IEC 61850 Communication protocol manual
Contents
1. DO name DO type DA name FC T Signal Mon Description Cmd Op b_dACT general ST TRWEI Mon Trip of WEI logic q ST TRWEI Mon Trip of WEI logic t ST TRWEI Mon Trip of WEI logic RvABIk b_dACT general ST IRVL Mon Operation of current reversal logic q ST IRVL Mon Operation of current reversal logic t ST IRVL Mon Operation of current reversal logic Echo b_dACT general ST ECHO Mon Carrier send by WEI logic q ST ECHO Mon Carrier send by WEI logic t ST ECHO Mon Carrier send by WEI logic WeiOp b_dACT general ST TRWEI Mon Trip of WEI logic q ST TRWEI Mon Trip of WEI logic t ST TRWEI Mon Trip of WEI logic 7 5 9 Sensitive directional earthfault PSDE 7 5 9 1 Sensitive Directional residual over current and power protetcion SDEPSDE LN type LN prefix LN class Function block name SDEPSDE revision 1 SDE PSDE SDEPSDE Table 51 SDEPSDE Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Ch2. Introduction Table 2 Backup protection functions IEC 61850 Function ANSI Function description block name Current protection PHPIOC 50 Instantaneous phase overcurrent protection SPTPIOC 50 Instantaneous phase overcurrent protection OC4PTOC 51 67 Four step phase overcurrent protection OC4SPTOC 51 67 Four step phase overcurrent protection EFPIOC 50N Instantaneous residual overcurrent protection EF4PTOC 51N 67N Four step directional residual overcurrent protection SDEPSDE 67N Sensitive directional residual overcurrent and power protection UC2PTUC 37 Time delayed two step undercurrent protection LPTTR 26 Thermal overload protection one time constant TRPTTR 49 Thermal overload protection two time constants CCRBRF 50BF Breaker failure protection CSPRBRF 50BF Breaker failure protection STBPTOC 50STB Stub protection CCRPLD 52PD Pole discordance protection BRCPTOC 46 Broken conductor check GUPPDUP 37 Directional underpower protection GOPPDOP 32 Directional overpower protection DNSPTOC 46 Negative sequence based overcurrent function AEGGAPC 50AE Accidental energizing protection for synchronous generator NS2PTOC 4612 Negative sequence time overcurrent protection for machines VR2PVOC 51V Voltage restrained time overcurrent protection Voltage protection UV2PTUV 27 Two step undervoltage protection OV2PTOV 59 Two step
3. DO name DO type DA name FC T Signal Mon Description Cmd Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table 105 PH1PTUV Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STUV Mon Start signal from undervoltage function q ST STUV Mon Start signal from undervoltage function t ST STUV Mon Start signal from undervoltage function Op b dACT general ST T TRUV Mon Trip signal from undervoltage function q ST T TRUV Mon Trip signal from undervoltage function t ST T TRUV Mon Trip signal from undervoltage function Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table 106 VR2LLNO Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd
4. Table 153 INTSGREC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd TagIntOut I_dINS stVal ST Mon Internal parameter tag to handle 61850 mapping q ST Mon Internal parameter tag to handle 61850 mapping 7 14 6 Measured Value Receive MVRCV 7 14 6 1 GOOSE function block to receive a measurand value GOOSEMVRCV LN type LN prefix LN class Function block name MVGREC instance 1 revision 0 MV GREC GOOSEMVRCV Table 154 MVGREC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd TagMvVoOut a_dMV mag f MX Mon Internal parameter tag to handle 61850 mapping q MX Mon Internal parameter tag to handle 61850 mapping 7 14 7 Single Point Receive SP SPRCV 7 14 7 1 GOOSE function block to receive a single point value GOOSESPRCV LN type LN prefix LN class Function block name BINSGREC instance 1 revision 0 BINS GREC GOOSESPRCV Table 155 BINSGREC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd TagBinOut a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping q ST Mon Internal parameter tag to handle 61850 mapping 650 series 213 Communication Protocol Manual 214 1MRK 511 242 UEN Section 8 650 ser
5. 7 5 20 Multipurpose analog protection GAPC 7 5 20 1 Accidental energizing protection for synchronous generator AEGGAPC LN type LN prefix LN class Function block name AEGGAPC revision 2 AEG GAPC AEGGAPC Table 101 AEGGAPC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon Start signal from accidental energizing protection q ST START Mon Start signal from accidental energizing protection t ST START Mon Start signal from accidental energizing protection Op b_dACT general ST T TRIP Mon Trip signal from accidental energizing protection q S
6. DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Alm a_dSPS stVal ST ALARM Mon Alarm for current circuit failure q ST ALARM Mon Alarm for current circuit failure t ST ALARM Mon Alarm for current circuit failure Op b_dACT general ST FAIL Mon Detection of current circuit failure q ST FAIL Mon Detection of current circuit failure t ST FAIL Mon Detection of current circuit failure 7 1 3 Disturbance recorder RDRE 7 7 3 1 Disturbance report DRPRDRE LN type LN prefix LN class Function block name DRPRDRE revision 0 DRP RDRE DRPRDRE Table 112 DRPRDRE Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter fo
7. DO name DO type DA name FC T Signal Mon Description Cmd SPCSO7 v2_dSPC Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST OUT7 Mon Output7 q ST OUT7 Mon Output7 t ST OUT7 Mon Output7 SPCSO8 v2_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST OUT8 Mon Output8 q ST OUT8 Mon Output8 t ST OUT8 Mon Output8 7 8 1 6 Event counter CNTGGIO LN type LN prefix LN class Function block name CNTGGIO revision 1 CNT GGIO CNTGGIO 650 series 169 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN
8. DO name DO type DA name FC Signal Mon Description Cmd Pos a_dDPC Cancel origin orldent co z Cmd Command parameter for IEC61850 Cancel ctINum CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 SBOw ctINum CO Cmd Command parameter for IEC61850 SBOw T CO Cmd Command parameter for IEC61850 Cancel T CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Cancel Test CO Cmd Command parameter for IEC61850 SBOw Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 SBOw Check CO Cmd Command parameter for IEC61850 stVal ST POSITION Mon Position indication q ST POSITION Mon Position indication t ST POSITION Mon Position indication stSeld ST SELECTED Mon Select conditions are fulfilled subEna SV Substitute enable subVal SV Substituted double position value ctIModel CF CtlModel Specifies control model type Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 s
9. DO name DO type DA name FC Signal Mon Description Cmd VolAmp a dMV rangeC hLim f CF SHiLim High limit in of SBase rangeC Lim f CF SLowLim Low limit in of SBase rangeC lILim f CF SLowLowLim Low Low limit in of SBase rangeC max f CF SMax Maximum value in of SBase rangeC min f CF SMin Minimum value in of SBase subMag f SV Substituted value range MX S_RANGE Mon Apparent power range q MX S Mon Apparent power magnitude of deadband value t MX S Mon Apparent power magnitude of deadband value subEna SV Enable substitution db CF SDbReplnt Cycl Report interval s Db In of range Int Db In s zeroDb CF SZeroDb Zero point clamping in 0 001 of range VolAmpr a dMV rangeC hhLim f CF QHiHiLim High High limit in of SBase rangeC hLim f CF QHiLim High limit in of SBase rangeC Lim f CF QLowLim Low limit in of SBase rangeC llLim f CF QLowLowLim Low Low limit in of SBase rangeC max f CF QMax Maximum value in of SBase rangeC min f CF QMin Minimum value in of SBase mag f MX Q Mon Reactive power magnitude of deadband value subMag f SV Substituted value range MX Q_RANGE Mon Reactive power range q MX Q Mon Reactive power magnitude of deadband value t MX Q Mon Reactive power magnitude of deadband value subEna SV Enable substitution db CF QDbRepInt Cycl Report interval s Db In of range Int Db
10. DO name DO type DA name FC Signal Mon Description Cmd HiTapPos b_dINS q ST Mon Tap position for maximum voltage t ST Mon Tap position for maximum voltage LoTapPos b dINS stVal ST Mon Tap position for minimum voltage q ST Mon Tap position for minimum voltage t ST Mon Tap position for minimum voltage CircA b_dMV mag f MX ICIRCUL Mon Circulating current q MX ICIRCUL Mon Circulating current t MX ICIRCUL Mon Circulating current LodA b dMV mag f MX Mon Magnitude of measured load current service value q MX Mon Magnitude of measured load current service value t MX Mon Magnitude of measured load current service value CtlV b_dMV mag f MX BUSVOLT Mon Average of measured busbar voltage service value q MX BUSVOLT Mon Average of measured busbar voltage service value t MX BUSVOLT Mon Average of measured busbar voltage service value TapChg c dBSC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 valWTr posVal ST Mon Tap position Oper origin orldent CO Cmd Command parameter for IEC61850 valWTr transInd ST Mon Tap position change in progress Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850
11. IEC 61850 Function ANSI Function description block name VMMXU Phase phase voltage measurement CMSQI Current sequence component measurement VMSQI Voltage sequence measurement VNMMXU Phase neutral voltage measurement AISVBAS Function block for service values presentation of the analog inputs TM_P_P2 Function block for service value presentation of primary analog inputs 600TRM AM_P_P4 Function block for service value presentation of primary analog inputs 600AIM TM_S_P2 Function block for service value presentation of secondary analog inputs 600TRM AM_S_P4 Function block for service value presentation of secondary analog inputs 600AIM CNTGGIO Event counter DRPRDRE Disturbance report AxRADR Analog input signals BxRBDR Binary input signals SPGGIO IEC61850 generic communication I O functions SP16GGIO IEC61850 generic communication I O functions 16 inputs MVGGIO IEC61850 generic communication I O functions MVEXP Measured value expander block LMBRFLO Fault locator SPVNZBAT Station battery supervision SSIMG 63 Insulation gas monitoring function SSIML 71 Insulation liquid monitoring function SSCBR Circuit breaker condition monitoring 1103MEAS Measurands for IEC60870 5 103 1103MEASUSR Measurands user defined signals for IEC60870 5 103 1103AR Function status auto recloser for IEC60870 5 103 1103EF Function status earth fault for IEC60870 5 103 1103FLTPROT Function status fault protecti
12. Table continues on next page DO name DO type DA name FC Signal Mon Description Cmd HuntAlm v1_dSPS ST HUNTING Mon Number of commands in opposite direction exceeded maximum level VDif vi_dSPS stVal ST VTALARM Mon VT supervision alarm q ST VTALARM Mon VT supervision alarm t ST VTALARM Mon VT supervision alarm MSMode vi_dSPS stVal ST Mon Master slave is active q ST Mon Master slave is active t ST Mon Master slave is active Disc vi_dSPS stVal ST Mon Transformer is disconnected q ST Mon Transformer is disconnected t ST Mon Transformer is disconnected TotBlock vi_dSPS stVal ST TOTBLK Mon Block of auto and manual commands q ST TOTBLK Mon Block of auto and manual commands t ST TOTBLK Mon Block of auto and manual commands AutoBlock vi_dSPS stVal ST AUTOBLK Mon Block of auto commands q ST AUTOBLK Mon Block of auto commands t ST AUTOBLK Mon Block of auto commands DiffPosMF vi_dSPS stVal ST OUTOFPOS Mon Difference in tap positions exceeded the set limit q ST OUTOFPOS Mon Difference in tap positions exceeded the set limit t ST OUTOFPOS Mon Difference in tap positions exceeded the set limit MFFIt vi_dSPS stVal ST MFERR Mon Number of masters is different from one q ST MFERR Mon Number of masters is different from one t ST MFERR Mon Number of masters is different from one LodAlm V10_dMV m
13. Table 50 ECRWPSCH Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 ProRx a_dSPS stVal ST T CR Mon POR Carrier signal received from remote end q ST T CR Mon POR Carrier signal received from remote end t ST T CR Mon POR Carrier signal received from remote end ProTx a_dSPS stVal ST T ECHO Mon Carrier send by WEI logic q ST T ECHO Mon Carrier send by WEI logic t ST T ECHO Mon Carrier send by WEI logic Str b dACD general ST ECHO Mon Carrier send by WEI logic q ST ECHO Mon Carrier send by WEI logic t ST ECHO Mon Carrier send by WEI logic Table continues on next page 650 series 103 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN
14. Table continues on next page 650 series Communication Protocol Manual 189 Section 7 1MRK 511 242 UEN Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd SeqA a_dSEQ range MX 3I0RANG Mon 310 Amplitude range range MX I11RANG Mon 11Amplitude range q MX 12 Mon 12 Amplitude q MX 11 Mon 11 Amplitude q MX 310 Mon 310 Amplitude t MX 310 Mon 310 Amplitude t MX 11 Mon 11 Amplitude t MX 12 Mon 12 Amplitude subEna SV Enable substitution subEna SV Enable substitution subEna SV Enable substitution db CF I2DbRepInt Cycl Report interval s Db In of range Int Db In s db CF 3l0DbRepInt Cycl Report interval s Db In of range Int Db In s db CF 11DbRepInt Cycl Report interval s Db In of range Int Db In s zeroDb CF 11ZeroDb Zero point clamping zeroDb CF 3l0ZeroDb Zero point clamping zeroDb CF 12ZeroDb Zero point clamping 7 9 4 2 Voltage sequence measurement VMSQI LN type LN prefix LN class Function block name VMSQI revision 2 V MSQI VMSQI Table 140 VMSQI Logical node data instance 1 DO name DO type DA name FC T Signal Mon Descr
15. Table 77 NS2PTRC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon Common start signal q ST START Mon Common start signal t ST START Mon Common start signal Op b dACT general ST T TRIP Mon Common trip signal q ST T TRIP Mon Common trip signal t ST T TRIP Mon Common trip signal Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 7 5 12 Overfrequency PTOF 7 5 12 1 Overfrequency function SAPTOF LN type LN prefix LN class Function block name SAPTOF revision 1 SA PTOF SAPTOF Table 78 SAPTOF Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST
16. DO name DO type DA name FC T Signal Mon Description Cmd Str b dACD ST 2NDHARMD Mon 2nd harmonic block signal Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 57 PH1PTOC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STIN1 Mon Start signal step 1 q ST STIN1 Mon Start signal step 1 t ST STIN1 Mon Start signal step 1 Op b_dACT general ST T TRIN1 Mon Trip signal from step 1 q ST T TRIN1 Mon Trip signal from step 1 t ST T TRIN1 Mon Trip signal from step 1 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 58 PH1PTOC Logical node data instance 2 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STIN2 Mon Start signal step 2 q ST STIN2 M
17. Table 82 PH3PTRC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Str a dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 75 132 Two step residual overvoltage protection ROV2PTOV LN type LN prefix LN class Function block name GEN2LLNO instance 1 revision 1 LLNO ROV2PTOV PH1PTRC instance 1 revision 1 PH1 PTRC ROV2PTOV ROV2PTOV instance 1 revision 1 ROV2 PTOV ROV2PTOV ROV2PTOV instance 2 revision 1 ROV2 PTOV ROV2PTOV Table 83 GEN2LLNO Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode
18. DO name DO type DA name FC Signal Mon Description Cmd In_PosRel V14 dMV q MX z Mon Relative tap position horizontal communication t MX Mon Relative tap position horizontal communication In_X2 V15 dMV mag f MX Mon Transformer reactance secondary side horizontal communication q MX Mon Transformer reactance secondary side horizontal communication t MX Mon Transformer reactance secondary side horizontal communication In_status V6 dINS stVal ST Mon VCTR Control word horizontal communication q ST Mon VCTR Control word horizontal communication t ST Mon VCTR Control word horizontal communication 7 14 4 Double point Receive DP DPRCV 7 14 4 1 GOOSE function block to receive a double point value GOOSEDPRCV LN type LN prefix LN class Function block name DPGREC instance 1 revision 0 DP GREC GOOSEDPRCV Table 152 DPGREC Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd TagDPOut a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping q ST Mon Internal parameter tag to handle 61850 mapping 7 14 5 Integer Receive INTRCV 7 14 5 1 GOOSE function block to receive an integer value GOOSEINTRCV LN type LN prefix LN class Function block name INTSGREC instance 1 revision 0 INTS GREC GOOSEINTRCV 212 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model
19. DO name DO type DA name FC T Signal Mon Description Cmd BndCtrSet v2_dMV q MX Mon Voltage setpoint set by user t MX Mon Voltage setpoint set by user CircALim v2_dMV mag f MX Mon Block level of circulating current q MX Mon Block level of circulating current t MX Mon Block level of circulating current LVA1V v2_dMV mag f MX Mon Value 1 for load voltage adjustment q MX Mon Value 1 for load voltage adjustment t MX Mon Value 1 for load voltage adjustment LVA2V v2_dMV mag f MX Mon Value 2 for load voltage adjustment q MX Mon Value 2 for load voltage adjustment t MX Mon Value 2 for load voltage adjustment LVA3V v2_dMV mag f MX Mon Value 3 for load voltage adjustment q MX Mon Value 3 for load voltage adjustment t MX Mon Value 3 for load voltage adjustment LVA4V v2_dMV mag f MX Mon Value 4 for load voltage adjustment q MX Mon Value 4 for load voltage adjustment t MX Mon Value 4 for load voltage adjustment AvBusV v2_dMV mag f MX Mon Average of measured busbar voltage service value q MX Mon Average of measured busbar voltage service value t MX Mon Average of measured busbar voltage service value CircV v2_dMV mag f MX Mon Calculated circulating voltage q MX Mon Calculated circulating voltage t MX Mon Calcula
20. DO name DO type DA name FC T Signal Mon Description Cmd Op b dACT q ST T TRZ2 Mon Trip zone 2 t ST T TRZ2 Mon Trip zone 2 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 StrUnDir v2 dACD general ST STND2 Mon Non directional start issued from any phase or loop zone 2 q ST STND2 Mon Non directional start issued from any phase or loop zone 2 t ST STND2 Mon Non directional start issued from any phase or loop zone 2 Table 21 ZQDPDIS Logical node data instance 3 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b dACD general ST STZ3 Mon Start zone 3 q ST STZ3 Mon Start zone 3 t ST STZ3 Mon Start zone 3 Op b dACT general ST T TRZ3 Mon Trip zone 3 q ST T TRZ3 Mon Trip zone 3 t ST T TRZ3 Mon Trip zone 3 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 StrUnDir v2 dACD general ST STND3 Mon Non directional start issued from any phase or loop zone 3 q ST STND3 Mon Non directi
21. DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str e_dACD general ST START Mon General start signal phsA ST STL1 Mon Fault detected in phase L1 phsB ST STL2 Mon Fault detected in phase L2 phsC ST STL3 Mon Fault detected in phase L3 neut ST STPE Mon Earth fault detected q ST START Mon General start signal t ST START Mon General start signal 7 5 2 5 Underimpedance protection for generator and transformer ZGPDIS LN type LN prefix LN class Function block name ZGLLNO instance 1 revision 0 LLNO ZGPDIS ZGPDIS instance 1 revision 0 ZG PDIS ZGPDIS ZGPDIS instance 2 revision 0 ZG PDIS ZGPDIS ZGPDIS instance 3 revision 0 ZG PDIS ZGPDIS ZGPDIS instance 4 revision 0 ZG PDIS ZGPDIS ZGPDIS instance 5 revision 0 ZG PDIS ZGPDIS ZGPTRC instance 1 revision 0 ZG PTRC ZGPDIS Table 34 ZGLLNO Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO
22. Table 128 CNTGGIO Logical node data instance 0 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Cnt1 vi_dBCR actVal ST VALUE1 Mon Output of counter 1 q ST VALUE1 Mon Output of counter 1 t ST VALUE1 Mon Output of counter 1 Cnt2 v1_dBCR actVal ST VALUE2 Mon Output of counter 2 q ST VALUE2 Mon Output of counter 2 t ST VALUE2 Mon Output of counter 2 Cnt3 v1_dBCR actVal ST VALUE3 Mon Output of counter 3 q ST VALUE3 Mon Output of counter 3 t ST VALUE3 Mon Output of counter 3 Cnt4 v1_dBCR actVal ST VALUE4 Mon Output of counter 4 q ST VALUE4 Mon Output of counter 4 t ST VALUE4 Mon Output of counter 4 Cnt5 v1_dBCR actVal ST VALUES Mon Output of counter 5 q ST VALUES Mon Output of counter 5 t ST VALUES Mon Output of counter 5 Cnt6 v1_dBCR actVal ST VALUE6 Mon Out
23. OUT9 Mon Output 9 status Ind10 vi_dSPS stVal ST OUT10 Mon Output 10 status q ST OUT10 Mon Output 10 status t ST OUT10 Mon Output 10 status Ind11 vi_dSPS stVal ST OUT11 Mon Output 11 status q ST OUT11 Mon Output 11 status t ST OUT11 Mon Output 11 status Ind12 vi_dSPS stVal ST OUT12 Mon Output 12 status q ST OUT12 Mon Output 12 status t ST OUT12 Mon Output 12 status Ind13 vi_dSPS stVal ST OUT13 Mon Output 13 status q ST OUT13 Mon Output 13 status t ST OUT13 Mon Output 13 status Ind14 vi_dSPS stVal ST OUT14 Mon Output 14 status q ST OUT14 Mon Output 14 status t ST OUT14 Mon Output 14 status Ind15 vi_dSPS stVal ST OUT15 Mon Output 15 status q ST OUT15 Mon Output 15 status t ST OUT15 Mon Output 15 status Ind16 vi_dSPS stVal ST OUT16 Mon Output 16 status q ST OUT16 Mon Output 16 status t ST OUT16 Mon Output 16 status Grind vi_dSPS stVal ST OUTOR Mon Output status logic OR gate for input 1 to 16 q ST OUTOR Mon Output status logic OR gate for input 1 to 16 t ST OUTOR Mon Output status logic OR gate for input 1 to 16 7 8 1 9 IEC61850 generic communication I O functions MVGGIO LN type LN prefix LN class Function block name MVGGIO revision 1 MV GGIO MVGGIO 650 series 173 Communication Protocol Manual Section 7 Logical node data
