INS_3 GOOS
34. Green Ed 2 MMS GetCapabilityList service GetCapabilityList required 4 Services from the SCL File shall be given as an example in edition 2 GetCapabilityList is not supported a z because tissue is not clear enough without an example to implement a technical resolution Issue needs to be further clarified 122 25 1 1 1 P Type IP DNS Green DNS name is not allowed and is removed 9 Table 111 name from the table i IEC 61850 Protocol Manual 70 series 128 18 19 Doc Ref Subject Add DstAddr to GsCB SV Status Green Mx7xI EN M M Comment Mx70 devices do not use GSCB and SVCB in the data models Page 125 Conformance Supported N A 165 p 47 14 3 1 Improper Error Response for GetDataSetValues Green Issue is regarding an ACCESS error to GetDataSetValues requests executed for a non existent DataSet e g VGET in MMS MMS ErrorResponse of Class ACCESS and Error Code OBJECT NON EXISTENT to be returned 168 p 32 7 3 2 Para 2 Order of attributes in MMS components Green Within a MMS component representing IEC 61850 7 4 DATA the order of MMS components is determined by the order of the names of the common data classes as defined in IEC 61850 7 3 or IEC extensions of it For private CDCs the order of attributes within the MMS component shall be identical to the order within the SCL ICD file describing the data model 177 p 52 17
35. M572 Dual Feeder Voltage Reference 1 V MMXN2 MMXN_O M572 Dual Feeder Voltage Reference 2 V FndMMXU1 MMXU_7 Fundamental of Bus 1 MMXU1 Measurements FndMMXU2 MMXU_7 Fundamental of Bus 2 MMXU2 Measurements DmdMMXU1 MMXU_1 Present Thermal Demands of Bus 1 MMXU1 Measurements DmdMMXU2 MMXU_1 Present Thermal Demands of Bus 2 MMXU2 Measurements DmnMMXU1 MMXU_3 Minimum Thermal Demands of Bus 1 MMXU1 DmnMMXU2 MMXU_3 Minimum Thermal Demands of Bus 2 MMXU2 DmxMMXU1 MMXU_1 Maximum Thermal Demands of Bus 1 MMXU1 DmxMMXU2 MMXU_1 Maximum Thermal Demands of Bus 2 MMXU2 FndDmdMMXU1 MMXU_5 Fundamental Thermal Demands of Bus 1 MMXU1 FndDmdMMXU2 MMXU_5 Fundamental Thermal Demands of Bus 2 MMXU2 FndDmxMMXU1 MMXU_5 Fundamental Maximum Thermal Demands of Bus 1 MMXU1 FndDmxMMXU2 MMXU_5 Fundamental Maximum Thermal Demands of Bus 2 MMXU2 MMTR1 MMTR_O Bus 1 Energy Metering Measurement LN is extended to include custom measurements MMTR2 MMTR_O Bus 2 Energy Metering Measurement LN is extended to include custom measurements MSQlI1 MSQI_0 Bus 1 Sequence Components Volts amp Amps MSQI2 MSQI_O Bus 2 Sequence Components Volts amp Amps MHAI1 MHAI_2 Bus 1 Harmonics Volts amp Amps including individual harmonics phase related K factor and harmonic demand LN is extended to include custom measurements MHAI2 MHAI_2 Bus 2 Harmonics Volts amp Amps including individual harmonics phase related K factor and harmonic demand LN is extended to i
36. SNTP servers can be polled for configurable time but only one at a time Section 20 Files COMTRADE files are supported Mx7xl EN M M IEC 61850 Protocol Manual Page 10 70 series 1 2 3 The data model To ease understanding the data model of any IEC 61850 IED can be viewed as a hierarchy of information The categories and naming of this information is standardized in the IEC 61850 specification Logical Device IED1 Logical Device 1 to n M0183ENa FIGURE 1 DATA MODEL LAYERS IN IEC 61850 The levels of this hierarchy can be described as follows Physical Device Identifies the actual IED within a system Typically the device s name or IP address can be used for example Feeder_1 or 192 168 0 254 Logical Device Identifies groups of related Logical Nodes within the Physical Device For the 70Series IEDs 3 Logical Devices exist Measurements Records System Wrapper Logical Node Instance Identifies the major functional areas within the IEC 61850 data model Either 3 or 6 characters are used as a prefix to define the functional group wrapper while the actual functionality is identified by a 4 character Logical Node name suffixed by an instance number For example GGIO1 generic process I O MMXU1 measurements Bus 1 DmdMMXU1 Present thermal demands for Bus 1 IEC 61850 Protocol Manual Mx7xI EN M M 70 series 1 3 Page 11 Data Object This next lay
37. The scope of part 5 of the IEC 61850 standards covers the communication requirements for functions and device models 4 5 2 Editorial and schema related TISSUES At the time of writing there are no logged editorial and schema related technical issues against part 5 4 5 3 Question only Tissues At the time of writing there are no question only technical issues against part 5 4 5 4 Technical Issues At the time of writing there are no logged technical issues against part 5 4 6 Part 6 Standard 4 6 1 Specification scope The scope of part 6 of the IEC 61850 standards covers the configuration description language for communication in electrical substations related to IEDs 4 6 2 Editorial and schema related TISSUES The following technical issues are editorial and schema related only 4 12 14 16 157 176 197 201 211 212 245 273 284 285 286 291 303 The following technical issues are considered not relevant for IEC 61850 implementation on Mx70 devices and so they are classified as Not Applicable N A 13 15 24 170 313 317 355 356 366 378 425 428 460 465 532 533 534 4 6 3 Question only Tissues The following technical issues are questions only and no compliance is required 2 19 20 21 22 23 158 203 210 277 280 296 318 341 353 354 357 367 371 436 445 452 454 458 471 472 484 491 589 4 6 4 Technical Issues Doc Ref Subject Status Comment Conformance Annex A5 Syntax Correction to IP Address syntax to include missing charac
38. When is the time quality bit ClockFailure set This time quality bit is not supported When is the time quality bit ClockNotSynchronized set When the DUT does not receive a valid time sync message from any of the available time sync sources Is the timestamp of a binary event adjusted to the configured scan cycle N A binary events are event driven Does the device support time zone and daylight saving Y IEC 61850 Protocol Manual 70 series Description Which attributes of the SNTP response packet are validated Mx7xI EN M M Page 141 Value Clarification Leap indicator not equal to 3 Mode is equal to SERVER OriginateTimestamp is equal to value sent by the SNTP client as Transmit Timestamp RX TX timestamp fields are checked for reasonableness N SNTP version 3 and or 4 N other describe What is the SNTP request interval Variable 64 to 1024 seconds lt additional items gt In order to use the SNTP settings defined by the MiCOM IEC61580 IED Configuration tool the check box option SCL MCL configuration overrides local settings found under the EC61850 section of the Identity Page of the 70 Series Configurator tool must be selected Otherwise the SNTP values selected on the SNTP page of the 70 Series Configurator tool will take affect The time accuracy of Mx70 IEDs is to fourteen 14 significant bits of the FractionOfSecond attribute This e
39. elements supported by each one of the logical devices M571 M572 Dual Feeder M572 Breaker amp 12 M871 M872 Dual Feeder and M872 Breaker amp 12 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 is conformant to the Part 7 series of the IEC 61850 standard specifications with the following exceptions The Trigger Options field is not presented within the data object tables The M O Mandatory Optional field is not present in the data object tables as the definitions are as deployed within the models An additional column X is used to signify Alstom Grid custom objects or attributes Logical Device definitions The Mx7x IEDs implement 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 LLNO 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 Mx7x 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 Mx7x
40. establishing a TCP IP connection that the IP address be changed from the factory default address of 192 168 0 254 to the IP address to be assigned for the IED A serial connection to the Mx70 device s P1 service port can be used to obtain the IP address from an Mx70 device The service port operating with Hyperterminal allows the IP address to be retrieved and changed by typing the ip command You are prompted to enter a new IP address During the configuration process you will enter the device s IP address The IP address is entered starting with the 70Series Configurator while in the Identity menu page On the Identity menu page a radio button allows the user to select the source from which the IP address and SNTP addressing will be loaded The IP address can be obtained by either loading it from the INI file or the MCL file If any change is made to the IP address by way of the IEC 61850 IED Configurator the IP address may not be written to the Mx70 device s IDENTITY INI file As a result it is possible that the 70Series Configurator Identity page may not indicate the actual IP address It is always a good practice to determine the IP address before the configuration process is initiated IEC 61850 Protocol Manual Mx7xI EN M M 70 series 1 3 1 Page 13 In order to communicate with an IEC 61850 device it is necessary to know its Ethernet address This IP address can then be configured into either An IEC 61850 c
41. folders should automatically created when the user sets iedcfg Templates location as the desired location where the ICD file is saved The browse function can be used from within the IED Configurator to make it easier to load the ICD file once it has been saved on the PC The 61850 IED Configurator will produce the Micom Configuration Language MCL file which contains the IEC 61850 configuration that is loaded into the Mx70 device Using a collection of these ICD files from varying products the entire protection and measurement function of a substation can be designed configured and tested using simulation tools before the product is even installed into the substation To aid in this process the 61850 IED Configurator software tool included on the CD as MiCOM S1 Studio Support Software allows the pre configured IEC 61850 configuration file an SCD file or CID file to be imported and transferred to the IED Alongside this the requirements of entering a configuration manually are satisfied by allowing the manual creation of configuration files for M57x and M87x devices based on their original IED capability description ICD file Other features include the extraction of configuration data for viewing and editing and a sophisticated error checking sequence which ensures that the configuration data is valid for sending to the IED and that the IED will function within the context of the substation Configuration Banks To promote version man
42. has a compact Flash card installed The Host firmware version must be version v3 00 0 or later which is the version that implements the IEC 61850 communications protocol The 70Series Configurator software must be the proper version in order to support Creation of new initialization INI files The INI files are required in order to configure the Mx70 device The 70 Series Configurator creates these INI files and stores them on the Mx70 device in the folder C Config Creation of the IED Capability Description ICD file The 70 Series ICD file is an IEC 61850 Substation Configuration Language SCL file which contains the IEC 61850 capability description of the particular 70 Series IED It is created by the 70 Series Configurator tool and then used by the IEC 61850 IED Configurator tool to perform an IEC 61850 configuration After a new device configuration is created the 70 Series Configurator tool automatically installs the ICD file in the C Config folder on the Mx70 device In addition the 70 Series Configurator places a second copy of the ICD file in a user definable location on the local personal computer PC for use by the IEC 61850 IED Configurator tool This user definable location can be set using the File gt Set Templates directory option in the 70 Series Configurator tool menu It is recommended this option be set to the location of the Templates folder used by the IEC 61850 IED Configurator tool i
43. in use of Data attributes with empty trigger options 14 2 3 2 3 2 trigger options will not trigger any reports other than those due to GI amp integrity poll p 110 Enabling of an The revised text is 15 2 1 3 incomplete GoCB If there are inconsistent attribute values in the GoCB e g the value of DatSet is Null or if the value of ConfRev equals 0 a SetGoCBValues with the parameter GoEna equals TRUE shall fail and a negative response shall be issued Select a SBO object Ed2 Reseting the SBO Timeout timer twice may lead to security issues the purpose of the SBO Timeout was to introduce an automatic un selection to avoid that a control object remains un available for a long time after a selection The proper AddCause depends on the state of the state machine associated to the control object If the second select occurs before the operate request then the AddCause shall be Already selected If the second select occurs after the operate request then the Addcause shall be command already in execution In both cases regardless if same or another client Extend the Select timeout period for SBO The tissue refers to SBO ES which we don t do Under SBO ES you indicate reason to fail the operation Under SBO the timeout is supported by extending the timeout This is really a PIXIT issue This TISSUE has had many contradictory possible resolutions The Mx70 performs a extend timeout upon a second select from
44. reserved to indicate an empty buffer no reported EntrylD shall have a value of zero 0 TimeOfEntry in GetBRCBValues The value returned in a GetBRCBValues response shall provide the time stamp of the EntryID whose value is exposed in the control block The value exposed for TimeOfEntry when the value of EntrylD is zero 0 is a local issue p 78 81 BRCB Integrity and see Tissue 453 for the revised chapter 14 2 2 5 buffering reports inc the GI state machine 14 2 2 12 GI are not buffered except the last one till the next GI request is received then the previous GI is removed from the Buffer Buffering the Last GI has been decided to avoid BufOflv and therefore transmission of the whole history Integrity reports are buffered but a note has been added regarding to the memory limitation The BRCB shall buffer entries based on the trigger options data change quality change data update and integrity during loss of association After the association is available again after the client has set the EntryID and enabled the BRCB the BRCB shall start sending the reports of events that have been buffered The BRCB shall use the sequence and subsequence numbers so that no gaps occur NOTE Since the buffer events based on the trigger option integrity are buffered by the BRCB and the memory of the IED dedicated for the buffering is limited it is recommended to use the trigger option integrity in the BRCB with gre
45. specified by the table below FC Name Semantic Source Definition BR Buffered reports IEC 61850 7 2 CF Configuration IEC 61850 7 2 co Control IEC 61850 7 2 DC Description IEC 61850 7 2 EX Extended Definition IEC 61850 7 2 GO GOOSE Control IEC 61850 7 2 GS GSSE Control UCA2 GOOSE NOT USED in Mx70 devices IEC 61850 7 2 LG Logging NOT USED in Mx70 devices IEC 61850 7 2 MS Multicast sampled value control NOT USED in Mx70 devices IEC 61850 7 2 MX Measurands Analogue values IEC 61850 7 2 RP Unbuffered reports IEC 61850 7 2 SE Setting Group Editable NOT USED in Mx70 devices IEC 61850 7 2 SG Setting Group IEC 61850 7 2 SP Set Point IEC 61850 7 2 ST Status Information IEC 61850 7 2 SV Substitution Values NOT USED in Mx70 devices IEC 61850 7 2 US Unicast sampled value control NOT USED in Mx70 devices IEC 61850 7 2 XX Data attribute service parameters IEC 61850 7 2 To elaborate on the data types used in the common data classes or CDCs the data attributes as defined in the tables reflect the revised attribute types in order to correspond with the data having either an integer value of 32 bits INT32 or an enumerated value of 8 bits ENUMERTED8 The attribute types defined for the common data classes INC ING and INS have been revised with the values shown in parentheses to indicate the types that have been replaced in standard IEC
46. square 70 A t amp square second 71 VAh volt ampere hours 72 Wh watt hours 73 VArh volt ampere reactive hours 74 V Hz volts per hertz Mx7xI EN M M Page 97 Mx7xlI EN M M Page 98 3 8 MMS data type conversions IEC 61850 Protocol Manual 70 series 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 MMS Type Part 7 Description BOOLEAN Bool Logical TRUE FALSE value BVstring13 BVstring13 Variable bit string upto 13 bits CODED_ENUM Byte Coded enumeration CODED_ENUM2 Byte Coded enumeration 2 EntryTime Btime6 8 1 Section 8 1 3 7 ENUMERATED8 Byte 8 bit enumerated value FLOAT32 Float 32 bit floating point value FLOAT64 Double 64 bit floating point value INT128 Long 128 bit signed integer value INT16 Short 16 bit signed integer value INT16U Ushort 16 bit unsigned integer value INT24U Ulong 24 bit unsigned integer value INT32 Long 32 bit signed integer value INT32U Ulong 32 bit unsigned integer value INT8 Byte 8 bit signed integer value INT8U Ubyte 8 bit unsigned integer value used in Unbuffered Report Control Blocks URCBs OCTET_STRING6 Ostring6 6 character string 8 bits per character used in GOOSE MAC address OCTET_STRING64
47. the Ethernet interface M57x and M87x models are designed to integrate with substation control systems What is IEC 61850 IEC 61850 is an international standard comprised of 14 parts which defines communication architecture for electricity utility substations The standard defines and offers much more than just a protocol It provides Standardized models for IEDs and other equipment within the substation Standardized communication services the methods used to access and exchange data Standardized formats for configuration files Peer to peer communication between devices The standard includes mapping of data onto Ethernet Using Ethernet in the substation offers many advantages but most significantly including High speed data rates currently 100 Mbits s rather than 10 s of kbits s or less used by most serial protocols Multiple masters called clients Ethernet as an open standard in every day use Interoperability A major benefit of IEC 61850 is interoperability IEC 61850 standardizes the data model of substation IEDs This responds to the utilities desire of having easier integration for different vendors products i e interoperability It means that data is accessed in the same manner in different IEDs from either the same or different IED vendors even though for example the measurement and protection algorithms of different vendors IED or device types remain different W
48. tree structure defined in the Schema It is not possible to resolve under Edition 1 of the IEC 61850 implementation Number of client associations Proposal entails adding an element to the service section of the IED section that holds the maximal number of supported client associations Can t implement this yet since this service isn t supported under Edition 1 of the IEC 61850 implementation MiCOM ICD file will also need to supports this Note p 118 Annex B normative The first EnumVAI for lt Enumtype id sev gt is not Unknown but unknown Proposal is to replace Unknown by unknown Sev is not used by Mx70 devices Mx7xl EN M M IEC 61850 Protocol Manual Page 104 70 series 4 7 Part 7 1 Standard 4 7 1 Specification scope The scope of part 7 1 of the IEC 61850 standards covers the architecture for communication and interactions between substation devices such as protection devices breakers transformers substation hosts etc 4 7 2 Editorial and schema related TISSUES The following technical issues are editorial and schema related only 174 267 4 7 3 Question only Tissues The following technical issues are questions only and no compliance is required 450 4 7 4 Technical Issues Subject Comment Conformance Supported 13 2 2 Coming Going Both edges trigger in order to capture Table 13 events signals that transition from 0 to 1 and from 1 to 0 Note that
49. values pertaining to a wye or delta connected field device or circuit IEC 61850 7 4 2003 MMXU_3 MMXU Standard Measurements Minimum Thermal Demands Bus 1 M571 M572 M871 M872 Bus2 M572 M872 Provides measurements of single phase or polyphase analogue values pertaining to a wye or delta connected field device or circuit IEC 61850 7 4 2003 MMXU_4 MMXU Standard Measurements Fundamental Thermal Demands and Fundamental Maximum Thermal Demands Bus 1 M871 Provides measurements of single phase or polyphase analogue values pertaining to a wye or delta connected field device or circuit IEC 61850 7 4 2003 MMXU_5 MMXU Standard Measurements Fundamental Thermal Demands and Fundamental Maximum Thermal Demands Bus 1 M571 M572 M872 Bus 2 M572 M872 Provides measurements of single phase or polyphase analogue values pertaining to a wye or delta connected field device or circuit IEC 61850 7 4 2003 MMXU_6 MMXU Standard Measurements Fundamental Fourier values Bus 1 M871 Provides measurements of single phase or polyphase analogue values pertaining to a wye or delta connected field device or circuit IEC 61850 7 4 2003 Mx7xI EN M M Page 46 IEC 61850 Protocol Manual 70 series LN Type LN Class Description Name Space MMXU_7 MMXU Standard Measurements Fundamental Fourier values Bus 1 M571 M572 M87
50. 1 No minimum Amp demands DmnMHAI2 MHAI_1 Minimum Thermal Demands for Bus 2 MHAI2 Volts only DmxMHAI1 MHAI_O Maximum Thermal Demands for Bus 1 MHAI1 DmxMHAI2 MHAIL 1 Maximum Thermal Demands for Bus 2 MHAI2 Volts only MLFK1 MLFK_O Voltage Flicker Bus 1 Measurement Custom LN MLFK2 MLFK_O Voltage Flicker Bus 2 Measurement Custom LN MSYN1 MSYN_O Synch check Bus1 to Bus 2 Phase A Custom LN MSYN2 MSYN_O Synch check Bus1 to Bus 2 Phase B Custom LN MSYN3 MSYN_O Synch check Bus1 to Bus 2 Phase C Custom LN MADV1 MADV_0 Advanced Measurements Bus 1 Custom LN MFLO1 MFLO_O Fault Distance Measurement Bus 1 Custom LN MTMP1 MTMP_0O Temperature Measurement internal ambient Mx7xlI EN M M IEC 61850 Protocol Manual Page 28 70 series LD LN Instance LN Type Description Custom LN Records LLNO LLNO_O Records Logical Device LPHD LDHD_0O Physical Device Information WrxRDRE1 RDRE_O Waveform Recorder 1 WrxRDRE2 RDRE_0O Waveform Recorder 2 DrxRDRE1 RDRE_0O Disturbance Recorder 1 DrxRDRE2 RDRE_0O Disturbance Recorder 2 System LLNO LLNO_1 System Logical Device Can only Publish GOOSE in System LLNO LPHD LPHD_O Physical Device Information GosGGIO1 GGIO_8 GOOSE Input Status GOOSE Subscriptions are done here TVTR1 TVTR_O Voltage Transformer Phase A Bus 1 TVTR2 TVTR_O Voltage Transformer Phase B Bus 1 TVTR3 TVTR_O Voltage Transformer Phase C B
51. 1 1 2 Table 39 Ignoring OptFids bits for URCB Green For an Unbuffered Report Control Block URCB the Server ignores the values of bits buffer overflow and entryID in a write request and the value is always 0 when reading these bits 183 p 39 GetNameList error handling Green No change is needed since tissue 116 resolves this issue The GetServerDirectory service is restricted to return the list of LogicalDevices e g Domains or a list of Files Therefore it is not possible to request a Domain object scope The text explicitly specifies that the MMS GetNamedList objectClass is Domain Deleted reference to Table 17 in clause 11 Tissue 116 resolution added text to clause 11 that resolved this issue 196 Annex E SCL for Control Green See 173 Add an example in part 6 and 8 1 198 see tissue 114 Instantiation of URCB Green This is linked to part 6 tissue 243 Unbuffered Report control Blocks URCBs are always indexed Tbd 235 8 1 3 2 Extension of Name length Green The length of names has been expanded changes are required to adapt to the new name length Change 65 to 129 Then after the VMD paragraph add The maximum MMS Object Name and Domain Name size shall be constrained by the MMS maxidentifier size of 64 see Annex G Mx7xlI EN M M IEC 61850 Protocol Manual Page 126 70 series o Doc Ref Subject Status Comment 5 E 2