24. 650 series IEC 61850 Communication Protocol Manual Power and productivity Ah EP ED PN ED ED for a better world Document ID 1MRK 511 242 UEN Issued February 2011 Revision Product version 1 1 Copyright 2011 ABB All rights reserved Copyright This document and parts thereof must not be reproduced or copied without written permission from ABB and the contents thereof must not be imparted to a third party nor used for any unauthorized purpose The software or hardware described in this document is furnished under a license and may be used or disclosed only in accordance with the terms of such license Trademarks ABB and Relion are registered trademarks of ABB Group All other brand or product names mentioned in this document may be trademarks or registered trademarks of their respective holders Warranty Please inquire about the terms of warranty from your nearest ABB representative ABB AB Substation Automation Products SE 721 59 V ster s Sweden Telephone 46 0 21 32 50 00 Facsimile 46 0 21 14 69 18 http www abb com substationautomation Disclaimer The data examples and diagrams in this manual are included solely for the concept or product description and are not to be deemed as a statement of guaranteed properties All persons responsible for applying the equipment addressed in this manual must satisfy themselves that each intended application is suitable and acceptable
25. DO name DO type DA name FC T Signal Mon Description Cmd PrgRec34 vi_dSPS ST 3PT4 Mon Three phase reclosing in progress shot 4 PrgRec35 vi_dSPS stVal ST 3PT5 Mon Three phase reclosing in progress shot 5 q ST 3PT5 Mon Three phase reclosing in progress shot 5 t ST 3PT5 Mon Three phase reclosing in progress shot 5 WtMst vi_dSPS stVal ST WFMASTER Mon Signal to Slave issued by Master for sequential reclosing q ST WFMASTER Mon Signal to Slave issued by Master for sequential reclosing t ST WFMASTER Mon Signal to Slave issued by Master for sequential reclosing 7 7 8 2 Autorecloser STBRREC LN type LN prefix LN class Function block name STBRREC revision 0 STB RREC STBRREC Table 118 STBRREC Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST
26. Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon Start signal of the protection logic q ST START Mon Start signal of the protection logic t ST START Mon Start signal of the protection logic Op b_dACT general ST T TRIP Mon Operate signal of the protection logic q ST T TRIP Mon Operate signal of the protection logic Table continues on next page 650 series Communication Protocol Manual 115 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd Op b_dACT t ST T TRIP Mon Operate signal of the protection logic StrDur v2_dMV mag f MX Mon Start duration in percents of the total operating time q MX Mon Start duration in percents of the total operating time t MX Mon Start duration in percents of the total operating time 7 5 11 5 Negative sequence based overcurrent function DNSPTOC LN type LN prefix LN class Function block name NSDLLNO instance 1 revision 2 LLNO DNSPTOC PH1PTOC instance 1 revision 2 PH1 PTOC DNSPTOC PH1PTOC instance 2 revision
27. Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 7 6 System logical nodes 7 6 1 Physical device information LPHD 7 6 1 1 Production Information PRODINF LN type LN prefix LN class Function block name LPHD revision 1 LPHD PRODINF Table 108 LPHD Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd PhyNam a_dDPL swRev DC Firmware version serNum DC SerialNo IED serial number model DC IED model for IEC61850 650 series 143 Communication Protocol Manual Section 7 1MRK 511 242 UEN Logical node data model TT Logical nodes for protection related functions 7 7 1 Breaker failure RBRF 7 7 1 1 Breaker failure protection CCRBRF LN type LN prefix LN class Function block name CCRBRF revision 1 CC RBRF CCRBRF Table 109 CCRBRF Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon M
28. Beh Mon Behaviour parameter for 61850 Str b dACD general ST STZ1 Mon Start zone 1 q ST STZ1 Mon Start zone 1 t ST STZ1 Mon Start zone 1 Op b_dACT general ST T TRZ1 Mon Trip zone 1 q ST T TRZ1 Mon Trip zone 1 t ST T TRZ1 Mon Trip zone 1 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 StrUnDir v2 dACD general ST STND1 Mon Non directional start issued from any phase or loop zone 1 q ST STND1 Mon Non directional start issued from any phase or loop zone 1 t ST STND1 Mon Non directional start issued from any phase or loop zone 1 Table 20 ZQDPDIS Logical node data instance 2 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STZ2 Mon Start zone 2 q ST STZ2 Mon Start zone 2 t ST STZ2 Mon Start zone 2 Op b_dACT general ST T TRZ2 Mon Trip zone 2 650 series Table continues on next page Communication Protocol Manual 77 Section 7 Logical node data model 1MRK 511 242 UEN
29. Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Alm a dSPS stVal ST ALARM Mon Alarm signal Table continues on next page 118 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Alm a dSPS q ST ALARM Mon Alarm signal t ST ALARM Mon Alarm signal NSCurr v2_dMV mag f MX NSCURR Mon Negative sequence current in primary amps q MX NSCURR Mon Negative sequence current in primary amps t MX NSCURR Mon Negative sequence current in primary amps Table 75 NS2PTOC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST B
30. Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon Start in any phase or loop q ST START Mon Start in any phase or loop t ST START Mon Start in any phase or loop Op b dACT general ST T TRIP Mon Trip output q ST T TRIP Mon Trip output t ST T TRIP Mon Trip output StrCndZ vi_dINS stVal ST STCNDZI Mon Start condition Z lt with LE and or I gt and 310 E F detection q ST STCNDZI Mon Start condition Z lt with LE and or I gt and 310 E F detection t ST STCNDZI Mon Start condition Z lt with LE and or I gt and 310 E F detection StrCndA vi_dINS stVal ST STCNDLE Mon Start condition only LE and 310 E F detection q ST STCNDLE Mon Start condition only LE and 310 E F detection t ST STCNDLE Mon Start condition only LE and 310 E F detection StrFwdPhA vi_dSPS stVal ST STFWL1 Mon Fault detected in phase L1 forward direction q ST STFWL1 Mon Fault detected in phase L1 forward direction t ST STFWL1 Mon Fault detected in phase L1 forward direction StrFwdPhB vi_dSPS stVal ST S
31. 1MRK 511 242 UEN Identity number 1MRK 505 265 BEN 1MRK 505 265 TEN Identity number 1MRK 506 325 UEN 1MRK 506 326 UEN 1MRK 506 327 UEN 1MRK 506 328 BEN 1MRK 506 328 TEN Identity number 1MRK 504 124 UEN 1MRK 504 125 UEN 1MRK 504 126 UEN 1MRK 504 127 BEN 1MRK 504 127 TEN Identity number 1MRK 511 246 UEN 1MRK 511 247 UEN 1MRK 511 248 UEN 1MRK 511 249 BEN 1MRK 511 249 TEN Identity number 1MRK 502 033 UEN 1MRK 502 034 UEN 1MRK 502 035 UEN 1MRK 502 036 BEN 1MRK 502 036 TEN 1MRG001910 Identity number 1MRK 505 266 UEN 1MRK 505 267 UEN 1MRK 505 268 UEN 1MRK 505 269 BEN 1MRK 505 269 TEN 650 series Communication Protocol Manual 1MRK 511 242 UEN 1 4 1 4 1 1 4 2 650 series Communication Protocol Manual Section 1 Introduction 650 series manuals Identity number Communication protocol manual DNP3 1MRK 511 241 UEN Communication protocol manual IEC 61850 1MRK 511 242 UEN Communication protocol manual IEC 60870 5 103 1MRK 511 243 UEN Point list manual DNP3 1MRK 511 244 UEN Engineering manual 1MRK 511 245 UEN Operation manual 1MRK 500 093 UEN Installation manual 1MRK 514 014 UEN Symbols and conventions Safety indication symbols The caution icon indicates important information or warning related to the concept discussed in the text It might indicate the presence of a hazard which could result in corruption of software or damage to equipment or property The information icon a
32. Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Op b dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal OpZ1 vi_dSPS stVal ST TRIP1 Mon Trip signal from stage 1 q ST TRIP1 Mon Trip signal from stage 1 t ST TRIP1 Mon Trip signal from stage 1 OpZ2 vi_dSPS stVal ST TRIP2 Mon Trip signal from stage 2 q ST TRIP2 Mon Trip signal from stage 2 t ST TRIP2 Mon Trip signal from stage 2 StrZ1 vi_dSPS stVal ST START1 Mon Start signal from stage 1 q ST START1 Mon Start signal from stage 1 t ST START1 Mon Start signal from stage 1 StrZ2 vi_dSPS stVal ST START2 Mon Start signal from stage 2 q ST START2 Mon Start signal from stage 2 t ST START2 Mon Start signal from stage 2 MW v2_dMV mag f MX P Mon Active Power q MX P Mon Active Power t MX P Mon Active Power MVAr v2_dMV mag f MX Q Mon Reactive power q MX Q Mon Reactive power t MX Q Mon Reactive power 7 5 4 Directional underpower PDUP 7 5 4 1 Directional Under power protection GUPPDUP LN type LN prefix LN class Function block name GUPPDUP revision 1 GUP PDUP GUPPDUP 94 650 series Communication Protocol Manual 1MRK 511 242 UEN Secti
33. IEC 61850 IEEE IEEE 802 12 IEEE P1386 1 IED Section 8 Glossary Modular 20 channel telecommunication system for speech data and protection signals Access multiplexer Compact time division multiplexer for the transmission of up to seven duplex channels of digital data over optical fibers Electrical and functional description for digital lines used by local telephone companies Can be transported over balanced and unbalanced lines Communication interface module with carrier of GPS receiver module Graphical display editor within PCM600 General interrogation command Gas insulated switchgear Generic object oriented substation event Global positioning system High level data link control protocol based on the HDLC standard Plastic fiber connector Human machine interface High speed autoreclosing High voltage High voltage direct current Integrating deadband supervision International Electrical Committee IEC Standard Instrument transformers Part 6 Requirements for protective current transformers for transient performance Substation automation communication standard Institute of Electrical and Electronics Engineers A network technology standard that provides 100 Mbits s on twisted pair or optical fiber cable PCI Mezzanine Card PMC standard for local bus modules References the CMC IEEE P1386 also known as Common Mezzanine Card standard for the mechanics and the PCI specifications from the PCI SIG
34. Section 7 1MRK 511 242 UEN Logical node data model Table 45 EFPIOC Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b dACT general ST T TRIP Mon Trip signal q ST T TRIP Mon Trip signal t ST T TRIP Mon Trip signal 7 5 7 Local acceleration logic PLAL 7 5 7 1 Local acceleration logic ZCLCPLAL LN type LN prefix LN class Function block name ZCLCPLAL revision 1 ZCLC PLAL ZCLCPLAL Table 46 ZCLCPLAL Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parame
35. Table continues on next page 650 series Communication Protocol Manual 151 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd Rec32Cnt vi_dINS q ST COUNT3P2 Mon Counting the number of three phase reclosing shot 2 t ST COUNT3P2 Mon Counting the number of three phase reclosing shot 2 Rec33Cnt vi_dINS stVal ST COUNT3P3 Mon Counting the number of three phase reclosing shot 3 q ST COUNT3P3 Mon Counting the number of three phase reclosing shot 3 t ST COUNT3P3 Mon Counting the number of three phase reclosing shot 3 Rec34Cnt vi_dINS stVal ST COUNT3P4 Mon Counting the number of three phase reclosing shot 4 q ST COUNT3P4 Mon Counting the number of three phase reclosing shot 4 t ST COUNT3P4 Mon Counting the number of three phase reclosing shot 4 Rec35Cnt vi_dINS stVal ST COUNT3P5 Mon Counting the number of three phase reclosing shot 5 q ST COUNT3P5 Mon Counting the number of three phase reclosing shot 5 t ST COUNT3P5 Mon Counting the number of three phase reclosing shot 5 TotRecCnt vi_dINS stVal ST COUNTAR Mon Counting total number of reclosing shots q ST COUNTAR Mon Counting total number of reclosing shots t ST COUNTAR Mon Counting total number of reclosing shots OpRs vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 O
36. 216 CPU CR CRC CROB CS CT CVT DAR DARPA DBDL DBLL DC DFC DFT DHCP DIP switch DI DLLB DNP DR DRAM DRH DSP DTT EHV network EIA EMC EMF EMI EnFP EPA ESD FCB 1MRK 511 242 UEN Central processor unit Carrier receive Cyclic redundancy check Control relay output block Carrier send Current transformer Capacitive voltage transformer Delayed autoreclosing Defense Advanced Research Projects Agency The US developer of the TCP IP protocol etc Dead bus dead line Dead bus live line Direct current Data flow control Discrete Fourier transform Dynamic Host Configuration Protocol Small switch mounted on a printed circuit board Digital input Dead line live bus Distributed Network Protocol as per IEEE ANSI Std 1379 2000 Disturbance recorder Dynamic random access memory Disturbance report handler Digital signal processor Direct transfer trip scheme Extra high voltage network Electronic Industries Association Electromagnetic compatibility Electric Motive Force Electromagnetic interference End fault protection Enhanced performance architecture Electrostatic discharge Flow control bit Frame count bit 650 series Communication Protocol Manual 1MRK 511 242 UEN 650 series Communication Protocol Manual FOX 20 FOX 512 515 FOX 6Plus G 703 GCM GDE GI GIS GOOSE GPS HDLC protocol HFBR connector type HMI HSAR HV HVDC IDBS IEC IEC 60044 6
37. 8 0 AS Engineering manual i Installation manual i i m Commissioning manual i i Operation manual i i EE Service manual i NEN Application manual mmm i Technical manual E E ER Communication protocol EL ey manual i i i i en07000220 vsd Figure 1 The intended use of manuals in different lifecycles The engineering manual contains instructions on how to engineer the IEDs using the different tools in PCM600 The manual provides instructions on how to set up a PCM600 project and insert IEDs to the project structure The manual also recommends a sequence for engineering of protection and control functions LHMI functions as well as communication engineering for IEC 60870 5 103 IEC 61850 and DNP3 The installation manual contains instructions on how to install the IED The manual provides procedures for mechanical and electrical installation The chapters are organized in chronological order m which the IED should be installed The commissioning manual contains instructions on how to commission the IED The manual can also be used by system engineers and maintenance personnel for assistance during the testing phase The manual provides procedures for checking of external circuitry and energizing the IED parameter setting and configuration as 8 650 series Communication Protocol Manual 1MRK 511 242 UEN 1 3 2 1 3 3 650 series Communication Protocol Manual Section 1 Introducti
38. Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b dACD general ST ST2 Mon Start signal from step 2 q ST ST2 Mon Start signal from step 2 t ST ST2 Mon Start signal from step 2 Op b dACT general ST T TR2 Mon Trip signal from step 2 q ST T TR2 Mon Trip signal from step 2 Table continues on next page 112 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Op b_dACT t ST T TR2 Mon Trip signal from step 2 Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table 65 PH3PTOC Logical node data instance 3 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST ST3 Mon Start signal from step 3 q ST ST3 Mon Start signal from step 3 t ST ST3 Mon Start signal from step 3 Op b_dACT general ST T TR3 Mon Trip signal from step 3 q ST T TR3 Mon Trip signal from step 3 t
39. Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 EnaRec vi_dSPS stVal ST SETON Mon AR operation is switched on q ST SETON Mon AR operation is switched on t ST SETON Mon AR operation is switched on RdyRec vi_dSPS stVal ST READY Mon Indicates that AR is ready for a new sequence q ST READY Mon Indicates that AR is ready for a new sequence t ST READY Mon Indicates that AR is ready for a new sequence ActRec vi_dSPS stVal ST ACTIVE Mon Reclosing sequence in progress q ST ACTIVE Mon Reclosing sequence in progress t ST ACTIVE Mon Reclosing sequence in progress SucRec vi_dSPS stVal ST SUCCL Mon Activated if CB closes during the time tUnsucCI q ST SUCCL Mon Activated if CB closes during the time tUnsucCI t ST SUCCL Mon Activated if CB closes during the time tUnsucCI UnsRec vi_dSPS stVal ST UNSUCCL Mon Reclosing unsuccessful signal resets after the reclaim time q ST UNSUCCL Mon Reclosing unsuccessful signal resets after the reclaim time t ST UNSUCCL Mon Reclosing unsuccessful signal resets after the reclaim time PrgRec vi_dSPS stVal ST INPROGR Mon Reclosing shot in progress activated during open time q ST INPROGR Mon Reclosing shot in progress
40. Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal OpRst vi_dSPS stVal ST TRIPRES Mon Trip signal from restrained differential protection q ST TRIPRES Mon Trip signal from restrained differential protection t ST TRIPRES Mon Trip signal from restrained differential protection OpNSSen vi_dSPS stVal ST TRNSSENS Mon Trip signal from sensitive negative sequence differential protection q ST TRNSSENS Mon Trip signal from sensitive negative sequence differential protection t ST TRNSSENS Mon Trip signal from sensitive negative sequence differential protection OpNSUnRst vi_dSPS stVal ST TRNSUNR Mon Trip signal from unrestrained negative sequence differential protection q ST TRNSUNR Mon Trip signal from unrestrained negative sequence differential protection t ST TRNSUNR Mon Trip signal from unrestrained negative sequence differential
41. Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon General start signal Table continues on next page 120 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Str b_dACD q ST START Mon General start signal t ST START Mon General start signal Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal BIkLoMg vi_dSPS stVal ST BLKDMAGN Mon Measurement blocked due to low amplitude q ST BLKDMAGN Mon Measurement blocked due to low amplitude t ST BLKDMAGN Mon Measurement blocked due to low amplitude 7 5 13 Overvoltage PTOV 7 5 13 1 Two step overvoltage protection OV2PTOV LN type LN prefix LN class Function block name GEN2LLNO instance 1 revision 1 LLNO OV2PTOV OV2PTOV instance 1 revision 1 OV2 PTOV OV2PTOV OV2PTOV instance 2 revision 1 OV2 PTOV OV2PTOV PH3PTRC instance 1 revision 1 PH3 PTRC OV2PTOV Table 79 GEN2LLNO Logical node data i
42. ZQD PTRC ZQDPDIS Table 18 ZQDLLNO Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 Table continues on next page 76 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC t ST Mon Mode status value parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Table 19 ZQDPDIS Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST
43. q MX ULOAD Mon Calculated compensated voltage service value t MX ULOAD Mon Calculated compensated voltage service value AverA v2_dMV mag f MX IPRIM Mon Maximum of 3 phase currents service value q MX IPRIM Mon Maximum of 3 phase currents service value t MX IPRIM Mon Maximum of 3 phase currents service value CCAV v2 dMV mag f MX CCAVolt Mon Circulating current adjusted voltage q MX CCAVolt Mon Circulating current adjusted voltage t MX CCAVolt Mon Circulating current adjusted voltage AutoRedV v2_dMV mag f MX Mon Load dependent automatic reduction voltage q MX Mon Load dependent automatic reduction voltage t MX Mon Load dependent automatic reduction voltage BndCtrSng v2_dMV mag f MX Mon Voltage setpoint single q MX Mon Voltage setpoint single t MX Mon Voltage setpoint single BndCtrPar v2_dMV mag f MX USETPAR Mon Average voltage setpoint used in parallel mode q MX USETPAR Mon Average voltage setpoint used in parallel mode t MX USETPAR Mon Average voltage setpoint used in parallel mode BndCtrSet v2_dMV mag f MX Mon Voltage setpoint set by user Table continues on next page 56 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model
44. 7 8 1 2 Logic Rotating Switch for function selection and LHMI presentation SLGGIO LN type LN prefix LN class Function block name SLGGIO revision 2 SL GGIO SLGGIO Table 124 SLGGIO Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 Table continues on next page 162 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC t ST i Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Intin b dINS stVal ST SWPOSN Mon Switch position as integer value q ST SWPOSN Mon Switch position as integer value t ST SWPOSN Mon Switch position as integer value
45. Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Out1 vi_dSPS stVal ST OUTPUT1 Mon OR function betweeen inputs 1 to 16 q ST OUTPUT1 Mon OR function betweeen inputs 1 to 16 t ST OUTPUT1 Mon OR function betweeen inputs 1 to 16 Out2 vi_dSPS stVal ST OUTPUT2 Mon OR function between inputs 17 to 32 q ST OUTPUT2 Mon OR function between inputs 17 to 32 t ST OUTPUT2 Mon OR function between inputs 17 to 32 Out3 vi_dSPS stVal ST OUTPUT3 Mon OR function between inputs 1 to 32 q ST OUTPUT3 Mon OR function between inputs 1 to 32 t ST OUTPUT3 Mon OR function between inputs 1 to 32 7 9 7 9 1 7 9 1 1 176 Logical nodes for metering and measurement Metering MMTR Function for energy calculation and demand handling ETPMMTR LN type LN prefix LN class Function block name ETPMMTR revision 1 ETP MMTR ETPMMTR 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 134
46. Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 Table continues on next page 88 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC t ST Mon Mode status value parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Table 35 ZGPDIS Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b dACD general ST STZ1 Mon Start zone 1 q ST STZ1 Mon Start zone 1 t ST STZ1 Mon Start zone 1 Op b_dACT general ST T TRZ1 Mon Trip zone 1 q ST T TRZ1 Mon Trip zone 1 t ST T TRZ1 Mon Trip zone 1 Mod c_dINC stVal ST Mon Mode stat
47. Mon Teleprotection signal transmitted for a forward fault t ST Mon Teleprotection signal transmitted for a forward fault LosOfGrd a_dSPS stVal ST LCG Mon loss of carrier guard signal q ST LCG Mon loss of carrier guard signal t ST LCG Mon loss of carrier guard signal Str b_dACD general ST CS Mon Carrier Send by Communication Scheme Logic dirGeneral ST Mon Directional attribute of Carrier Send signal q ST CS Mon Carrier Send by Communication Scheme Logic t ST CS Mon Carrier Send by Communication Scheme Logic Op b dACT general ST TRIP Mon Trip by Communication Scheme Logic q ST TRIP Mon Trip by Communication Scheme Logic t ST TRIP Mon Trip by Communication Scheme Logic Table continues on next page 102 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd CarRx b_dACT general ST CRL Mon Carrier Receive from Communication Scheme Logic q ST CRL Mon Carrier Receive from Communication Scheme Logic t ST CRL Mon Carrier Receive from Communication Scheme Logic 7 5 8 4 Current reversal and weak end infeed logic for residual overcurrent protection ECRWPSCH LN type LN prefix LN class Function block name ECRWPSCH revision 2 ECRW PSCH ECRWPSCH
48. Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STZ3 Mon Start zone 3 q ST STZ3 Mon Start zone 3 t ST STZ3 Mon Start zone 3 Op b_dACT general ST T TRZ3 Mon Trip zone 3 q ST T TRZ3 Mon Trip zone 3 t ST T TRZ3 Mon Trip zone 3 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 650 series 85 Communication Protocol Manual Section 7 1MRK 511 242 UEN Logical node data model Table 30 ZMOPDIS Logical node data instance 4 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STZ4 Mon Start zone 4 q ST STZ4 Mon Start zone 4 t ST STZ4 Mon Start zone 4 Op b dACT general ST T TRZ4 Mon Trip zone 4 q ST T TRZ4 Mon Trip zone 4 t ST T TRZ4 Mon Trip zone 4 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status va
49. Special Interest Group for the electrical EMF Electromotive force Intelligent electronic device 217 Section 8 Glossary 218 I GIS Instance IP IP 20 IP 40 IP 54 IRF IRIG B ITU LAN LIB 520 LCD LDD LED MCB MCM MVB NCC OCO cycle OCP OLTC OV Overreach 1MRK 511 242 UEN Intelligent gas insulated switchgear When several occurrences of the same function are available in the IED they are referred to as instances of that function One instance of a function is identical to another of the same kind but has a different number in the IED user interfaces The word instance is sometimes defined as an item of information that is representative of a type In the same way an instance of a function in the IED is representative of a type of function 1 Internet protocol The network layer for the TCP IP protocol suite widely used on Ethernet networks IP is a connectionless best effort packet switching protocol It provides packet routing fragmentation and reassembly through the data link layer 2 Ingression protection according to IEC standard Ingression protection according to IEC standard level 20 Ingression protection according to IEC standard level 40 Ingression protection according to IEC standard level 54 Internal failure signal InterRange Instrumentation Group Time code format B standard 200 International Telecommunications Union Local area network High voltage software
50. activated during open time t ST INPROGR Mon Reclosing shot in progress activated during open time Table continues on next page 156 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd PrgRec31 vi_dSPS stVal ST 3PT1 Mon Three phase reclosing in progress shot 1 q ST 3PT1 Mon Three phase reclosing in progress shot 1 t ST 3PT1 Mon Three phase reclosing in progress shot 1 PrgRec32 vi_dSPS stVal ST 3PT2 Mon Three phase reclosing in progress shot 2 q ST 3PT2 Mon Three phase reclosing in progress shot 2 t ST 3PT2 Mon Three phase reclosing in progress shot 2 PrgRec33 vi_dSPS stVal ST 3PT3 Mon Three phase reclosing in progress shot 3 q ST 3PT3 Mon Three phase reclosing in progress shot 3 t ST 3PT3 Mon Three phase reclosing in progress shot 3 PrgRec34 vi_dSPS stVal ST 3PT4 Mon Three phase reclosing in progress shot 4 q ST 3PT4 Mon Three phase reclosing in progress shot 4 t ST 3PT4 Mon Three phase reclosing in progress shot 4 PrgRec35 vi_dSPS stVal ST 3PT5 Mon Three phase reclosing in progress shot 5 q ST 3PT5 Mon Three phase reclosing in progress shot 5 t ST 3PT5 Mon Three phase reclosing in progress shot 5 WtMst vi_dSPS stVal ST WFMASTER
51. protection ItrFit viSPS stVal ST Mon Indication that internal fault has been detected q ST Mon Indication that internal fault has been detected t ST Mon Indication that internal fault has been detected ExFit viSPS stVal ST Mon Indication that external fault disturbance has been detected q ST Mon Indication that external fault disturbance has been detected t ST Mon Indication that external fault disturbance has been detected BIkH v1SPS stVal ST BLKH Mon Common harmonic block signal q ST BLKH Mon Common harmonic block signal t ST BLKH Mon Common harmonic block signal BIkKHPhA v1iSPS stVal ST Mon Harmonic block signal phase L1 q ST Mon Harmonic block signal phase L1 t ST Mon Harmonic block signal phase L1 BIkHPhB v1SPS stVal ST Mon Harmonic block signal phase L2 q ST Mon Harmonic block signal phase L2 Table continues on next page 74 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd BIKHPhB v1SPS t ST Mon Harmonic block signal phase L2 BIkKHPhC viSPS stVal ST Mon Harmonic block signal phase L3 q ST Mon Harmonic block signal phase L3 t ST Mon Harmonic block signal phase
52. q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T TR1 Mon Trip signal from step 1 q ST T TR1 Mon Trip signal from step 1 t ST T TR1 Mon Trip signal from step 1 Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table 81 OV2PTOV Logical node data instance 2 DO name DO type DA name FC T Signal Mon Description Cmd Str a_dACD general ST ST2 Mon Start signal from step 2 phsA ST Mon Start signal from step 2 phase L1 phsB ST Mon Start signal from step 2 phase L2 phsC ST Mon Start signal from step 2 phase L3 q ST ST2 Mon Start signal from step 2 t ST ST2 Mon Start signal from step 2 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T TR2 Mon Trip signal from step 2 q ST T TR2 Mon Trip signal from step 2 t ST T TR2 Mon Trip signal from step 2 Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 122 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model
53. t ST Mon Mode status parameter for 61850 Table 96 UV2PTUV Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Str a_dACD general ST ST1 Mon Start signal from step 1 phsA ST ST1L1 Mon Start signal from step 1 phase L1 phsB ST ST1L2 Mon Start signal from step 1 phase L2 phsC ST ST1L3 Mon Start signal from step 1 phase L3 q ST ST1 Mon Start signal from step 1 t ST ST1 Mon Start signal from step 1 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T TR1 Mon Trip signal from step 1 q ST T TR1 Mon Trip signal from step 1 t ST T TR1 Mon Trip signal from step 1 Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table 97 UV2PTUV Logical node data instance 2 DO name DO type DA name FC T Signal Mon Description Cmd Str a_dACD general ST ST2 Mon Start signal from step 2 phsA ST Mon Start signal from step 2 phase L1 phsB ST Mon Start signal from step 2 phase L2 phsC ST Mon Start signal from step 2 phase L3 q ST ST2 Mon Start signal from step 2 t ST ST2 Mon Start signal from step 2 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q S
54. t ST Beh Mon Behaviour parameter for 61850 BatHi a dSPS stVal ST ST UHI Mon Start signal when battery voltage exceeds upper limit q ST ST UHI Mon Start signal when battery voltage exceeds upper limit t ST ST UHI Mon Start signal when battery voltage exceeds upper limit BatLo a dSPS stVal ST ST ULOW Mon Start signal when battery voltage drops below lower limit q ST ST ULOW Mon Start signal when battery voltage drops below lower limit t ST ST ULOW Mon Start signal when battery voltage drops below lower limit Vol b dMV mag f MX BATTVOLT Mon Service value of the battery terminal voltage q MX BATTVOLT Mon Service value of the battery terminal voltage t MX BATTVOLT Mon Service value of the battery terminal voltage OpBatLo vi_dSPS stVal ST AL_ULOW Mon Alarm when voltage has been below low limit for a set time q ST AL ULOW Mon Alarm when voltage has been below low limit for a set time t ST AL ULOW Mon Alarm when voltage has been below low limit for a set time OpBatHi vi_dSPS stVal ST AL_UHI Mon Alarm when voltage has exceeded high limit for a set time q ST AL UHI Mon Alarm when voltage has exceeded high limit for a set time t ST AL UHI Mon Alarm when voltage has exceeded high limit for a set time 208 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model 7 14 Logical nodes for station communication 7 14 1 Interlock receive INTLKRCV 7 14 1
55. 1 Horizontal communication via GOOSE for interlocking GOOSEINTLKRCV LN type LN prefix LN class Function block name INTGREC instance 1 revision 0 INT GREC GOOSEINTLKRCV Table 149 INTGREC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd TagApp1 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping q ST Mon Internal parameter tag to handle 61850 mapping TagApp2 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagApp3 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagApp4 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagApp5 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagApp6 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagApp7 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagApp8 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagApp9 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagApp10 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagApp11 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagApp12 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagApp13 a_dDPS stVal ST Mon
56. 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 91 PH3PTUC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Str a_dACD general ST ST1 Mon Start of step 1 phsA ST Mon Start signal for step 1 in L1 phsB ST Mon Start signal for step 1 in L2 phsC ST Mon Start signal for step 1 in L3 q ST ST1 Mon Start of step 1 t ST ST1 Mon Start of step 1 Op a_dACT general ST T TR1 Mon Operate signal for step 1 phsA ST T Mon Operate signal for step 1 in L1 phsB ST T Mon Operate signal for step 1 in L2 phsC ST T Mon Operate signal for step 1 in L3 q ST T TR1 Mon Operate signal for step 1 t ST T TR1 Mon Operate signal for step 1 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 92 PH3PTUC Logical node data instance 2 DO name DO type DA name FC T Signal Mon Description Cmd Str a_dACD general ST ST2 Mon Start of step 2 phsA ST Mon Start signal for step 2 in L1 phsB ST Mon Start signal for step 2 in L2 phsC ST Mon Start s
57. Angle between 3U0 and 310 minus RCA Fi RCA ResA v2_dMV mag f MX IN Mon Measured magnitude of the residual current 310 q MX IN Mon Measured magnitude of the residual current 310 t MX IN Mon Measured magnitude of the residual current 310 ResV v2_dMV mag f MX UN Mon Measured magnitude of the residual voltage 3U0 q MX UN Mon Measured magnitude of the residual voltage 3U0 t MX UN Mon Measured magnitude of the residual voltage 3U0 ResP v2_dMV mag f MX SN Mon Measured magnitude of residual power 3l03U0cos Fi RCA q MX SN Mon Measured magnitude of residual power 3l03U0cos Fi RCA t MX SN Mon Measured magnitude of residual power 3l03U0cos Fi RCA 7 5 10 Switch onto fault logic PSOF 7 5 10 1 Automatic switch onto fault logic voltage and current based ZCVPSOF LN type LN prefix LN class Function block name ZCVPSOF revision 2 ZCV PSOF Table 52 ZCVPSOF Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status para
58. CC sseeeeeeerern ennen 151 Autorecloser STBRREC ccceeeeeeeeeeeeeeeeeeeeteeeeeeeeeeneeeea 154 Synchronising RSYN 5 EDER 158 Synchrocheck energizing check and synchronizing SE SRO VIN ee een E abe DE 158 Logical nodes for generic references sssssneeeernnnrrnnnnes 161 Generic process I O GGIO ccccsecceecceecceeeceeeeeeceeeeeeeeeeeeeeeees 161 Apparatus control SELGGIO 0 cece cece eeeeeeeeeeeeenenteeeee 161 Logic Rotating Switch for function selection and LHMI presentation SLGGIO cc cccccccececsesseseseceeeeceeeeesaeaeaaeneees 162 Selector mini switch VSGGIO eeseeeeeeeeeeeeeeeeeeeees 164 4 650 series Communication Protocol Manual Table of contents IEC61850 generic communication I O functions DPGGIO een g ge Eee bre gled s 165 Single Point Generic Control 8 signals SPC8GGIO 166 Event counter CNTGGIO c ccceeeeeeeeeeeeeeeeeeeeeeeeeeeees 169 IEC61850 generic communication I O functions SPGGlO sesa a O AAA 171 IEC61850 generic communication I O functions 16 INPUTS SP16GGCIO senes 171 IEC61850 generic communication I O functions MV GGIO E h re E te edo E A E E 173 Pulse counter PCGGIO ccccccccccccecceeeeeeeeeeeeeeeeeeeeeeteeeees 174 Trip matrix logic TMAGGIO esdan 175 Logical nodes for metering and measurement 176 Metering MMT Revises sceertca cesses nceceis as ereeierieaeeecurieieaernenceneeee 176 Function for ener
59. Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Ind c_dSPS stVal ST OUT Mon Output status q ST OUT Mon Output status t ST OUT Mon Output status 7 8 1 8 IEC61850 generic communication I O functions 16 inputs SP16GGIO LN type LN prefix LN class Function block name SP16GGIO revision 1 SP16 GGIO SP16GGIO 650 series 171 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN Table 130 SP16GGIO Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Beh
60. Cmd Seqv adSEQ db CF U2DbRepint Cycl Report interval s Db In of range Int Db In s db CF 3U0DbRepint Cycl Report interval s Db In of range Int Db In s db CF U1DbRepint Cycl Report interval s Db In of range Int Db In s zeroDb CF U1ZeroDb Zero point clamping zeroDb CF 3U0ZeroDb Zero point clamping zeroDb CF U2ZeroDb Zero point clamping 7 10 Logical nodes for sensors and monitoring 7 10 1 Circuit breaker monitoring SCBR 7 10 1 1 Breaker close trip circuit monitoring TCSSCBR LN type LN prefix LN class Function block name TCSSCBR revision 0 TCS SCBR TCSSCBR Table 141 TCSSCBR Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 TrCctAlm a_d
61. Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd Beh a_dINS q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 BIkCls a_dSPC Oper ctlVal CO Cmd Special block command value Oper origin orCat CO Cmd Special block command value Oper origin orldent CO Cmd Special block command value Oper ctINum CO Cmd Special block command value Oper T CO Cmd Special block command value Oper Test CO Cmd Special block command value Oper Check CO Cmd Special block command value stVal ST CL_BLKD Mon Indication that the function is blocked for close commands q ST CL_BLKD Mon Indication that the function is blocked for close commands t ST CL_BLKD Mon Indication that the function is blocked for close commands BlkOpn a_dSPC Oper ctlVal CO Cmd Special block command value Oper origin orCat CO Cmd Special block command value Oper origin orldent CO Cmd Special block command value Oper ctINum CO Cmd Special block command value Oper T CO Cmd Special block command value Oper Test CO Cmd Special block command value Oper Check CO Cmd Special block command value stVal ST OP_BLKD Mon Indication that the function is blocked for open commands q ST OP BLKD Mon Indication
62. L3 OpnCT viSPS stVal ST OPENCT Mon An open CT was detected q ST OPENCT Mon An open CT was detected t ST OPENCT Mon An open CT was detected OpnCTAlm viSPS stVal ST OPENCTAL Mon Open CT Alarm output signal Issued after a delay q ST OPENCTAL Mon Open CT Alarm output signal Issued after a delay t ST OPENCTAL Mon Open CT Alarm output signal Issued after a delay DifANS v2MV mag f MX IDNSMAG Mon Negative Sequence Differential current in primary Amperes q MX IDNSMAG Mon Negative Sequence Differential current in primary Amperes t MX IDNSMAG Mon Negative Sequence Differential current in primary Amperes RstMaxA v2MV mag f MX IBIAS Mon Magnitude of the common Bias current in primary Amperes q MX IBIAS Mon Magnitude of the common Bias current in primary Amperes t MX IBIAS Mon Magnitude of the common Bias current in primary Amperes 7 5 1 5 1 Ph High impedance differential protection HZPDIF LN type LN prefix LN class Function block name HZPDIF revision 1 HZ PDIF HZPDIF Table 17 HZPDIF Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter O
63. Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 AlmThm a_dSPS stVal ST ALARM Mon Alarm signal Table continues on next page 126 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd AlmThm a dSPS q ST ALARM Mon Alarm signal t ST ALARM Mon Alarm signal Str b_dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal Tmp b_dMV mag f MX TEMP Mon Calculated temperature of the device q MX TEMP Mon Calculated temperature of the device t MX TEMP Mon Calculated temperature of the device TmpRI b_dMV mag f MX TERMLOAD Mon Temperature relative to opera
64. Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 SPCSO1 v2_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 Table continues on next page 166 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd SPCSO1 v2_dSPC stval ST OUT1 Mon Output 1 q ST OUT1 Mon Output 1 t ST OUT1 Mon Output 1 SPCSO2 v2_dSPC Oper ctlVal CO Cmd Command parameter
65. Mon Behaviour parameter for 61850 InsAlm a dSPS stVal ST PRES_LO Mon Pressure below lockout level q ST PRES LO Mon Pressure below lockout level Table continues on next page 650 series Communication Protocol Manual 197 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd InsAlm adSPS ST PRES LO Mon Pressure below lockout level PresAlm a_dSPS stVal ST PRES_ALM Mon Pressure below alarm level q ST PRES ALM Mon Pressure below alarm level t ST PRES_ALM Mon Pressure below alarm level TmpAlm a_dSPS stVal ST TEMP_ALM Mon Temperature above alarm level q ST TEMP ALM Mon Temperature above alarm level t ST TEMP ALM Mon Temperature above alarm level Pres b dMV mag f MX PRESSURE Mon Pressure service value q MX PRESSURE Mon Pressure service value t MX PRESSURE Mon Pressure service value Tmp b dMV mag f MX TEMP Mon Temperature of the insulation medium q MX TEMP Mon Temperature of the insulation medium t MX TEMP Mon Temperature of the insulation medium LORs vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd C
66. Mon Power factor magnitude of deadband value subMag f SV Substituted value range MX PF RANGE Mon Power factor range q MX PF Mon Power factor magnitude of deadband value t MX PF Mon Power factor magnitude of deadband value subEna SV Enable substitution db CF PFDbRepInt Cycl Report interval s Db In of range Int Db In s zeroDb CF PFZeroDb Zero point clamping Vol a_dMV rangeC hhLim f CF UHiHiLim High High limit in of UBase rangeC hLim f CF UHiLim High limit in of UBase rangeC Lim f CF ULowLim Low limit in of UBase rangeC llLim f CF ULowLowLim Low Low limit in of UBase rangeC max f CF UMax Maximum value in of UBase rangeC min f CF UMin Minimum value in of UBase subMag f SV Substituted value mag f MX U Mon Calculated voltage magnitude of deadband value range MX U_RANGE Mon Calcuated voltage range q MX U Mon Calculated voltage magnitude of deadband value t MX U Mon Calculated voltage magnitude of deadband value subEna SV Enable substitution db CF UDbRepInt Cycl Report interval s Db In of range Int Db In s zeroDb CF UZeroDb Zero point clamping VolAmp a_dMV mag f MX S Mon Apparent power magnitude of deadband value rangeC hhLim f CF SHiHiLim High High limit in of SBase Table continues on next page 650 series Communication Protocol Manual 181 Section 7 Logical node data model 1MRK 511 242 UEN
67. SCL XML file The arrows show the link between the different sections given when an JED is integrated in the substation structure and or in the communication structure All needed logical nodes of an IED are linked to the substation section by the SC tool A reference to GOOSE Control Blocks GoCB is included in the communication section when GoCB is configured The substation section The substation description in IEC 61850 6 clause 9 describes the organization of the primary equipment on one side On the other side it includes the used logical nodes and their relation to the primary equipment The communication section The organization of the physical IEDs to the communication network is independent of the substation structure The IEC 61850 standard defines the 650 series Communication Protocol Manual 1MRK 511 242 UEN 3 3 650 series Communication Protocol Manual Section 3 Substation Configuration description Language SCL communication network with no relation to an existing media and protocol The mapping to an existing media and protocol is specified in IEC 61850 8 1 The IEC 61850 standard describes in part 7 2 the ACSI in a media and protocol independent form Part 8 1 specifies the mapping of this ACSI to the existing MMS The communication section describes how information is routed between the IEDs and contains the following parts e Subnetworks e IEDs connected to different subnetworks e Acc