52. 2 Bus 2 M572 M872 Provides measurements of single phase or polyphase analogue values pertaining to a wye or delta connected field device or circuit IEC 61850 7 4 2003 MMXU_8 MMXU Standard Measurements Fundamental Fourier values Volts and frequency only Bus 2 M571 M871 Provides measurements of single phase or polyphase analogue values pertaining to a wye or delta connected field device or circuit IEC 61850 7 4 2003 MMXU_9 MMXU Standard measurements Bus 1 M871 Provides measurements of single phase or polyphase analogue values pertaining to a wye or delta connected field device or circuit LN is extended to include custom measurements IEC 61850 7 4 2003 MMXU_10 MMXU Standard measurements Bus 1 M571 M572 M872 Bus 2 M572 M872 Provides measurements of single phase or polyphase analogue values pertaining to a wye or delta connected field device or circuit LN is extended to include custom measurements IEC 61850 7 4 2003 MMXU_11 MMXU Standard measurements Bus 2 M571 M871 Provides measurements of single phase or polyphase analogue values pertaining to a wye or delta connected field device or circuit LN is extended to include custom measurements IEC 61850 7 4 2003 MSQI_0 MSQl Sequence and imbalance Volts and Amps Pos Neq Zero for three phase power systems Provides for Measurement of polyphase analogue value
53. 2 E a fo oO 77 260 p 93 GetFileAttributeValues Green Change Clause 23 2 4 IEC 61850 8 1 23 2 4 to Para 1 The ACSI GetFileAttributeValues should be mapped to a MMS FileDirectory service as expressed in table 83 An ACSI GetFileAttributeValues Request shall cause an MMS FileDirectory request to be issued Only one answer of the MMS FileDirectory should return with the 2 V FileName and FileAttributes of the requested file This is the information that shall be indicated as part of the ACSI GetFileAttributeValues Response Change in Table 83 col 2 row 3 FileName to FileSpecification in the MMS FileDirectory Request to be more accurate 262 p 88 LastApplError Error Green Define in Part 8 1 how enhanced security 20 8 codes is used TimeOut Test Not OK shall be returned if a TimeActivated Control CMD is issued with TEST TRUE and the operation fails N A Operator Test Not OK shall be returned if an OPER control CMD is issued with TEST TRUE and the operation fails Error codes are only applicable to enhanced security Enhanced security is not implemented for Mx70 devices 292 p 18 Explanation of rand w Green Characteristics are clarified as follows clause 4 r mandates that the item is readable The ability to write the item is a local issue rw Mandates that the item is both readable and writeable w Mandates that the item is writeable The ability to read the item i
54. 2 Editorial and schema related TISSUES The following technical issues are editorial or schema related only 56 57 58 59 61 62 64 138 161 182 213 266 340 358 359 414 424 483 4 9 3 Question only Tissues The following technical issues are questions only and no compliance is required 66 67 214 223 274 312 437 489 530 531 542 581 4 9 4 Technical Issues Subject Comment Conformance 7 6 2 Definition of APC The APC Common data class CDC is not used within the Mx70 data model _ 6 11 Point def xVal not cVal Point is not used 7 4 5 Ineut ires Resolution matches measurements for Table 25 Mx70 devices Four currents are available for direct measurement using CTs A B C neutral Some systems only measure 3 and estimate the neutral using instantaneous summations of the phase currents An additional computed measurement is the residual which is computed in exactly the same fashion as the neutral estimate continued The key difference is that some systems need the residual value even when there already is a direct measurement of the neutral current In fact the difference between the neutral current and the residual current represents the leakage current current passing though paths outside of the measurement paths When only 3 measurement CTs exist the neutral and residual should produce identical results but we still should allow systems with direct neutral measurements Explanation added in tabl
55. 35 Generic Substation Events Model 135 Control Model 139 Time and Time Synchronization 140 File Transfer Model 142 Transmission of Sampled Values Model Not supported 143 Sub station Configuration Language 143 IED Configuration 143 IEC 61850 Protocol Manual Mx7xl EN M M 70 series Page 3 70 SERIES FIRMWARE VERSION The following table provides the most recent firmware and software versions For best results the Configurator version used should match with the firmware version A complete list of firmware and software versions is provided on the 70 Series Utilities CD Firmware Versions Config ICD file Utilities Release Description Version Firmware Firmware urator Date M870 Family E ee Mx7x Product Release New Hardware supported Dual Bus Analog I O 2 1 3 0 1 210 2 050 2 31 2 43 03 24 06 Mx7x Updated Release 2 1 3 0 po 2 060 o32 244 04 14 06 Mx7x Updated Release 2 1 3 0 1 240 2 120 2 39 2 50 10 01 06 M87x Updated Release 2 1 3 0 1 240 2 150 2 41 2 52 12 18 06 M87x Product Release Fault 2 170 2 43 56 12 21 07 Location Adjustable Sample ao asa heal Rate 3 40 1 30 M87x Product Release Add Demand per phase for Watts VAr amp VA Configurator amp BiView improvements w modems Change to Digital I O default watchdog contact Configurator setup not firmware dependent Support new version of hardware on P3x P4x modules 3 40 1 30 2 18 3 00A 10 17 08 M87x Product Release Added 1mHz a
56. 4DO0 8Al Choose option GGIOx GGIO_5 Generic Process I O P31 P40 based on logical slot configuration see Note 1 GGIO for logical slot x 1 P31 amp logical slot x P40 16DI 4DO 8Al Choose option GGIOx GGIO_7 Generic Process I O P40 based on logical slot configuration see Note 1 GGIO for logical slot x 8Al GGIO2 GGIO_9 Generic Process I O 32 Virtual Output signals TABLE 8 M872 DUAL FEEDER IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 41 LD LN Instance LN Type Description Measurements LLNO LLNO_O Measurements Logical Device LPHD LPHD_O Physical Device Information MMXU1 MMXU_10 M872 Bus 1 V A W VAr Measurements LN is extended to include custom measurements MMXU2 MMXU_10 M872 Bus 2 V A W VAr Measurements LN is extended to include custom measurements FndMMXU1 MMXU_7 Fundamental of Bus 1 MMXU1 Measurements FndMMXU2 MMXU_7 Fundamental of Bus 2 MMXU2 Measurements DmdMMXU1 MMXU_1 Present Thermal Demands of Bus 1 MMXU1 Measurements DmdMMXU2 MMXU_1 Present Thermal Demands of Bus 2 MMXU2 Measurements DmnMMXU1 MMXU_3 Minimum Thermal Demands of Bus 1 MMXU1 DmnMMXU2 MMXU_3 Minimum Thermal Demands of Bus 2 MMXU2 DmxMMXU1 MMXU_1 Maximum Thermal Demands of Bus 1 MMXU1 DmxMMXU2 MMXU_1 Maximum Thermal Demands of Bus 2 MMXU2 FndDmdMMXU1 MMXU_5 Fundamental Thermal Demands of
57. 7 3 and 7 4 of the IEC 61850 standard The communication services of Mx70 Measurement IEDs The IEC 61850 communication services which are implemented in the M57x and M87x IEDs are described in the Protocol Implementation Conformance Statement PICS document which is available within a separate section of this IEC 61850 user manual The PICS document provides the Abstract Communication Service Interface ACSI conformance statements as defined in Annex A of Part 7 2 of the IEC 61850 standard Peer to peer GSE communications The implementation of IEC 61850 with respect to Generic Substation Events GSE sets the way for cheaper and faster inter device communications amongst control systems relays and IEDs The generic substation event model provides the possibility for a fast and reliable system wide distribution of input and output data values The generic substation event model is based on the concept of an autonomous decentralization providing an efficient method allowing the simultaneous delivery of the same generic substation event information to more than one physical device through the use of multicast services The use of multicast messaging means that IEC 61850 GOOSE uses a publisher subscriber system to transfer information around the network NOTE Multicast messages cannot be routed across networks without specialized equipment When a device detects a change in one of its monitored status points it publishes i e sends
58. 871 Bus 1 V A W VAr Measurements LN is extended to include custom measurements MMXU2 MMXU_11 M871 Bus 2 V Measurements LN is extended to include custom measurements MMXN1 MMXN_O M871 Auxiliary voltage 1 V MMXN2 MMXN_O M871 Auxiliary voltage 2 V MMXN3 MMXN_O M871 Auxiliary differential voltage V FndMMXU1 MMXU_6 Fundamental Measurements of Bus 1 MMXU1 FndMMXU2 MMXU_8 Fundamental Measurements of Bus 2 MMXU2 DmdMMXU1 MMXU_0 Present Thermal Demands of Bus 1 MMXU1 Measurements DmdMMXU2 MMXU_2 Present Thermal Demands of Bus 2 MMXU2 Measurements DmnMMXU1 MMXU_3 Minimum Thermal Demands of Bus 1 MMXU1 DmnMMXU2 MMXU_2 Minimum Thermal Demands of Bus 2 MMXU2 DmxMMXU1 MMXU_0 Maximum Thermal Demands of Bus 1 MMXU1 DmxMMXU2 MMXU_2 Maximum Thermal Demands of Bus 2 MMXU2 FndDmdMMXU1 MMXU_4 Fundamental Thermal Demands of Bus 1 MMXU1 FndDmxMMXU1 MMXU_4 Fundamental Maximum Thermal Demands of Bus 1 MMXU1 MMTR1 MMTR_O Bus 1 Energy Metering Measurement LN is extended to include custom measurements MSQI1 MSQI_0 Bus 1 Sequence Components Volts amp Amps MSQI2 MSQI_1 Bus 2 Sequence Components Volts only MHAI1 MHAIL 2 Bus 1 Harmonics Volts amp Amps including individual harmonics phase related K factor and harmonic demand LN is extended to include custom measurements MHAI2 MHAIL 3 Bus 2 Harmonics Volts only including individual harmonics and harmonic demand LN is extended to include custom measurements
59. Attribute Attr Type Explanation wu bs Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Totw MV_0_DB Total active power Total P TotVAr MV_0_DB Total reactive power Total Q TotVA MV_0_DB Total apparent power Total S TotPF MV_0_DB Average power factor Total PF Hz MV_0_DB Frequency PPV DEL_O_DB Phase to Phase voltages PhV WYE_1_DB Phase to Ground voltages A B C A WYE_0_DB Phase Currents A B C Residual WwW WYE_1_DB Phase active power P VAr WYE_1_DB Phase reactive power Q VA WYE_1_DB Phase apparent power S PF WYE_1_DB Phase power factor 3 4 31 Logical Node MMXU_8 Description Standard measurements Fundamental Fourier Values for Bus 2 Volts only M571 M871 LN Class MMXU Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Hz MV_0_DB Frequency PPV DEL_O_DB Phase to Phase voltages PhV WYE_1_DB Phase to Ground voltages A B C IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 67 3 4 32 Logical Node MMXU_9 Description Standard measurements Bus 1 M871 LN Class MMXU Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate TotW MV_0_DB Total active power Total P TotVAr MV_0_DB Total reactive power Total Q TotVA MV_0_DB Total apparent power
60. BIk lt gt ATCC Auto SP versus DP on electrical IED inputs L R Security versus Information GGIO Limitation of Floating point set point DR Requires more explanation Specialisation of data by use of the number extension ATCC BIkVLo BIKVHi XCBR HeatAlm emergency off IHMI EmgOff change of measured values SIML TmpAlm Input for Logical Nodes Data Object binding Dynamic Protection Blocking RDRE missing FullSt RDRE and associated file directory location Final proposal Final proposal Final proposal Final proposal Final proposal Final proposal The proposal to change attribute name and type was rejected Double point information on model level was introduced because all 4 resulting states have some semantic meaning and not because of communication reliability No change proposed Issue for Ed 2 An IED Loc Local Remote switch is not used in Mx70 New Data Object DO RADR and RBDR are not used Not used in Mx70 devices Not used in Mx70 devices Not used in Mx70 devices Consider this as a status Blue question Tissue Not used in Mx70 devices Mx7xlI EN M M IEC 61850 Protocol Manual Page 124 70 series 4 11 Part 8 1 Standard 4 11 1 Specification scope The scope of part 8 1 of the IEC 61850 standards covers the specific communication service mapping SCSM to the MMS protocol 4 11 2 Editorial and schema related TISSUES
61. C 61850 standards covers the specific communication service mapping SCSM for sampled values over a serial unidirectional multi drop point to point link 4 12 2 Technical Issues The Mx70 IED devices do not support part 9 1 of the IEC 61850 standards TISSUES relating to this part therefore do not affect the application implementation hence Tissues are not listed in this section 4 13 Part 9 2 Standard Not supported 4 13 1 Specification scope The scope of part 9 2 of the IEC 61850 standards covers the specific communication service mapping SCSM for sampled values over ISO IEC 8802 3 4 13 2 Technical Issues The Mx70 IED devices do not support part 9 2 of the IEC 61850 standards TISSUES relating to this part therefore do not affect the application implementation hence Tissues are not listed in this section IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 129 4 14 Part 10 Standard 4 14 1 Specification scope The scope of part 10 of the IEC 61850 standards covers the conformance testing of a device 4 14 2 Editorial and schema related TISSUES The following technical issues are editorial and schema related only 156 4 14 3 Question only Tissues The following technical issues are questions only and no compliance is required 372 613 4 14 4 Technical Issues o o Subject Comment 5 Ele 2 c a o 5 oO no 206 5 4 1 Add Conformance White 2 6 2 4 5 Blocks 5 5 218 Need new test case Red Ed 2 GOOSE
62. Description a text string that refers to the logical node IdNs VISIBLE_STRING255 EX Logical Device name space 3 5 23 Common Data Class MV_0 Description Measured deadbanded and instantaneous values Floating Point values CDC Class MV Attribute Type FC Enumeration Comment X instMag AnalogueValue_0 MX Magnitude of the instantaneous measured value mag AnalogueValue_0 MX Deadbanded magnitude of the X instantaneous value of a measured value or harmonic value Updated to the current value of instMag when the value has changed q Quality MX Quality of the measurement value t TimeStamp MX Time deadbanded magnitude last exceeded its db configuration parameter d VISIBLE_STRING255 DC Description of the status element Textual description of the data Mx7xI EN M M Page 82 3 5 24 3 5 25 Common Data Class MV_0_DB IEC 61850 Protocol Manual 70 series Description Measured deadbanded and instantaneous values Floating Point values with deadband configuration CDC Class MV Attribute Type FC Enumeration Comment instMag AnalogueValue_0 MX Magnitude of the instantaneous measured value mag AnalogueValue_0 MX Deadbanded magnitude of the instantaneous value of a measured value or harmonic value If db 0 then mag is updated to the current value of instMag i e mag will track to instMag q Quality MX Quality of the measurement va
63. E Integer input 25 IntIn26 INS_3 GOOSE Integer input 26 IntIn27 INS_3 GOOSE Integer input 27 IntIn28 INS_3 GOOSE Integer input 28 IntIn29 INS_3 GOOSE Integer input 29 IntIn30 INS_3 GOOSE Integer input 30 IntIn31 INS_3 GOOSE Integer input 31 IntIn32 INS_3 GOOSE Integer input 32 Ind1 SPS_0 GOOSE Binary Input 1 Ind2 SPS_0 GOOSE Binary Input 2 Ind3 SPS_0 GOOSE Binary Input 3 Ind4 SPS_0 GOOSE Binary Input 4 Ind5 SPS_0 GOOSE Binary Input 5 Ind6 SPS_0 GOOSE Binary Input 6 Ind7 SPS_0 GOOSE Binary Input 7 Ind8 SPS_0 GOOSE Binary Input 8 Ind9 SPS_0 GOOSE Binary Input 9 Ind10 SPS_0 GOOSE Binary Input 10 Ind11 SPS_0 GOOSE Binary Input 11 Ind12 SPS_0 GOOSE Binary Input 12 Ind13 SPS_0 GOOSE Binary Input 13 Ind14 SPS_0 GOOSE Binary Input 14 Ind15 SPS_0 GOOSE Binary Input 15 Ind16 SPS_0 GOOSE Binary Input 16 Ind17 SPS_0 GOOSE Binary Input 17 Ind18 SPS_0 GOOSE Binary Input 18 IEC 61850 Protocol Manual 70 series IEC 61850 Protocol Manual 70 series 3 4 10 Attribute Attr Type Explanation Ind19 SPS_0 GOOSE Binary Input 19 Ind20 SPS_0 GOOSE Binary Input 20 Ind21 SPS_0 GOOSE Binary Input 21 Ind22 SPS_0 GOOSE Binary Input 22 Ind23 SPS_0 GOOSE Binary Input 23 Ind24 SPS_0 GOOSE Binary Input 24 Ind25 SPS_0 GOOSE Binary Input 25 Ind26 SPS_0 GOOSE Binary Input 26 Ind27 SPS_0 GOOSE
64. E_3 Description Phase to ground measurements for a 3 Phase system Phase A B C Neutral Residual including Description CDC Class WYE Attribute Type FC Enumeration Comment Xx phsA CMV_0 Measurement values for Phase A phsB CMV_0 Measurement values for Phase B phsC CMV_0 Measurement values for Phase C neut CMV_0O Measurement values for neutral input res CMV_0 Measurement values for residual d VISIBLE_STRING255 DC Description of the status element Textual description of the data IEC 61850 Protocol Manual 70 series 3 5 41 Common Data Class WYE_3_DB Mx7xI EN M M Page 89 Description Phase to ground measurements for a 3 Phase system Phase A B C Neutral Residual including Description with deadband configuration CDC Class WYE Attribute Type FC Enumeration Comment xX phsA CMV_0_DB Measurement values for Phase A phsB CMV_0_DB Measurement values for Phase B phsC CMV_0_DB Measurement values for Phase C neut CMV_0_DB Measurement values for neutral input res CMV_0_DB Measurement values for residual d VISIBLE_STRING255 DC Description of the status element Textual description of the data Mx7xl EN M M IEC 61850 Protocol Manual Page 90 3 6 3 6 1 3 6 2 3 6 3 70 series Common data attribute type definitions Common data attribute types known herein as components are
65. Input 1 Ind2 SPS_0 Digital Input 2 Ind3 SPS_0 Digital Input 3 Ind4 SPS_0 Digital Input 4 Ind5 SPS_0 Digital Input 5 Ind6 SPS_0 Digital Input 6 Ind7 SPS_0 Digital Input 7 Ind8 SPS_0 Digital Input 8 Ind9 SPS_0 Digital Input 9 Ind10 SPS_0 Digital Input 10 Ind11 SPS_0 Digital Input 11 Ind12 SPS_0 Digital Input 12 Ind13 SPS_0 Digital Input 13 Ind14 SPS_0 Digital Input 14 Ind15 SPS_0 Digital Input 15 Ind16 SPS_0 Digital Input 16 IEC 61850 Protocol Manual 70 series 3 4 4 Mx7xI EN M M Page 49 Generic Process I O M57x with option of 4 Digital Inputs 4 Digital Outputs 4 Logical Node GGIO_3 Description Analogue Inputs LN Class GGIO Attribute Attr Type Explanation Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Anin1 MV_0 Analogue input 1 Anln2 MV_0 Analogue input 2 AnIn3 MV_0 Analogue input 3 Anin4 MV_0 Analogue input 4 SPCSO1 SPC_3 Digital Output 1 SPCSO2 SPC_3 Digital Output 2 SPCSO3 SPC_3 Digital Output 3 SPCSO4 SPC_3 Digital Output 4 Ind1 SPS_0 Digital Input 1 Ind2 SPS_0 Digital Input 2 Ind3 SPS_0 Digital Input 3 Ind4 SPS_0 Digital Input 4 Mx7xl EN M M IEC 61850 Protocol Manual Page 50 70 series 3 4 5 Logical Node GGIO_4 Description Generic Process I O M87x with options of 8 Digital inputs 4 Digital outputs 8 Analogue inputs LN Class GGIO Attribute Attr Type Explanati
66. MSQI_O Description Sequence and imbalance for Volts and Amps Pos Neq Zero LN Class MSQI Attribute Attr Type Explanation X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate SeqA SEQ_0_DB Positive Negative and Zero Sequence Current Seqv SEQ_0_DB Positive Negative and Zero Sequence Voltage ImbNgA MV_0_DB Imbalance negative sequence current ImbNgV MV_0_DB Imbalance negative sequence voltage ImbZroA MV_0O_DB Imbalance zero sequence current ImbZroV MV_0_DB Imbalance zero sequence voltage Mx7xlI EN M M IEC 61850 Protocol Manual Page 70 70 series 3 4 36 Logical Node MSQI_1 Description Sequence and imbalance for Voltage only Pos Neg Zero LN Class MSQI Attribute Attr Type Explanation T Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Seqv SEQ_0_DB Positive Negative and Zero Sequence Voltage ImbNgV MV_0_DB Imbalance negative sequence voltage ImbZroV MV_0_DB Imbalance zero sequence voltage 3 4 37 Logical Node MSYN_0 Custom LN not contained in IEC 61850 part 7 4 definitions Description Synchronism check this LN is customized from RSYN but is different LN Class MSYN Custom LN Class not contained in IEC 61850 part 7 4 definitions Attribute Attr Type Explanation T Mod INC_O Mode Beh INS_O Behaviour Health INS_O Health NamPIt LPL_2 Name Plate DifVClc MV
67. Mx7x IEC61850 Protocol Manual for Bitronics 70 series Manual Mx7x IEC61850 for Bitronics 70 Series Publication Reference Mx7xl EN M M Mx7xl Error Unknown document property name Error Unknown document property name Error Unknown document property name Error Unknown document property name ALSTOM the ALSTOM logo and any alternative version thereof are trademarks and service marks of ALSTOM The other names mentioned registered or not are the property of their respective companies The technical and other data contained in this document is provided for information only Neither ALSTOM its officers or employees accept responsibility for or should be taken as making any representation or warranty whether express or implied as to the accuracy or completeness of such data or the achievement of any projected performance criteria where these are indicated ALSTOM reserves the right to revise or change this data at any time without further notice cio ALSTOM IEC 61850 Protocol Manual Mx7xI EN M M Page 1 7 7 7 11 16 16 16 18 19 19 20 21 25 25 25 44 72 90 93 98 CONFORMANCE 99 99 99 100 100 101 101 104 105 70 series CONTENTS 1 IEC 61850 IMPLEMENTATION DETAILS 1 1 Introduction 1 2 What is IEC 61850 1 3 IEC 61850 in the Mx70 series IEDs 1 4 The data model of Mx70 Measurement IEDs 1 5 The communication services of Mx70 Measurement IEDs 1 6 Peer to peer GSE com
68. O_8 GGIO Generic Process I O GOOSE Message IEC 61850 7 4 2003 GGIO_9 GGIO Generic Process I O Virtual Output signals IEC 61850 7 4 2003 LLNO_O LLNO Common information for the logical device which applies to IEC 61850 7 4 2003 logical nodes in the Measurements and Record Domains LLNO_1 LLNO Common information for logical device which applies to IEC 61850 7 4 2003 logical nodes in the System Domain LPHD_0O LPHD Mx70 Physical Device Information IEC 61850 7 4 2003 MADV_O MADV Advanced Measurements Bitronics NS Custom LN definition is found in this section of the manual Not Standard MFLK_O MFLK Flicker measurements Bitronics NS Custom LN definition is found in this section of the manual Not Standard MFLO_0O MFLO Fault Distance Measurement calculated for a Fault Location Bitronics NS Custom LN definition is found in this section of the manual Not Standard MHAI_O MHAI Harmonic information for Volts and Amps without the IEC 61850 7 4 2003 individual harmonics MHAI_1 MHAI Harmonic information for Volts only No Amps without the IEC 61850 7 4 2003 individual harmonics MHAI_2 MHAI Harmonic information for Volts and Amps etc including the IEC 61850 7 4 2003 individual harmonics phase related K factor and harmonic demand Provides measurements of individual harmonic magnitudes and angles for polyphase analogue values LN is extended to include custom measurements MHAI_3 MHAI Harmonic information for Volts only No Amps etc includ
69. Ostring64 64 character string 8 bits per character OCTET_STRING8 Ostring8 8 character string 8 bits per character Quality BVstring13 IEC 61850 Quality TimeStamp Utctime IEC 61850 Time stamp UNICODE_STRING255 UTF8Vstring255 255 character string 16 bits per unicode character UTC_TM Utctime UTC Timestamp VISIBLE_STRING255 Vstring255 255 character string VISIBLE_STRING64 Vstring64 64 character string VISIBLE_STRING65 Vstring65 65 character string VISIBLE_STRING97 Vstring97 97 character string IEC 61850 Protocol Manual Mx7xI EN M M 70 series 4 4 1 4 2 Page 99 IEC 61850 TECHNICAL ISSUES TISSUES CONFORMANCE STATEMENT TICS Introduction This Technical Issues Conformance Statement TICS specifies the conformance level attributed to Mx70 Series of Intelligent Electronic Devices Mx70 IEDs with respect to the Technical Issues TISSUES logged against the various parts of the IEC 61850 standard This document along with the Protocol Implementation eXtra Information for Testing document PIXIT defines the basis for conformance testing in accordance with part 10 of the IEC 61850 standard specifications This document identifies numerous Tissues that have an impact on conformance testing of the Mx70 IED TISSUES have been classed into the following categories Tissues identified as either editorial or related to the XML schema or a client Tissues that are not applicabl