68. ST TRIP2 Mon Trip signal from stage 2 q ST TRIP2 Mon Trip signal from stage 2 t ST TRIP2 Mon Trip signal from stage 2 StrZ1 vi_dSPS stVal ST START1 Mon Start signal from stage 1 q ST START1 Mon Start signal from stage 1 t ST START1 Mon Start signal from stage 1 StrZ2 vi_dSPS stVal ST START2 Mon Start signal from stage 2 q ST START2 Mon Start signal from stage 2 t ST START2 Mon Start signal from stage 2 MW v2 dMV mag f MX P Mon Active Power q MX P Mon Active Power t MX P Mon Active Power MVAr v2_dMV mag f MX Q Mon Reactive power q MX Q Mon Reactive power t MX Q Mon Reactive power 650 series 95 Communication Protocol Manual Section 7 1MRK 511 242 UEN Logical node data model 7 5 5 Rate of change of frequency PFRC 7 5 5 1 Rate of change frequency function SAPFRC LN type LN prefix LN class Function block name SAPFRC revision 1 SA PFRC SAPFRC Table 43 SAPFRC Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cm
69. Substituted value rangeC hhLim f CF U1HiHiLim High High limit physical value rangeC hLim f CF U1HiLim High limit physical value rangeC Lim f CF U1LowLim Low limit physical value rangeC llLim f CF U1LowLowLim Low Low limit physical value rangeC min f CF U1Min Minimum value rangeC max f CF U1Max Maximum value rangeC hhLim f CF U2HiHiLim High High limit physical value rangeC hLim f CF U2HiLim High limit physical value rangeC Lim f CF U2LowLim Low limit physical value rangeC lILim f CF U2LowLowLim Low Low limit physical value rangeC min f CF U2Min Minimum value rangeC max f CF U2Max Maximum value subCVal mag f SV Substituted value subCVal mag f SV Substituted value range MX U2RANG Mon U2 Amplitude range range MX 3U0RANG Mon 3U0 Amplitude range range MX U1RANG Mon U1 Amplitude range q MX U2 Mon U2 Amplitude q MX U1 Mon U1 Amplitude q MX 3U0 Mon 3U0 Amplitude t MX 3U0 Mon 3U0 Amplitude t MX U1 Mon U1 Amplitude t MX U2 Mon U2 Amplitude subEna SV Enable substitution subEna SV Enable substitution subEna SV Enable substitution Table continues on next page 650 series Communication Protocol Manual 191 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description
70. SwPosC1 vi_dISC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 valWTr posVal ST Mon Position Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 q ST Mon Position t ST Mon Position ctlModel CF Used by CH sboTimeout CF Used by CH sboClass CF Used by CH SPCCO v2_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 ctlModel CF Used by CH sboTimeout CF Used by CH sboClass CF Used by CH 650 series 163 Communication Protocol Manual Section 7 1MRK 511 242 UEN Logical node data model 7 8 1 3 Selector mini switch VSGGIO LN type LN prefix LN class Function block name VSGGIO revision 1 VS GGIO VSGGIO Table 125 VSGGI O Logical node data instance 1 DO nam
71. TRIP Mon Trip general q ST T TRIP Mon Trip general t ST T TRIP Mon Trip general Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 7 5 2 4 Faulty phase identification with load enchroachment for mho FMPSPDIS LN type LN prefix LN class Function block name FMPSPDIS revision 1 FMPS PDIS FMPSPDIS Table 33 FMPSPDIS Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Op a_dACT general ST T START Mon General start signal phsA ST T STL1 Mon Fault detected in phase L1 phsB ST T STL2 Mon Fault detected in phase L2 phsC ST T STL3 Mon Fault detected in phase L3 q ST T START Mon General start signal t ST T START Mon General start signal Mod a dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter Table continues on next page 650 series 87 Communication Protocol Manual Section 7 1MRK 511 242 UEN Logical node data model
72. TRRET Mon Retrip t ST T TRRET Mon Retrip Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 OpEx b_dACT general ST T TRBU Mon Back up trip q ST T TRBU Mon Back up trip t ST T TRBU Mon Back up trip 7 7 2 Differential supervision RDIF 7 7 2 1 Current circuit supervison CCSRDIF LN type LN prefix LN class Function block name CCSRDIF revision 1 CCS RDIF CCSRDIF Table 111 CCSRDIF Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Table continues on next page 650 series 145 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN
73. Table continues on next page 164 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd DPCSO d_dDPC Oper T CO Cmd Command parameter for IEC61850 Cancel T CO Cmd Command parameter for IEC61850 SBOw T CO Cmd Command parameter for IEC61850 SBOw Test CO Cmd Command parameter for IEC61850 Cancel Test CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 SBOw Check CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST POSITION Mon Position indication integer q ST POSITION Mon Position indication integer t ST POSITION Mon Position indication integer stSeld ST Mon Used by CH ctlModel CF CtlModel Specifies the type for control model according to IEC 61850 7 8 1 4 IEC61850 generic communication I O functions DPGGIO LN type LN prefix LN class Function block name DPGGIO revision 1 DP GGIO DPGGIO Table 126 DPGGIO Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orlden
74. The GOOSE message concept is used for all application functions where two or more IEDs are involved Typical example is the station wide interlocking procedure or breaker failure protection Figure 10 shows the GOOSE concept for three IEDs which interchange GOOSE messages between each other To send GOOSE messages a GoCB must be defined and a data set is needed that contains the data objects of single data attributes to be sent A GOOSE message is forced to be transmitted when a trigger change is detected for a data attribute All members of the data set are copied in the send buffer with their actual value and the message is sent The subscribers who knows the address of this GOOSE message receives the telegram The GOOSE message includes for example sequence number to verify that all messages are received The concept that has to be done in case of for example a lost message is part of the application and not described in the standard A GoCB has to be defined per GOOSE DataSet GOOSE messages bypass the server and send direct from the communication part on the Ethernet This is identified for the communication in the SCL communication section in the GSE element where the name of the GoCB is listed under the ConnectedAP Link GoCB to an IED The IEDs that should receive the GOOSE message must be known and they have to be informed in the engineering state that they receive GOOSE messages and which one This is given when the external
75. description of all logical nodes is part of the Data Type Template DTT section in the SCL description file of a station or the IED Beside the information about the configuration of the communication facilities this manual contains the full description of all logical nodes available in the 650 series IED The information about the logical nodes and their data objects may be used to identify which signals are available for the function as described in the technical manual The link to the technical manual is done in the logical node tables by listing the signal name as given in the function block as seen in PCM600 and in LHMI 2 1 1 Related documentation to IEC 61850 Use the latest revision of the documents listed unless stated otherwise 20 650 series Communication Protocol Manual 1MRK 511 242 UEN 650 series Communication Protocol Manual Document ID IEC 61850 5 First edition 2003 07 Ref number IEC 61850 5 2003 E IEC 61850 6 First edition 2004 03 Ref number IEC 61850 6 2004 E IEC 61850 7 1 First edition 2003 07 Ref number IEC 61850 7 1 2003 E IEC 61850 7 2 First edition 2003 05 Ref number IEC 61850 7 2 2003 E IEC 61850 7 3 First edition 2003 05 Ref number IEC 61850 7 3 2003 E IEC 61850 7 4 First edition 2003 05 Ref number IEC 61850 7 4 2003 E IEC 61850 8 1 First edition 2004 05 Ref number IEC 61850 8 1 2004 E IEC 61850 10 First edition 2005 05 Ref number IEC 61850 10 200
76. for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST OUT2 Mon Output2 q ST OUT2 Mon Output2 t ST OUT2 Mon Output2 SPCSO3 v2_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST OUT3 Mon Output3 q ST OUT3 Mon Output3 t ST OUT3 Mon Output3 SPCSO4 v2_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Table continues on next page 650 series Communication Protocol Manual 167 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd SPCSO4 v2_dSPC Op
77. harm voltage at generator terminal side q MX UT3 Mon Mag of 3rd harm voltage at generator terminal side t MX UT3 Mon Mag of 3rd harm voltage at generator terminal side VN3rdH v2_dMV mag f MX UN3 Mon Mag of 3rd harm voltage at generator neutral side q MX UN3 Mon Mag of 3rd harm voltage at generator neutral side t MX UN3 Mon Mag of 3rd harm voltage at generator neutral side E3 v2_dMV mag f MX E3 Mon Total induced stator 3rd harmonic voltage q MX E3 Mon Total induced stator 3rd harmonic voltage t MX E3 Mon Total induced stator 3rd harmonic voltage VDif3rdH v2_dMV mag f MX DU3 Mon Diff between 3rd harm volt at both sides of gen q MX DU3 Mon Diff between 3rd harm volt at Table continues on next page both sides of gen 140 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd VDifsrdH v2_dMV MX DU3 Mon Diff between 3rd harm volt at both sides of gen VBias3rdH v2_dMV mag f MX BU3 Mon Bias voltage a part of UN3 q MX BU3 Mon Bias voltage a part of UN3 t MX BU3 Mon Bias voltage a part of UN3 UN v2_dMV mag f MX UN Mon Fund frequency voltage at generator neutral q MX UN Mon Fund frequency voltage at generator neutral t MX UN Mon Fund frequency voltage at generator neutral Vo
78. module Liquid crystal display Local detection device Light emitting diode Miniature circuit breaker Mezzanine carrier module Multifunction vehicle bus Standardized serial bus originally developed for use in trains National Control Centre Open close open cycle Overcurrent protection On load tap changer Over voltage A term used to describe how the relay behaves during a fault condition For example a distance relay is overreaching when the impedance presented to it is smaller than the 650 series Communication Protocol Manual 1MRK 511 242 UEN 650 series Communication Protocol Manual PCI PCM PCM600 PC MIP PISA PMC POR POTT Process bus PSM PST PT ratio PUTT RASC RCA RFPP RFPE RISC RMS value RS422 RS485 RTC RTU SA SBO SC SCS SCADA SCT SDU Section 8 Glossary apparent impedance to the fault applied to the balance point that is the set reach The relay sees the fault but perhaps it should not have seen it Peripheral component interconnect a local data bus Pulse code modulation Protection and control IED manager Mezzanine card standard Process interface for sensors amp actuators PCI Mezzanine card Permissive overreach Permissive overreach transfer trip Bus or LAN used at the process level that is in near proximity to the measured and or controlled components Power supply module Parameter setting tool within PCM600 Potential transformer or voltage tran
79. parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 650 series 123 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN Table 84 PH1PTRC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Op b dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table 85 ROV2PTOV Logical node data insta
80. position conversion error q ST CONVERR Mon General tap position conversion error t ST CONVERR Mon General tap position conversion error InvPosChg vi_dSPS stVal ST INVALPOS Mon Last position change was an invalid change q ST INVALPOS Mon Last position change was an invalid change t ST INVALPOS Mon Last position change was an invalid change TapChgFIt vi_dSPS stVal ST TCERRAL Mon Alarm for none or illegal tap position change q ST TCERRAL Mon Alarm for none or illegal tap position change t ST TCERRAL Mon Alarm for none or illegal tap position change TapPosFlit vi_dSPS stVal ST POSERRAL Mon Alarm that indicates a problem with the position indication q ST POSERRAL Mon Alarm that indicates a problem with the position indication t ST POSERRAL Mon Alarm that indicates a problem with the position indication CLCnt v2_dMV mag f MX CLCNT VAL Mon Remaining number of operations at rated load q MX CLCNT VAL Mon Remaining number of operations at rated load t MX CLCNT VAL Mon Remaining number of operations at rated load 7 3 7 3 1 7 3 1 1 60 Logical nodes for control Bay control CBAY Apparatus control QCBAY LN type LN prefix LN class Function block name QCBAY revision 1 Q CBAY QCBAY 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data
81. protection OpUnRst vi_dSPS stVal ST TRIPUNRE Mon Trip signal from unrestrained differential protection q ST TRIPUNRE Mon Trip signal from unrestrained differential protection t ST TRIPUNRE Mon Trip signal from unrestrained differential protection Table continues on next page 68 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd BIk2H vi_dSPS stVal ST BLK2H Mon General second harmonic block signal q ST BLK2H Mon General second harmonic block signal t ST BLK2H Mon General second harmonic block signal BIk5H vi_dSPS stVal ST BLK5H Mon General fifth harmonic block signal q ST BLKSH Mon General fifth harmonic block signal t ST BLK5H Mon General fifth harmonic block signal BlkWav vi_dSPS stVal ST BLKWAV Mon General block signal from waveform criteria q ST BLKWAV Mon General block signal from waveform criteria t ST BLKWAV Mon General block signal from waveform criteria ExFIt v1_dSPS stVal ST Mon Indication that external fault disturbance has been detected q ST Mon Indication that external fault disturbance has been detected t ST Mon Indication that external fault disturbance has been detected ItrF lt v1_dSPS stVal ST Mon Indi
82. signal engineering and the signal routing are CCT600 tasks The IED needs to be configured with PCM600 before the system is configured with CCT600 The IED section contains the logical node types included in the respective IED configuration and the data sets and the control blocks configured by CCT600 The data sets and the control blocks are logically defined as part of the logical nodes see IEC 61850 7 2 clause 9 CCT600 also needs a correctly configured communication section for GOOSE engineering The data type templates section provides the correct content description of each logical node type to all tools and users clients of the information Each IED and vendor may have their own logical node type definitions included in the data type template section together with all other logical node types based on the standard 650 series 23 Communication Protocol Manual Section 3 Substation Configuration description Language SCL 3 1 3 2 24 Substation VoltageLevel Bay Station Communucation Subnetwork Service DataSet Report Control GOOSE Control Inputs SettingControl DataTypeTemplates LNodeType DO eon DOType Figure 2 EC08000178 vsd 1MRK 511 242 UEN IEC 61850 Principle structure of the
83. t ST START Mon Main common start signal Op b dACT general ST T TRIP Mon Main common trip command Table continues on next page 650 series 139 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd Op b_dACT q ST TRIP Mon Main common trip command t ST TRIP Mon Main common trip command Op3rdH vi_dSPS stVal ST TRIP3H Mon Trip by one of two 3rd harmonic voltage based prot q ST TRIP3H Mon Trip by one of two 3rd harmonic voltage based prot t ST TRIP3H Mon Trip by one of two 3rd harmonic voltage based prot OpUN vi_dSPS stVal ST TRIPUN Mon Trip by fund freq neutral over voltage protection q ST TRIPUN Mon Trip by fund freq neutral over voltage protection t ST TRIPUN Mon Trip by fund freq neutral over voltage protection Str3rdH vi_dSPS stVal ST START3H Mon Start by one of two 3rd harmonic voltage based prot q ST START3H Mon Start by one of two 3rd harmonic voltage based prot t ST START3H Mon Start by one of two 3rd harmonic voltage based prot StrUN vi_dSPS stVal ST STARTUN Mon Start signal by fund freq neutral over voltage prot q ST STARTUN Mon Start signal by fund freq neutral over voltage prot t ST STARTUN Mon Start signal by fund freq neutral over voltage prot VT3rdH v2_dMV mag f MX UT3 Mon Mag of 3rd
84. the applications The signal for validity represents all data in the received GOOSE telegram Invalid means that the correct message is not received within the 1 8 maxTime parameter for the GOOSE Control Block as defined in IEC 61850 6 An incorrect message includes T true NeedsCom wrong order of attributes or any discrepancy in the GOOSE message layout Note that the data sets that are used or referred to by GOOSE control blocks can only include a data attribute once In other words there may not be the same data attribute in more than one data set When publishing a measured value the user must take care which measured value data attributes are added to a data set If the measured value is event handled like in the case of MMXU functions then one can add that value directly to the data set If the value is not event handled like in the case of Synchrocheck function it is recommended to connect the value desired to be published to a MVGGIO function block in ACT and then use the measured value given by the MVGGIO Example of functions that have event handled measured values can be added directly to the data set CVMMXN Measurements e CMMXU Phase current measurement e VMMXU Phase phase voltage measurement e CMSOI Current sequence component measurement e VMSQI Voltage sequence measurement e VNMMXU Phase neutral voltage measurement e MVGGIO JEC61850 generic communication I O functions Example of function
85. to describe the parts of a substation This part of the standard also includes the roles of different tools as well as the engineering concepts e Communication profile IEC 61850 stack is described in IEC 61850 8 1 This part of the standard includes a number of possible communication profiles and how the services defined in IEC 61850 7 2 are mapped to the communication profile e Communication services are described in IEC 61850 7 2 This part deals mainly with the communication facilities from client and server point of view It includes the different possibilities of communication functionality e Logical node data model This is described in IEC 61850 7 3 and IEC 61850 7 4 e Conformance tests and the basis for conformance documents are handled in IEC 61850 10 To get information and an understanding about the implemented possibilities of IEC 61850 in the IED the details are described in the IEC 61850 conformance documents Section 2 1MRK 511 242 UEN Introduction to IEC 61850 e MICS Modeling Information Conformance Statement contains the declaration of the used logical node types PICS Protocol Information Conformance Statement contains the details and what is supported regarding protocol facilities PIXIT Protocol Extra Information contains additional information on how the IEC 61850 is implemented and used e TICS Tissue Information Conformance Statement contains the supported Tissues which are handled in the Ti
86. warning time t ST WARNING Mon Trip within set warning time TmmOp v2 dMV mag f MX TTRIP Mon Estimated time to trip in min q MX TTRIP Mon Estimated time to trip in min t MX TTRIP Mon Estimated time to trip in min TmmRsLO v2_dMV mag f MX TRESLO Mon Estimated time to reset of the function in min Table continues on next page 128 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd TmmRsLO v2_dMV q MX TRESLO Mon Estimated time to reset of the function in min t MX TRESLO Mon Estimated time to reset of the function in min AClcPct v2_dMV mag f MX I MEASUR Mon Current measured by the function in of the rated current q MX I MEASUR Mon Current measured by the function in of the rated current t MX I MEASUR Mon Current measured by the function in of the rated current TmpPct v2_dMV mag f MX HEATCONT Mon Percentage of the heat content of the transformer q MX HEATCONT Mon Percentage of the heat content of the transformer t MX HEATCONT Mon Percentage of the heat content of the transformer 7 5 16 Time undercurrent PTUC 7 5 16 1 Time delayed 2 step undercurrent pr
87. which is contained in part 7 2 of the standard The mapping to the MMS for all aspects of services and Ethernet usage is specified in part 8 1 of IEC 61850 Each device manufacturer which is a partner of an IEC 61850 based communication network has to take these two specifications and adapt their respective product to the requirements and definitions given in the standard To make this profile visible to all other partners so they can check what they can expect and what they have to support the PICS document is defined The PICS contains in a table based form the possibility of a product or product family IED client 61850 services part 7 2 Access Point AP Address GSE Communication MMS services part 8 1 Subnetwork Communication Communication MMS services part 8 1 MMS services part 8 1 Access Point AP Address Access Point AP Address GSE GSE IED server IED server 61850 services part 7 2 61850 services part 7 2 1EC08000179 vsd Figure 6 IEC 61850 Protocol related standards for communication 31 Section 4 Communication profile 32 Generic Object Generic Sampled Oriented Core Substation Values Substation TIME ACSI Status Multicast Event Sync Services Event possusssssssssssi paaswcacaensscney praaesasceaataned guckcsennssaseanacaescawhcuatchensns pesadesssenscesen TimeSync SNTP UDPIIP _sOmEC 8802 3 Ethertype 8802 3 R
88. 2 PH1 PTOC DNSPTOC PH1PTRC instance 1 revision 1 PH1 PTRC DNSPTOC Table 70 NSDLLNO Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 116 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 71 PH1PTOC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STOC1 Mon Start