70. Output signals TABLE 9 M872 BREAKER AND 1 Mx7xI EN M M IEC 61850 Protocol Manual Page 44 70 series 3 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 Description Name Space GGIO_0 GGIO Generic Process I O M57x with option of 4 Digital Inputs 4 IEC 61850 7 4 2003 Digital Outputs GGIO_1 GGIO Generic Process I O M87x with option of 8 Digital Inputs 4 IEC 61850 7 4 2003 Digital Outputs GGIO_2 GGIO Generic Process I O M87x with option of 16 Digital inputs 4 IEC 61850 7 4 2003 Digital outputs GGIO_3 GGIO Generic Process I O M57x with option of 4 Digital Inputs 4 IEC 61850 7 4 2003 Digital Outputs 4 Analogue Inputs GGIO_4 GGIO Generic Process I O M87x with options of 8 Digital inputs IEC 61850 7 4 2003 4 Digital outputs 8 Analogue inputs GGIO_5 GGIO Generic Process I O M87x with options of 16 Digital inputs IEC 61850 7 4 2003 4 Digital outputs 8 Analogue inputs GGIO 6 GGIO Generic Process I O M57x with option of 4 Analogue Inputs IEC 61850 7 4 2003 GGIO_7 GGIO Generic Process I O M87x with option of 8 Analogue Inputs IEC 61850 7 4 2003 GGI
71. Phase Currents A B C N Residual WwW WYE_1_DB Phase active power P VAr WYE_1_DB Phase reactive power Q VA WYE_1_DB Phase apparent power S IEC 61850 Protocol Manual 70 series 3 4 24 3 4 25 Logical Node MMXU_1 Description Standard measurements Present Thermal Demands Bus 1 M571 M572 M872 Bus 2 M572 M872 Maximum Thermal Demands Bus 1 M571 M572 M872 Bus 2 M572 M872 LN Class MMXU Attribute Attr Type Explanation Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate TotW MV_0_DB Total active power Total P TotVAr MV_0_DB Total reactive power Total Q TotVA MV_0_DB Total apparent power Total S PPV DEL_0_DB Phase to Phase voltages PhV WYE_2_DB Phase to Ground voltages A B C N A WYE_0_DB Phase Currents A B C Residual WwW WYE_1_DB Phase active power P VAr WYE_1_DB Phase reactive power Q VA WYE_1_DB Phase apparent power S Logical Node MMXU_2 Description Standard measurements Present Thermal Demands Bus 2 M571 M871 Minimum Thermal Demands Bus 2 M571 M871 Maximum Thermal Demands Bus 2 M571 M871 LN Class MMXU Attribute Attr Type Explanation Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate PPV DEL_O_DB Phase to Phase voltages PhV WYE_2_DB Phase to Ground voltages A B C N Mx7xI EN M M
72. Rev VISIBLE_STRING255 DC Software revision serNum VISIBLE_STRING255 DC Serial Number model VISIBLE_STRING255 DC Model Number location VISIBLE_STRING255 DC Physical location of device IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 77 3 5 11 Common Data Class HWYE_0 Description Phase to Ground harmonics measurements for a 3 phase system CDC Class HWYE Harmonic value for Wye represents the harmonic content of phase to neutral and neutral to ground quantities Both magnitudes and phase angles are represented as arrays of floating point quantities The first index index 0 of each array represents the DC component and index N represents the component at FREQ N f where f is the fundamental frequency Attribute Type FC Enumeration Comment Xx q Quality MX The quality of the status value t TimeStamp MX Timestamp of the last change in state phsAHar Vector_1 64 MX Magnitude and Angle of all 64 phase A harmonics phsBHar Vector_1 64 MX Magnitude and Angle of all 64 phase B harmonics phsCHar Vector_1 64 MX Magnitude and Angle of all 64 phase C harmonics numHar INT16U CF Number of harmonic values evalTm INT16U CF Time window applied to interharmonic calculations Value is in ms frequency FLOAT32 CF Frequency hvRef ENUMERATED8 CF hvRef Reference type i e ratio of harmonic to fundamental to RMS or to absolute numCyc INT16U
73. SPC_3 Digital Output 2 SPCSO3 SPC_3 Digital Output 3 SPCSO4 SPC_3 Digital Output 4 Ind1 SPS_0 Digital Input 1 Ind2 SPS_0 Digital Input 2 Ind3 SPS_0 Digital Input 3 Ind4 SPS_0 Digital Input 4 Ind5 SPS_0 Digital Input 5 Ind6 SPS_0 Digital Input 6 Ind7 SPS_0 Digital Input 7 Ind8 SPS_0 Digital Input 8 Ind9 SPS_0 Digital Input 9 Ind10 SPS_0 Digital Input 10 Ind11 SPS_0 Digital Input 11 Ind12 SPS_0 Digital Input 12 Ind13 SPS_0 Digital Input 13 Ind14 SPS_0 Digital Input 14 Ind15 SPS_0 Digital Input 15 Ind16 SPS_0 Digital Input 16 Mx7xlI EN M M Page 52 3 4 7 3 4 8 Logical Node GGIO_6 Description Generic Process I O M57x with option of 4 Analogue Inputs LN Class GGIO Attribute Attr Type Explanation Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Anin1 MV_0O Analogue input 1 Anin2 MV_0O Analogue input 2 Anin3 MV_0O Analogue input 3 Anin4 MV_0O Analogue input 4 Logical Node GGIO_7 Description Generic Process I O M87x with option of 8 Analogue Inputs LN Class GGIO Attribute Attr Type Explanation Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Anin1 MV_0O Analogue input 1 Anin2 MV_0O Analogue input 2 Anin3 MV_0O Analogue input 3 Anin4 MV_0O Analogue input 4 Anln5 MV_0 Analogue input 5 Anln6 MV_0 Analogue input 6 Anln7 MV_0 Analogue input 7 Anln8 MV_0 A
74. STRING255 DC Description of the status element Textual description of the data IEC 61850 Protocol Manual Mx7xl EN M M 70 series Page 87 3 5 35 Common Data Class WYE_0_DB Description Phase to ground measurements for a 3 Phase system Phase A B C Residual including Description with deadband configuration CDC Class WYE Attribute Type FC Enumeration Comment x phsA CMV_0_DB Measurement values for Phase A phsB CMV_0_DB Measurement values for Phase B phsC CMV_0_DB Measurement values for Phase C res CMV_0_DB Measurement values for residual d VISIBLE_STRING255 DC Description of the status element Textual description of the data 3 5 36 Phase A B C Neutral Common Data Class WYE_1 Description Phase to ground measurements for a 3 Phase system Phase A B C Description CDC Class WYE Attribute Type FC Enumeration Comment X phsA CMV_0 Measurement values for Phase A phsB CMV_0 Measurement values for Phase B phsC CMV_0 Measurement values for Phase C d VISIBLE_STRING255 DC Description of the status element Textual description of the data 3 5 37 Phase A B C Neutral Common Data Class WYE_1_DB Description Phase to ground measurements for a 3 Phase system Phase A B C Description with deadband configuration CDC Class WYE Attribute Type FC Enumeration Comment X
75. S_0 Virtual Output 24 Ind25 SPS_0 Virtual Output 25 Ind26 SPS_0 Virtual Output 26 Ind27 SPS_0 Virtual Output 27 Ind28 SPS_0 Virtual Output 28 Ind29 SPS_0 Virtual Output 29 Ind30 SPS_0 Virtual Output 30 Ind31 SPS_0 Virtual Output 31 Ind32 SPS_0 Virtual Output 32 Logical Node LLNO_0O Description LN Class LLNO Attribute Attr Type Explanation Mod INC_O Mode Beh INS_0O Behaviour Health INS_1 Health NamPIt LPL_1 Name Plate Logical Node LLNO_1 Description General Logical Node 0 System Domain LN Class LLNO Attribute Attr Type Explanation Mod INC_O Mode Beh INS_0O Behaviour Health INS_1 Health NamPIt LPL_1 Name Plate IEC 61850 Protocol Manual 70 series 3 4 13 3 4 14 Mx7xI EN M M Page 57 Logical Node LPHD_0 Description Mx7x Physical Device Information LN Class LPHD Attribute Attr Type Explanation T X PhyNam DPL_O Physical device name plate PhyHealth INS_2 Physical device health Proxy SPS_0 Indicates if this LN is a proxy NumPwrUp INS_3 Number of Power ups WrmStr INS_3 Number of Warm Starts WacTrg INS_3 Number of watchdog device resets detected Logical Node MADV_0 Custom LN not contained in IEC 61850 part 7 4 definitions Description Advanced Measurements LN Class MADV Custom LN Class not contained in IEC 61850 part 7 4 definitions Attribute Attr Type Explanation T X Mod INC_O Mode B
76. Services AA Client Server Comments TP MC Subscriber Publisher Logging clause 14 Log control block 30 GetLCBValues TP M N M 31 SetLCBValues TP O M Log S32 QueryLogByTime TP c7 N M S33 QueryLogAfter TP c7 N M S34 GetLogStatusValues TP M N M c7 shall declare support for at least one QueryLogByTime or QueryLogByEntry Generic substation event model GSE clause 14 3 5 3 4 GOOSE CONTROL BLOCK 35 SendGOOSEMessage MC c8 N c8 Y S36 GetGoReference TP O N c9 N S37 GetGOOSEElementNumber TP O N c9 N S38 GetGoCBValues TP O N O Y S39 SetGoCBValues TP O N O Y GSSE CONTROL BLOCK S40 SendGSSEMessage MC c8 N c8 Y S41 GetGsReference TP O N c9 N 42 GetGSSEElementNumber TP O N c9 N 43 GetGsCBValues TP O N N S44 SetGsCBValues TP O N O N c8 shall declare support for at least one SendGOOSEMessage or SendGSSEMessage c9 shall declare support if TP association is available Transmission of sampled value model SVC clause 16 Multicast SVC S45 SendMSVMessage MC c10 c10 S46 GetMSVCBValues TP O 0 S47 SetMSVCBValues TP O O Unicast SVC S48 SendUSVMessage TP c10 N c10 S49 GetUSVCBValues TP O N O S50 SetUSVCBValues TP O N O c10 shall declare support for at least one SendMSVMessage or SendUSVMessage Mx7xlI EN M M IEC 61850 Protocol Manual
77. TESTING PIXIT Introduction This document specifies the Protocol Implementation eXtra Information for Testing PIXIT of the IEC 61850 interface for the Mx70 family of IED measurement devices Together with the PICS and MICS specifications the PIXIT forms the basis for conformance testing in accordance with part 10 of the IEC 61850 standard specifications Document structure Each section within this specification specifies the PIXIT for each supported ACSI service model as structured in parts 7 2 and 10 of the IEC 61850 standard specifications Application Association Model Table 11 PIXIT for Association model ID Description Value Clarification As1 Maximum number of clients that can set up an 20 association simultaneously As2 TCP_KEEPALIVE value 1 20 seconds Default 5 seconds configurable by TCP Keepalive parameter IEC Configurator As3 Lost connection detection time 60 seconds As4 ls authentication supported N As5 What association parameters are necessary Transport selector Y for successful association Session selector Y NOTE AP Title and AE Qualifier are only Presentation selector Y required if write permission is desired AP Title N AE Qualifier N only if write permission is desired As6 If association parameters are necessary for Transport selector 0001 association describe the correct values e g Session selector 0001 NOTE The AP Title and
78. Total S TotPF MV_0_DB Average power factor Total PF Hz MV_0_DB Frequency PPV DEL_0_DB Phase to Phase voltages AB BC CA PhV WYE_2_DB Phase to Ground voltages A B C N A WYE_3_DB Phase Currents A B C N Residual WwW WYE_1_DB Phase active power P VAr WYE_1_DB Phase reactive power Q VA WYE_1_DB Phase apparent power S PF WYE_1_DB Phase power factor Z WYE_1_DB Phase Impedance DmdintA ASG_1 Integration time interval for Thermal Demand Current X DmdintP ASG_1 Integration time interval for Thermal Demand Power X DmdintV ASG_1 Integration time interval for Thermal Demand Voltage X RsDmdA SPC_0O Reset of Thermal Demand Current X RsDmdP SPC_0 Reset of Thermal Demand Power X RsDmdV SPC_0 Reset of Thermal Demand Voltage X Mx7xlI EN M M IEC 61850 Protocol Manual Page 68 70 series 3 4 33 Logical Node MMXU_10 Description Standard measurements Bus 1 M571 M572 M872 or Standard measurements Bus 2 M572 M872 LN Class MMXU Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Totw MV_0_DB Total active power Total P TotVAr MV_0_DB Total reactive power Total Q TotVA MV_0_DB Total apparent power Total S TotPF MV_0_DB Average power factor Total PF Hz MV_0_DB Frequency PPV DEL_O_DB Phase to Phase voltages AB BC CA PhV WYE_2_DB Phase to Ground voltages A B C N
79. _0O Calculated difference in Voltage DifHzClc MV_0O Calculated difference in Frequency DifAngClc MV_0O Calculated difference in Phase Angle 3 4 38 Logical Node MTMP_0O Custom LN not contained in IEC 61850 part 7 4 definitions Description Internal Ambient Temperature of Logical Device LN Class MTMP Custom LN Class not contained in IEC 61850 part 7 4 definitions Attribute Attr Type Explanation T Mod INC_O Mode Beh INS_O Behaviour Health INS_0O Health NamPIt LPL_2 Name Plate TmpVal MV_O Value for internal ambient Temperature in degree C IEC 61850 Protocol Manual 70 series 3 4 39 3 4 40 Logical Node RDRE_0O Mx7xI EN M M Page 71 Description Disturbance Recorder function Mx70 disturbance and waveform recorders LN Class RDRE Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate RcdTrg SPC_1 Trigger recorder Manual trigger RcdMade SPS_0 Recording made FitNum INS_3 Fault number RedStr SPS_0 Recording started MemUsed INS_3 Memory Used in PreTmms ING_O Pre trigger time msec PstTmms ING_O Post trigger time msec Mem Full ING_O Memory Full level OpMod ING_1 Operate Mode Overwrite 1 Stop on full 2 FullSt SPS_1 Recorder status is full Logical Node TCTR_0O Description Current Transformer LN C
80. _0O Origin ctINum INT8U 8 bit unsigned integer value T Timestamp Timestamp of Entry Time This control timestamp is the time when the client sends the control request Test BOOLEAN Logical True False value No test False Test True Defines whether the information is caused by normal operation or by test Check Check Check specifies the kind of checks a control object shall perform before issuing the control operation 3 6 5 Component RangeConfig_Deadband Comment Limits that define the range of a measured value Parent Type rangeC Attribute Type Enumeration Comment X hhLim AnalogueValue_0 Read only always returns 0 hLim AnalogueValue_0 Read only always returns 0 ILim AnalogueValue_0 Read only always returns 0 IILim AnalogueValue_0 Read only always returns 0 min AnalogueValue_0 minimum process measurement for which values of or f are considered within process limits max AnalogueValue_0 maximum process measurement for which values of i or f are considered within process limits 3 6 6 Component Unit_Multiplier Comment Object that contains SI Unit and multiplier definitions Parent Type Unit Attribute Type Enumeration Comment X SlUnit Enumerated8 SIUnit 8 bit signed integer value multiplier Enumerated8 multiplier 8 bit signed integer value Mx7xI EN M M Page 92 3 6 7 3 6
81. _3 Minimum Thermal Demands of Bus 2 MMXU2 DmxMMXU1 MMXU_1 Maximum Thermal Demands of Bus 1 MMXU1 DmxMMXU2 MMXU_1 Maximum Thermal Demands of Bus 2 MMXU2 FndDmdMMXU1 MMXU_5 Fundamental Thermal Demands of Bus 1 MMXU1 FndDmdMMXU2 MMXU_5 Fundamental Thermal Demands of Bus 2 MMXU2 FndDmxMMXU1 MMXU_5 Fundamental Maximum Thermal Demands of Bus 1 MMXU1 FndDmxMMXU2 MMXU_5 Fundamental Maximum Thermal Demands of Bus 2 MMXU2 MMTR1 MMTR_O Bus 1 Energy Metering Measurement LN is extended to include custom measurements MMTR2 MMTR_O Bus 2 Energy Metering Measurement LN is extended to include custom measurements MSQI1 MSQI_0 Bus 1 Sequence Components Volts amp Amps MSQI2 MSQI_O Bus 2 Sequence Components Volts amp Amps MHAI 1 MHAI_2 Bus 1 Harmonics Volts amp Amps including individual harmonics phase related K factor and harmonic demand LN is extended to include custom measurements MHAI2 MHAI_2 Bus 2 Harmonics Volts amp Amps including individual harmonics phase related K factor and harmonic demand LN is extended to include custom measurements DmdMHAI1 MHAI_0 Present Thermal Demands for Bus 1 MHAI1 DmdMHAI2 MHAI_0O Present Thermal Demands for Bus 2 MHAI2 DmnMHAI1 MHAI_1 Minimum Thermal Demands for Bus 1 MHAI1 No minimum Amp demands DmnMHAI2 MHAI_1 Minimum Thermal Demands for Bus 2 MHAI2 No minimum Amp demands DmxMHAI1 MHAI_0O Maximum Thermal Demands for Bus 1 MHAI1 DmxMHAI2 MHAI_0O Maximum Thermal De
82. _O Synch check Bus1 to Bus 2 Phase A for M572 Breaker amp 1 2 Custom LN IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 33 LD LN Instance LN Type Description MSYN2 MSYN_O Synch check Bus1 to Bus 2 Phase B for M572 Breaker amp 12 Custom LN MSYN3 MSYN_O Synch check Bus1 to Bus 2 Phase C for M572 Breaker amp 1 2 Custom LN MADV1 MADV_0 Advanced Measurements Bus 1 Custom LN MADV2 MADV_0O Advanced Measurements Bus 2 Custom LN MFLO1 MFLO_O Fault Distance Measurement Bus 1 Custom LN MFLO2 MFLO_O Fault Distance Measurement Bus 2 Custom LN MTMP1 MTMP_O Temperature Measurement Internal ambient Custom LN Records LLNO LLNO_O Records Logical Device LPHD LDHD_0O Physical Device Information WrxRDRE1 RDRE_0O Waveform Recorder 1 WrxRDRE2 RDRE_O Waveform Recorder 2 DrxRDRE1 RDRE_O Disturbance Recorder 1 DrxRDRE2 RDRE_0O Disturbance Recorder 2 System LLNO LLNO_1 System Logical Device Can only Publish GOOSE in System LLNO LPHD LPHD_O Physical Device Information GosGGIO1 GGIO_8 GOOSE Input Status GOOSE Subscriptions are done here TVTR1 TVTR_O Voltage Transformer Phase A Bus 1 TVTR2 TVTR_O Voltage Transformer Phase B Bus 1 TVTR3 TVTR_O Voltage Transformer Phase C Bus 1 TVTR4 TVTR_O Voltage Transformer Phase N Bus 1 TVTR5 TVTR_O Voltage Transformer Phase A Bus 2 TVTR6 TVTR_O Voltage Trans
83. a client can filter out the signal changes or transitions that are not desired Trigger option used if TrgOps value masks triggers in event not defined generation If attribute is not marked for dchg or qchg then changes will not trigger reports or logs IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 105 4 8 Part 7 2 Standard 4 8 1 Specification scope The scope of part 7 2 of the IEC 61850 standards covers the layered substation communication architecture principles 4 8 2 Editorial and schema related TISSUES The following technical issues are editorial and schema related only 29 33 137 142 149 192 195 275 308 338 339 342 351 rejected 361 369 379 385 387 388 390 392 393 398 399 400 404 406 408 409 410 411 415 418 449 451 453 456 457 461 473 474 490 4 8 3 Question only Tissues The following technical issues are questions only and no compliance is required 172 181 193 251 287 293 295 345 346 347 350 352 389 402 412 413 427 435 440 449 462 540 546 4 8 4 Unaddressed or open Tissues The following Tissues were not considered in the present implementation of IEC 61850 Edition 1 in the Mx70 devices 310 403 407 416 429 447 492 493 494 495 496 497 498 499 500 501 502 503 505 506 507 508 509 510 512 513 514 515 516 517 518 520 521 522 523 524 526 536 537 549 580 593 595 610 4 8 5 Technical Issues Doc Ref Subject Status Comment Conformance Control parameter T Change senten
84. a new message Any device that is interested in the information subscribes i e listens to the data it contains IEC 61850 Protocol Manual Mx7xI EN M M 70 series 1 6 1 Page 17 Each new message is re transmitted at user configurable intervals until the maximum interval is reached in order to overcome possible corruption due to interference and congestion Scope GOOSE messages In the Mx70 device database a maximum of 32 GOOSE binary inputs 32 GOOSE integer inputs and 32 GOOSE float floating point inputs are available to be mapped directly up to a published dataset in a GOOSE message All Mx70 published GOOSE signals may contain BOOLEAN Integer and Float values These signals are referred to by the following names GOOSE Binary Input Ind where will be a number between 1 32 GOOSE Integer Input IntIn where will be a number between 1 32 GOOSE Analogue Input Anln floating point where will be a number between 1 32 These inputs for a GOOSE message would be mapped in the IEC 61850 IED Configurator The 61850 IED Configurator tool is used to configure GOOSE publishing and GOOSE subscribing It is only possible to publish a GOOSE from System LLNO in the IEC 61850 IED Configurator To subscribe to a GOOSE use System GosGGIO1 to configure the GOOSE form the IEC 61850 IED Configurator tool Each GOOSE signal contained in a subscribed GOOSE message can be mapped to any of the 32 GOOSE bin
85. able 2 p 160 amp SetFile 161 SetFile is not supported 20 2 2 Mx7xlI EN M M IEC 61850 Protocol Manual Page 116 70 series Doc Ref Subject Status Comment Conformance Supported GSSE service definitions GSSE is not supported Dataset contents Ed2 The following text has been added configurability An IED which claims to support dynamic creation of datasets CreateDataSet shall be able to receive as a server send as a client and process as a server or as a client any valid FCD or FCDA definition contained in the CreateDataSet request An IED which claims to support configuration of datasets via SCL shall be able to process as a server or as a client any valid FCD or FCDA definition contained in the corresponding SCL file Note Unknown whether the Alstom MiCOM IED configurator will support this configurability Cancelling a started Ed 2 Cancelling a started control control sequence sequence shall be possible The Edition 1 Ed 1 does limit the use of cancel for too few cases It should also be clarified when a cancel can be successfully performed by another client than the one that started the control sequence Clarify in Edition 2 IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 117 4 9 Part 7 3 Standard 4 9 1 Specification scope The scope of part 7 3 of the IEC 61850 standards covers the abstract common data class definitions 4 9
86. ad zero Mx7xlI EN M M IEC 61850 Protocol Manual Page 96 70 series 3 7 12 Enumerated type SlUnit Description SI Units derived from ISO IEC 1000 Ordinal Semantic Explanation 1 none dimensionless 2 m meter 3 kg kilogram 4 s second 5 ampere 6 Kelvin 7 mol mole 8 cd candela 9 deg degrees 10 rad radian 11 sr steradian 21 Gy Gray 22 q becquerel 23 C degrees Celcius 24 Sv sievert 25 F farad 26 C coulomb 27 S siemens 28 H henry 29 V volt 30 Q ohm 31 J joule 32 N newton 33 Hz hertz 34 Ix lux 35 Lm lumen 36 Wb weber 37 T tesla 38 watt 39 Pa pascal 41 m square meter 42 m cubic meter 43 m s meters per second 44 m s meters per second 45 m s cubic meters per second 46 m m meters per cubic meter 47 M kilogram meter 48 kg m kilogram cubic meter 49 m s meter square second 50 W m K watt meter Kelvin 51 J K joule Kelvin IEC 61850 Protocol Manual 70 series Ordinal Semantic Explanation 52 ppm parts per million 53 1 s rotations per second 54 rad s radians per second 61 VA volt ampere 62 WwW watts 63 VAr volt ampere reactive 64 phi degrees phase angle 65 cos phi dimensionless power factor 66 Vs volt seconds 67 v volt square 68 As amp second 69 A amp
87. age 95 Enumerated type OpMod Description Operation mode Ordinal Semantic 1 Overwrite existing values 2 Stop when full or saturated Enumerated type orCat Description Originator category specifies the category of the originator that caused a change of value Ordinal Semantic Explanation 0 not supported orCat is not supported 1 bay control Control operation issued from an operator using a client located at bay level 2 station control Control operation issued form an operator using a client located at station level 3 remote control Control operation from a remote operator outside the substation for example network control centre 4 automatic bay Control operation issued from an automatic function at bay level 5 automatic station Control operation issued from an automatic function at station level 6 automatic remote Control operation issued from an automatic function outside the substation 7 maintenance Control operation issued from a maintenance service tool 8 process Status change occurred without control action for example external trip of a circuit breaker or failure inside the breaker Enumerated type sboClass Description Set before operate Class Ordinal Semantic 0 operate once 1 operate many Enumerated type seqT Sequence Measurement Type Description Ordinal Semantic 0 pos neg zero 1 dir qu
88. agement and minimize down time during system upgrades and maintenance the Mx70 devices utilize a storage mechanism consisting of multiple configuration banks These configuration banks are categorized as Active Configuration Bank MCL file stored in E Config on Mx70 device Inactive Configuration Bank MC2 file is previous configuration file stored in E Config on Mx70 device Any new configuration to the Mx70 device will be automatically stored into the inactive configuration bank therefore not immediately affecting the current configuration When the upgrade or maintenance stage is complete the 61850 IED Configurator tool will prompt the user to make the configuration to a single IED active A reboot of the Mx70 Mx7xl EN M M IEC 61850 Protocol Manual Page 16 1 3 2 2 1 4 1 5 1 6 70 series device is necessary in order for the configuration to be activated authorizing the activation of the new configuration contained in the inactive configuration bank by switching the active and inactive configuration banks This technique ensures that the system down time is minimized while enabling the new configuration Network connectivity NOTE This section presumes a prior knowledge of IP addressing and related topics Further details on this topic may be found on the Internet search for IP Configuration and in numerous relevant books Configuration of the relay IP parameters IP Address Subnet Mask Gateway and SNTP
89. ally sorted so that searching is made easier The following Tables indicate the Logical Node Description Lists The LN Types that are used for all Mx70 measurement products are found in Tables 4 10 It is necessary to use the LN Types indicated to create the mapping necessary for the LN Instance There are tables for each of the following M571 M572 Dual Feeder M572 Breaker amp 2 M871 M872 Dual Feeder and M872 Breaker amp LN Type is remapped to LN Instance in order to define each Logical Node per the standard IEC 61850 Part 7 Tables 4 9 define the logical devices while table 10 defines the LN Types NOTE applies for M87x tables 7 9 GGIOx The GGIO suffix number indicated by x in the LN instance name represents the logical slot number that has been configured through the 70Series Configurator A maximum number of 7 times the number of logical nodes are possible with an M87x due to the logical slot configuration for LN Instance It is possible for the GGIO logical slots to range from 1 though 7 for M87x i e GGIO1 GGIO7 which differs from M57x where the number of logical slots is fixed at 1 i e GGIO1 During Configuration Digital I O slot numbers 0 6 map to logical slots GGIO1 GGIO7 Transducer Analogue Input slot numbers 1 7 map to logical slots GGIO1 GGIO7 For Digital O modules P30 and P31 the slot numbers 0 6 must be incremented by 1 to obtain the GGIOx logical slot number however for Tra
90. amPIt LPL_O Name Plate TotVAh BCR_O Total apparent power since last rest SupWh BCR_O Real energy supply default supply direction energy flow towards busbar SupVArh BCR_O Reactive energy supply default supply direction energy flow towards busbar DmdWh BCR_O Real energy demand default demand direction energy flow away from busbar DmdVArh BCR_O Reactive energy demand default demand direction energy flow away from busbar RsEnergy SPC_0O Reset Energy xX Mx7xlI EN M M IEC 61850 Protocol Manual Page 62 3 4 22 Logical Node MMXN_0O Description Voltage Measurements not allocated to a phase Auxiliary or Reference voltages LN Class MMXN_O Attribute Attr Type Explanation Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Vol MV_0_DB Voltage V rms not allocated to a phase i e auxiliary and reference voltages 3 4 23 Logical Node MMXU_0 Description Standard measurements Present Thermal Demands Bus 1 M871 Maximum Thermal Demands Bus 1 M871 LN Class MMXU Attribute Attr Type Explanation Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate TotW MV_0_DB Total active power Total P TotVAr MV_0_DB Total reactive power Total Q TotVA MV_0_DB Total apparent power Total S PPV DEL_0_DB Phase to Phase voltages PhV WYE_2_DB Phase to Ground voltages A B C N A WYE_3_DB
91. anges of elements over the IEC61850 interface Configuration of Mx70 IEDs is achieved through the use of the following software tools o Bitronics 70 Series Configurator software o Alstom s MiCOM S1 IEC61850 IED Configurator software package Configuration banks Mx70 devices support two 2 configuration banks for holding IED configurations taken from SCD or CID Substation Configuration Language SCL files This includes IP configuration SNTP GOOSE publishing subscription parameters etc The IED Configurator tool only allows a configuration to be downloaded to the inactive bank The IED Configurator will prompt the user if he she desires to make the configuration active
92. ary inputs 32 GOOSE integer inputs and 32 GOOSE float inputs These virtual inputs used by the GOOSE message allow the mapping to internal logic functions for protection control directly to output contacts or to LEDs for monitoring Once the binary integer and analogue points are mapped in a particular application a GOOSE message should be usable in order to cause trigger conditions for other devices e g cross triggering between Mx70 devices where a 2 IED is configured by programming a trigger condition expected to be contained in the dataset received in a GOOSE message When the trigger occurs such as a binary state change a GOOSE message results containing a dataset that can be mapped to the 2 IEDs GOOSE inputs either the binary inputs integer inputs or analogue floating point inputs and used to trigger that IED on the network based on the values or measurements contained in the dataset The Mx70 IEDs can subscribe to all GOOSE messages but only the following data types can be decoded and mapped to the inputs binary integer and float supported by the GOOSE BOOLEAN BSTR2 INT16 INT32 INT8 INT16U INT32U INT8U FLOAT32 SPS DPS Mx7xl EN M M IEC 61850 Protocol Manual Page 18 1 6 2 1 7 1 7 1 70 series IEC 61850 GOOSE configuration All GOOSE configurations are performed via the IED Configurator tool available within the 61850 IED Configurator software tool avai
93. at care to avoid a BufOvfl and keep a long historical of the events IEC 61850 Protocol Manual Mx7xl EN M M 70 series Page 111 9 Doc Ref Subject Status Comment 5 E 2 a fe 5 8 N 220 p 48 FC SP Green Issue Refering to TISSUE 28 of 7 3 the 10 2 2 4 2 definition of SP in Table 18 is not correct Table 18 anymore and it was never completely correct anyway SP is now only used for setting parameters and not for setpoints anymore SP attributes can be changed using the SetDataValue service see 7 7 1 v of IEC 61850 7 3 Ed1 Proposal Change Text in Table 18 as follows DataAttribute shall represent a setting parameter information whose value may be written and read Changes of values shall become effective immediately 234 p 21 New type Ctxint Green As a consequence of TISSUE 146 5 5 2 General and TISSUE 120 8 1 a new v basic type Ctxint is added 236 19 2 Name length Green Ed2 LD name length up to 64 2 LN Name rest length up to 64 261 19 IEDName starts with Red Ed2 number 278 p 82 Entryld not valid for a Green The state resync has been added The 14 2 2 15 server BRCB is and remains in state resync while it is not enabled and the client set EntryIDs of entries that are available in the buffer of entries If no entry is found in the buffer of entries corresponding to the value of the EntryID set by the Client in the SetBRCBValues then th
94. ccuracy on M87x Improved poll rate from 500ms to 100ms for a single P40 transducer inputs module M87x Fault distance configuration is changed Time sync with respect to DNP master is changed from the DNP master jamming the time to asking the master what time to jam Increased waveform recording limit from 999 post trigger for longer recording 3 40 1 31 2 19 3 02 09 30 2009 0 2 5 2 57 2 58 M87x Product Release IEC61850 amp SNTP Avg 3 Ph Amps and Avg 3 Ph Volts MCL file v1 01 3 40 1 30 3 01 0 3 01 3 01 1 30 2009 Mx7xI EN M M Page 4 Description M87x Product Release Added 1mHz accuracy on M87x Improved poll rate from 500ms to 100ms for a single P40 transducer inputs module M87x Fault distance configuration is changed Time sync with respect to DNP master is changed from the DNP master jamming the time to asking the master what time to jam Increased waveform recording limit from 999 post trigger for longer recording M87x Product Release Added virtual I O to DR Added Peak Fault Current Measurement Improved password security Added support for control characters for SMS M87x Product Release Added support for dual peak current input range M872 S16 S17 IEEE C37 232 naming convention periodic triggering and 4 IEC 61850 buffered reports Firmware Versions Bios DSP Host Version Firmware Firmware urator Lil 3 1 31 3 02 0 T 1 31 3 04 0 1 32 3 05 3 05 IEC 61850 Pr
95. ce to The parameter T shall be the time when the client sends the control requests plural for request indicating there may be several requests There are some further clarifications regarding the T parameter required as follows The T parameter shall not be modified by the server it will be mirrored with the response the client may use it to associate a response with the request any other uses of T are local issues and outside the scope of the standard 14 2 3 2 3 Change the last sentence in the clause 2 from on a quality change to On a data update DuPd is not used Typo in syntax BRCB class Syntax page 77 URCB class Syntax page 94 The attribute TrgOp shall be plural as TrgOps 15 1 Publish request Ed2 The Mx70 devices trigger GOOSE explanation events on both data transitions 17 5 2 3 Typo Syntax Control Proposal is to Change Attribute type from Table 36 time EntryTime to TimeStamp Mx7xI EN M M Page 106 Doc Ref Subject Syntax parameter DSet Ref missing Status IEC 61850 Protocol Manual Comment Proposal Add the missing text 15 2 2 3 3 3 15 2 2 4 3 3 DataSetReference The parameter DataSetReference shall contain the Reference of the DATA SET whose members have been requested GOOSE Management is not supported in Mx70 devices 70 series Conformance Supported Syntax GOOSE T type This issue i
96. criber Publisher M14 Multicast SVC O N O N M15 Unicast SVC O N O N M16 Time M Y M N Time source with required accuracy shall be available M17 File Transfer O N O Y c2 shall be M if support for LOGICAL NODE model has been declared c3 shall be M if support for DATA model has been declared c4 shall be M if support for DATA SET Substitution Report Log Control or Time model has been declared c5 shall be M if support for Report GSE or SMV models has been declared 2 4 TABLE 2 ACSI MODELS CONFORMANCE STATEMENT 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 Client Server Comments TP MC Subscriber Publisher Server clause 6 S1 ServerDirectory TP N M Y Application association clause 7 S2 Associate M N M Y S3 Abort M N M Y S4 Release M N M Y Logical device clause 8 S5 LogicalDeviceDirectory TP M N M Y Logical node clause 9 S6 LogicalNodeDirectory TP M N M S7 GetAllDataValues TP O N M Data clause 10 S8 GetDataValues TP M N M Y s9 SetDataValues TP O N O Y S10 GetDataDirectory TP O N M Y S11 GetDataDefinition TP O N M Y Mx7xlI EN M M IEC 61850 Protoc
97. ct SelectWithValue from the same selected tissue 334 client when the control object is already SBOns Y SBOes N A Causes reset of select timeout Is for SBOes the interval validation performed during the SelectWithValue and or Operate step Not supported Can a control operation be block by Mod Off or Blocked N Does the IED support local remote operation N Response for control with normal security Does the IED send an InformationReport with LastApplError as part of the Operate DOns N SBOns N lt additional items gt One object at a time can be selected no limit Time and Time Synchronization Control outputs used for IEC61850 control should not be used for general purpose configuration as defined by the 70 Series Configurator tool All control outputs used for IEC61850 specific configuration should be set to default values by the 70 Series Configurator tool Output Control page ctIModel direct operate sboClass once sboTimeout 0 onDur 0 and offDur 0 Table 20 PIXIT Time and Time Synchronization Model Description What quality bits are supported may be set by the IED Value Clarification Y _LeapSecondsKnown N ClockFailure Y ClockNotSynchronized Describe the behaviour when the time synchronization signal messages are lost The DUT maintains the time based on the last valid server timestamp using its internal high resolution timer
98. curity Digital Outputs option CDC Class SPC Attribute Type FC Enumeration Comment X SBO VISIBLE_STRING65 CO Control data name is Select before operate SBO Oper OperBOOL_0 co The operate request that initiates the control operation On receipt of the operate request the control object shall check validation of the control execution e If not successful the control object shall issue a negative response to the requesting client e If successful the control object shall issue a positive response to the requesting client and cause the requested action Cancel CancelBOOL_0 CO The operation request to cancel the control function stVal BOOLEAN ST Status value of the data q Quality ST Quality of the status value t TimeStamp ST Timestamp of the last change in state of status value stSeld BOOLEAN ST The controllable data is in the status selected ctlModel ENUMERATED8 CF ctlModel Control model Corresponding MMS Type INT8 to the behaviour of the data sboTimeout INT32U CF Set before operate SBO timeout setting in ms sboTimeout is specified according to the control model that corresponds to the behaviour of the data sboClass Enumerated8 CF Select before operate SBO class operate once or operate many sboClass is specified according to the control model that corresponds to the behaviour of the data d VISIBLE_STRING255 DC Description of the stat
99. de the addresses visible in MMS life will be much simpler for utilities Proposal Add the group addresses for GSE and SMV Neither GSCB nor SMV are used in Mx70 devices IEC 61850 Protocol Manual 70 series Doc Ref p 58 11 2 2 3 Subject Attributes of Control Blocks as members of DataSets Status Mx7xI EN M M Comment Ed2 Unsupported in Mx70 devices Page 109 Conformance Supported p 156 157 19 2 Name constraint for control blocks etc Issue The instance names for the following classes need to be constraint in clause 19 2 DataSet all Controlblocks The instance names are concatenated with LNNames The LNName xxName must fit into 32 according to 8 1 64 characters See also comment 141 and IEC 61850 8 1 clause 17 1 1 1 2 Note below table 37 39 Proposal Define the common rule for building instance names for DataSet and control blocks In clause 19 2 the explanation of FCD shall be changed from 29 characters to 61 characters 10 2 2 4 3 TISSUE 65 from 7 3 Edition 2 tissue 14 3 3 2 7 3 DataRef attribute in Log The parameter DataRef shall contain the DataSet member reference of the value of the EntryData The parameter value shall contain the DataSet member values to be included in the EntryData Logging is not supported by Mx70 12 Figure 16 Figure substitution misleading Subst is not support
100. ded For the following conditions a virtual inputs value will be forced to its configured default value o The publishing device is absent e g no GOOSE messages are received o The received GOOSE message does not pass the validation criteria o The received GOOSE message has the test flag set o The received GOOSE message has the NdsCom flag set GSSE formerly UCA2 GOOSE is not fully supported However GSSE messages are issued by the server under some conditions and GSSE reception can cause internal state changes GSSE configuration is done via the 70 Series Configurator TAL Time Allowed to Live IEC 61850 Protocol Manual Mx7xl EN M M 70 series Page 139 5 11 Control Model Table 19 PIXIT for Control Model Description What control modes are supported Value Clarification Y _ status only Y direct with normal security Y sbo with normal security N_ direct with enhanced security N _ sbo with enhanced security Is the control model fixed configurable and or online changeable Configurable Is Time activated operated operTm supported N Is operate many supported N Will the DUT activate the control output when the test attribute is set in the SelectWithValue and or Operate request when N test procedure Ctl2 is applicable What are the conditions for the time T attribute in the SelecWithValue and or Operate request No functiona
101. defined for use in the Common Data Classes defined in the sections above Component AnalogueValue_0 Comment General analogue value Floating Point Parent Type AnalogueValue Attribute Type Enumeration Comment xX f FLOAT32 Floating point value Component CancelBOOL_0 Comment Control Cancel Parent Type Cancel Attribute Type Enumeration Comment Xx ctlVal BOOLEAN Logical True False control value origin Originator_0O Origin ctINum INT8U 8 bit unsigned integer value T Timestamp Timestamp of Entry Time This control timestamp is the time when the client sends the control request Test BOOLEAN Logical True False value No test False Test True Defines whether the information is caused by normal operation or by test Component Originator_0 Comment Originator of the last change of the data attribute representing the value of the controllable data Parent Type Origin Attribute Type Enumeration Comment X orCat Enumerated8 orCategory 8 bit Enumerated value orldent OCTET_STRING64 64 character string 8 bits per character IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 91 3 6 4 Component OperBOOL_0 Comment Control Operate BOOLEAN control value Parent Type Oper Attribute Type Enumeration Comment X ctlVal BOOLEAN Logical True False control value origin Originator
102. duplicated It is processed as if it were in order Go8 Does the device subscribe to GOOSE messages with without the VLAN tag Y with the VLAN tag Y without the VLAN tag Go9 May the GOOSE data set contain structured data objects FCD timestamp data attributes Note data attributes FCDA is mandatory Subscribed Published N N N N Go10 Published FCD supported common data classes data types are Go11 Subscribed FCD supported common data classes data types are All CDCs except HMV HWYE HDEL and CSD Go12 What is the slow retransmission time Is it fixed or configurable 60000 mseconds with TAL 120010 Configured by Maximum Cycle Time parameter IED Configurator tool Go13 What is the minimum supported retransmission time What is the maximum supported retransmission time Is it fixed or configurable 1 msecond 50 mseconds Configured by Minimum Cycle Time and Increment parameters IED Configurator tool Go14 Can the Goose publish be turned on off by using SetGoCBValues GoEna Y lt additional items gt IEC 61850 Protocol Manual 70 series Mx7xI EN M M Page 137 Description Value Clarification The data received in a GOOSE message is only processed when a change in status number stNum taken from the GOOSE message header is detected No validation checks are made to ensur
103. e IED Configurator Templates If necessary the 70 Series Configurator tool will automatically create two sub folders named M57X and M87X where it will place the ICD files specific to each of the M57x and M87x family of devices respectively Creation of the MiCOM Configuration Language MCL file The 70 Series MCL file which contains the IEC 61850 specific configuration of the device is a binary file created by the IEC 61850 IED Configurator tool This tool uses the ICD file as a template from which it can create an IEC 61850 device configuration After configuration is completed and verified the user can select Device gt Send Configuration CTRL D menu option to upload the Mx7xlI EN M M IEC 61850 Protocol Manual Page 12 70 series configuration to the device The user will then be asked to enter the IP address of the device Two configurations are supported active and inactive The program will then prompt the user if they would like the current configuration to be made the active configuration The two configurations correspond to the following filenames e Active configuration filename IEC61850_CONFIG MCL e Inactive configuration filename IEC61850_CONFIG MC2 Finally the user will be prompted if they would like the Mx70 IED to be automatically restarted The user should answer yes in order for the active bank switch to take effect during the next power cycle The user should also make a backu
104. e 48 clause 8 1 neut WYE modified explanation Value of the measured phase neutral If a direct measurement of this value is not available it is acceptable to substitute an estimate computed by creating the algebraic sum of the instantaneous values of currents flowing through all live conductors In that case neut is identical to res For further details see phsA WYE 2 res add the text For further details see phsA WYE 3 net add the text For further details see phsA WYE Mx7xI EN M M Page 118 Doc Ref Table 13 21 and other Subject Services missing in tables Status IEC 61850 Protocol Manual Comment Document issue is resolved by defining the list of services supported by the data attributes for GSE models SendGOOSEMessage 70 series Conformance Supported General mag in CDC CMV Add the following notes that the instCVal mag the mag component of Vector is NOT a deadbanded value that the deadband calculation for cVal mag and cVal ang is based on instCVal mag and instCVal ang Data attribute mag is not the same as data attribute component of the data attribute type vector General Deadband calculation of a Vector and trigger option Deadbands of vectors apply only to cVal mag component General New CDC ACI The Common Data class ACI is unused in Mx70 devices 6 5 Deadband on range limits Editi
105. e quality of the status value t TimeStamp ST Timestamp of the last change in state d VISIBLE_STRING255 DC Description of the status element Textual description of the data 3 5 20 Common Data Class LPL_0O Description Standard or Basic Logical Node Name Plate for the Measurements Logical Device CDC Class LPL Attribute Type FC Enumeration Comment vendor VISIBLE_STRING255 DC Name of the vendor swRev VISIBLE_STRING255 DC Software revision d VISIBLE_STRING255 DC Description a text string that refers to the logical node IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 81 3 5 21 Common Data Class LPL_1 Description Logical Node 0 Name Plate CDC Class LPL Attribute Type FC Enumeration Comment X vendor VISIBLE_STRING255 DC Name of the vendor swRev VISIBLE_STRING255 DC Software revision d VISIBLE_STRING255 DC Description a text string that refers to the logical node configRev VISIBLE_STRING255 DC Uniquely identifies the configuration of a local device instance IdNs VISIBLE_STRING255 EX Logical Device name space 3 5 22 Common Data Class LPL_2 Description Bitronics Non Standard Logical Node Name Plate CDC Class LPL Attribute Type FC Enumeration Comment Xx vendor VISIBLE_STRING255 DC Name of the vendor swRev VISIBLE_STRING255 DC Software revision d VISIBLE_STRING255 DC
106. e state of the BRCB goes to disable Use of EntryID within the BRCB The reported entries are dependant upon the transitions of state of the BRCB and are handled as follows e A transition from disabled to enabled shall start reporting with the first available entry i e oldest in the queue of entries v Reporting of the next sequential entries shall occur A transition from resync to enabled shall start reporting with the next available entry i e in time sequence in the queue of entries after the entry associated with the EntrylD value set by the client Reporting of the next sequential entries shall occur The value of EntrylD returned in a GetBRCBValues response shall be defined as follows e When the BRCB state is disabled a GetBRCBValues shall return the EntryID value that represents the last i e newest entry that has been entered into the buffer continued Mx7xl EN M M IEC 61850 Protocol Manual Page 112 70 series Doc Ref Subject Status Comment Conformance Supported 278 continued from When the BRCB state is resync a previous page GetBRCBValues shall return the value of the EntrylD specified within the last SetBRCBValues e When the BRCB state is enabled The value of EntrylD returned in a GetBRCBValues response shall be the EntryID of the last set of events sent An EntryID value of all zeros 0 is reserved to indicate an empty buffer no reported EntrylD sha