89. 2 Mon Start signal from step 2 Op b_dACT general ST T TR2 Mon Trip signal from step 2 q ST T TR2 Mon Trip signal from step 2 t ST T TR2 Mon Trip signal from step 2 Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 7 5 14 Protection trip conditioning PTRC 7 5 14 1 Tripping logic SMPPTRC LN type LN prefix LN class Function block name SMPPTRC revision 1 SMP PTRC SMPPTRC Table 87 SMPPTRC Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal LORs vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC
90. 2 UEN Section 6 6 1 650 series Communication Protocol Manual Section 6 Data sets and control blocks Data sets and control blocks Data sets IEC 61850 has defined data sets and report control blocks for signal transmission in monitoring direction Data sets are also used for GOOSE messages in horizontal direction The project defines the data objects or single data attributes that should be collected in a data set The following figure shows a data set where all position information of the apparatuses of a bay are put into one data set The vendor of an IED can define data sets as defaults that are part of the IED and always available They need to be linked to the client IEDs only when to use them as they are The vendor has to declare when these data sets can be modified to projects need or not LD1 DATA SET LLNO LD1 LLNO AppPos LPHD _ LD1 SXCBR1 Pos FC ST SXCBR1 wee vo LDI SXSWI1 Pos FC ST SCSWIT fo LD1 SXSWI2 Pos FC ST fr LDI SXSWI3 Pos FC ST jr LD1 SXSW14 Pos FC ST SCSWI2 ogy SCSWI3 PA SCSWIS CVMMXU1 en06000106 vsd Figure 8 IEC 61850 7 2 Example of a data set General rules for data set configuration 37 Section 6 1MRK 511 242 UEN Data sets and control blocks 6 2 38 e All data objects or their data attributes which are signals in monitoring direction can be selected for a data set e Only those data attributes of a data object can will be selected which have the same function c
91. 200 SER XSW cic dacscsenccedacaboceededevasscecvadevseendcedcevvecneccccuaseduda cada beeds 202 Apparatus control SXSWI eceeeeeeceecceeeeeeeeeeeeeeeeeeseees 202 Logical nodes for power transforme ls eeeeeeeeeeeeeeeeeeeees 204 Tap changer YL TO zenenan decedecsi eps cneeeetnectedes geiilene 204 Tap changer control and supervision 6 binary inputs TOMY LT O suens derne ennen 204 Logical nodes for further power system equipment 1 1 207 Battery ZBA Vics sedis tasesdaseeecfetvacceenedessttece nencasedanesehdtsavaderstaaee 207 650 series 5 Communication Protocol Manual Table of contents Station battery supervision SPVNZBAT cceeeeeteees 207 Logical nodes for station communication ccceeeseeeeeeeeees 209 Interlock receive INTLKRCV cccccccccceecceeeceeeeeeeeeeeeeaaeees 209 Horizontal communication via GOOSE for interlocking GOOSEINTLKRGV ccccccsssssscceceeeeeesssesceeeececeeesssssseeeeees 209 Binary Receive BINRCY sccesimeccenr iao 210 Goose binary receive GOOSEBINRCV eeeeeeteees 210 VCTR Receive VOTRROV ccccccceccestcseeeeeeeeesesttieeeeeeeeeeeaes 211 Voltage control receiving block for GOOSE GOOSEVCT RR V secsi anann 211 Double point Receive DP DPROV sssssssesssseseeerrnrreaaersernnnn 212 GOOSE function block to receive a double point value GOOSEDPROV oser ERE Do KREA E ESSEER AE SNES 212 Integer R
92. 5 E IEC 61850 MICS 1MRG003128 IEC 61850 PICS 1MRG003399 IEC 61850 PIXIT 1MRG003379 IEC 61850 TICS 1MRG003378 Section 2 Introduction to IEC 61850 Title Communication networks and systems in substations Part 5 Communication requirements for functions and devices models Communication networks and systems in substations Part 6 Configuration description language for communication in electrical substations related to IEDs Communication networks and systems in substations Part 7 1 Basic communication structure for substations and feeder equipment Principles and models Communication networks and systems in substations Part 7 2 Basic communication structure for substations and feeder equipment Abstract communication service interface ACSI Communication networks and systems in substations Part 7 3 Basic communication structure for substations and feeder equipment Common data classes Communication networks and systems in substations Part 7 4 Basic communication structure for substations and feeder equipment Compatible logical node classes and data classes Communication networks and systems in substations Part 8 1 Specific Communication Service Mapping SCSM Mappings to MMS ISO 9506 1 and ISO 9506 2 and to ISO IEC 8802 3 Communication networks and systems in substations Part 10 Conformance testing 650 series 1 1 IEC 61850 MICS Modelling im
93. 50 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 BlkZn a_dSPS stVal ST START Mon Power swing detected q ST START Mon Power swing detected t ST START Mon Power swing detected Str b dACD general ST START Mon Power swing detected q ST START Mon Power swing detected t ST START Mon Power swing detected ZOuter vi_dSPS stVal ST ZOUT Mon Measured impedance within outer impedance boundary q ST ZOUT Mon Measured impedance within outer impedance boundary t ST ZOUT Mon Measured impedance within outer impedance boundary Zinner vi_dSPS stVal ST ZIN Mon Measured impedance within inner impedance boundary q ST ZIN Mon Measured impedance within inner impedance boundary t ST ZIN Mon Measured impedance within inner impedance boundary 150 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model 7 7 8 Autoreclosing RREC 7 7 8 1 Autorecloser SMBRREC LN type LN prefix LN class Function block name SMBRREC revision 2 SMB RREC SMBRREC Table 117 SMBRREC Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper or
94. 50 stVal ST Mon Transformer is forced to be a master q ST Mon Transformer is forced to be a master t ST Mon Transformer is forced to be a master HiV vi_dSPS stVal ST UHIGH Mon Busbar voltage above the set limit voltBusbMaxLimit q ST UHIGH Mon Busbar voltage above the set limit voltBusbMaxLimit t ST UHIGH Mon Busbar voltage above the set limit voltBusbMaxLimit LoV vi_dSPS stVal ST ULOW Mon Busbar voltage below the set limit voltBusbMinLimit q ST ULOW Mon Busbar voltage below the set limit voltBusbMinLimit t ST ULOW Mon Busbar voltage below the set limit voltBusbMinLimit AutoSlave vi_dSPS stVal ST Mon Auto slave activated q ST Mon Auto slave activated t ST Mon Auto slave activated T1ParGr vi_dSPS stVal ST T1PG Mon Transformer 1 included in parallel group q ST T1PG Mon Transformer 1 included in parallel group t ST T1PG Mon Transformer 1 included in parallel group T2ParGr vi_dSPS stVal ST T2PG Mon Transformer 2 included in parallel group q ST T2PG Mon Transformer 2 included in parallel group t ST T2PG Mon Transformer 2 included in parallel group T3ParGr vi_dSPS stVal ST T3PG Mon Transformer 3 included in parallel group q ST T3PG Mon Transformer 3 included in parallel group t ST T3PG Mon Transformer 3 included in parallel group T4ParGr vi_dSPS stVal ST T4PG Mon Transformer 4 included in parallel group q ST T4PG Mon Transformer 4 included in parallel Table continu
95. 50 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 138 VNMMXU Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 PhV a_dWYE cVal mag f MX UL1 Mon UL1 Amplitude magnitude of reported value cVal mag f MX UL2 Mon UL2 Amplitude magnitude of reported value cVal mag f MX UL3 Mon UL3 Amplitude magnitude of reported value subCVal mag f SV Substituted value subCVal mag f SV Substituted value rangeC hhLim f CF UHIiHiLim High High limit physical value rangeC hhLim f CF UHiHiLim High High limit physical value rangeC hhLim f CF UHiHiLim High High limit physical value rangeC hLim f CF UHiLim High limit phy
96. 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 LTCBIk a_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST Mon Used by CH q ST Mon Used by CH t ST Mon Used by CH Loc a_dSPS stVal ST Mon Local commands selected q ST Mon Local commands selected t ST Mon Local commands selected BIkV a_dSPS stVal ST UBLK Mon Busbar voltage below the set limit voltBusbBlockLimit q ST UBLK Mon Busbar voltage below the set limit voltBusbBlockLimit t ST UBLK Mon Busbar voltage below the set limit voltBusbBlockLimit HiTapPos b_dINS stVal ST Mon Tap position for maximum voltage Table continues on next page 650 series Communication Protocol Manual 47 Section 7 Logical node data model 1MRK 511 242 UEN
97. 61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Table continues on next page 650 series Communication Protocol Manual 125 Section 7 1MRK 511 242 UEN Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd LORs v1_dSPC Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 ClsLO vi_dSPS stVal ST CLLKOUT Mon Circuit breaker lockout output set until reset q ST CLLKOUT Mon Circuit breaker lockout output set until reset t ST CLLKOUT Mon Circuit breaker lockout output set until reset 7 5 15 Thermal overload PTTR 7 5 15 1 Thermal overload protection one time constant LPTTR LN type LN prefix LN class Function block name LPTTR revision 5 L PTTR LPTTR Table 88 LPTTR Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd
98. 91 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd OpZ2 vi_dSPS stVal ST TRZ2 Mon Trip signal from impedance zone Z2 q ST TRZ2 Mon Trip signal from impedance zone Z2 t ST TRZ2 Mon Trip signal from impedance zone Z2 StrZ1 vi_dSPS stVal ST STZ1 Mon Start signal from impedance zone Z1 q ST STZ1 Mon Start signal from impedance zone Z1 t ST STZ1 Mon Start signal from impedance zone Z1 StrZ2 vi_dSPS stVal ST STZ2 Mon Start signal from impedance zone Z2 q ST STZ2 Mon Start signal from impedance zone Z2 t ST STZ2 Mon Start signal from impedance zone Z2 PriRis v2_dMV mag f MX ROHM Mon Resistance in Primary Ohms q MX ROHM Mon Resistance in Primary Ohms t MX ROHM Mon Resistance in Primary Ohms PriReact v2_dMV mag f MX XOHM Mon Reactance in Primary Ohms q MX XOHM Mon Reactance in Primary Ohms t MX XOHM Mon Reactance in Primary Ohms 7 5 2 7 Faulty phase identification with load enchroachment for mho LEPDIS LN type LN prefix LN class Function block name LEPDIS revision 0 LE PDIS LEPDIS Table 40 LEPDIS Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Op a_dACT ge
99. Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T CLOSECB Mon Closing command for CB q ST T CLOSECB Mon Closing command for CB t ST T CLOSECB Mon Closing command for CB BlkRec c_dSPC stVal ST BLOCKED Mon AR is in blocked state q ST BLOCKED Mon AR is in blocked state Table continues on next page 154 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd BlkRec c_dSPC ST BLOCKED Mon ARis in blocked state AutoRecSt d_dINS stVal ST Mon AR status 1 Ready 2 InProgress 3 Successful q ST Mon AR status 1 Ready 2 InProgress 3 Successful t ST Mon AR status 1 Ready 2 InProgress 3 Successful Rec31Cnt vi_dINS stVal ST COUNT3P 1 Mon Counting the number of three phase reclosing shot 1 q ST COUNT3P1 Mon Counting the number of three phase reclosing shot 1 t ST COUNT3P1 Mon Counting the number of three phase reclosing shot 1 Rec32Cnt vi_dINS stVal ST COUNT3P2 Mon Counting the number of three phase reclosing shot 2 q ST COUNT3P2 Mon Counting the number of three phase reclosing shot 2 t ST COUNT3P2 Mon Counting the number of three phase reclosing shot 2 Rec33Cnt vi_dINS stVal ST COUNT3P3 Mon Counting the number of three phase reclosing sh
100. C OC4PTOC PH3PTOC instance 2 revision 1 PH3 PTOC OC4PTOC PH3PTOC instance 3 revision 1 PH3 PTOC OC4PTOC PH3PTOC instance 4 revision 1 PH3 PTOC OC4PTOC PH3PTRC instance 1 revision 1 PH3 PTRC OC4PTOC Table 61 GEN4PHAR Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST Mon Block from second harmonic detection q ST Mon Block from second harmonic detection t ST Mon Block from second harmonic detection Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table 62 OC4LLNO Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Table continues on next page 650 series Communication Protocol Manual 111 Section 7 1MRK 511 242 UEN Logical node data model DO name DO type
101. D are connected to a server A set of logical nodes belong to a LD The LN LLNO is a special logical node per LD and contains for example the data sets the various control blocks inputs from GOOSE messages In IED 650 series the data sets and the control blocks shall be located to LDO The LN LPHD is a special logical node per LD and contains data objects that describe the status of the physical device the IED Each logical node represents a function and contains a number of data objects DO Each DO includes a number of data attributes DA The data objects represent information signals that may be routed to station level IEDs or to other bay IEDs that are communicating with GOOSE The signal engineering task is to select the requested signals DOs and link them to the client IEDs as receiver The control services are not directly engineered They are included in the data objects which handle both directions the command control 27 Section 3 1MRK 511 242 UEN Substation Configuration description Language SCL and the response monitoring When routing the DO in monitoring direction the control is also known by the clients The number of data objects and data attributes per DO is defined by the used LN type in this IED The content of logical node types and DO types are defined in the DTT This also means that the definitions in the DTT section have to be unique with an SCD file 3 4 Tool concept The IEC 61850 6 define
102. DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Table 63 PH3PTOC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b dACD general ST ST1 Mon Start signal from step 1 q ST ST1 Mon Start signal from step 1 t ST ST1 Mon Start signal from step 1 Op b_dACT general ST T TR1 Mon Trip signal from step 1 q ST T TR1 Mon Trip signal from step 1 t ST T TR1 Mon Trip signal from step 1 Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table 64 PH3PTOC Logical node data instance 2 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon
103. EE REE 8802 3 MS Protocol Sue Protocol Suite TCP IP ISO CO GSSE T Profile T Profile T Profile ISO IEC 8802 2 LLC 8802 2LLC 1EC09000153 1 en vsd 1MRK 511 242 UEN Figure 7 Overview of functionality and profiles according to IEC 61850 8 1 Out of this content the implementation in the 650 series supports e GOOSE e TimeSync using SNTP e The peer to peer vertical communication using MMS protocol suite with the T profile TCP IP For each of the above the resulting underlying protocols as stated in figure 7 See the PICS and PIXIT for more information 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 5 650 series Communication Protocol Manual Section 5 Supported services Supported services IEC 61850 7 2 describes the services in the standard IEC 61850 8 1 describes how the services are applied in the communication The conformance documents contain the main description about the supported services in the IED Services that are not mentioned in this chapter or in the conformance document are not supported Data set Define data sets by the SCD description Create data sets under LDO LLNO Substitution Substitution is supported for the respective DATA according to IEC 61850 7 4 that have the substitution attributes defined i Note that SubID and SubQ are not used Setting group control block Change of setting group is supported that is the actSG attribut
104. ETPMMTR Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 SupRs vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 MaxDmdRs vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Com
105. INC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 FItZ b_dCMV cVal mag f MX FLTDISTX Mon Reactive distance to fault q MX FLTDISTX Mon Reactive distance to fault t MX FLTDISTX Mon Reactive distance to fault FitDiskm b_dMV mag f MX FitDistLngUnit Mon Distance to fault in line length unit q MX FitDistLngUnit Mon Distance to fault in line length unit t MX FitDistLngUnit Mon Distance to fault in line length unit FitLoop e_dINS stVal ST FaultLoop Mon Fault loop Table continues on next page 650 series Communication Protocol Manual 147 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd FitLoop e_dINS q ST Fault
106. In s zeroDb CF QZeroDb Zero point clamping Watt a_dMV mag f MX P Mon Active power magnitude of deadband value rangeC hhLim f CF PHiHiLim High High limit in of SBase rangeC hLim f CF PHiLim High limit in of SBase rangeC Lim f CF PLowLim Low limit in of SBase rangeC lILim f CF PLowLowLim Low Low limit in of SBase rangeC max f CF PMax Maximum value in of SBase rangeC min f CF PMin Minimum value in of SBase Table continues on next page 182 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Watt a dMV subMag f sv z Substituted value range MX P RANGE Mon Active power range q MX P Mon Active power magnitude of deadband value t MX P Mon Active power magnitude of deadband value subEna SV Enable substitution db CF PDbRepint Cycl Report interval s Db In of range Int Db In s zeroDb CF PZeroDb Zero point clamping ALd vi_dSPS stVal ST ILEAD Mon Current is leading voltage q ST ILEAD Mon Current is leading voltage t ST ILEAD Mon Current is leading voltage ALg vi_dSPS stVal ST ILAG Mon Current is lagging voltage q ST ILAG Mon Current is laggi
107. Internal parameter tag to handle 61850 mapping TagApp14 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping Table continues on next page 650 series 209 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd TagApp15 a_dDPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagReservR a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagReservG a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping 7 14 2 Binary Receive BINRCV 7 14 2 1 Goose binary receive GOOSEBINRCV LN type LN prefix LN class Function block name BINGREC instance 1 revision 0 BIN GREC GOOSEBINRCV Table 150 BINGREC Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd TagBinOut1 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping q ST Mon Internal parameter tag to handle 61850 mapping TagBinOut2 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping q ST Mon Internal parameter tag to handle 61850 mapping TagBinOut3 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagBinOut4 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagBinOut5 a_dSPS st
108. Loop Mon Fault loop t ST FaultLoop Mon Fault loop ClcFit vi_dSPS stVal ST CALCMADE Mon Fault calculation made q ST CALCMADE Mon Fault calculation made t ST CALCMADE Mon Fault calculation made FItDisRI v2_dMV mag f MX FaultDistRelat Mon Distance to fault relative q MX FaultDistRelat Mon Distance to fault relative t MX FaultDistRelat Mon Distance to fault relative 7 1 5 Fuse failure supervision RFUF 7 7 5 1 Fuse failure supervision SDDRFUF LN type LN prefix LN class Function block name SDDRFUF revision 1 SDD RFUF SDDRFUF Table 114 SDDRFUF Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST BLKU Mon General start of function q ST BLKU Mon General start of function t ST BLKU Mon General
109. MX VALUE Mon Magnitude of deadband value t MX VALUE Mon Magnitude of deadband value subEna SV Enable substitution db CF MV db Cycl Report interval s Db In of range Int Db In s zeroDb CF MV zeroDb Zero point clamping in 0 001 of range 7 8 1 10 Pulse counter PCGGIO LN type LN prefix LN class Function block name PCGGIO revision 1 PC GGIO PCGGIO 174 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 132 PCGGIO Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 AnIn b_dMV mag f MX SCAL_VAL Mon Scaled value with time and status information q MX
110. Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 142 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 107 VR2PVOC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STOC Mon Start signal from voltage restraint overcurrent stage q ST STOC Mon Start signal from voltage restraint overcurrent stage t ST STOC Mon Start signal from voltage restraint overcurrent stage Op b_dACT general ST T TROC Mon Trip signal from voltage restraint overcurrent stage q ST T TROC Mon Trip signal from voltage restraint overcurrent stage t ST T TROC Mon Trip signal from voltage restraint overcurrent stage Mod c_dINC stVal ST
111. Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Rel a_dSPS stVal ST SYNOK Mon Synchronizing OK output q ST SYNOK Mon Synchronizing OK output t ST SYNOK Mon Synchronizing OK output SynPrg a_dSPS stVal ST SYNPROGR Mon Synchronizing in progress q ST SYNPROGR Mon Synchronizing in progress t ST SYNPROGR Mon Synchronizing in progress Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 FailSyn vi_dSPS stVal ST SYNFAIL Mon Synchronizing failed q ST SYNFAIL Mon Synchronizing failed t ST SYNFAIL Mon Synchronizing failed TestSynOK vi_dSPS stVal ST TSTSYNOK Mon Synchronizing OK test output q ST TSTSYNOK Mon Synchronizing OK test output t ST TSTSYNOK Mon Synchronizing OK test output HzlndSyn vi_dSPS stVal ST FRDIFSYN Mon Frequency difference out of limit for synchronizing q ST FRDIFSYN Mon Frequency difference out of limit for synchronizing t ST FRDIFSYN Mon Frequency difference out of limit for synchronizing HzRCIndSyn vi_dSPS stVal ST FRDERIVA Mon Frequency derivative out of limit for synchronizing q ST FRDERIVA Mon Frequency derivative out of limit for synchronizing t ST FRDE