107. e the data has changed inline with the stNum increment and it is accepted and processed as per the normal procedure given above The data is transferred onto Boolean Integer and Float values Boolean and Integer input values can be converted to Boolean values when the data subscription parameters are met Virtual Input state True On when the received data value matches the Virtual Inputs target value in accordance with its comparison operator Virtual Input state False Off when the received data value does not match the Virtual Inputs target value in accordance with its comparison operator Mx70 IEDs support thirty two 32 each of Boolean Integer and Float virtual input signals each with their own GOOSE data set attribute index target value and comparison operator The following comparison operators are supported GOOSE data value EQUALS target value GOOSE data value IS NOT EQUAL TO target value GOOSE data value IS LESS THAN target value GOOSE data value IS GREATER THAN target value If a GOOSE message from one of the subscribed publishers is not received within the TAL taken from the last valid GOOSE message from that publisher the value reverts to its default value non float or remains at the last known value float It should be noted that this single alarm provides a Logical OR of all publishing IEDs that the Mx70 device has subscribed to This alarm therefore remains set while the
108. e to the IEC 61850 implementation in the Mx70 devices are grouped in this class Tissues identified as status Blue which are considered questions only Tissues that have not completed or closed within the last year or Tissues that have a status other then Green These Tissues may or may not be listed in the conformance tables Their numbers are included for completeness and for tracking Tissues requiring future consideration Technical issues with applicability under the IEC 61850 implementation in the Mx70 devices According to the UCA IUG QAP the Tissue conformance statement is required to perform a conformance test and is referenced on the certificate For more details on the logged Technical Issues refer to the website http Awww tissues iec61850 com Tissues considered This document incorporates Edition 1 Interoperability Tissues closed prior to the latest revision of this document Mx7xl EN M M IEC 61850 Protocol Manual Page 100 70 series 4 3 4 4 Document structure This document is broken down into several sub sections one per part of the IEC 61850 standard specifications Each subsection contains a list of tissue numbers that relate only to editorial or schema changes a list of tissue numbers that are questions only status Blue a table of the remaining tissues that provides for each tissue The TISSUE number A reference into the appropriate section paragraph ann
109. ed 14 3 3 2 7 3 Logging Integrity period Logging is not supported by Mx70 16 OptFlds in SV CB s not exposed for client specification ED 2 Include the OptFlds MSVCB and USVCB in the control block get and set services however this is only true for SV Control Blocks CB in GOOSE CB we do not have OptFlids SV is not supported by Mx70 devices SV Format Ed2 SV not supported in Mx70 devices p 134 16 4 Table 34 SV Format SV not supported in Mx70 devices Mx7xlI EN M M IEC 61850 Protocol Manual Page 110 70 series Doc Ref Subject Status Comment Conformance Supported BRCB Entryld and See Tissue 49 for definition of TimeOfEntry TimeOfEntry and interaction with EntryID and uniqueness within the system see Tissue 453 for chapter edition including the BRCB state machine EntryID in GetBCRBValues The value of EntrylD returned ina GetBRCBValues response shall be defined as follows e When the BRCB state is disabled a GetBRCBValues shall return the EntryID value that represents the last i e newest entry that has been entered into the buffer When the BRCB state is resync a GetBRCBValues shall return the value of the EntrylD specified within the last SetBRCBValues e When the BRCB state is enabled The value of EntryID returned in a GetBRCBValues response shall be the EntryID of the last set of events sent An EntryID value of all zeros 0 is
110. ed CDCs for Normative Annex E E 3 and E 4 of 8 1 is Clause control service what is called an IEC extension The E 4 mapping Annex E 3 defines the oder of the SBO 2 vi SBOw Oper and Cancel attributes E 4 i the order of the service parameters of the CDCs ctlVal origin ctINum within SBOw Oper and Cancel structures 438 p 36 EntryTime base Green EntryTime maps to MMS BINARY TIME 8 1 3 7 should be GMT Clarification was needed that EntryTime v is based on GMT 446 Send only values not Blue Ed 2 IEC 61850 7 2 allows Datasets to structures by GOOSE contain structures or single attributes 9 2 Both Structure and single attributes are i supported by Mx70 devices 545 p 89 File directories Green The Mx70 device does not have files Clause specific to any of the Logical Devices 9 Vv 23 1 Therefore Mx70 devices do not contain f any root based LD directories 586 GOOSE re Blue Ed 2 2 Messages are sent within the 2 7 transmission amp TATL GOOSE TimeAllowedToLive TATL time 3S Pan pate Range is not Green Removed INT128 and replace with INT64 v 609 p 125 origin and ctiNum Blue Ed 2 Proposal will either make these clause optional attributes optional or mandatory Data 9 J E 4 2 attributes Origin and ctINum are both j present in Mx70 devices Mx7xl EN M M IEC 61850 Protocol Manual Page 128 70 series 4 12 Part 9 1 Standard Not supported 4 12 1 Specification scope The scope of part 9 1 of the IE
111. eh INS_O Behaviour Health INS_O Health NamPIt LPL_2 Name Plate TotVAa MV_0 Total VA arithmetic mode X TotVAv MV_0 Total VA vector mode Geometric xX TotVAaFund MV_0O Total VA Fundamental arithmetic mode X TotVAvFund MV_0 Total VA Fundamental vector mode Geometric X TotPFa MV_0 Total power factor arithmetic mode xX TotPFv MV_0 Total power factor vector mode Geometric xX DF WYE_1 Displacement Fundamental power factor xX TotDFa MV_0 Total Displacement power factor arithmetic mode xX TotDFv MV_0 Total Displacement power factor vector mode Geometric xX Ires MV_0 Residual current X Mx7xI EN M M Page 58 3 4 15 3 4 16 IEC 61850 Protocol Manual 70 series Logical Node MLFK_0 Custom LN not contained in IEC 61850 part 7 4 definitions Flicker Measurements MFLK Custom LN Class not contained in IEC 61850 part 7 4 definitions Description LN Class This LN shall be used for calculation of flicker including voltage fluctuations according to IEC Standard 61000 4 15 The main use is for operative applications Attribute Attr Type Explanation x Mod INC_O Mode Beh INS_O Behaviour Health INS_O Health NamPIt LPL_2 Name Plate Pst DEL_O Perception Level for Flicker short term X Van Vbn Vcn Bus 1 and Bus 2 Pit DEL_0O Perception Level for Flicker long term X Van Vbn Vcn Bus 1 and Bus 2 PiMax DEL_0 Instantaneous Flicker Level IFL X NOTE
112. en the BRCB state is resync a GetBRCBValues shall return the value of the EntrylD specified within the last SetBRCBValues e When the BRCB state is enabled The value of EntrylD returned in a GetBRCBValues response shall be the EntryID of the last set of events sent continued 349 continued from An EntryID value of all zeros 0 is previous page reserved to indicate an empty buffer no reported EntrylD shall have a value of zero 0 TimeOfEntry in GetBRCBValues The value returned in a GetBRCBValues response shall provide the time stamp of the EntryID whose value is exposed in the control block The value exposed for TimeOfEntry when the value of EntrylD is zero 0 is a local issue IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 115 Doc Ref Subject Status Comment Conformance Supported p 146 147 Time activated Final Ed2 Add the conditions that have to be operate and further proposal met before the action can be activated 17 4 conditions like mode Procedure b b On expiration of the timer the wanted action shall be activated if the conditions LNBeh on or test AND LDMode on or test AND Loc of LN false AND Loc of LLNO false and a response shall be sent to the client In general the State Machines for control should reflect these conditions as well may be it would be sufficient to state this at the beginning of clause 17 Control These conditions
113. er conditions are compare PICS Value Clarification integrity data change quality change data update general interrogation The supported optional fields are sequence number report time stamp reason for inclusion data set name data reference buffer overflow entryID conf rev segmentation lt lt lt ZZK Can the server send segmented reports Y Mechanism on second internal data change notification of the same analogue FC MX data value within buffer period Compare IEC 61850 7 2 14 2 2 9 Send report immediately Multi client URCB approach Compare IEC 61850 7 2 14 2 1 Each client is assigned its own set of Unbuffered Report Control Blocks URCB s This allows clients to enable reporting based on their own requirements rather than having to share URCB resources with all other connected clients Each Unbuffered Report Control Block can be used by at most one client Clients should set Resv then set remainder of URCB then enable the report Reports enabled by another client cannot be altered As each client is assigned its own URCB the use of the reserve attribute becomes redundant although this is still supported within the control block unused was What is the format of Entry ID What is the buffer size for each BRCB or how many reports can be buffered 25k bytes per report control block Approximately 100 single event reports Pre configured RCB attr
114. er is used to identify the type of data you will be presented with For example SPCSO1 Digital output 1 of Logical Node type GGIO Data Attribute This is the actual data measurement value status description etc For example stVal status value indicating actual position of the output contact for Digital output 1 for Data Object type SPCSO1 of Logical Node type GGIO IEC 61850 in the Mx70 series IEDs IEC 61850 can be implemented in the 70 series of IEDs M57x M87x only when equipped with an Ethernet option The M87x requires an Ethernet module that is capable of supporting a 100Mb connection For an M57x it is necessary that the instrument be equipped with a factory installed Ethernet option The appropriate version of Host firmware and hardware defined below for 70Series devices is necessary to support the IEC 61850 protocol implementation and is required for proper operation The 70 Series Configurator software and the IEC 61850 IED Configurator software Micom S1 Support Software provide the Configuration tools which manage the majority of the IEC 61850 implementation and data transfer capabilities An MMS browser is used to view the data For M57x and M87x devices to be used with the IEC 61850 communication protocol here are some essential requirements that need to be met for these Mx70 devices to properly operate namely the Host board must have been manufactured with 64M RAM It is necessary that the Host board
115. erence to the data model and FCCB elements as reference to the control blocks This allows the highest level of checking on XML schema level the correctness of the object references This is a change to SCL but does not presently have an impact to Mx70 devices Note that more intelligence would be need to be incorporated into Alstom s S1 software for this to become a configuration issue Page 103 Conformance Supported 9 2 Security Attribute The attributes security and noASDU are mapping specific and dfined in 9 2 Add the security attribute to the SCL Mx70 does not support part 9 2 of the standard RCB Naming Resolved by always using the default index naming Report Control Blocks RCBs URCB01 URCB08 are the unbuffered control blocks used Private section type Make the use of the type attribute of the Private element as required instead of optional The type attribute is always used Note MiCOM S1 IED configuration issue such that IED configurator always uses type P 58 9 3 7 Attributes of the FCDA element References for arrays in DataSets Although the Mx70 does support harmonic array elements in its data model Data set members cannot contain individual array elements 9 3 2 Flag buffered unbuffered reporting in element service Can t implement this yet It is an Issue for Edition 2 to address that involves the
116. exe etc The subject of the TISSUE The TISSUE status Red Green Yellow etc The required conformance Indication if the TISSUE is supported The required conformance column provides the following information Meaning TISSUE is included in the UCA Device conformance test procedures version x y and is stated as mandatory TISSUE is not yet included in the UCA Device conformance test procedures or it s a recommendation or it s optional in the IEC 61850 documents To be defined The proposal is not defined in such detail to be implemented or tested Not applicable no change for implementation and testing Conformance is not known or unclear for the TISSUE Meaning The TISSUE is implemented in the Mx70 IED The TISSUE has not been implemented in the Mx70 IED The TISSUE is not applicable to the Mx70 IED Support is not known or unclear for the TISSUE NOTE All Tissues whose status is other than Green will indicate a conformance status of and a supported status of Document Information TICS Revision History Revision Date Note A 24 June 2008 Initial Document prepared Tissues are included up to May 2008 Firmware Applicablility This manual is applicable to IEC 61850 for M57x M87x firmware version v3 00 0 and later IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 101 4 5 Part 5 Standard 4 5 1 Specification scope
117. for harmonic calculation d VISIBLE_STRING255 DC Description of the status element Textual description of the data 3 5 13 Common Data Class INC_0 Description Controllable Enumerated Status used for Logical Node Mode control CDC Class INC Attribute Type FC Enumeration Comment xX stVal ENUMERATED8 ST Mod The element status MMS Type INT8 q Quality ST Quality of the status value t TimeStamp ST Timestamp of the last change in state of status value ctlModel ENUMERATED8 CF ctlModel Control model Corresponding to the behaviour of the data MMS Type INT8 IEC 61850 Protocol Manual 70 series 3 5 14 3 5 15 3 5 16 3 5 17 Mx7xI EN M M Page 79 Common Data Class ING_0 Description Integer Set Point 32 bits CDC Class ING Attribute Type FC Enumeration Comment X stVal INT32 SP The element status MMS Type INT32 d VISIBLE_STRING255 DC Description of the status element Textual description of the data Common Data Class ING_1 Description Enumerated Set Point 8 bits CDC Class ING Attribute Type FC Enumeration Comment Xx stVal ENUMERATED8 SP OpMod The element status MMS Type INT8 d VISIBLE_STRING255 DC Description of the status element Textual description of the data Common Data Class INS_0 Ed2 Dataclass would be called ENS_0
118. former Phase B Bus 2 TVTR7 TVTR_O Voltage Transformer Phase C Bus 2 TVTR8 TVTR_O Voltage Transformer Phase N Bus 2 TCTR1 TCTR_O Current Transformer Phase A Bus 1 TCTR2 TCTR_O Current Transformer Phase B Bus 1 TCTR3 TCTR_O Current Transformer Phase C Bus 1 TCTRS5 TCTR_O Current Transformer Phase A Bus 2 TCTR6 TCTR_O Current Transformer Phase B Bus 2 TCTR7 TCTR_O Current Transformer Phase C Bus 2 Mx7xlI EN M M IEC 61850 Protocol Manual Page 34 70 series LD LN Instance LN Type Description System 1 0 Options GGIO Logical slot number is fixed at 1 Choose option No GGIO option No No generic Process I O based on logical GGIO slot configuration option Choose option GGIO1 GGIO_O Generic Process I O based on logical Sier oGangualion GGIO for M57x 4D1 4DO Choose option GGIO1 GGIO_3 Generic Process I O based on logical slot configuration GGIO for M57x 4DI 4DO 4Al Choose option GGIO1 GGIO_6 Generic Process I O based on logical slot configuration GGIO for M57x 4Al GGIO2 GGIO_9 Generic Process I O 32 Virtual Output signals TABLE 6 M572 BREAKER AND 2 IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 35 LD LN Instance LN Type Description Measurements LLNO LNNO_O Measurements Logical Device LPHD LPHD_O Physical Device Information MMXU1 MMXU_9 M
119. g a method for time synchronization with 70Series devices when IEC 61850 protocol and DNP protocol co exist on the same IED device In this case do NOT use the DNP time set command with SNTP or any of the other time synchronization methods A DNP set time command will override all other methods of time synchronization which may result in a time contention between the 2 time sources where one and then the other will set the time and time may never be able to synchronize correctly GOOSE peer to peer communication GOOSE communications of statuses are included as part of the IEC 61850 protocol implementation For more details see the section covering Peer to peer GSE Mx7xlI EN M M IEC 61850 Protocol Manual Page 14 70 series communications IEC 61850 Protocol Manual Mx7xl EN M M 70 series 1 3 2 1 3 2 1 Page 15 5 Disturbance record extraction Extraction of disturbance records by file transfer is supported Available for extraction are the records created from the 2 Disturbance recorders and the 2 Waveform recorders in the Mx70 device The record is extracted as an ASCII format COMTRADE file Setting changes are not supported in the current IEC 61850 implementation In order to keep this process as simple as possible such setting changes would be done using the 70Series Configurator and the IEC 61850 IED Configurator MiCOM S1 support software over the Ethernet link A reboot of the device is necessary for the conf
120. have to be met in any case Note The Mx70 does not support time activated operate p 64 Substitution subVal Ed2 To keep track which client issued clause 12 and subID the last set it is required to set the subID anytime when a new value is set for subVal subMag subCMag and subQ This may be implemented in an SCSM by a set service that carries two values one for subXxx and one for subID With reporting and logging one could track the sequence of changes If we want to prevent a second client to change any substitution values in state subEna True then we would need a semaphore for substitution or a similar mechanism Note The Mx70 does not support substitution p 64 Over write Ed2 After subEna is set to True it shall clause 12 substitution values be possible to set new values over write the current values for subVal subMag subCMag subQ and subID The updated values shall be used to update the corresponding process values stVal The over write of the values subVal subMag subCMag and subQ shall be accompanied by a new value for sublD Note The Mx70 does not support substitution p 18 Conceptual service 5 3 model in 5 3 Log is not used Figure 3 p 54 GetDataValues leafs The attempt to set a DataAttribute or an 10 4 2 3 not access underlying component that is not available shall be interpreted as a service failure Basic Types STRING 5 5 2 Full name is 129 octets T
121. hen a device is described as IEC 61850 compliant this does not mean that it is interchangeable but it does mean that it is interoperable You cannot simply replace one product with another however the terminology is pre defined and anyone with prior knowledge of IEC 61850 should be able to very quickly integrate a new device without the need for mapping of all of the new data IEC 61850 will inevitably bring improved substation communications and interoperability at a lower cost to the end user Mx7xl EN M M IEC 61850 Protocol Manual Page 8 70 series 1 2 2 Summary of 70Series IEC 61850 Features Based on part 7 2 of the IEC 61850 standard This table summarizes the IEC 61850 features for M57x or M87x type devices Server Model Section 6 e 3 logical devices Measurements Records System e 1 File Directory of COMTRADE files Association e Two Party Application Association Model used for normal data and non Section 7 GOOSE reporting Includes a simple method to inhibit writing for view only applications e Multicast Association Model used for GOOSE messaging Logical Device Section 8 Mx7x Measurement IEDs Logical Nodes e 50 Logical Nodes as defined in the Model Implementation Conformance Statement MICS Exact Count is dependent upon device configuration for example number of physical I O points which can vary based on the installed options Section
122. ibutes that cannot be changed online when RptEna FALSE see also ICD report settings DatSet ConfRev May the reported data set contain structured data objects data attributes N Y What is the scan cycle for binary events Is this fixed configurable Event driven Fixed IEC 61850 Protocol Manual 70 series Description Does the device support to pre assign a RCB to a specific client in the SCL Mx7xI EN M M Page 135 Value Clarification lt additional items gt Number of Report Control Blocks 5 9 Logging Model Not supported Table 17 PIXIT for Logging model Unbuffered URCB 32 Buffered BRCB 4 ID Description Value Clarification Mx70 IEDs have an existing measurement event log that is used to store historical data This is only available through the soelog txt file 5 10 Generic Substation Events Model TABLE 18 PIXIT for Generic substation events model ID Description Value Clarification Got What elements of a subscribed GOOSE header are checked to decide the message is valid and the allData values are accepted If yes describe the conditions Note the VLAN tag may be removed by an Ethernet switch and should not be checked lt zZz lt lt lt zZ lt lt 2Z2Z22Z lt lt source MAC address destination MAC address Ethertype 0x88B8 APPID gocbRef timeAllowedtoLive e must be a value greater tha
123. ich the report handler received the first notification that is used to form an Entry D Within the GetBRCBValues The value returned in a GetBRCBValues response shall provide the time stamp of the EntryID whose value is exposed in the control block The value exposed for TimeOfEntry when the value of EntrylD is zero 0 is a local issue Therefore after having set the BRCB state in resync the client is able to check if the EntryID that is set is the one that knows since the couple EntryID TimeOfEntry will always be unique during the whole lifetime of an IED and of its replace part if a replacement should occur LNName start with The LNName prefix shall start with a number letter Otherwise mapping to MMS should restrict it since MMS variable names are not allowed to start with a number Mx7xl EN M M IEC 61850 Protocol Manual Page 108 70 series Doc Ref Subject Status Comment Conformance Supported ARRAY 0 num Text to be included in draft Ed2 missing The type ARRAY shall be as defined as follows ARRAY n m OF p with n Oorn 1 m gt 0 p Common data attribute type or BasicType or Common ACSI type shall represent a list of elements numbered from n to m The type of the elements shall be as specified by p The ARRAY type shall be applied for DataAttributes only NOTE Common data attribute types for substation automation applications are defined in IEC