112. Mon External block of lower command activated t ST Mon External block of lower command activated ExRaiseBlk vi_dSPS stVal ST Mon External block of raise command activated q ST Mon External block of raise command activated t ST Mon External block of raise command activated Adapt vi_dSPS stVal ST ADAPT Mon Transformer is adapting q ST ADAPT Mon Transformer is adapting t ST ADAPT Mon Transformer is adapting DayHuntAlm vi_dSPS stVal ST DAYHUNT Mon Number of commands within the last 24 hours exceeded maximum level q ST DAYHUNT Mon Number of commands within the last 24 hours exceeded maximum level t ST DAYHUNT Mon Number of commands within the last 24 hours exceeded maximum level HrHuntAlm vi_dSPS stVal ST HOURHUNT Mon Number of commands within the latest hour exceeded maximum level q ST HOURHUNT Mon Number of commands within the latest hour exceeded maximum level t ST HOURHUNT Mon Number of commands within the latest hour exceeded maximum level HuntAlm vi_dSPS stVal ST HUNTING Mon Number of commands in opposite direction exceeded maximum level q ST HUNTING Mon Number of commands in opposite direction exceeded maximum level Table continues on next page 54 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model
113. Mon Signal to Slave issued by Master for sequential reclosing q ST WFMASTER Mon Signal to Slave issued by Master for sequential reclosing t ST WFMASTER Mon Signal to Slave issued by Master for sequential reclosing PrgRec11 vi_dSPS stVal ST 1PT1 Mon Single phase reclosing in progress shot 1 q ST 1PT1 Mon Single phase reclosing in progress shot 1 t ST 1PT1 Mon Single phase reclosing in progress shot 1 Prp3PhOp vi_dSPS stVal ST PREP3P Mon Prepare three phase trip control of the next trip operation q ST PREP3P Mon Prepare three phase trip control of the next trip operation t ST PREP3P Mon Prepare three phase trip control of the next trip operation 650 series 157 Communication Protocol Manual Section 7 1MRK 511 242 UEN Logical node data model 7 7 9 Synchronising RSYN 7 7 9 1 Synchrocheck energizing check and synchronizing SESRSYN LN type LN prefix LN class Function block name AUT1RSYN instance 1 revision 1 AUT1 RSYN SESRSYN MAN 1RSYN instance 2 revision 1 MAN1 RSYN SESRSYN RSY1LLNO instance 1 revision 1 LLNO SESRSYN SYNRSYN instance 3 revision 4 SYN RSYN SESRSYN Table 119 AUT1RSYN Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t S
114. Mon UL12 Amplitude t MX UL23 Mon UL23 Amplitude t MX UL31 Mon UL31 Amplitude subEna SV Enable substitution subEna SV Enable substitution subEna SV Enable substitution db CF ULDbRepint Cycl Report interval s Db In of range Int Db In s db CF ULDbRepint Cycl Report interval s Db In of range Int Db In s db CF ULDbRepint Cycl Report interval s Db In of range Int Db In s zeroDb CF ULZeroDb Zero point clamping zeroDb CF ULZeroDb Zero point clamping zeroDb CF ULZeroDb Zero point clamping Mod a dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 7 9 3 3 Phase neutral voltage measurement VNMMXU LN type LN prefix LN class Function block name VNMMXU revision 1 VN MMXU VNMMXU 186 6
115. O Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal OpRst vi_dSPS stVal ST TRIPRES Mon Trip signal from restrained differential protection q ST TRIPRES Mon Trip signal from restrained differential protection t ST TRIPRES Mon Trip signal from restrained differential protection OpNSSen vi_dSPS stVal ST TRNSSENS Mon Trip signal from sensitive negative sequence differential protection q ST TRNSSENS Mon Trip signal from sensitive negative sequence differential protection t ST TRNSSENS Mon Trip signal from sensitive negative sequence differential protection OpNSUnRst vi_dSPS stVal ST TRNSUNR Mon Trip signal from unrestrained negative sequence differential protection q ST TRNSUNR Mon Trip signal from unrestrained negative sequence differential protection Table continues on next page 70 650 series Communication Protocol Manual 1M
116. OPRALM Mon CB not operated for long time alarm SprChaAlm vi_dSPS stVal ST SPRCHRAL Mon Spring charging time has crossed the set value q ST SPRCHRAL Mon Spring charging time has crossed the set value Table continues on next page 650 series Communication Protocol Manual 195 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd SprChaAlm vi_dSPS ST SPRCHRAL Mon Spring charging time has crossed the set value PosOpn vi_dSPS stVal ST CBOPEN Mon CB is in open position q ST CBOPEN Mon CB is in open position t ST CBOPEN Mon CB is in open position Poslvd vi_dSPS stVal ST CBINVPOS Mon CB is in intermediate position q ST CBINVPOS Mon CB is in intermediate position t ST CBINVPOS Mon CB is in intermediate position PosCls vi_dSPS stVal ST CBCLOSED Mon CB is in closed position q ST CBCLOSED Mon CBis in closed position t ST CBCLOSED Mon CBis in closed position CBLifAlm vi_dSPS stVal ST CBLIFEAL Mon Remaining life of CB exceeded alarm limit q ST CBLIFEAL Mon Remaining life of CB exceeded alarm limit t ST CBLIFEAL Mon Remaining life of CB exceeded alarm limit PresLO vi_dSPS stVal ST PRESLO Mon Pressure below lockout level q ST PRESLO Mon Pressure below lockout level t ST PRESLO Mon Pressure below lockout level TmmsCI
117. Oper origin orCat CO Cmd Special block command value Oper origin orldent CO Cmd Special block command value Table continues on next page 200 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd BIkCls a_dSPC Oper ctINum co i Cmd Special block command value Oper T CO Cmd Special block command value Oper Test CO Cmd Special block command value Oper Check CO Cmd Special block command value stVal ST CL_BLKD Mon Indication that the function is blocked for close commands q ST CL BLKD Mon Indication that the function is blocked for close commands t ST CL BLKD Mon Indication that the function is blocked for close commands BlkOpn a_dSPC Oper ctlVal CO Cmd Special block command value Oper origin orCat CO Cmd Special block command value Oper origin orldent CO Cmd Special block command value Oper ctINum CO Cmd Special block command value Oper T CO Cmd Special block command value Oper Test CO Cmd Special block command value Oper Check CO Cmd Special block command value stVal ST OP_BLKD Mon Indication that the function is blocked for open commands q ST OP_BLKD Mon Indication that the function is blocked for open commands t ST OP_BLKD Mon Indicati
118. OpnCTPh viINS stVal ST Mon Open CT in Phase 1 for L1 2 for L2 3 for L3 q ST Mon Open CT in Phase 1 for L1 2 for L2 3 for L3 Table continues on next page 650 series Communication Protocol Manual 73 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd OpnCTPh v1INS t ST Eg Mon Open CT in Phase 1 for L1 2 for L2 3 for L3 OpRst v1SPS stVal ST TRIPRES Mon Trip signal from restrained differential protection q ST TRIPRES Mon Trip signal from restrained differential protection t ST TRIPRES Mon Trip signal from restrained differential protection OpUnRst v1SPS stVal ST TRIPUNRE Mon Trip signal from unrestrained differential protection q ST TRIPUNRE Mon Trip signal from unrestrained differential protection t ST TRIPUNRE Mon Trip signal from unrestrained differential protection OpNSUnRst v1iSPS stVal ST TRNSUNR Mon Trip signal from unrestr neg seq diff protection q ST TRNSUNR Mon Trip signal from unrestr neg seq diff protection t ST TRNSUNR Mon Trip signal from unrestr neg seq diff protection OpNSSen viSPS stVal ST TRNSSENS Mon Trip signal from sensitive neg seq diff protection q ST TRNSSENS Mon Trip signal from sensitive neg seq diff protection t ST TRNSSENS Mon Trip signal from sensitive neg seq diff
119. RIVA Mon Frequency derivative out of limit for synchronizing 7 8 Logical nodes for generic references 7 8 1 Generic process I O GGIO 7 8 1 1 Apparatus control SELGGIO LN type LN prefix LN class Function block name SELGGIO revision 1 SEL GGIO SELGGIO 650 series 161 Communication Protocol Manual Section 7 1MRK 511 242 UEN Logical node data model Table 123 SELGGI O Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Rel a dSPS stVal ST RESERVED Mon Reserved indication from bay apparatus q ST RESERVED Mon Reserved indication from bay apparatus t ST RESERVED Mon Reserved indication from bay apparatus
120. RK 511 242 UEN Logi Section 7 cal node data model DO name DO type DA name FC T Signal Mon Description Cmd OpNSUnRst v1_dSPS ST TRNSUNR Mon Trip signal from unrestrained negative sequence differential protection OpUnRst vi_dSPS stVal ST TRIPUNRE Mon Trip signal from unrestrained differential protection q ST TRIPUNRE Mon Trip signal from unrestrained differential protection t ST TRIPUNRE Mon Trip signal from unrestrained differential protection BIk2H v1_dSPS stVal ST BLK2H Mon General second harmonic block signal q ST BLK2H Mon General second harmonic block signal t ST BLK2H Mon General second harmonic block signal BIk5H vi_dSPS stVal ST BLK5H Mon General fifth harmonic block signal q ST BLK5H Mon General fifth harmonic block signal t ST BLK5H Mon General fifth harmonic block signal BlkWav vi_dSPS stVal ST BLKWAV Mon General block signal from waveform criteria q ST BLKWAV Mon General block signal from waveform criteria t ST BLKWAV Mon General block signal from waveform criteria ExFIt v1_dSPS stVal ST Mon Indication that external fault disturbance has been detected q ST Mon Indication that external fault disturbance has been detected t ST Mon Indication that external fault disturbance has bee
121. Reference the name of the IED and the member of the data set is included in the LNO under the structure of the LD of the receiving IED This part is identified as Inputs 43 44 1MRK 511 242 UEN Section 7 7 1 650 series Communication Protocol Manual Section 7 Logical node data model Logical node data model The data model used by IEC 61850 is based on logical nodes containing a set of data objects The data model is defined in the standards e IEC 61850 7 4 Compatible logical node classes and data classes e IEC 61850 7 3 Common data classes The standard describes only classes of logical nodes and data objects on one side and common data classes for the data object attributes Also here it is given has the elements in these classes are defined as e Mandatory M e Optional O e Conditional optional Cxxx e In addition the IEC 61850 states rules for adding vendor specific definitions to the standard in order to cope with extra functionality The possible description of the data model according to the standard allows to adapt a logical node of a LN class to that what the product is supporting or using for this LN This definition of what parts of a class is used in the actual product and possible addition is called a type according to IEC 61850 6 There are LN types based upon LN classes The LN type attributes are called Data Objects or DATA and are in of DO types base upon respective CDC class This all
122. S ZMOPDIS ZMOPDIS instance 5 revision 0 ZMO PDIS ZMOPDIS ZMOPTRC instance 1 revision 0 ZMO PTRC ZMOPDIS 650 series 83 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN Table 26 ZMOLLNO Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Table 27 ZMOPDIS Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon B
123. S stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Bus1Sel vi_dSPS stVal ST B1SEL Mon Bus1 selected q ST B1SEL Mon Bus1 selected t ST B1SEL Mon Bus1 selected Bus2Sel vi_dSPS stVal ST B2SEL Mon Bus2 selected q ST B2SEL Mon Bus2 selected t ST B2SEL Mon Bus2 selected Lin1Sel vi_dSPS stVal ST LNSEL Mon Line selected q ST LNSEL Mon Line selected t ST LNSEL Mon Line selected SelFuFail vi_dSPS stVal ST USELFAIL Mon Selected voltage transformer fuse failed q ST USELFAIL Mon Selected voltage transformer fuse failed t ST USELFAIL Mon Selected voltage transformer fuse failed TestEnOK vi_dSPS stVal ST TSTENOK Mon Energizing check OK test output q ST TSTENOK Mon Energizing check OK test output t ST TSTENOK Mon Energizing check OK test output VHiAIm vi_dSPS stVal ST UOKSC Mon Voltage amplitudes above set limits q ST UOKSC Mon Voltage amplitudes above set limits t ST UOKSC Mon Voltage amplitudes above set limits Lin2Sel vi_dSPS stVal ST Mon Line2 selected q ST Mon Line2 selected t ST Mon Line2 selected 160 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 122 SYNRSYN Logical node data instance 3 DO name DO type DA name FC T Signal
124. SCAL_VAL Mon Scaled value with time and status information t MX SCAL_VAL Mon Scaled value with time and status information ValUpd vi_dSPS stVal ST NEW_VAL Mon Anew pulse counter value is generated q ST NEW_VAL Mon Anew pulse counter value is generated t ST NEW_VAL Mon Anew pulse counter value is generated IcpCyc vi_dSPS stVal ST RESTART Mon The reported value does not comprise a complete integration cycle q ST RESTART Mon The reported value does not comprise a complete integration cycle t ST RESTART Mon The reported value does not comprise a complete integration cycle TotVal v2_dBCR actVal ST CNT_VAL Mon Actual pulse counter value q ST CNT_VAL Mon Actual pulse counter value t ST CNT_VAL Mon Actual pulse counter value 7 8 1 11 Trip matrix logic TMAGGIO LN type LN prefix LN class Function block name TMAGGIO revision 1 TMA GGIO TMAGGIO 650 series 175 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN Table 133 TMAGGIO Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO
125. SPS stVal ST ALARM Mon Trip circuit fault indication q ST ALARM Mon Trip circuit fault indication t ST ALARM Mon Trip circuit fault indication 192 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model 7 10 1 2 Circuit breaker condition monitoring SSCBR LN type LN prefix LN class Function block name SSCBR revision 0 S SCBR SSCBR Table 142 SSCBR Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 InaTmdCnt vi_dINS stVal ST NOOPRDAY Mon The number of days CB has been inact
126. ST Mon 1 LoadBreak 2 Disconnector 3 EarthSw 4 HighSpeedEarthSw BlkUpd vi_dSPC Oper ctlVal CO Cmd Special block command value Oper origin orCat CO Cmd Special block command value Oper origin orldent CO Cmd Special block command value Oper ctINum CO Cmd Special block command value Oper T CO Cmd Special block command value Oper Test CO Cmd Special block command value Oper Check CO Cmd Special block command value stVal ST UPD_BLKD Mon Update of position indication is blocked q ST UPD_BLKD Mon Update of position indication is blocked t ST UPD_BLKD Mon Update of position indication is blocked 7 12 7 12 1 7 12 1 1 204 Logical nodes for power transformers Tap changer YLTC Tap changer control and supervision 6 binary inputs TCMYLTC LN type LN prefix LN class Function block name TCMYLTC revision 1 TCM YLTC TCMYLTC 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 147 TCMYLTC Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode paramete
127. ST T TR3 Mon Trip signal from step 3 Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table 66 PH3PTOC Logical node data instance 4 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST ST4 Mon Start signal from step 4 q ST ST4 Mon Start signal from step 4 t ST ST4 Mon Start signal from step 4 Op b dACT general ST T TR4 Mon Trip signal from step 4 q ST T TR4 Mon Trip signal from step 4 t ST T TR4 Mon Trip signal from step 4 Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 650 series 113 Communication Protocol Manual Section 7 1MRK 511 242 UEN Logical node data model Table 67 PH3PTRC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Str a_dACD general ST START Mon General start signal phsA ST STL1 Mon Start signal from phase L1 dirPhsA ST DIRL1 Mon Directi
128. T Beh Mon Behaviour parameter for 61850 Rel a_dSPS stVal ST Mon Automatic release q ST Mon Automatic release t ST Mon Automatic release Anglnd a_dSPS stVal ST PHDIFFA Mon Phase angle difference out of limit for Auto operation q ST PHDIFFA Mon Phase angle difference out of limit for Auto operation t ST PHDIFFA Mon Phase angle difference out of limit for Auto operation Hzind a_dSPS stVal ST FRDIFFA Mon Frequency difference out of limit for Auto operation q ST FRDIFFA Mon Frequency difference out of limit for Auto operation t ST FRDIFFA Mon Frequency difference out of limit for Auto operation DifAngClc b_dMV mag f MX PHDIFFME Mon Calculated difference of phase angle q MX PHDIFFME Mon Calculated difference of phase angle t MX PHDIFFME Mon Calculated difference of phase angle DifHzClc b_dMV mag f MX FRDIFFME Mon Calculated difference in frequency q MX FRDIFFME Mon Calculated difference in frequency t MX FRDIFFME Mon Calculated difference in frequency DifVClc b_dMV mag f MX UDIFFME Mon Calculated difference in voltage q MX UDIFFME Mon Calculated difference in voltage t MX UDIFFME Mon Calculated difference in voltage Mod c_dINC stVal ST Mon Mode status parameter for 61850 Table continues on next page 158 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical nod
129. T Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T TR2 Mon Trip signal from step 2 Table continues on next page 650 series Communication Protocol Manual 133 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd Op b_dACT q ST T TR2 Mon Trip signal from step 2 t ST T TR2 Mon Trip signal from step 2 Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 7 5 17 2 Loss of voltage check LOVPTUV LN type LN prefix LN class Function block name LOVPTUV revision 1 LOV PTUV LOVPTUV Table 98 LOVPTUV Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode s
130. T FRDIFFM Mon Frequency difference out of limit for Manual operation t ST FRDIFFM Mon Frequency difference out of limit for Manual operation Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 EnOK vi_dSPS stVal ST MANENOK Mon Manual energizing check OK q ST MANENOK Mon Manual energizing check OK t ST MANENOK Mon Manual energizing check OK TestSCOK vi_dSPS stVal ST TSTMANSY Mon Manual synchro check OK test output q ST TSTMANSY Mon Manual synchro check OK test output t ST TSTMANSY Mon Manual synchro check OK test output 650 series 159 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN Table 121 RSYILLNO Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dIN
131. T T TRIP Mon Trip signal from accidental energizing protection t ST T TRIP Mon Trip signal from accidental energizing protection Armed vi_dSPS stVal ST ARMED Mon True when accidental energizing protection is armed q ST ARMED Mon True when accidental energizing protection is armed t ST ARMED Mon True when accidental energizing protection is armed 650 series 137 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN 7 5 21 Out of step protection PPAM 6211 Out of step protection OOSPPAM LN type LN prefix LN class Function block name OOSPPAM revision 0 OOS PPAM OOSPPAM Table 102 OOSPPAM Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 ST Mon Mode status value parameter for 61850 ST Mon Mode status value parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour
132. TFWL2 Mon Fault detected in phase L2 forward direction q ST STFWL2 Mon Fault detected in phase L2 forward direction t ST STFWL2 Mon Fault detected in phase L2 forward direction StrFwdPhC vi_dSPS stVal ST STFWL3 Mon Fault detected in phase L3 forward direction q ST STFWL3 Mon Fault detected in phase L3 forward direction Table continues on next page 650 series Communication Protocol Manual 81 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd StrFwdPhC vi_dSPS ST STFWL3 Mon Fault detected in phase L3 forward direction StrFwdGnd v1_dSPS stVal ST STFWPE Mon Earth fault detected in forward direction q ST STFWPE Mon Earth fault detected in forward direction t ST STFWPE Mon Earth fault detected in forward direction StrRvPhA vi_dSPS stVal ST STRVL1 Mon Fault detected in phase L1 reverse direction q ST STRVL1 Mon Fault detected in phase L1 reverse direction t ST STRVL1 Mon Fault detected in phase L1 reverse direction StrRvPhB vi_dSPS stVal ST STRVL2 Mon Fault detected in phase L2 reverse direction q ST STRVL2 Mon Fault detected in phase L2 reverse direction t ST STRVL2 Mon Fault detected in phase L2 reverse direction StrRvPhC vi_dSPS stVal ST STRVL3 Mo
133. TTR revision 2 TR PTTR TRPTTR Table 89 TRPTTR Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 AlmThm a_dSPS stVal ST ALARM1 Mon First level alarm signal q ST ALARM1 Mon First level alarm signal t ST ALARM1 Mon First level alarm signal Str b dACD general ST START Mon Start signal q ST START Mon Start signal t ST START Mon Start signal Op b dACT general ST T TRIP Mon Trip Signal q ST T TRIP Mon Trip Signal t ST T TRIP Mon Trip Signal AlmThm2 vi_dSPS stVal ST ALARM2 Mon Second level alarm signal q ST ALARM2 Mon Second level alarm signal t ST ALARM2 Mon Second level alarm signal Wrn vi_dSPS stVal ST WARNING Mon Trip within set warning time q ST WARNING Mon Trip within set
134. Val ST Mon Internal parameter tag to handle 61850 mapping TagBinOut6 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagBinOut7 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagBinOut8 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagBinOut9 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagBinOu10 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagBinOu11 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagBinOu12 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping Table continues on next page 210 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd TagBinOu13 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagBinOu14 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagBinOu15 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping TagBinOu16 a_dSPS stVal ST Mon Internal parameter tag to handle 61850 mapping 7 14 3 VCTR Receive VCTRRCV 7 14 3 1 Voltage control receiving block for GOOSE GOOSEVCTRRCV LN type LN prefix LN class Func
135. abled t ST EN_CLOSE Mon Close operation at open or intermediate or bad position is enabled EnaOpn a_dSPS stVal ST EN_OPEN Mon Open operation at closed or intermediate or bad position is enabled q ST EN_OPEN Mon Open operation at closed or intermediate or bad position is enabled t ST EN_OPEN Mon Open operation at closed or intermediate or bad position is enabled 7 3 3 Switch controller CSWI 7 3 3 1 Apparatus control SCSWI LN type LN prefix LN class Function block name SCSWI revision 1 S CSWI SCSWI Table 10 SCSWI Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Pos a_dDPC Cancel ctlVal CO Cmd Command parameter for IEC61850 Cancel origin orCat CO Cmd Command parameter for IEC61850 Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 SBOw ctlVal CO Cmd Command parameter for IEC61850 SBOw origin orCat CO Cmd Command parameter for IEC61850 SBOw origin orldent CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Table continues on next page 650 series 63 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN
136. ag f MX ATCCOUT Mon Group connection to YLTCIN q MX ATCCOUT Mon Group connection to YLTCIN t MX ATCCOUT Mon Group connection to YLTCIN LodARe V11_dMV mag f MX ATCCOUT Mon Group connection to YLTCIN q MX ATCCOUT Mon Group connection to YLTCIN t MX ATCCOUT Mon Group connection to YLTCIN BusV V12_dMV mag f MX ATCCOUT Mon Group connection to YLTCIN q MX ATCCOUT Mon Group connection to YLTCIN t MX ATCCOUT Mon Group connection to YLTCIN SetV V13_dMV mag f MX ATCCOUT Mon Group connection to YLTCIN 650 series Communication Protocol Manual 55 Section 7 1MRK 511 242 UEN Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd SetV V13_dMV q MX ATCCOUT Mon Group connection to YLTCIN t MX ATCCOUT Mon Group connection to YLTCIN PosRel V14_dMV mag f MX ATCCOUT Mon Group connection to YLTCIN q MX ATCCOUT Mon Group connection to YLTCIN t MX ATCCOUT Mon Group connection to YLTCIN X2 V15_dMV mag f MX ATCCOUT Mon Group connection to YLTCIN q MX ATCCOUT Mon Group connection to YLTCIN t MX ATCCOUT Mon Group connection to YLTCIN BndCtrAct v2 dMV mag f MX Mon Actual voltage setpoint q MX Mon Actual voltage setpoint t MX Mon Actual voltage setpoint LodV v2_dMV mag f MX ULOAD Mon Calculated compensated voltage service value
137. age 650 series Communication Protocol Manual 205 Section 7 Logical node data model 1MRK 511 242 UEN Table continues on next page DO name DO type DA name FC Signal Mon Description Cmd HiTapPos vi_dINS q ST Mon Tap position for the highest voltage t ST Mon Tap position for the highest voltage LoTapPos vi_dINS stVal ST Mon Tap position for the lowest voltage q ST Mon Tap position for the lowest voltage t ST Mon Tap position for the lowest voltage OpRs vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 CLRs vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 CmdFit vi_dSPS stVal ST CMDERRAL Mon Alarm for a command witho
138. analog inputs SMAI_20_12 3PHSUM Summation block 3 phase GBASVAL Global base values for settings DOSFRNT Denial of service frame rate control for front port DOSLAN1 Denial of service frame rate control for LAN1 port DOSSCKT Denial of service socket flow control 18 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 2 650 series Communication Protocol Manual Section 2 Introduction to IEC 61850 Introduction to IEC 61850 The IEC 61850 protocol standard for substation enables the integration of all protection control measurement and monitoring functions by one common protocol It provides the means of high speed substation applications station wide interlocking and other functions which needs intercommunication between IEDs The well described data modelling the specified communication services for the most recent tasks in a station makes the standard to a key element in modern substation systems This manual describes mainly how the IEC 61850 standard is applied in the products of the 650 series IEDs References and brief descriptions of the IEC 61850 standard are also included It is assumed that the reader have basic knowledge about the IEC 61850 To understand the IEC 61850 standard and to be able to find the related information the following parts of the standard are of importance e Station Configuration description Language SCL is described in IEC 61850 6 The SCL is an XML based definition of how
139. and parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST Mon Setting LVAConst2 is used service value q ST Mon Setting LVAConst2 is used service value t ST Mon Setting LVAConst2 is used service value LVA30n vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST Mon Setting LVAConst3 is used service value Table continues on next page 50 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd LVA3On v1_dSPC q ST z Mon Setting LVAConst3 is used service value t ST Mon Setting LVAConst3 is used service value LVA4On vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command
140. and parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST Mon Integer to be converted to bit pattern OUT1 to OUT16 q ST Mon Integer to be converted to bit pattern OUT1 to OUT16 t ST Mon Integer to be converted to bit pattern OUT1 to OUT16 ctlModel CF Used by CH 7 4 2 Boolean to integer converter FCVI 7 4 2 1 Boolean 16 to Integer conversion with Logic Node representation Bi6IFCVI LN type LN prefix LN class Function block name B16IFCVI revision 0 B161 FCVI B16IFCVI 66 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 12 B16IFCVI Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode
141. aviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Ind c dSPS stVal ST OUT1 Mon Output 1 status q ST OUT1 Mon Output 1 status t ST OUT1 Mon Output 1 status Ind2 vi_dSPS stVal ST OUT2 Mon Output 2 status q ST OUT2 Mon Output 2 status t ST OUT2 Mon Output 2 status Ind3 vi_dSPS stVal ST OUT3 Mon Output 3 status q ST OUT3 Mon Output 3 status t ST OUT3 Mon Output 3 status Ind4 vi_dSPS stVal ST OUT4 Mon Output 4 status q ST OUT4 Mon Output 4 status t ST OUT4 Mon Output 4 status Ind5 vi_dSPS stVal ST OUT5 Mon Output 5 status q ST OUT5 Mon Output 5 status t ST OUT5 Mon Output 5 status Ind6 vi_dSPS stVal ST OUT6 Mon Output 6 status q ST OUT6 Mon Output 6 status t ST OUT6 Mon Output 6 status Ind7 vi_dSPS stVal ST OUT7 Mon Output 7 status q ST OUT7 Mon Output 7 status t ST OUT7 Mon Output 7 status Ind8 vi_dSPS stVal ST OUT8 Mon Output 8 status q ST OUT8 Mon Output 8 status t ST OUT8 Mon Output 8 status Ind9 vi_dSPS stVal ST OUT9 Mon Output 9 status Table continues on next page 172 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Ind9 v1_dSPS q ST OUTS Mon Output 9 status t ST
142. c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 55 EF4RDIR Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Dir b_dACD general ST Mon Fault direction coded as integer q ST Mon Fault direction coded as integer t ST Mon Fault direction coded as integer Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 56 GEN4PHAR Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST 2NDHARMD Mon 2nd harmonic block signal q ST 2NDHARMD Mon 2nd harmonic block signal Table continues on next page 108 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model
143. cation that internal fault has been detected q ST Mon Indication that internal fault has been detected t ST Mon Indication that internal fault has been detected DifAlm v1_dSPS stVal ST IDALARM Mon General alarm for sustained differential currents q ST IDALARM Mon General alarm for sustained differential currents t ST IDALARM Mon General alarm for sustained differential currents 7 5 1 2 Transformer differential protection three winding T3WPDIF LN type LN prefix LN class Function block name T3WPDIF revision 2 T3W PDIF T3WPDIF 650 series 69 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN Table 14 T3WPDIF Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Str a_dACD general ST START Mon General start signal phsA ST STL1 Mon Start signal from phase L1 phsB ST STL2 Mon Start signal from phase L2 phsC ST STL3 Mon Start signal from phase L3 q ST START Mon General start signal t ST START Mon General start signal Mod a dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T C
144. d Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon Start pick up signal for frequency gradient q ST START Mon Start pick up signal for frequency gradient t ST START Mon Start pick up signal for frequency gradient Op b dACT general ST T TRIP Mon Operate trip signal for frequency gradient q ST T TRIP Mon Operate trip signal for frequency gradient t ST T TRIP Mon Operate trip signal for frequency gradient BIkLoMg vi_dSPS stVal ST BLKDMAGN Mon Blocking indication due to low amplitude q ST BLKDMAGN Mon Blocking indication due to low amplitude t ST BLKDMAGN Mon Blocking indication due to low amplitude Table continues on next page 96 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd RestLd vi_dSPS stVal ST RESTORE Mon Restore signal for load restoring purpos
145. e Int Db In s zeroDb CF IZeroDb Zero point clamping Hz a dMV mag f MX F Mon System frequency magnitude of deadband value rangeC hhLim f CF FrHiHiLim High High limit physical value rangeC hLim f CF FrHiLim High limit physical value rangeC Lim f CF FrLowLim Low limit physical value rangeC lILim f CF FrLowLowLim Low Low limit physical value rangeC max f CF FrMax Maximum value rangeC min f CF FrMin Minimum value subMag f SV Substituted value range MX F RANGE Mon System frequency range q MX F Mon System frequency magnitude of deadband value t MX F Mon System frequency magnitude of deadband value Table continues on next page 180 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd Hz a dMV subEna SV Enable substitution db CF FrDbRepint Cycl Report interval s Db In of range Int Db In s zeroDb CF FrZeroDb Zero point clamping PwrFact a dMV rangeC hhLim f CF PFHiHiLim High High limit physical value rangeC hLim f CF PFHiLim High limit physical value rangeC Lim f CF PFLowLim Low limit physical value rangeC llLim f CF PFLowLowLim Low Low limit physical value rangeC max f CF PFMax Maximum value rangeC min f CF PFMin Minimum value mag f MX PF
146. e This attribute is not one of the explicit definitions in SCL but a consequence of the defined setting group control block according to IEC 61850 6 There is only one setting group control block which is located in LDO LLNO Logical Device Logical Node 0 Change or edit of setting values as well as reading of setting values is neither supported nor visible in IEC 61850 Note that the actual number of used setting groups is defined by the parameter MaxNoSetGRP in the function SETGRPS which is configured in PST in PCM600 Report control block For properties about report control blocks see PIXIT UnBuffered reporting as well as Buffered reporting is supported 33 Section 5 Supported services 1MRK 511 242 UEN BufTm lt IntPrd For best efficiency the BufTm should have IntPrd i Note that the parameters BufTm and IntPrd shall have the relation 34 as common denominator like n BufTm IntPrd n is an arbitrary number Generic substation event GOOSE The structured GOOSE is supported This means that the data sets can be defined with FCDA as well as explicit attributes When explicit attributes are defined in the data sets the number of such items in a data set is limited to 150 The supported data types to be published and received over GOOSE are binary values double point values and measured values together with their quality On reception of GOOSE message there is one signal for validity available for
147. e system during pole slip q ST MOTMODE Mon Generator rotates slower than the system during pole slip t ST MOTMODE Mon Generator rotates slower than the system during pole slip 7 5 22 Earth fault protection PHIZ 7 5 22 1 100 stator earth fault protection 3rd harmonic based STEFPHIZ LN type LN prefix LN class Function block name STEFPHIZ revision 2 STEF PHIZ STEFPHIZ Table 103 STEFPHIZ Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon Main common start signal q ST START Mon Main common start signal
148. e DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 DPCSO d dDPC Cancel ctlVal CO Cmd Command parameter for IEC61850 Cancel origin orCat CO Cmd Command parameter for IEC61850 Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 SBOw ctlVal CO Cmd Command parameter for IEC61850 SBOw origin orCat CO Cmd Command parameter for IEC61850 SBOw origin orldent CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Cancel origin orldent CO Cmd Command parameter for IEC61850 Cancel ctINum CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 SBOw ctINum CO Cmd Command parameter for IEC61850
149. e data model DO name DO type DA name FC T Signal Mon Description Cmd Mod c_dINC q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 EnOK vi_dSPS stVal ST AUTOENOK Mon Automatic energizing check OK q ST AUTOENOK Mon Automatic energizing check OK t ST AUTOENOK Mon Automatic energizing check OK TestSCOK vi_dSPS stVal ST TSTAUTSY Mon Auto synchro check OK test output q ST TSTAUTSY Mon Auto synchro check OK test output t ST TSTAUTSY Mon Auto synchro check OK test output Table 120 MANTIRSYN Logical node data instance 2 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Rel a_dSPS stVal ST Mon Manual release q ST Mon Manual release t ST Mon Manual release Anglnd a_dSPS stVal ST PHDIFFM Mon Phase angle difference out of limit for Manual Operation q ST PHDIFFM Mon Phase angle difference out of limit for Manual Operation t ST PHDIFFM Mon Phase angle difference out of limit for Manual Operation Hzlnd a_dSPS stVal ST FRDIFFM Mon Frequency difference out of limit for Manual operation q S
150. eceive INTROV nsss 212 GOOSE function block to receive an integer value GOOSEINTRCV rseson diia ia a 212 Measured Value Receive MVRCOV ccceeeeeeeeteeeeettttteeeeees 213 GOOSE function block to receive a measurand value GOOSEMVRGV orr r AoE A A EE EONA 213 Single Point Receive SP SPRCOV sssesssreesssnurseeennanarsnnanneens 213 GOOSE function block to receive a single point value GOOSE SPROV eeina nE 213 Section 8 Glossary eenen nennen nnne nnen 215 6 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 1 1 1 1 2 650 series Communication Protocol Manual Section 1 Introduction Introduction This manual The communication protocol manual describes a communication protocol supported by the IED The manual concentrates on vendor specific implementations Intended audience This manual addresses the communication system engineer or system integrator responsible for pre engineering and engineering for communication setup in a substation from an IED perspective The system engineer or system integrator must have a basic knowledge of communication in protection and control systems and thorough knowledge of the specific communication protocol Section 1 1MRK 511 242 UEN Introduction 13 Product documentation 1 3 1 Product documentation set g 3 g 2 F 2 D To c 2 5 8 Q og o amp 2 c 5 8 2 D D 2 A S f E T g ES Z amp mi E pe E o um D A a e 25 a wi
151. eck CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon General start signal Table continues on next page 104 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Str b_dACD dirGeneral ST STDIR Mon Direction of fault q ST START Mon General start signal t ST START Mon General start signal Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal OpResA vi_dSPS stVal ST TRNDIN Mon Trip of non directional residual overcurrent q ST TRNDIN Mon Trip of non directional residual overcurrent t ST TRNDIN Mon Trip of non directional residual overcurrent OpResV vi_dSPS stVal ST TRUN Mon Trip of non directional residual overvoltage q ST TRUN Mon Trip of non directional residual overvoltage t ST TRUN Mon Trip of non directional residual o
152. eeeeeeeeeeeetaea 125 Thermal Overload PTTR cccccccsssscseccecceeeeeseseeeseeeeeeeeeseaeaaeens 126 Thermal overload protection one time constant LPTTR 126 Thermal overload protection two time constants TRE Ti WR reeeo en van ta ceze ced A EERE EEEE EEOAE 128 Time undercurrent PTUC ccccccccssseeeecceceeeesaseeeeeseeeeeaeanenes 129 Time delayed 2 step undercurrent protection WE 2 Ft DI SABAE ERR tase erent SEERE A EEE E 129 Undervoltage PT UN rr rn ele 132 Two step undervoltage protection UV2PTUV 132 Loss of voltage check LOVPTUV 0eeeeeeeeeeeeeeeeees 134 Undertrequency PTUF viccccccc cncncesestncetnseertetisieenetenessteeecteente 135 3 Table of contents Underfrequency function SAPTU Feer nnnner 135 Volts per HZ PVP Haaies ninenin aaan aaa sae 136 Overexcitation protection OEXPVPH cccccceeeeseeeeeees 136 Multipurpose analog protection GAPC sesseeeseneeeneeenneen nnen 137 Accidental energizing protection for synchronous generator AEGGAP C irni grenen 137 Out of step protection PPAM cccccceeeeeeeeeeeeenecaeeeeeeeees 138 Out of step protection OOSPPAM seseeeeeeeeeeeees 138 Earth fault protection PHIZ cccccccceeeceeeeeeeeeeeeeeeeeteeeeeeeees 139 100 stator earth fault protection 3rd harmonic based STBEPHIZ un E 139 Voltage restrained time overcurrent PVOC W W W W u ssseeeerrrrrrree 141 Voltage restrained ov
153. eh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST ST1 Mon Start signal for step 1 q ST ST1 Mon Start signal for step 1 t ST ST1 Mon Start signal for step 1 Op b_dACT general ST T TR1 Mon Trip signal for step 1 q ST T TR1 Mon Trip signal for step 1 t ST T TR1 Mon Trip signal for step 1 Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table 76 NS2PTOC Logical node data instance 2 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST ST2 Mon Start signal for step 2 q ST ST2 Mon Start signal for step 2 t ST ST2 Mon Start signal for step 2 Op b dACT general ST T TR2 Mon Trip signal for step 2 q ST T TR2 Mon Trip signal for step 2 t ST T TR2 Mon Trip signal for step 2 Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 650 series 119 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN
154. ehaviour parameter for 61850 Str b_dACD general ST STZ1 Mon Start zone 1 q ST STZ1 Mon Start zone 1 t ST STZ1 Mon Start zone 1 Op b_dACT general ST T TRZ1 Mon Trip zone 1 q ST T TRZ1 Mon Trip zone 1 t ST T TRZ1 Mon Trip zone 1 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 84 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 28 ZMOPDIS Logical node data instance 2 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STZ2 Mon Start zone 2 q ST STZ2 Mon Start zone 2 t ST STZ2 Mon Start zone 2 Op b_dACT general ST T TRZ2 Mon Trip zone 2 q ST T TRZ2 Mon Trip zone 2 t ST T TRZ2 Mon Trip zone 2 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 29 ZMOPDIS Logical node data instance 3 DO name DO type DA name FC T
155. el DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper origin orldent co i Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 ProRx a_dSPS stVal ST Mon POR Carrier signal received from remote end q ST Mon POR Carrier signal received from remote end t ST Mon POR Carrier signal received from remote end ProTx a_dSPS stVal ST ECHO Mon Carrier send by WEI logic q ST ECHO Mon Carrier send by WEI logic t ST ECHO Mon Carrier send by WEI logic Str b_dACD general ST ECHO Mon Carrier send by WEI logic q ST ECHO Mon Carrier send by WEI logic t ST ECHO Mon Carrier send by WEI logic Echo b_dACT general ST ECHO Mon Carrier send by WEI logic q ST ECHO Mon Carrier send by WEI logic t ST ECHO Mon Carrier send by WEI logic RvABIk b_dACT general ST IRVL Mon Operation of current reversal logic q ST IRVL Mon Operation of current reversal logic t ST IRVL Mon Operation of current rev
156. endor specific implementations The point list manual describes the outlook and properties of the data points specific to the IED The manual should be used in conjunction with the corresponding communication protocol manual i The service manual is not available yet Document revision history Document revision date Product series version History February 2011 1 1 First release Related documents Documents related to REB650 Identity number Application manual 1MRK 505 262 UEN Technical manual 1MRK 505 263 UEN Commissioning manual 1MRK 505 264 UEN Table continues on next page 10 Section 1 Introduction Documents related to REB650 Product Guide configured Type test certificate Documents related to REL650 Application manual Technical manual Commissioning manual Product Guide configured Type test certificate Documents related to RET650 Application manual Technical manual Commissioning manual Product Guide configured Type test certificate Documents related to REC650 Application manual Technical manual Commissioning manual Product Guide Type test certificate Documents related to REG650 Application manual Technical manual Commissioning manual Product Guide Type test certificate Rotor Earth Fault Protection with Injection Unit RXTTE4 and REG670 Documents related to REQ650 Application manual Technical manual Commissioning manual Product Guide Type test certificate