124. iguration to take effect after changing any of the configurable parameters for an Mx70 device IEC 61850 Configuration One of the main objectives of IEC 61850 is to allow IEDs to be directly configured from a configuration file generated at system configuration time At the system configuration level the capabilities of the IED are determined from an IED capability description ICD file For Mx70 devices the ICD file is an output file generated by the 70 Series Configurator software tool The ICD file is automatically stored in the C Config folder on the Mx70 device In order to perform the IEC 61850 configuration of an Mx70 device it is necessary to load the ICD file that is stored on the Mx70 device onto the hard drive of the computer on which the configuration tools were installed It is recommended that the ICD file be stored on the user PC s hard drive under the Programs folder where the IEC 61850 IED Configurator program is installed A sub folder named Templates contains subfolders for M57x and M87x devices If these subfolders do not exist it would be necessary to create them The 61850 IED Configurator software requires that the ICD file be loaded as an input file in order to complete the IEC 61850 configuration Note that the 70Series Configurator should be able to automatically make and store the icd file on the PC for the user The location where the ICD file should be stored is iedcfg Templates and the M57x and or M87x
125. in 7 2 allows both FCD and FCDA information to be conveyed A test case needs to be created that tests an implementation s ability to receive an FCD 336 Clause 5 5 Test context Red Conformance test documentation shall be last supplied to the initiator and made paragraph available on request to potential customers of the device tested The test certificate will indicate the conformance test has been performed according to IEC 61850 10 and refer to PICS IEC 61850 Protocol Information Conformance statement MICS IEC 61850 Model Implementation Conformance statement and TICS technical issue conformance statement PIXIT Protocol Implementation extra information for testing Supplying conformance documentation should not be made mandatory in Part 10 376 p 25 Negative Test case on White Mx70 devices do not support substitution N A 6 2 4 9 2 substitution i 420 p 20 Configuration file test Red 9 2 6 2 4 3 cases 421 p 20 Versioning of schema White 9 9 6 2 4 3 for configuration files f 3 594 p 35 Controls to the same Red XCBR breaker commands are not Table 28 direction supported in Mx70 devices N A Para CtIN3 597 p 35 TimeActivatedOperate White Table 27 in 61850 7 2 is not the 9 9 same to TimeActivation of 61850 8 1 Mx7xlI EN M M Page 130 5 5 1 5 2 5 3 IEC 61850 Protocol Manual 70 series PROTOCOL IMPLEMENTATION EXTRA INFORMATION FOR
126. ing IEC 61850 7 4 2003 the individual harmonics and harmonic demand Provides measurements of individual harmonic magnitudes and angles for polyphase analogue values for voltage only LN is extended to include custom measurements MMTR_O MMTR Energy measurements IEC 61850 7 4 2003 Provides for acquiring of polyphase metering values pertaining to a field device or circuit LN is extended to include custom measurements IEC 61850 Protocol Manual 70 series Mx7xI EN M M Page 45 LN Type LN Class Description Name Space MMXN_O MMXN Auxiliary voltage Measurements for M871 or Dual Feeder Reference voltage measurements for Mx72 IEC 61850 7 4 2003 MMXU_0O MMXU Standard Measurements Present and Maximum Thermal Demands Bus 1 M871 Provides measurements of single phase or polyphase analogue values including neutral pertaining to a wye or delta connected field device or circuit IEC 61850 7 4 2003 MMXU_1 MMXU Standard Measurements Present and Maximum Thermal Demands Bus 1 M571 M572 M872 Bus 2 M572 M872 Provides measurements of single phase or polyphase analogue values pertaining to a wye or delta connected field device or circuit IEC 61850 7 4 2003 MMXU_2 MMXU Standard Measurements Present Minimum and Maximum Thermal Demands Volts only Bus 2 M571 M871 Provides measurements of single phase or polyphase analogue
127. ion parameter used to calculate all deadband attributes rangeC RangeConfig_Deadband CF Configuration parameters as used in the context with the range attribute IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 75 3 5 6 Common Data Class CMV_1 Description Complex Measured value Floating Point Magnitude and Angle CDC Class CMV Attribute Type FC Enumeration Comment X instCVal Vector_1 MX Instantaneous complex measured vector cVal Vector_1 MX Deadband complex measured vector value Magnitude only The value of cVal is updated to the current value of instCVal i e cVal will track to instVal for this CDC q Quality MX Quality of the measurement value t TimeStamp MX Measured value Timestamp 3 5 7 Common Data Class CMV_1_DB Description Complex Measured value Floating Point Magnitude and Angle with deadband configuration CDC Class CMV Attribute Type FC Enumeration Comment xX instCVal Vector_1 MX Instantaneous complex measured vector value cVal Vector_1 MX Deadband complex measured vector value Magnitude and Phase If db 0 then cVal is updated to the current value of instCVal i e cVal will track to instCVal q Quality MX Quality of the measurement value t TimeStamp MX Measured value Timestamp units Unit_Multiplier CF Units of the attributes that represent the data db INT32U CF Configura
128. lable from MiCOM S1 Studio Support Software All GOOSE publishing configuration can be found under the GOOSE Publishing tab in the configuration editor window All GOOSE subscription configurations can be found under the External Binding tab in the configuration editor window Care should be taken to ensure that the configuration is correct to ensure efficient GOOSE scheme operation The set up programming of trigger conditions to allow an Mx70 device to be cross triggered from another device s dataset received as a GOOSE message is a typical distributed recorder application for Mx70 devices in a substation Ethernet functionality Ethernet disconnection IEC 61850 associations are unique and made to the IED between the client master and server IEC 61850 device In the event that the Ethernet is disconnected such associations are lost and will need to be re established by the client The TCP_KEEPALIVE function is implemented in Mx70 devices to monitor each association and terminate any which are no longer active Loss of power Mx70 devices allow the re establishment of associations by the client without a negative impact on the IED s operation after having its power removed As the Mx70 device acts as a server in this process the client must request the association When power is lost reports requested by connected clients are reset and must be re enabled by the client when it next creates the new association to
129. lass TCTR Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Amp SAV_0 Current sampled value Rat ASG_0O Winding ratio of an external current transformer transducer Cor ASG_0 Current phasor magnitude correction of an external current transformer AngCor ASG_0 Current phasor angle correction of an external current transformer Mx7xI EN M M Page 72 3 4 41 3 5 IEC 61850 Protocol Manual 70 series Logical Node TVTR_O Description Voltage Transformer LN Class TVTR Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Vol SAV_0 Voltage sampled value Rat ASG_0 Winding ratio of an external voltage transformer transducer Cor ASG_0 Magnitude correction of an external voltage transformer AngCor ASG_0 Phase Angle correction of an external voltage transformer 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 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
130. lient or master For example a computer or Human Machine Interface HMI An MMS browser with which the full data model can be retrieved from the IED Note that an MMS browser such as SISCO s MMS Object Explorer may be required in order to browse and verify IEC 61850 objects that have been configured for the Mx70 device Capability The IEC 61850 interface provides the following capabilities 1 Read access to measurements All measurands are presented using the measurement Logical Nodes in the Measurements Logical Device Reported measurement values are refreshed by the IED once per second in line with the IEDs user interface Generation of unbuffered reports on change of status measurement Through the 61850 client reports are enabled when the RptEna bit is set to a value of 1 in the Unbuffered and Buffered Report Control Blocks URCB and BRCB When reports are enabled any change of state in statuses and or measurements which includes measurements and such number of COMTRADE files for example Records WrxRDRE1 ST FitNum stVal where the fault number indicates the COMTRADE file count the COMTRADE file count is the next number to be assigned are reported to the client However changes to floating point values cannot trigger a report but will nonetheless always be included in a report Since Integer values have an implied deadband of 1 integer values will only be reported if there is a change in va
131. lity Is pulse configuration supported N What is the behavior of the DUT when the check conditions are set Is this behavior fixed configurable online changeable N synchrocheck N _ interlock check N A What additional cause diagnosis are 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 Commanc already in execution Blocked by health 1 of n control Abortion by cancel Time limit over Abortion by trip 2222222222222 222 How to force a test not ok respond with SelectWithValue request Not supported How to force a test not ok respond with Select request Not supported How to force a test not ok respond with Operate request Not supported Which origin categories are supported All What happens if the orCat value is not supported All are supported Does the IED accept a SelectWithValue Operate with the same ctlVal as the current status value DOns Y SBOns Y DOes N A SBOes N A Mx7xlI EN M M Page 140 Description Does the IED accept a select operate on the same control object from 2 different IEC 61850 Protocol Manual 70 series Value Clarification DOns N SBOns N clients at the same time DOes N A SBOes N A Does the IED accept a Sele
132. ll have a value of zero 0 10 and 19 Instatiation of DATA Ed2 LNName consists of LN Prefix LN class name and LN Instance ID To be consistent it should be defined that DataName Data class name Data Instance ID Data class name up to 10 characters Data Instance ID n numeric characters optional n shall be equal for all instances of the same data 14 2 2 10 Sequence number Definition of SqNum The BRCB that has report enable set to TRUE shall maintain the parameter SqNum This number shall be incremented by the BRCB for each report generated and sent on the basis of the BRCB The increment shall occur once the BRCB has formatted the report for transmission The first report following the setting of the report enable to TRUE shall contain sequence number 0 The sequence number shall roll over to 0 at its maximal value Table 23 Type of SqNum Attribute size for SqNum remains amp 25 INT16U for Buffered Report Control Blocks BRCB and INT8U for Unbuffered Report Control Blocks URCB p 77 Attribute Resv in Creation of ResvTms Reservation Time BRCB as optional new attribute added to 14 2 2 1 Buffered Report Control Block BRCB Table 23 New Attribute ResvTms is optional But this is unchanged from the IEC 61850 standard Reporting with BufTm 0 If more than one member of a data set changes at the same time then multiple reports are sent In general each data change causes a new Goose Report
133. lue Unbuffered and Buffered Report Control Blocks URCB and BRCB can be configured in Mx70 devices by using the IEC 61850 Configurator tool however the client must set the RptEna to 1 in order to enable a report to be sent to the client For the purpose of viewing the contents of reports an MMS browser can be used as the client performing that purpose If using a browser such as SISCO s MMS Object Explorer a Report Control Block RCB can be enabled by right clicking on the RCB such as urcb01 selecting Monitor Reports then clicking on the RCB such as urcb01 and selecting Enable Reports Support for time synchronization over an Ethernet link Time synchronization is supported using SNTP Simple Network Time Protocol this protocol is used to synchronize the internal real time clock in substation devices i e control systems relays IEDs It is recommended that only one method of time synchronization be used for an Mx70 device Time synchronization issues may be encountered if an Mx70 device operates with multiple clients that are operating from multiple protocols which rely upon time synchronization from different time sources The order of priority for time synchronization methods used in Mx70 devices is that IRIG B time will take priority over UCA time which will take priority over SNTP time This allows a more accurate time source to be the over riding time synchronization source for the Mx70 device Use care when selectin
134. lue t TimeStamp MX Time deadbanded magnitude last exceeded its db configuration parameter d VISIBLE_STRING255 DC Description of the status element Textual description of the data units Unit_Multiplier CF Units of the attributes that represent the data db INT32U CF Configuration parameter used to calculate all deadbanded attributes rangeC RangeConfig_Deadband CF Configuration parameters as used in the context with the range attribute Common Data Class MV_1 Description Measured value Floating Point value CDC Class MV Attribute Type FC Enumeration Comment mag AnalogueValue_0 MX 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 q Quality MX Quality of the measurement value t TimeStamp MX Time deadbanded magnitude last exceeded its db configuration parameter d VISIBLE_STRING255 DC Description of the status element Textual description of the data IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 83 3 5 26 Common Data Class SAV_0 Description Sampled value Floating Point value CDC Class SAV Attribute Type FC Enumeration Comment X instMag AnalogueValue_0 MX Magnitude of the sampled value q Quality MX Quality of the sampled value d VISIBLE_STRING255 DC Textual description of the data
135. mands for Bus 2 MHAI2 MLFK1 MLFK_O Voltage Flicker Bus 1 Measurement Custom LN MLFK2 MLFK_0O Voltage Flicker Bus 2 Measurement Custom LN MSYN1 MSYN_O Synch check Bus 1 Phase A to VREF1 Custom LN IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 39 LD LN Instance LN Type Description MSYN2 MSYN_O Synch check Bus 1 Phase B to VREF1 Custom LN MSYN3 MSYN_O Synch check Bus 1 Phase C to VREF1 Custom LN MSYN4 MSYN_O Synch check Bus 1 Phase A to VREF2 Custom LN MSYN5 MSYN_O Synch check Bus 1 Phase B to VREF2 Custom LN MSYN6 MSYN_O Synch check Bus 1 Phase C to VREF2 Custom LN MADV1 MADV_0 Advanced Measurements Bus 1 Custom LN MADV2 MADV_0 Advanced Measurements Bus 2 Custom LN MFLO1 MFLO_O Fault Distance Measurement Bus 1 Custom LN MFLO2 MFLO_O Fault Distance Measurement Bus 2 Custom LN MTMP1 MTMP_0O Temperature Measurement internal ambient Custom LN Records LLNO LLNO_O Records Logical Device LPHD LDHD_0O Physical Device Information WrxRDRE1 RDRE_O Waveform Recorder 1 WrxRDRE2 RDRE_O Waveform Recorder 2 DrxRDRE1 RDRE_O Disturbance Recorder 1 DrxRDRE2 RDRE_0O Disturbance Recorder 2 System LLNO LLNO_1 System Logical Device Can only Publish GOOSE in System LLNO LPHD LPHD_O Physical Device Information GosGGIO1 GGIO_8 GOOSE Input Status GOOSE Subscriptions are done here TVTR1 TVTR_O Vol
136. mum number of data values in one SetDataValues request Dependent on the negotiated size of the MMS PDU and the total length of all ObjectReferences to be included within the service request The total length of all ObjectReferences must be less than the maximum supported MMS PDU size taking into account any relevant header information Which Mode Behavior values are support On Blocked Test Test Blocked Off lt additional items gt The CDC definition BCR includes a data attribute actVal whose type is INT32 according to Edition 1 of the standard refer to tissue 1199 Deadbands are supported in Mx70 IEDs for objects MMXU MMXN and MSQI logical nodes Mx70 IEDs do not have a built in range limit for measurements but deadbands are specified as a percentage change based on sucha range To resolve this each measurement provides a range configuration in the data model where a minimum and maximum value can be set Deadbands will be configured based on a percentage change of the applied measurement range A deadband setting of zero 0 forces the measurement to follow the instantaneous value i e deadbanding is disabled For complex measurement types supporting both magnitude and angle the deadband will only apply to the magnitude element The Mx70 IED contains one 1 non IEC61850 MMS domain named ZPrivateLD This domain is outside of the scope of the standard and as such should
137. munications 1 7 Ethernet functionality 2 PROTOCOL IMPLEMENTATION CONFORMANCE STATEMENT PICS 19 2 1 Introduction 2 2 ACSI basic conformance statement 2 3 ACSI models conformance statement 2 4 ACSI service conformance statement 3 MODEL IMPLEMENTATION CONFORMANCE STATEMENT MICS 25 3 1 Introduction 3 2 Objective 3 3 Logical Device definitions 3 4 Logical Node definitions 3 5 Common Data Class definitions 3 6 Common data attribute type definitions 3 7 Enumerated type definitions 3 8 MMS data type conversions 4 IEC 61850 TECHNICAL ISSUES TISSUES STATEMENT TICS 4 1 Introduction 4 2 Tissues considered 4 3 Document structure 4 4 Document Information TICS 4 5 Part 5 Standard 4 6 Part 6 Standard 4 7 Part 7 1 Standard 4 8 Part 7 2 Standard 4 9 Part 7 3 Standard 4 10 Part 7 4 Standard 117 120 Mx7xlI EN M M IEC 61850 Protocol Manual Page 2 4 11 4 12 4 13 4 14 5 5 1 5 2 5 3 5 4 5 5 5 6 5 7 5 8 5 9 5 10 5 11 5 12 5 13 5 14 5 15 5 16 70 series Part 8 1 Standard 124 Part 9 1 Standard Not supported 128 Part 9 2 Standard Not supported 128 Part 10 Standard 129 PROTOCOL IMPLEMENTATION EXTRA INFORMATION FOR TESTING PIXIT 130 Introduction 130 Document structure 130 Application Association Model 130 Server Model 131 Data Set Model 133 Substitution Model not supported 133 Setting Group Control Model not supported 133 Reporting Model 134 Logging Model Not supported 1
138. n zero 0 datSet e must be a valid reference to publishing devices GoCB golD e must be a valid reference to publishing devices GoCB t stNum sqNum test confRev e must match publishing devices GoCB as set during device configuration SCL ndsCom numDatSetEntries e only after an initial message from the publishing device has been received and the device has been enrolled Each subsequent message must contain the same number of data set elements as the first received message Mx7xlI EN M M Page 136 IEC 61850 Protocol Manual 70 series Description Value Clarification Go2 Can the test flag in the published GOOSE be turned on off N Go3 Does the DUT accept a configuration with a Goose control block with empty data set or too large data set Yes but the GoEna can t be enabled Go3 What is the behavior when the GOOSE publish configuration is incorrect DUT keeps GoEna F Go4 When is a subscribed GOOSE marked as lost TAL time allowed to live value from the last received GOOSE message Never marked as lost Go5 What is the behavior when one or more subscribed GOOSE messages isn t received or syntactically incorrect missing GOOSE No action taken Go6 What is the behavior when a subscribed GOOSE message is out of order It is processed as if it were in order Go7 What is the behavior when a subscribed GOOSE message is
139. nalogue input 8 IEC 61850 Protocol Manual IEC 61850 Protocol Manual 70 series 3 4 9 Logical Node GGIO_8 Description Generic Process I O GOOSE Message LN Class GGIO Attribute Attr Type Explanation Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Anin1 MV_1 GOOSE Floating point input 1 Anln2 MV_1 GOOSE Floating point input2 Antn3 MV_1 GOOSE Floating point input 3 Anin4 MV_1 GOOSE Floating point input 4 Anln5 MV_1 GOOSE Floating point input 5 AnIn6 MV_1 GOOSE Floating point inpu 6 Anln7 MV_1 GOOSE Floating point input 7 Anln8 MV_1 GOOSE Floating point input 8 AnIng MV_1 GOOSE Floating point input 9 Anin10 MV_1 GOOSE Floating point input 10 Anin11 MV_1 GOOSE Floating point input 11 Anini2 MV_1 GOOSE Floating point input 12 Anin13 MV_1 GOOSE Floating point input 13 Anin14 MV_1 GOOSE Floating point input 14 Anin15 MV_1 GOOSE Floating point input 15 Anin16 MV_1 GOOSE Floating point input 16 Anin17 MV_1 GOOSE Floating point input 17 Anin18 MV_1 GOOSE Floating point input 18 Anln19 MV_1 GOOSE Floating point input 19 Anln20 MV_1 GOOSE Floating point input 20 Anln21 MV_1 GOOSE Floating point input 21 Anln22 MV_1 GOOSE Floating point input 22 Anln23 MV_1 GOOSE Floating point input 23 Anin24 MV_1 GOOSE Floating point input 24 Anin25 MV_1
140. nclude custom measurements DmdMHAI1 MHAI_0 Present Thermal Demands for Bus 1 MHAI1 DmdMHAI2 MHAI_0 Present Thermal Demands for Bus 2 MHAI2 DmnMHAI1 MHAIL 1 Minimum Thermal Demands for Bus 1 MHAI1 No minimum Amp demands DmnMHAI2 MHAIL 1 Minimum Thermal Demands for Bus 2 MHAI2 No minimum Amp demands DmxMHAI1 MHAI_0 Maximum Thermal Demands for Bus 1 MHAI1 DmxMHAI2 MHAI_0 Maximum Thermal Demands for Bus 2 MHAI2 MLFK1 MLFK_O Voltage Flicker Bus 1 Measurement Custom LN MLFK2 MLFK_O Voltage Flicker Bus 2 Measurement Custom LN Mx7xlI EN M M IEC 61850 Protocol Manual Page 30 70 series LD LN Instance LN Type Description MSYN1 MSYN_O Synch check Bus 1 Phase A to VREF1 for M572 Dual Feeder Custom LN MSYN2 MSYN_O Synch check Bus 1 Phase B to VREF1 Custom LN MSYN3 MSYN_O Synch check Bus 1 Phase C to VREF1 Custom LN MSYN4 MSYN_O Synch check Bus 1 Phase A to VREF2 Custom LN MSYN5 MSYN_O Synch check Bus 1 Phase B to VREF2 Custom LN MSYN6 MSYN_O Synch check Bus 1 Phase C to VREF2 Custom LN MADV1 MADV_0O Advanced Measurements Bus 1 Custom LN MADV2 MADV_0O Advanced Measurements Bus 2 Custom LN MFLO1 MFLO_O Fault Distance Measurement Bus 1 Custom LN MFLO2 MFLO_O Fault Distance Measurement Bus 2 Custom LN MTMP1 MTMP_0O Temperature Measurement Internal ambient
141. nded to include custom measurements MMXU2 MMXU_11 M571 Bus 2 V Measurements LN is extended to include custom measurements FndMMXU1 MMXU_7 Fundamental of Bus 1 MMXU1 Measurements FndMMXU2 MMXU_8 Fundamental of Bus 2 MMXU2 Measurements DmdMMXU1 MMXU_1 Present Thermal Demands of Bus 1 MMXU1 Measurements DmdMMXU2 MMXU_2 Present Thermal Demands of Bus 2 MMXU2 Measurements DmnMMXU1 MMXU_3 Minimum Thermal Demands of Bus 1 MMXU1 DmnMMXU2 MMXU_2 Minimum Thermal Demands of Bus 2 MMXU2 DmxMMXU1 MMXU_1 Maximum Thermal Demands of Bus 1 MMXU1 DmxMMXxU2 MMXU_2 Maximum Thermal Demands of Bus 2 MMXU2 FndDmdMMXU1 MMXU_5 Fundamental Thermal Demands of Bus 1 MMXU1 FndDmxMMXU1 MMXU_5 Fundamental Maximum Thermal Demands of Bus 1 MMXU1 MMTR1 MMTR_O Bus 1 Energy Metering Measurement LN is extended to include custom measurements MSQI1 MSQI_0 Bus 1 Sequence Components Volts amp Amps MSQI2 MSQI_1 Bus 2 Sequence Components Volts only MHAI1 MHAIL 2 Bus 1 Harmonics Volts amp Amps including individual harmonics phase related K factor and harmonic demand LN is extended to include custom measurements MHAI2 MHAIL 3 Bus 2 Harmonics Volts only including individual harmonics and harmonic demand LN is extended to include custom measurements DmdMHAI1 MHAI_0 Present Thermal Demands for Bus 1 MHAI1 DmdMHAI2 MHAIL_1 Presen Thermal Demands for Bus 2 MHAI2 Volts only DmnMHAI1 MHAI_1 Minimum Thermal Demands for Bus 1 MHAI
142. not be included in any conformance testing to it IEC 61850 Protocol Manual 70 series 5 5 5 6 5 7 Data Set Model Table 13 PIXIT for Data Set Model Description What is the maximum number of data elements in one data set compare ICD setting Mx7xI EN M M Page 133 Value Clarification 250 FCDAs The number of elements in each reported data set is directly dependent upon the count of data attributes contained within the MX or ST functional constraints as reported by the Report Control Blocks in each Logical Node instance None of the pre defined data sets can be deleted How many persistent data sets can be created by one or more clients this number includes predefined datasets Dynamic data set creation is not supported How many non persistent data sets can be created by one or more clients Dynamic data set creation is not supported lt additional items gt Number of user definable data sets Substitution Model not supported Table 14 PIXIT for Substitution model 26 at configuration time ID Description Value Clarification Setting Group Control Model not supported Table 15 PIXIT for Setting group control model ID Description Value Clarification Mx7xl EN M M IEC 61850 Protocol Manual Page 134 70 series 5 8 Reporting Model Table 16 PIXIT for Reporting Model Description The supported trigg
143. nsducer Input module P40 the assigned slot number is the GGIO logical slot number For example if two Digital I O modules are assigned to logical slot numbers 0 and 2 and one Transducer Analogue Input module is assigned logical slot 3 then GGIO1 would consist of one Digital I O module while GGIO3 would consist of 1 Digital I O and 1 Transducer input module However if the two Digital I O modules are assigned to logical slot numbers 0 and 3 and the Analogue Transducer Input module is assigned logical slot 3 then GGIO1 would consist of one Digital O module GGIO3 would consist of 1 Transducer input module and GGIO4 would consist of 1 Digital I O module For M87x models the total number of logical slots will depend upon the chassis size the number of slots that can be assigned for GGIO and whether the digital and analogue are grouped together such as P30 P40 grouped together to represent one logical node or kept separate Please note that the P32 I O wrap around module serves a specialised function and therefore is not included in the IEC61850 object model for M87x Series IEDs IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 27 LD LN Instance LN Type Description Measurements LLNO LLNO_O Measurements Logical Device LPHD LPHD_O Physical Device Information MMXU1 MMXU_10 M571 Bus 1 V A W VAr Measurements LN is exte
144. nt IEC 61850 Protocol Manual 70 series The ACSI models conformance statement shall be as defined in Table 2 Client Server Value Comments Subscriber Publisher If Server side B1 supported M1 Logical device c2 N c2 Y M2 Logical node c3 N c3 Y M3 Data c4 N c4 Y M4 Data set c5 N c5 Y M5 Substitution O N O N M6 Setting group control O N O N Reporting M7 Buffered report control O N O Y M7 1 sequence number yV M7 2 report time stamp Y M7 3 reason for inclusion Y M7 4 data set name Y M7 5 data reference Y M7 6 buffer overflow Y M7 7 entryID Y M7 8 BufTim Y M7 9 IntgPd Y M7 10 Gl Y M7 11 conf revision revision 2 adds this row entry M8 Unbuffered report control O N O Y M8 1 sequence number Y M8 2 report time stamp V M8 3 reason for inclusion Y M8 4 data set name Y M8 5 data reference Y M8 6 BufTim Y M8 7 IntgPd Y M8 8 Gl Y M8 9 conf revision revision 2 adds this row entry Logging O N O N M9 Log control O N O N M9 1 IntgPd N N M10 Log 0 N 0 N M11 Control M N M Y If GSE B31 32 is supported M12 GOOSE O Y O Y M12 1 entryID revision 2 removes this row entry N M12 2 DataReflnc revison 2 removes this row entry N M13 GSSE O Y O Y If SVC B41 42 is supported IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 21 Client Server Value Comments Subs
145. ntal Thermal Demands for Bus 2 M572 M872 NOTE Bus 2 M571 M871 will not measure either Fundamental Thermal Demands or Maximum Fundamental Thermal Demands since Bus 2 current is absent in those devices LN Class MMXU Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate A WYE_0_DB Phase Currents A B C Residual 3 4 29 Logical Node MMXU_6 Description Standard measurements Fundamental Fourier Values for Bus 1 M871 LN Class MMXU Attribute Attr Type Explanation Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate TotW MV_0_DB Total active power Total P TotVAr MV_0_DB Total reactive power Total Q TotVA MV_0_DB Total apparent power Total S TotPF MV_0_DB Average power factor Total PF Hz MV_0_DB Frequency PPV DEL_0_DB Phase to Phase voltages AB BC CA PhV WYE_1_DB Phase to Ground voltages A B C A WYE_3_DB Phase Currents A B C N Residual WwW WYE_1_DB Phase active power P VAr WYE_1_DB Phase reactive power Q VA WYE_1_DB Phase apparent power S PF WYE_1_DB Phase power factor Mx7xl EN M M IEC 61850 Protocol Manual Page 66 70 series 3 4 30 Logical Node MMXU_7 Description Standard measurements Fundamental Fourier Values for Bus 1 M571 M572 M872 or Bus 2 M572 M872 LN Class MMXU
146. nvolves the GOOSE message syntax The Attribute type T is a time handled by the application EntryTime is not correct because EntryTime is for internal use see clause 5 5 3 8 The proposal changes Attribute type from EntryTime to TimeStamp Syntax AppID or GolD Ed 2 Change Attribute name from AppID to GolD Add DstAddr to GoCB Issue Additional attribute in GoCB definition required Proposal Add Attribute DstAddress after the Attribute NdsCom 15 2 1 8 DstAddress The attribute DstAddress shall be the SCSM specific addressing information like media access address priority and other information GOOSE Message AppID to GoID Issue GOOSE message syntax page 116 ApplD application identifier page 116 The Attribute name AppID is misleading and too general IEC 61850 8 1 uses GolD instead Proposal Change Attribute name from AppID to GolD GsCB AppID to Gs ID Issue GsCB class definition page 118 Syntax page 125 The Attribute name AppID is misleading and too general IEC 61850 8 1 uses GsID instead Proposal Change Attribute name from ApplD to GsID Note Gsse Control Block GsCB is not supported for Mx70 devices although Gsse messages are supported via the 70Series Configurator SV timestamp EntryTime to TimeStamp Mx70 devices do not support Sam
147. ol Manual Page 22 70 series Services AA Client Server Comments TP MC Subscriber Publisher Data set clause 11 S12 GetDataSetValues TP o N M Y S13 SetDataSetValues TP O N 0 N S14 CreateDataSet TP O N o N S15 DeleteDataSet TP O N oO N S16 GetDataSetDirectory TP O N o Y Substitution clause 12 S17 SetDataValues TP M N M N Setting group control clause 13 S18 SelectActiveSG TP O N O N S19 SelectEditSG TP O N O N S20 SetSGValues TP O N O N S21 ConfirmEditSGValues TP O N O N 22 GetSGValues TP O N O N 23 GetSGCBValues TP O N O N Reporting clause 14 Buffered report control block BRCB S24 Report TP c6 N c6 Y S24 1 data change dchg Y 24 2 qchg change qchg N 24 3 data update dupd N 25 GetBRCBValues TP c6 c6 Y S26 SetBRCBValues TP c6 c6 Y Unbuffered report control block URCB S27 Report TP c6 N c6 Y S27 1 data change dchg N Y 27 2 qchg change qchg N N 27 3 data update dup N N 28 GetURCBValues TP c6 N c6 Y S29 SetURCBValues TP c6 N c6 Y c6 shall declare support for at least one BRCB or URCB IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 23
148. on No generic Process I O Choose option GGIO1 GGIO_0O Generic Process 1 O based on logical siot Sonkguration GGIO for M57x 4D1 4D0 Choose option GGIO1 GGIO_3 Generic Process I O based on logical slot configuration GGIO for M57x 4DI 4DO 4Al Choose option GGIO1 GGIO_6 Generic Process I O based on logical slot configuration GGIO for M57x 4Al GGIO2 GGIO_9 Generic Process I O 32 Virtual Output signals TABLE 5 M572 DUAL FEEDER Mx7xl EN M M IEC 61850 Protocol Manual Page 32 70 series LD LN Instance LN Type Description Measurements LLNO LLNO_O Measurements Logical Device LPHD LPHD_0O Physical Device Information MMXU1 MMXU_10 M572 Bus 1 V A W VAr Measurements LN is extended to include custom measurements MMXU2 MMXU_10 M572 Bus 2 V A W VAr Measurements LN is extended to include custom measurements FndMMXU1 MMXU_7 Fundamental of Bus 1 MMXU1 Measurements FndMMXU2 MMXU_7 Fundamental of Bus 2 MMXU2 Measurements DmdMMXU1 MMXU_1 Present Thermal Demands of Bus 1 MMXU1 Measurements DmdMMXU2 MMXU_1 Present Thermal Demands of Bus 2 MMXU2 Measurements DmnMMXU1 MMXU_3 Minimum Thermal Demands of Bus 1 MMXU1 DmnMMXU2 MMXU_3 Minimum Thermal Demands of Bus 2 MMXU2 DmxMMXU1 MMXU_1 Maximum Thermal Demands of Bus 1 MMXU1 DmxMMXU2 MMXU_1 Maximum Thermal Demands of Bus 2 MMXU2
149. on Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Anin1 MV_0O Analogue input 1 Anin2 MV_0O Analogue input 2 Anin3 MV_0O Analogue input 3 Anin4 MV_0O Analogue input 4 Anin5 MV_0O Analogue input 5 Anin6 MV_0O Analogue input 6 Anln7 MV_0 Analogue input 7 Anln8 MV_0 Analogue input 8 SPCSO1 SPC_3 Digital Output 1 SPCSO2 SPC_3 Digital Output 2 SPCSO3 SPC_3 Digital Output 3 SPCSO4 SPC_3 Digital Output 4 Ind1 SPS_0 Digital Input 1 Ind2 SPS_0 Digital Input 2 Ind3 SPS_0 Digital Input 3 Ind4 SPS_0 Digital Input 4 Ind5 SPS_0 Digital Input 5 Ind6 SPS_0 Digital Input 6 Ind7 SPS_0 Digital Input 7 Ind8 SPS_0 Digital Input 8 IEC 61850 Protocol Manual 70 series 3 4 6 Mx7xI EN M M Page 51 Generic Process I O M87x with options of 16 Digital inputs 4 Digital outputs Logical Node GGIO_5 Description 8 Analogue inputs LN Class GGIO Attribute Attr Type Explanation Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate Anin1 MV_0 Analogue input 1 Anln2 MV_0 Analogue input 2 Antin3 MV_0 Analogue input 3 Anin4 MV_0 Analogue input 4 Anln5 MV_0 Analogue input 5 Anln6 MV_0 Analogue input 6 Anln7 MV_0 Analogue input 7 AnIn8 MV_0 Analogue input 8 SPCSO1 SPC_3 Digital Output 1 SPCSO2
150. on 2 tissue p 24 p 40 p 46 Enums from 7 4 The issue was already addressed and solved as Part of Tissues 120 146 7 7 and 7 8 Reporting of setting values Mx70 doesn t do reporting of control settings p 42 7 9 2 table 46 Device name plate missing description d and dU Attributes d and dU are always optional Mx70 utilizes d description but not dU CDC for LN Inputs Mx70 data models do not use the ORG Common Data Class CDC 7 3 5 Table 17 operTm in ACT ACT is not used in the Mx70 data model p 22 clause 7 2 Table 12 Conflict of LPL definitions with requirements of Namespace Logical device Namespace LdNs is in LLNO LPL p 61 Table A 4 New type of SI unit PFRC is not used in Mx70 p 60 62 Table A Miss representation For SlUnit Value 1 dimensionless multiplier Value 2 6 2 1 Quality extension Edition 2 tissue p 28 and more 7 4 2 and more Table 22 and more Open Enumeration of range Optional MX component range not supported in Mx70 p 31 clauses 7 4 5 7 4 6 WYE and DEL rms values Interpretation of magnitude rms or phasors If there is an angle present the values are phasor values and attribute mag represents the maximum value of the sinusoidal wave form If there is no angle present the attribute mag represents an rms value Default of Rms i
151. on ID AppID Configuration Revision confRev and Dataset Address DstAddress No Dynamic Configurability only Report Enable rptEna can be changed 32 subscribing GOOSEs with 32 booleans and 32 integers enumerations and 32 floating points analogues populated in the internal 70Series database No GOOSE management capabilities these are GetGoReference and GetGOOSEElement Section 16 Sampled Measured Values NOT SUPPORTED in 70Series Section 17 Controls Control Models Time Activated Operate TAO which is perform operation at a later time is NOT SUPPORTED Operate many configuration is supported but can only be set up through the 70Series Configurator software tool used to set UCA configuration not in the 61850 IED Configurator software tool Pulse time configuration is supported but can only be setup through the 70Series Configurator software tool used to set UCA configuration not in the 61850 IED Configurator software tool The following physical inputs are supported status only direct with normal security sbo with normal security including cancel For internal control points other than Digital outputs only direct with normal security is supported Many controls are status only such as Mod ctl Val Section 18 Time Synchronization Up to 2 SNTP servers using optional many cast or any cast mode of operation are supported along with configurable polling times
152. otocol Manual version 1 01 S o 01 1 02 Config ICD file Utilities CD 3 02 3 04 3 05 70 series Release Date 09 30 2009 10 15 2010 2 28 2011 M87x Product Release Increased pre and post trigger time on disturbance recorders modified base memory to 1MB M87x Product Release IED responds with error if client tries to set qchg bit M57x 87x Release fixes incorrect error code when trying to set unsupported RCB optional fields M57x 87x Release fixed incorrect neg error resp for test SrvN3 set mismatching data types M87x Release support for H12 amp new MMS stack M87x Production Release Deadbands now supported Not supported on M57x 40 40 40 40 1 32 3 M87x Product Release Fixed FtN1 failure mode 40 1 32 3 07 3 3 40 32 3 40 40 A 3 0 2 3 0 4 3 3 0 3 07 07 3 07 07 1 3 07 4 07 3 07 1 33 4 00 0 4 00 N A 1 33 4 02 0 4 02 1 02 M 0 1 02 ai N 0 1 02 1 03 1 04 3 07 3 07 3 07 3 07 3 07 4 00 4 02 11 11 11 2 1 2012 2 15 2012 3 13 2012 3 15 2012 11 30 2012 4 25 2013 IEC 61850 Protocol Manual Mx7xl EN M M 70 series Page 5 Firmware Versions Config ICD file Utilities Release Description Version Firmware Firmware urator Date M57x 87x TrgOps write w unsupported bits Alstom various fixes N A 1 33 4 07 0 4 04 1 04 4 04 10 24 13 M57x
153. p copy of their configuration This can be done using the File Save or File gt Save As menu options which saves a backup copy of the MCL file to the local PC It should be noted that in addition to creating new IEC 61850 configurations using ICD template files the IED Configurator tool gives the user the ability to import and export the following types of IEC 61850 SCL files e Importing Substation Configuration Description files SCD Configured IED Description files CID Individual IED Description files IID e Exporting Configured IED Description files CID Individual IED Description files IID IED Configuration Description files ICD Substation Configuration Description files SCD Extensible Markup Language files XML In order to communicate with an IEC 61850 device it is necessary to set its Ethernet IP address Before configuring an Mx70 device on the TCP IP network you will need to determine the IP address for the device An IP address is needed to enter a configuration for an Mx70 device using the 70Series Configurator and the IEC 61850 IED Configurator software tools The IP address can be retrieved or changed though the P1 service port serial port by establishing a connection through Hyperterminal Refer to the relevant Host section in either the M87x or M57x user manual if you need to acquaint yourself with the connection to and operation over the service port P1 It is recommended that before
154. pe Explanation Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate SPCSO1 SPC_3 Digital Output 1 SPCSO2 SPC_3 Digital Output 2 SPCSO3 SPC_3 Digital Output 3 SPCSO4 SPC_3 Digital Output 4 Ind1 SPS_0 Digital Input 1 Ind2 SPS_0 Digital Input 2 Ind3 SPS_0 Digital Input 3 Ind4 SPS_0 Digital Input 4 3 4 2 Logical Node GGIO_1 Description LN Class GGIO Attribute Attr Type Explanation Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate SPCSO1 SPC_3 Digital Output 1 SPCSO2 SPC_3 Digital Output 2 SPCSO3 SPC_3 Digital Output 3 SPCSO4 SPC_3 Digital Output 4 Ind1 SPS_0 Digital Input 1 Ind2 SPS_0 Digital Input 2 Ind3 SPS_0 Digital Input 3 Ind4 SPS_0 Digital Input 4 Ind5 SPS_0 Digital Input 5 Ind6 SPS_0 Digital Input 6 Ind7 SPS_0 Digital Input 7 Ind8 SPS_0 Digital Input 8 Mx7xl EN M M IEC 61850 Protocol Manual Page 48 70 series 3 4 3 Logical Node GGIO_2 Description Generic Process I O M87x with option of 16 Digital inputs 4 Digital outputs LN Class GGIO Attribute Attr Type Explanation T X Mod INC_O Mode Beh INS_O Behaviour Health INS_1 Health NamPIt LPL_O Name Plate SPCSO1 SPC_3 Digital Output 1 SPCSO2 SPC_3 Digital Output 2 SPCSO3 SPC_3 Digital Output 3 SPCSO4 SPC_3 Digital Output 4 Ind1 SPS_0 Digital
155. pled Values Control T semantic The parameter T shall be the time when the client sends the control requests Add NOTE Control requests can be Select Operate or Cancel IEC 61850 Protocol Manual Mx7xl EN M M 70 series Page 107 Doc Ref Subject Status Comment Conformance Supported AddCause Object ACSI AddCause values Under part 8 1 not sel has defined a new value as Object not selected 18 AddCause is used only for Enhanced Security Control Mx70 devices use only Normal Security Controls 17 5 2 6 Missing AddCauses Add additional cause types 17 3 3 Synchro check cancel Synchro check is ignored by Controls 19 2 in LD Name The LDName is limited to 64 characters Figure 40 or or other are not allowed The IEC 61850 7 2 standard will be corrected correspondingly 17 2 1 Syntax in state Time activated controls are not supported Figure 30 machine 14 2 2 16 BRCB TimeOfEntry The report handler assigns Entry D s and TimeOfEntry s to the values contained within a set of notifications The number of notifications combined into a single EntrylD is determined by the RCB control parameters e g BufTim The value of the EntrylD is a local issue but it shall be a unique arbitrary OCTETSTRING whose value is unique within the scope of entries for a specific RCB The value of the TimeOfEntry shall be the timestamp representing the time at wh
156. ported as well IEC 61850 Protocol Manual Mx7xI EN M M 70 series 5 14 5 14 1 5 15 5 15 1 5 15 2 5 15 3 5 16 5 16 1 5 16 2 Page 143 Transmission of Sampled Values Model Not supported Modes of operation Not supported Mx70 IEDs do not support transmission of sampled value services using any modes of operation multicast or unicast As such there are no Multicast Sample Value Control Blocks MSVCB or Unicast Sample Value Control Blocks USVCB exposed within the data model Sub station Configuration Language Conformance level Mx70 IEDs are conformant to SCL 1 as defined by part 8 of the IEC61850 standards annex D ICD template files are available within the MiCOM S1 IEC61850 IED Configurator application Private data The Mx70 ICD files contain private SCL data This is required by the IED Configurator tool in order to correctly extract process and configure a device Any tool that imports Mx70 ICD files is required to preserve the private data in accordance with part 6 of the IEC61850 standards IED Name The Substation Configuration Language SCL allows customizable IED names Mx70 IEDs support user definable IED names It is recommended however that these names be restricted to a maximum of eight 8 characters in length Otherwise long IED names may cause network problems due to maximum PDU size IED Configuration Configuration The Mx70 IEDs do not support on line setting ch
157. quates to approximately one hundred 100 microseconds meeting the requirements of performance class T2 as defined in Part 5 of the IEC61850 standard Mx70 IEDs can be configured with two 2 external time synchronization servers of which only one 1 is ever the active time synchronization source If an external source fails to respond to a client synchronization request or responds with and invalid unsupported message the IED will automatically switch to the unused source if configured If IRIG B is enabled via configuration and a valid signal is being received by the IED then SNTP server responses will be ignored as IRIG B is deemed to be the primary source of time synchronization If IRIG B becomes unavailable during normal operating conditions SNTP will become the active time synchronization source until such time that IRIG B becomes available once again However it is recommended that only a single time source type to be used Mx7xlI EN M M Page 142 5 13 File Transfer Model Table 21 File Transfer Model Description What is structure of the file and directories Where are the COMTRADE files stored Are the COMTRADE files zipped and what files are included in each zip file IEC 61850 Protocol Manual 70 series Value Clarification Mx70 IEDs use MMS file transfer services for the transfer of disturbance records The file structure and directory presented to the user is shown in
158. ration see Note 1 GGIO for logical slot x 1 P30 amp logical slot x P40 8DI 4DO0 8Al Chose option based GGIOx GGIO_5 Generic Process I O P31 P40 on logical configuration see Note 1 GGIO for logical slot x 1 P31 amp logical slot x P40 16DI 4DO 8Al Chose option based GGIOx GGIO_7 Generic Process I O P40 on logical slot configuration see Note 1 GGIO for logical slot x 8Al GGIO2 GGIO_9 Generic Process I O 32 Virtual Output signals TABLE 7 M871 Mx7xlI EN M M IEC 61850 Protocol Manual Page 38 70 series LD LN Instance LN Type Description Measurements LLNO LLNO_O Measurements Logical Device LPHD LPHD_0O Physical Device Information MMXU1 MMXU_10 M872 Bus 1 V A W VAr Measurements LN is extended to include custom measurements MMXU2 MMXU_10 M872 Bus 2 V A W VAr Measurements LN is extended to include custom measurements MMXN1 MMXN_0O M872 Dual Feeder Voltage Reference 1 V MMXN2 MMXN_0O M872 Dual Feeder Voltage Reference 2 V FndMMXU1 MMXU_7 Fundamental Measurements of Bus 1 MMXU1 FndMMxXU2 MMXU_7 Fundamental Measurements of Bus 2 MMXU2 DmdMMXU1 MMXU_1 Present Thermal Demands of Bus 1 MMXU1 Measurements DmdMMXU2 MMXU_1 Present Thermal Demands of Bus 2 MMXU2 Measurements DmnMMXU1 MMXU_3 Minimum Thermal Demands of Bus 1 MMXU1 DmnMMXU2 MMXU
159. re are one 1 or more publishers absent It is not possible from this alarm condition to identity which publishing device has exceeded its TAL and has been classified as absent Mx7xlI EN M M Page 138 IEC 61850 Protocol Manual 70 series ID Description Value Clarification If a GOOSE message is received and the NdsCom and or test flags are set the message will be accepted as valid the TAL will be updated thus ensuring the device is called as fully subscribed within the Mx70 s GOOSE scheme However the message data will not be extracted nor processed within the IEDs GOOSE logic Any Virtual Input that is driven by the incoming GOOSE message flagged as NdsCom or test will revert to its configured default value Under normal circumstances a change to the data set published in a GOOSE message will result in an increment of the GOOSE Control Block GoCB ConfRev attribute If the Mx70 has subscribed to a device that changes its published data set without incrementing the ConfRev attribute it will attempt to extract and decode the data as normal If successful the data will be processed as normal However it should be noted that it will be a different data set element that is now driving the virtual input value No alarm or warning conditions are reported for this situation If the Mx70 device is unable to extract and decode the data then the GOOSE message be considered invalid and will be discar
160. s representing sequence components IEC 61850 7 4 2003 MSQI_1 MSQl Sequence and imbalance Volts only Pos Neq Zero for three phase power systems No Amps Provides for Measurement of polyphase analogue values representing sequence components IEC 61850 7 4 2003 MSYN_O MSYN Synchronism check Calculated differential measurements for rms voltage frequency and phase Custom LN definition is found in this section of the manual Bitronics NS Not Standard MTMP_0O MTMP Internal Ambient Temperature for the logical device Custom LN definition is found in this section of the manual Bitronics NS Not Standard RDRE_0O RDRE Disturbance Recorder function IEC 61850 7 4 2003 TCTR_O TCTR Current Transformer CT per Bus and phase IEC 61850 7 4 2003 TVTR_O TVTR Voltage Transformer VT per Bus and phase Auxiliary Voltage Measurements M871 or Reference Voltage Measurements for Dual Feeder 572 M872 IEC 61850 7 4 2003 TABLE 10 LN TYPE DEFINITIONS IEC 61850 Protocol Manual Mx7xI EN M M Page 47 Generic Process I O M57x with option of 4 Digital Inputs 4 Digital Outputs Generic Process I O M87x with option of 8 Digital Inputs 4 Digital Outputs 70 series 3 4 1 Logical Node GGIO_0 Description LN Class GGIO Attribute Attr Ty
161. s a local issue 368 p 84 Mapping of analogue Green Indicate that 7 2 Value is mapped to the p 86 setpoints SP underlying CDC of the control object For 20 5 example part of PDIS PoRch setpoint 20 7 data is mapped to 20 7 1 3 PDIS PoRch Oper setMag f and allow the setMag structured attribute of setpoints to be used Change 3 place Where lt xxx gt is the appropriate CDC e g ctlVal or setMag v to Where lt xxx gt is the appropriate CDC e g ctlVal or setMag f or setMag i The suggestion for Table E 8 shows mxVal for CDC APC This CDC has only setMag and not mxVal The M O C entry for this line should be as M for APC and ASG Tables E 9 and E 10 should be modified like E 8 shown above IEC 61850 Protocol Manual 70 series Doc Ref Subject Status Mx7xI EN M M Comment Page 127 Conformance Supported 422 p 34 Order of extension Green Within a MMS component representing 7 3 1 data objects and data IEC 61850 7 4 DATA the order of MMS attributes components is determined by the order of the names of the common data classes as defined in IEC 61850 7 3 or IEC 9 rA extensions of it For private CDCs or f private Extensions the order of attributes within the MMS component shall be identical to the order within the SCL ICD file describing the data model 433 p 122 Order of attributes in Green The TISSUE 168 resolves the issue 126 specializ
162. s used in Mx70 IEC 61850 Protocol Manual 70 series Doc Ref p 61 Table A 4 Subject More new types of unit Status Comment New unit types Number of characters and Baud are not applicable Mx7xI EN M M Page 119 Conformance Supported p 61 Table A 4 New unit for frequency functions New unit types Number of cycles and Baud are not applicable 7 4 8 thru 7 4 10 CDC HMV HWYE HDEL Substitution is not supported in the Mx70 devices p 25 7 3 6 Directional loop activation information Common Data Class ACD is not used p 47 7 8 2 ASG Table 43 Lower limit of stepSize in ASG stepSize is not used oper timeout missing in controlable CDC Green Enhanced security is not used p 29 7 4 3 Table 23 Quality evaluation of a Vector Yellow Annex A Add new unit to table A4 Green New unit turbine inertia is not used 7 4 2 Table 22 subMag and instMag in CDC MV Final proposal p 22 Table 12 dataNs cdcNs InNs definitions Red p 26 7 3 8 Allow INT32 for CDC BCR Green INT32 now required for BCR actVal frVal for Ed1 Mx7xlI EN M M Page 120 4 10 Part 7 4 Standard 4 10 1 Specification scope and data class definitions 4 10 2 Editorial and schema related TISSUES 442 443 485 486 487 4 10 3 Question only Tissues 4 10 4 Technical I
163. search Institute EPRI UCA The following are trademarks or registered trademarks of Schneider Automation Inc MODSOFT Modicon Modbus Plus Modbus Compact 984 PLC The following are trademarks or registered trademarks of VentureCom Inc Phar Lap the Phar Lap logo The following are trademarks or registered trademarks of Systems Integration Specialists Company Inc SISCO SISCO MMS EASE Lite AX S4MMS The following are trademarks or registered trademarks of General Software Inc General Software the GS logo EMBEDDED BIOS Embedded DOS The following are trademarks or registered trademarks of the PCI Industrial Computer Manufacturers Group CompactPCl PICMG the CompactPCI logo the PICMG logo IEC 61850 Protocol Manual Mx7xl EN M M 70 series 1 1 1 2 1 2 1 Page 7 IEC 61850 IMPLEMENTATION DETAILS Introduction IEC 61850 is the international standard for Ethernet based communication in substations It enables integration of all protection control measurement and monitoring functions within a substation and additionally provides the means for interlocking and inter tripping It combines the convenience of Ethernet with the security which is essential in substations today Alstom Grid has been involved in the Working Groups which formed the standard building on experience gained with UCA2 0 the predecessor of IEC 61850 The 70 Series measurement IEDs models M57x and M87x support the IEC 61850 protocol over
164. server Logical Device Comment Usage Control This Domain is not used in any of the Mx70 Logical Devices Measurements Mx70 Series Measurements Domains Measurement Domains are used for each Measurements Logical Devices The following list indicates the 6 types of 70 Series Measurements Logical devices possible M571 M572 Dual Feeder M572 Breaker amp 1 2 M871 M872 Dual Feeder M872 Breaker amp 1 Protection This Domain is not used in any of the Mx70 Logical Devices Records Mx70 Series Record Domain for the Measurements Logical Devices M571 M572 Dual Feeder M572 Breaker amp V2 M871 M872 Dual Feeder M872 Breaker amp V2 System Mx70 Series System Domains for the Measurement Logical Devices M571 M572 Dual Feeder M572 Breaker amp V2 M871 M872 Dual Feeder M872 Breaker amp 1 2 Mx7xl EN M M IEC 61850 Protocol Manual Page 26 3 3 1 70 series 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 data models for each of the logical devices are presented in this document The logical order is used to describe each of the physical devices However when it comes to the data objects data attributes and enumeration tables these are alphabetic
165. ssues IEC 61850 Protocol Manual 70 series The scope of part 7 4 of the IEC 61850 standards covers the compatible Logical Node class The following technical issues are editorial and schema related only 69 70 71 77 78 87 88 89 100 107 108 145 255 381 382 383 394 395 396 397 401 432 441 The following technical issues are questions only and no compliance is required 81 93 103 215 221 241 248 321 444 448 464 481 538 543 544 Subject General Single phase metering missing Instances of LN SIMG SIML Clause 6 PresTr Str and Op Clause 6 CBOpCap and SwOpCap Clause 6 AutoRecSt and Table 9 Lockout 5 13 TCTR and TVTR Over 5 10 New LN Class control measuring function Operation by CSWI Clause 6 Data Name InOv Table 9 Clause 6 RsStat device Table 9 security statistics Clause 6 PwrSupAlm and Table 9 EEHealth 5 6 5 Start a point on wave 5 11 3 SIMG mix of Comment The Mx70 devices do not support Non phase related Metering hence this new Logical Node MMTN is not used within the data model Logical Node SIMG SIML on insulation medium supervision is not used in Mx70 devices The Data Object named Insulation Liquid pressure trip PresTr and Logical Node Insulation medium suoervision liquid are not used in Mx70 devices Str and Op are already optional in the GAPC logical node however Mx70 devices do not use this logical node within the data model Da
166. t used within mx70 data models The LLNO contains common information for the LD like Health Mode and Beh and NamPIt LevMod is not used New Attribute RDRE sample rate is not applicable LN CSWI not used in Mx70 data models EEHealth is not used EEHealth is not used XCBR is not used RREC is not used More than one Data of the same type is allowed Data Instances are used e g Ind1 Ind2 Ind3 Mod is read only OpCniRs is not used Duplicate Tissue See Tissue 216 NumCntRs is not used Authorisation is not used New Features to add generic CDC input AlmThm is defined to be of ACT class The ACT class is not used Values of MMXU of CDC WYE DEL can Mx7xI EN M M Conformance Page 121 Supported Mx7xI EN M M Page 122 General Doc Ref Subject LN MDIF Amp1 etc Setting Local time or summer winter time LNs SCBR SSWI PTOC Enabling Blocking by Harmonic restraint PTRC and Switch on to fault LN RPSB SchTyp in LN PSCH RDRE RedTrg Assignment of new letters for logical nodes Status Green Green on hold on hold IEC 61850 Protocol Manual Comment have two meanings with angle present they are phasors and the attribute mag represents the maximum value of the sinusoidal waveform with angle not present they should represent rms values Angle is not present Mag is rms for A PhV and PPV Proposed to add two new settings to
167. ta Objects CBOpCap and SwOpCap are not used in the Mx70 These Data objects are not used This tissue makes Amp and Vol conditional for Ed2 only New Logical Node class MCXL is not used in Mx70 devices CSWI is not used LPHD InOv is not used in Mx70 devices RsStat is not used in Mx70 devices Data objects are not used in Mx70 devices CPOW is not used in Mx70 data models SIMG is not used in Mx70 data models Conformance Supported IEC 61850 Protocol Manual 70 series Clause 6 p 80 clause 6 Table 9 Doc Ref Subject PresAlm and PresTr Loc and CDC SPS SPC Proposed called BlkStat LN GSAL OpCntRs LN IARC and OpCntRs GSAL IARC and NumCnitRs NamPit of LLNO LevMod disturbance recorder RDRE Sample Rate LN CSWI open close LN Group M EEHealth MMXU EEHealth SwARsAlm in XCBR LN RREC Unsuccesfull LN GGIO OpCntRs Automatic Voltage Control AVCO ATCC ARCO Missing Automatic Infeed Switching Input of logical nodes NumCniRs Control Authorisation Failure Description of LN inputs PTTR AlmThm MMXU and rms values Status on hold on hold Green Green Green Green Green Green Comment SIML and SIMG are not used in Mx70 data models Loc is not used Proposal was bit accepted GSAL is not used in Mx70 data models GSAL is not used in Mx70 data models GSAL and IARC Logical Nodes are no
168. tage Transformer Phase A Bus 1 TVTR2 TVTR_O Voltage Transformer Phase B Bus 1 TVTR3 TVTR_O Voltage Transformer Phase C Bus 1 TVTR4 TVTR_O Voltage Transformer Phase N Bus 1 TVTR5 TVTR_O Voltage Transformer Phase A Bus 2 TVTR6 TVTR_O Voltage Transformer Phase B Bus 2 TVTR7 TVTR_O Voltage Transformer Phase C Bus 2 TVTR8 TVTR_O Voltage Transformer Phase N Bus 2 TVTR9 TVTR_O Voltage Transformer for Vref1 TVTR10 TVTR_O Voltage Transformer for Vref2 TCTR1 TCTR_O Current Transformer Phase A Bus 1 TCTR2 TCTR_O Current Transformer Phase B Bus 1 TCTR3 TCTR_O Current Transformer Phase C Bus 1 TCTRS5 TCTR_O Current Transformer Phase A Bus 2 TCTR6 TCTR_O Current Transformer Phase B Bus 2 TCTR7 TCTR_O Current Transformer Phase C Bus 2 Mx7xI EN M M IEC 61850 Protocol Manual Page 40 70 series System I O Options GGIO Logical slot numbers may range from 1 7 Choose option No GGIO option No GGIO option No generic Process I O based on logical slot configuration Choose option GGIOx GGIO_1 Generic Process I O P30 based on logical f slot configuration see Note 1 GGIO for logical slot x 1 8D1 4D0 Choose option GGIOx GGIO_2 Generic Process I O P31 based on logical sat CONOAS see Note 1 GGIO for logical slot x 1 16D1 4DO Choose option GGIOx GGIO_4 Generic Process I O P30 P40 based on logical f slot configuration see Note 1 GGIO for logical slot x 1 P30 amp logical slot x P40 8DI
169. ter Annex B Missing ENUMs Appendix the ENUMs of stVal ctlVal are defined but the ENUMs are missing for AutoRecSt FitLoop PmpCil The Mx70 data model ICD file does not use all defined enumerations ENUMs AutoRecst FitLoop PmpCtl which were added are not applicable Annex A tExtensionAttributeNa Schema and editorial issue for Attribute meEnum is restricted names that may impact ICD and SCD validation against the SCL schema Addressable as a document revision to Mx7xlI EN M M Page 102 Doc Ref Subject Status IEC 61850 Protocol Manual Comment part 8 1 of the standard 70 series Conformance Supported SCL schema ReportControl OptFields The segmentation attribute in the ReportControl OptFields section of SCL should be deleted There is no OptField within RCB only used in reports dynamically The Segmentation bit is ignored in the Mx70 IEDs SCL schema Duplication of attributes Setting Groups Schema The unique key in SCL schema is the name without FC therefore it is not possible to specify the same attribute with different FCs This is also not needed the only attribute with two FCs are setting parameters FC SG SE where each specification with SG implicitly means an SE on MMS level if editing is supported at all Annex B SlUnit enumeration for W Use name Watts for code 62 instead of W SlUnit is not used in Mx70 IEDs
170. the IED IEC 61850 Protocol Manual 70 series 2 2 1 2 2 Introduction Mx7xI EN M M Page 19 PROTOCOL IMPLEMENTATION CONFORMANCE STATEMENT PICS This section 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 The 70 Series IEC 61850 standard implementation shall conform to the Protocol Implementation Conformance Statement below ACSI basic conformance statement The basic conformance statement shall be as defined in Table 1 Client Server Value Comments Subscriber Publisher Client Server roles B11 Server side of TWO PARTY APPLICATION cl Y ASSOCIATION B12 Client side of TWO PARTY APPLICATION c1 N ASSOCIATION SCSMs supported B21 SCSM IEC 61850 8 1 used N Y B22 SCSM IEC 61850 9 1 used N B23 SCSM IEC 61850 9 2 used N B24 SCSM other N Generic substation event model GSE B31 Publisher side _ O Y B32 Subscriber side O Y Transmission of sampled value model SVC B41 Publisher side ED O N B42 Subscriber side O N c1 shall be M if support for LOGICAL DEVICE model has been declared O Optional M Mandatory Y Yes supported N No not supported TABLE 1 BASIC CONFORMANCE STATEMENT Mx7xl EN M M Page 20 2 3 ACSI models conformance stateme
171. the same client Mx7xlI EN M M IEC 61850 Protocol Manual Page 114 70 series Doc Ref Subject Status Comment Conformance Supported p 85 Clearing of Bufovfl Buffer Report Control Blocks are 14 2 3 2 2 8 implemented in the Mx70 Series The specification should add the following sentence The BRCB shall clear the BufOvl flag after the BRCB is able to buffer new unreported events which generally occurs immediately after the BRCB sends a report Configuration Ed2 Add the options missing in the Revision option ASCI models conformance statement as missing follows M7 11 conf revision M8 9 conf revision The Protocol Implementation Conformance Statement PICS is updated to include configuration revision p 92 93 URCB class and 14 2 4 report Para 14 2 5 2 Allow TimeOfEntry report time stamp of URBC reports to exist independent of missing EntrylD p 75 BRCB TimeOfEntry see Tissue 49 for definition of Para has two definitions TimeOfEntry and interaction with EntryID 14 2 2 16 and uniqueness within the system 14 2 3 2 2 9 see Tissue 453 for chapter edition incl the BRCB state machine EntryID in GetBCRBValues The value of EntrylD returned ina GetBRCBValues response shall be defined as follows e When the BRCB state is disabled a GetBRCBValues shall return the EntryID value that represents the last i e newest entry that has been entered into the buffer Wh
172. ting TddA WYE_0 Total Current Demand Distortion per IEEE 519 phase related TddOddA WYE_0 Total Current Demand Distortion odd components per IEEE 519 phase related TddEvnA WYE_0O Total Current Demand Distortion even components per IEEE 519 phase related ThdPhV WYE_1 Voltage total Harmonic or Interharmonic Distortion for phase to ground phase related ThdOddPhV WYE_1 Voltage total Harmonic or Interharmonic Distortion for phase to ground odd components ThdEvnPhV WYE_1 Voltage total Harmonic or Interharmonic Distortion for phase to ground even components ThdPPV DEL_0O Voltage total Harmonic or Interharmonic Distortion for phase to phase ThdOddPPV DEL_O Voltage total Harmonic or Interharmonic Distortion for phase to phase odd components ThdEvnPPV DEL_O Voltage total Harmonic or Interharmonic Distortion for phase to phase even components NomA1 ASG_0 Normalizing demand current for Phase A used in IEEE 519 Tdd calculation Harmonic Denominator NomA2 ASG_0 Normalizing demand current for Phase B used in IEEE 519 Tdd calculation Harmonic Denominator NomA3 ASG_0 Normalizing demand current for Phase C used in IEEE 519 Tdd calculation Harmonic Denominator DmdintH ASG_1 Integration time for Thermal Demand of Harmonics X seconds RsDmdH SPC_0 Reset Thermal Demand of Voltage total harmonic X distortion IEC 61850 Protocol Manual 70 series 3 4 20 3 4 21 Mx7xI EN M M
173. tion Comment xX Oper OperBOOL_0 CO Direct Operate control On or Off stVal BOOLEAN ST Status value of the data q Qualty ST Quality of the status value t TimeStamp ST Timestamp of the last change in state of status value stSeld BOOLEAN ST The controllable data is in the status selected ctlModel ENUMERATED8 CF ctlModel Control model Corresponding MMS Type INT8 to the behaviour of the data d VISIBLE_STRING255 DC Description of the status element Textual description of the data dataNs VISIBLE_STRING255 EX Data name space 3 5 30 Common Data Class SPC_1 Description Controllable Single Point Direct operate with normal security only CDC Class SPC Attribute Type FC Enumeration Comment xX Oper Oper BOOL_0 cCoO Direct Operate Boolean control On or Off stVal BOOLEAN ST Status value of the data q Qualty ST Quality of the status value t TimeStamp ST Timestamp of the last change in state of status value stSeld BOOLEAN ST The controllable data is in the status selected ctIModel ENUMERATED8 CF ctlModel Control model Corresponding MMS Type INT8 to the behaviour of the data d VISIBLE_STRING255 DC Description of the status element Textual description of the data IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 85 3 5 31 Common Data Class SPC_3 Description Controllable Single Point Direct Operate or SBO with normal se
174. tion GosGGIO1 GGIO_8 GOOSE Input Status GOOSE Subscriptions are done here TVTR1 TVTR_O Voltage Transformer Phase A Bus 1 TVTR2 TVTR_O Voltage Transformer Phase B Bus 1 TVTR3 TVTR_O Voltage Transformer Phase C Bus 1 TVTR4 TVTR_O Voltage Transformer Phase N Bus 1 TVTR5 TVTR_O Voltage Transformer Phase A Bus 2 TVTR6 TVTR_O Voltage Transformer Phase B Bus 2 TVTR7 TVTR_O Voltage Transformer Phase C Bus 2 TVTR8 TVTR_O Voltage Transformer Phase N Bus 2 TVTRY TVTR_O Voltage Transformer Auxiliary voltage 1 TVTR10 TVTR_O Voltage Transformer Auxiliary voltage 2 TVTR11 TVTR_O Voltage Transformer differential auxiliary voltage TCTR1 TCTR_O Current Transformer Phase A Bus 1 TCTR2 TCTR_O Current Transformer Phase B Bus 1 TCTR3 TCTR_O Current Transformer Phase C Bus 1 TCTR4 TCTR_O Current Transformer Phase N Bus 1 IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 37 System I O Options GGIO Logical slot numbers may range from 1 7 Chose option based No GGIO option No GGIO option No generic Process I O on logical slot configuration Chose option based GGIOx GGIO_1 Generic Process I O P30 on logical slot configuration see Note 1 GGIO for logical slot x 1 8DI 4DO Chose option based GGIOx GGIO_2 Generic Process I O P31 on logical slot configuration see Note 1 GGIO for logical slot x 1 16DI 4DO Chose option based GGIOx GGIO_4 Generic Process I O P30 P40 on logical slot f configu
175. tion parameter used to calculate all deadband attributes rangeC RangeConfig_Deadband CF Configuration parameters as used in the context with the range attribute Mx7xlI EN M M IEC 61850 Protocol Manual Page 76 70 series 3 5 8 Common Data Class DEL_0 Description Phase to phase measurements for a 3 Phase system CDC Class DEL Attribute Type FC Enumeration Comment xX phsAB CMV_0 Measurement values for Phase A to Phase B phsBC CMV_0 Measurement values for Phase B to Phase C phsCA CMV_0 Measurement values for Phase C to Phase A d VISIBLE_STRING255 DC Description of the status element Textual description of the data 3 5 9 Common Data Class DEL_0_DB Description Phase to phase measurements for a 3 Phase system with deadband configuration CDC Class DEL Attribute Type FC Enumeration Comment xX phsAB CMV_0_DB Measurement values for Phase A to Phase B phsBC CMV_0_DB Measurement values for Phase B to Phase C phsCA CMV_0_DB Measurement values for Phase C to Phase A d VISIBLE_STRING255 DC Description of the status element Textual description of the data 3 5 10 Common Data Class DPL_0O Description Standard Device Name Plate CDC Class DPL Attribute Type FC Enumeration Comment xX vendor VISIBLE_STRING255 DC Name of the vendor hwRev VISIBLE_STRING255 DC Hardware revision sw
176. us element Textual description of the data Mx7xlI EN M M IEC 61850 Protocol Manual Page 86 70 series 3 5 32 Common Data Class SPS_0 Description Standard Single Point Status CDC Class SPS Attribute Type FC Enumeration Comment X stVal BOOLEAN ST The element status TRUE or FALSE q Quality ST The quality of the status value t TimeStamp ST Timestamp of the last change in state d VISIBLE_STRING255 DC Description of the status element Textual description of the data 3 5 33 Common Data Class SPS_1 Description Single Point Status Bitronics non standard data object CDC Class SPS Attribute Type FC Enumeration Comment Xx stVal BOOLEAN ST The element status TRUE or FALSE q Quality ST The quality of the status value t TimeStamp ST Timestamp of the last change in state d VISIBLE_STRING255 DC Description of the status element Textual description of the data dataNs VISIBLE_STRING255 EX Data name space 3 5 34 Common Data Class WYE_0 Description Phase to ground measurements for a 3 Phase system Phase A B C Residual including Description CDC Class WYE Attribute Type FC Enumeration Comment xX phsA CMV_0 Measurement values for Phase A phsB CMV_0 Measurement values for Phase B phsC CMV_0 Measurement values for Phase C res CMV_0 Measurement values for residual d VISIBLE_
177. us 1 TVTR4 TVTR_O Voltage Transformer Phase N Bus 1 TVTR5 TVTR_O Voltage Transformer Phase A Bus 2 TVTR6 TVTR_O Voltage Transformer Phase B Bus 2 TVTR7 TVTR_O Voltage Transformer Phase C Bus 2 TVTR8 TVTR_O Voltage Transformer Phase N Bus 2 TCTR1 TCTR_O Current Transformer Phase A Bus 1 TCTR2 TCTR_O Current Transformer Phase B Bus 1 TCTR3 TCTR_O Current Transformer Phase C Bus 1 I O Options GGIO Logical slot number is fixed at 1 Choose option No GGIO option No GGIO option No generic Process I O based on logical slot configuration Choose option GGIO1 GGIO_0 Generic Process I O logical See GGIO for M57x 4DI 4DO Choose option GGIO1 GGIO 3 Generic Process I O logical E GGIO for M57x 4DI 4DO 4Al Choose option GGIO1 GGIO_6 Generic Process I O based on logical f slot configuration GGIO for M57x 4Al GGIO2 GGIO_9 Generic Process I O 32 Virtual Output signals TABLE 4 M571 IEC 61850 Protocol Manual Mx7xI EN M M 70 series Page 29 LD LN Instance LN Type Description Measurements LLNO LLNO_O Measurements Logical Device LPHD LPHD_O Physical Device Information MMXU1 MMXU_10 M572 Bus 1 V A W VAr Measurements LN is extended to include custom measurements MMXU2 MMXU_10 M572 Bus 2 V A W VAr Measurements LN is extended to include custom measurements MMXN1 MMXN_O
178. use of the original purchaser or his agents This document may not in whole or part be copied photocopied reproduced translated or reduced to any electronic medium or machine readable form without prior consent of Alstom Grid except for use by the original purchaser This manual incorporates information protected by copyright and owned by Bitronics LLC 261 Brodhead Road Bethlehem PA 18017 Copyright 2013 Bitronics LLC All rights reserved The product described by this manual contains hardware and software that is protected by copyrights owned by one or more of the following entities Bitronics LLC 261 Brodhead Road Bethlehem PA 18017 IntervalZero Inc 400 Fifth Avenue 4 Floor Waltham MA 02451 SISCO Inc 6605 192 Mile Road Sterling Heights MI 48314 1408 General Software Inc Box 2571 Redmond WA 98073 Schneider Automation Inc One High Street North Andover MA 01845 Triangle MicroWorks Inc 2213 Middlefield Court Raleigh NC 27615 Greenleaf Software Inc Brandywine Place Suite 100 710 East Park Blvd Plano TX 75074 TRADEMARKS The following are trademarks or registered trademarks of Alstom Grid Alstom Grid the Alstom Grid logo The following are trademarks or registered trademarks of Bitronics LLC The Bitronics logo Bitronics The following are trademarks or registered trademarks of the DNP User s Group DNP DNP3 The following are trademarks or registered trademarks of the Electric Power Re
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