157. enes Boolean to integer converter FCVI cccccccceeeeeeeeteeereeeeeeeeeeeee Boolean 16 to Integer conversion with Logic Node representation BIGIFCVI cccccesseseceeceeeceeeeeeaeaeeaeeeens Logical nodes for protection fUNCtiONS ceccceeeeeeeeeeeeeeeeeeteeees Differential protection PDIF 0 eceeeeeeeeeeeeeeeeeeeeeeeeeeeeeees Transformer differential protection two winding T2ZWP DIF iiaa aaia ARRAL Transformer differential protection three winding TSP DIE ae Ta a a Restricted earth fault protection low impedance REFPDIF 2225 rager ae cabot h nede setter a bleen aeS Generator differential protection GENPDIF 068 1 Ph High impedance differential protection HZPDIF Distance protection PDIS cecceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeees Five zone distance protection quadrilateral Characteristic ZQDPDIS cc cccccecccececeeeeseeeseeeeessesaeaeeseeeees Phase selection with load enchroachment quadrilateral characteristic FDPSPDIS ccccccceccceessseeeeeeeeeseeeeeeeeeseees Five zone distance protection mho characteristic ZMO PD IS aa oa anna Es Aa ere KATE ERR Rage Faulty phase identification with load enchroachment for MHOIEMPSPDIS eseni dend Underimpedance protection for generator and transformer ZGPDIS 3 22 ale ar er allel Loss of exectation LEXPDIS W Xu u u sdsssneeeueeeeeeenene nere renen rn ke nnee Faulty p
158. er T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST OUT4 Mon Output4 q ST OUT4 Mon Output4 t ST OUT4 Mon Output4 SPCSO5 v2_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST OUT5 Mon Output5 q ST OUT5 Mon Output5 t ST OUT5 Mon Output5 SPCSO6 v2_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST OUT6 Mon Output6 q ST OUT6 Mon Output6 t ST OUT6 Mon Output6 SPCSO7 v2_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Table continues on next page 168 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model
159. er for 61850 t ST Mon Mode status value parameter for 61850 Table 60 PH1PTOC Logical node data instance 4 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b dACD general ST STIN4 Mon Start signal step 4 q ST STIN4 Mon Start signal step 4 t ST STIN4 Mon Start signal step 4 Op b dACT general ST T TRIN4 Mon Trip signal from step 4 q ST T TRIN4 Mon Trip signal from step 4 t ST T TRIN4 Mon Trip signal from step 4 Table continues on next page 110 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 7 5 11 2 Four step phase overcurrent protection OC4PTOC LN type LN prefix LN class Function block name GEN4PHAR instance 1 revision 2 GEN4 PHAR OC4PTOC OCA4LLNO instance 1 revision 1 LLNO OC4PTOC PH3PTOC instance 1 revision 1 PH3 PTO
160. er origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 650 series 107 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN Table 54 EF4PTRC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Op b dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal Mod
161. ercurrent function VR2PVOC 141 System logical MOdGS ne 143 Physical device information LPHD sssssssssssseeeeersrnrreeeaerrssrennns 143 Production Information PRODINF eeeeeeeeeeeeeeees 143 Logical nodes for protection related functions 144 Breaker failure RBRF 2 ceccceeceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeneeeees 144 Breaker failure protection CCRBRF eeseeeeeeees 144 Breaker failure protection CSPRBRF cccccceeceseeeeeees 144 Differential supervision RDIF 2 eseeceeeceeceeeeeeeeeeeeeeees 145 Current circuit Ssupervison CCSRDIF ccccsssssseeeeeeeeeees 145 Disturbance recorder RDRE c eceeeeeccecaeceeeeeeeeeeeeeeees 146 Disturbance report DRPRDRE cceeeeeeeeeeeeeeeeeeeeees 146 Fault locator RE LO seisein aa ieee 147 Fault locator LMBRFLO cccceeeeeeeeeeeeeeeeceecaeceeeeeeeenees 147 Fuse failure supervision RFUF ccceceeceseeeeeeesesaseeeseeeseees 148 Fuse failure supervision SDDRFUF ccccccseeeeeeeeaeeeee 148 Pole discordance protection RPLD cccccecssseseseseeseseeeeeees 149 Pole discordance protection CCRPLD ccccccceeeeeeees 149 Power swing detection RPS By 21304 heksen nn heks SEER ERNE AE REE ER NES 150 Power swing detection ZMRPSB ceceeeeeeenttttteeeees 150 Autoreclosing R RE GEDE EDER 151 Autorecloser SM BRRE
162. ersal logic WeiOp b_dACT general ST TRWEI Mon Trip of WEI logic q ST TRWEI Mon Trip of WEI logic t ST TRWEI Mon Trip of WEI logic 7 5 8 3 Scheme communication logic for residual overcurrent protection ECPSCH LN type LN prefix LN class Function block name ECPSCH revision 1 EC PSCH ECPSCH 650 series 101 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN Table 49 ECPSCH Logical node data instance 0 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 ProRx a_dSPS stVal ST Mon Teleprotection signal received for a forward fault q ST Mon Teleprotection signal received for a forward fault t ST Mon Teleprotection signal received for a forward fault ProTx a dSPS stVal ST Mon Teleprotection signal transmitted for a forward fault q ST
163. es q ST RESTORE Mon Restore signal for load restoring purposes t ST RESTORE Mon Restore signal for load restoring purposes 7 5 6 Instantaneous overcurrent PIOC 7 5 6 1 Instantaneous phase overcurrent protection PHPIOC LN type LN prefix LN class Function block name PHPIOC revision 1 PH PIOC PHPIOC Table 44 PHPIOC Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal 7 5 6 2 Instantaneous residual overcurrent protection EFPIOC LN type LN prefix LN class Function block name EFPIOC revision 1 EF PIOC EFPIOC 650 series 97 Communication Protocol Manual
164. es on next page group 52 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model limit powerReactiveRev DO name DO type DA name FC Signal Mon Description Cmd T4ParGr v1_dSPS ST T4PG Mon Transformer 4 included in parallel group T1Master vi_dSPS stVal ST Mon Transformer 1 is master q ST Mon Transformer 1 is master t ST Mon Transformer 1 is master T2Master vi_dSPS stVal ST Mon Transformer 2 is master q ST Mon Transformer 2 is master t ST Mon Transformer 2 is master T3Master vi_dSPS stVal ST Mon Transformer 3 is master q ST Mon Transformer 3 is master t ST Mon Transformer 3 is master T4Master vi_dSPS stVal ST Mon Transformer 4 is master q ST Mon Transformer 4 is master t ST Mon Transformer 4 is master SimTap vi_dSPS stVal ST Mon Simultaneous tapping activated q ST Mon Simultaneous tapping activated t ST Mon Simultaneous tapping activated CommFit vi_dSPS stVal ST COMMERR Mon Communication error q ST COMMERR Mon Communication error t ST COMMERR Mon Communication error HiWFwd vi_dSPS stVal ST PGTFWD Mon Active power above the set limit powerActiveForw q ST PGTFWD Mon Active power above the set limit powerActiveForw t ST PGTFWD Mon Active power above the set li
165. ess points per IED to subnetworks e Address e IP address of LAN network is exceptionally part of the address elements e Link to GoCB message in transmission direction extended during signal engineering and routing IED IED client client Access Point AP Access Point AP Address Address GSE GoCBs GSE GoCBs Communication Communication Subnetwork Communication Communication Communication Access Point AP Access Point AP Access Point AP Address Address Address GSE GoCBs GSE GoCBs GSE GoCBs IED IED IED server server server en06000101 vsd Figure 3 IEC 61850 6 Communication network Additional information about the server is part of the IED The IED section The IED section describes the complete IED as it is needed for IEC 61850 communication and signal engineering The data type template part of an IED may be seen as part of the IED even when separated in its own section The IED s ICD 25 Section 3 1MRK 511 242 UEN Substation Configuration description Language SCL 26 files include the description of the logical nodes their data type templates and the used or supported services The structure of the IED section follows the definitions made in the IEC 61850 standard Two basic IED types are used in system configuration Station level IEDs are located on the station level and are identified as client IEDs when
166. eter for 61850 Table continues on next page 114 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal 7 5 11 4 Broken conductor check BRCPTOC LN type LN prefix LN class Function block name BRCPTOC revision 1 BRC PTOC BRCPTOC Table 69 BRCPTOC Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST
167. ge t ST Mon Tap position for the lowest voltage OpRs vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 CLRs vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 CmdFit vi_dSPS stVal ST CMDERRAL Mon Alarm for a command without an expected position change q ST CMDERRAL Mon Alarm for a command without an expected position change t ST CMDERRAL Mon Alarm for a command without an Table continues on next page expected position change 650 series Communication Protocol Manual 59 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd ConvF lt vi_dSPS stVal ST CONVERR Mon General tap
168. gy exceed limit in set interval q ST ERRALM Mon Alarm for reactive reverse energy exceed limit in set interval t ST ERRALM Mon Alarm for reactive reverse energy exceed limit in set interval VArsAccFwd v2_dMV mag f MX ERFACC Mon Accumulated forward reactive energy value q MX ERFACC Mon Accumulated forward reactive energy value t MX ERFACC Mon Accumulated forward reactive energy value VArsAccRev v2 dMV mag f MX ERRACC Mon Accumulated reverse reactive energy value q MX ERRACC Mon Accumulated reverse reactive energy value t MX ERRACC Mon Accumulated reverse reactive energy value WsAccFwd v2_dMV mag f MX EAFACC Mon Accumulated forward active energy value q MX EAFACC Mon Accumulated forward active energy value t MX EAFACC Mon Accumulated forward active energy value WsAccRev v2_dMV mag f MX EARACC Mon Accumulated reverse active energy value Table continues on next page 178 650 series Communication Protocol Manual 1MRK 511 242 UEN Logi Section 7 cal node data model DO name DO type DA name FC T Signal Mon Description Cmd WsAccRev v2_dMV q MX EARACC Mon Accumulated reverse active energy value t MX EARACC Mon Accumulated reverse active energy value MaxVArFwdD v2_dMV mag f MX MAXPRFD Mon Maximum forward reactive power demand value for set interval q MX MAXPRFD Mon Maximum forward reacti
169. gy calculation and demand handling ET PMIMTIR ccc cccisiecets sacs E 176 Non phase related measurement MMXN ccccccceeseeeeeeeees 179 Measurements CVMMXN ccceeeeeeeeeeeeeecceeceeceeeeeeeetees 179 Measurement MMXU cccccceceeeeeeeeeeeeceeaeeeeeeeeeeeeseeeeeees 183 Phase current measurement CMMXU ce eeeeeeeeeeeeeeeeees 183 Phase phase voltage measurement VMMXU 0065 185 Phase neutral voltage measurement VNMMXU 186 Sequence and imbalance MSQI cecccccccceecseeseessseeeaeeaeeees 188 Current sequence component measurement CMSQl 188 Voltage sequence measurement VMSQI eeeeeeeees 190 Logical nodes for sensors and MONItOTINg s e 192 Circuit breaker monitoring SCBR cccssseeeeeeeeeeeeeeeenttaeees 192 Breaker close trip circuit monitoring TCSSCBR 192 Circuit breaker condition monitoring SSCBR 20 193 Insulation medium supervision gas SIMG eeeeeeeeeeee 197 Insulation gas monitoring function SSIMG ee 197 Insulation medium supervision liquid SIML ceeeeeeee 198 Insulation liquid monitoring function SSIML ee 198 Logical nodes for SWitChQeal eeeeeeeeeeeeeeeeeteeeeeeeeeeettteeeeeetentee 200 Circuit breaker XCBR 2 e ceecececeeeceeaeeeaeeaaeeaeeeeeeeeeeeeeees 200 Apparatus control SXCBR cccccccccccececceeeeeeeeeeeteteeeeeeeneees
170. hase L3 neut ST Mon Earth fault detected q ST Mon General start signal t ST Mon General start signal 7 5 3 Directional overpower PDOP 7 5 3 1 Directional Over power protection GOPPDOP LN type LN prefix LN class Function block name GOPPDOP revision 1 GOP PDOP GOPPDOP Table 41 GOPPDOP Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 Table continues on next page 650 series Communication Protocol Manual 93 Section 7 1MRK 511 242 UEN Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC t ST Mon Mode status value parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST
171. hase identification with load enchroachment for MNO LER DIS alanere eee nes Directional overpower PDOP cccccceeeeeeeeeeeneeeeeeeeeeteeeeeeteee Directional Over power protection GOPPDOP 4 Directional underpower PDUP cceeeeeeeeeeceeceeeeeeeeeeteeeeee Directional Under power protection GUPPDUP Rate of change of frequency PFRC ceccceeeeeseeeeeeeeeeteeeeeeenaas Rate of change frequency function SAPFRC eee Instantaneous overcurrent PIOC cccceeeeeeeeeeeeeeteeteeeeeeeneees Instantaneous phase overcurrent protection PHPIOC 650 series Communication Protocol Man ual 650 series Communication Protocol Manual Table of contents Instantaneous residual overcurrent protection EFPIOC 97 Local acceleration logic PLAL eecceeeccceeeeeeeeeetteeeeeeeeeeeeeeeae 98 Local acceleration logic ZOLCPLAL u u u dvdssseeeeeeeereren renen renee 98 Protection SCHEME PSCH ccceccecccceccceeeeeeseseeaeaeseseeeeeeeeeees 99 Scheme communication logic for distance or overcurrent protection ZCPSCH ccccccseeeceeeeceeeeeeeeseeaeaes 99 Current reversal and weak end infeed logic for distance protection ZCRWPSCH cccccccccecseseseesseeeceeeeceeeeesseaeaaeneees 100 Scheme communication logic for residual overcurrent protection ECPSCH1 ccccccssesesseseceeecceceeeeeeeeaeaeseseaeensesens 101 Current reversal and weak e
172. haviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 InsAlm a dSPS stVal ST LVL LO Mon Level below lockout level q ST LVL LO Mon Level below lockout level t ST LVL LO Mon Level below lockout level PresAlm a dSPS stVal ST LVL ALM Mon Level below alarm level q ST LVL ALM Mon Level below alarm level t ST LVL ALM Mon Level below alarm level TmpAlm a_dSPS stVal ST TEMP_ALM Mon Temperature above alarm level q ST TEMP_ALM Mon Temperature above alarm level t ST TEMP_ALM Mon Temperature above alarm level Pres b_dMV mag f MX LEVEL Mon Level service value q MX LEVEL Mon Level service value t MX LEVEL Mon Level service value Tmp b_dMV mag f MX TEMP Mon Temperature of the insulation medium q MX TEMP Mon Temperature of the insulation medium t MX TEMP Mon Temperature of the insulation medium LORs vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Table continues on next page 650 series Communication Protocol Manual 199 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd LOR
173. he file exported from PCM600 as SCD ICD or CID file For top down engineering approach the steps are included in the CID file of a pre configured IED CCT600 28 650 series Communication Protocol Manual 1MRK 511 242 UEN 3 5 650 series Communication Protocol Manual Section 3 Substation Configuration description Language SCL e Open a SCD file or import merge a SCD ICD or CID file for the particular IED s e For each IED the user defines the datasets the control blocks for reporting this means unbufffered buffered reporting and GOOSE and the properties for each report control block e If client definitions like client ICD are required in the system configuration they are merged into CCT600 and connected to the unbuffered buffered report control blocks e For each IED the primary conducting equipment with their relation to the used logical nodes must be defined in the substation section e Logical nodes which are not related to the conducting equipment must be included in the bay level in the substation section e The resulting SCD file is exported from CCT600 PCM600 Import the SCD file to PCM600 to receive GOOSE data For each IED that shall receive GOOSE information the received data is connected to the applications using SMT in PCM600 Engineering concept in IEC 61850 6 e Top down approach means that the system engineering tool has ICD files available for each IED to be included in the system co
174. her binary or a measurement a transmission is done The standard does not define how to detect and inform the logical node e qchg quality change Looking to the possibilities of the quality data attribute type q any changes in the quality description will be transmitted e dupd data value update e This trigger option give the possibility to define that a transmission should be done on a condition which can be controlled by the application e integrity This trigger forces the transmission of all process values defined in the data set when a timer value the integrity period expires It can be used for example to update a process signal in the background for example every 15 minutes e general interrogation 39 Section 6 1MRK 511 242 UEN Data sets and control blocks This trigger is forced by the clients station level IED NCC gateway station HMI Normally a GI is asked for when the client and the server start or restart a session When the client is able to receive the actual values and when the logical device has scanned all process values at least once an image of the actual process signal status can be transmitted to the client Note that the possible trigger options for each attribute are included and defined in the datatype template section in SCL Link BRCB to a client LN The BRCB has to know to whom the events shall be transmitted This is the signal routing engineering step The IEC standa
175. ic blocks OR INVERTER Configurable logic blocks Inverter PULSETIMER Configurable logic blocks PULSETIMER GATE Configurable logic blocks Controllable gate XOR Configurable logic blocks exclusive OR LOOPDELAY Configurable logic blocks loop delay TimeSet Configurable logic blocks timer AND Configurable logic blocks AND SRMEMORY Configurable logic blocks set reset memory RSMEMORY Configurable logic blocks reset set memory ANDQT Configurable logic Q T ANDQT ORQT Configurable logic Q T ORQT INVERTERQT Configurable logic Q T INVERTERQT XORQT Configurable logic Q T XORQT SRMEMORYQT Configurable logic Q T set reset with memory RSMEMORYQT Configurable logic Q T reset set with memory TIMERSETQT Configurable logic Q T settable timer PULSETIMERQT Configurable logic Q T pulse timer INVALIDQT Configurable logic Q T INVALIDQT INDCOMBSPQT Configurable logic Q T single indication signal combining INDEXTSPQT Configurable logic Q T single indication signal extractor FXDSIGN Fixed signal function block B16 Boolean 16 to Integer conversion B16IFCVI Boolean 16 to Integer conversion with logic node representation IB16A Integer to Boolean 16 conversion IB16FCVB Integer to boolean 16 conversion with logic node representation Monitoring CVMMXN Measurements CMMXU Phase current measurement Table continues on next page 650 series 15 Communication Protocol Manual Section 1 Introduction 1MRK 511 242 UEN
176. ies Communication Protocol Manual Glossary AC ACT A D converter ADBS AI ANSI AR ASCT ASD AWG BI BOS BR BS CAN CB CCITT CCVT Class C CMPPS CMT CO cycle Codirectional COMTRADE Contra directional Section 8 Glossary Alternating current Application configuration tool within PCM600 Analog to digital converter Amplitude deadband supervision Analog input American National Standards Institute Autoreclosing Auxiliary summation current transformer Adaptive signal detection American Wire Gauge standard Binary input Binary outputs status External bistable relay British Standards Controller Area Network ISO standard ISO 11898 for serial communication Circuit breaker Consultative Committee for International Telegraph and Telephony A United Nations sponsored standards body within the International Telecommunications Union Capacitive Coupled Voltage Transformer Protection Current Transformer class as per IEEE ANSI Combined megapulses per second Communication Management tool in PCM600 Close open cycle Way of transmitting G 703 over a balanced line Involves two twisted pairs making it possible to transmit information in both directions Standard format according to IEC 60255 24 Way of transmitting G 703 over a balanced line Involves four twisted pairs two of which are used for transmitting data in both directions and two for transmitting clock signals 215 Section 8 Glossary
177. igin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T CLOSECB Mon Closing command for CB q ST T CLOSECB Mon Closing command for CB t ST T CLOSECB Mon Closing command for CB BlkRec c_dSPC stVal ST BLOCKED Mon AR is in blocked state q ST BLOCKED Mon AR is in blocked state t ST BLOCKED Mon AR is in blocked state AutoRecsSt d_dINS stVal ST Mon AR status 1 Ready 2 InProgress 3 Successful q ST Mon AR status 1 Ready 2 InProgress 3 Successful t ST Mon AR status 1 Ready 2 InProgress 3 Successful Rec31Cnt vi_dINS stVal ST COUNT3P1 Mon Counting the number of three phase reclosing shot 1 q ST COUNT3P1 Mon Counting the number of three phase reclosing shot 1 t ST COUNT3P1 Mon Counting the number of three phase reclosing shot 1 Rec32Cnt vi_dINS stVal ST COUNT3P2 Mon Counting the number of three phase reclosing shot 2
178. ignal resets after the reclaim time q ST UNSUCCL Mon Reclosing unsuccessful signal resets after the reclaim time t ST UNSUCCL Mon Reclosing unsuccessful signal resets after the reclaim time PrgRec vi_dSPS stVal ST INPROGR Mon Reclosing shot in progress activated during open time q ST INPROGR Mon Reclosing shot in progress activated during open time t ST INPROGR Mon Reclosing shot in progress activated during open time PrgRec31 vi_dSPS stVal ST 3PT1 Mon Three phase reclosing in progress shot 1 q ST 3PT1 Mon Three phase reclosing in progress shot 1 t ST 3PT1 Mon Three phase reclosing in progress shot 1 PrgRec32 vi_dSPS stVal ST 3PT2 Mon Three phase reclosing in progress shot 2 q ST 3PT2 Mon Three phase reclosing in progress shot 2 t ST 3PT2 Mon Three phase reclosing in progress shot 2 PrgRec33 vi_dSPS stVal ST 3PT3 Mon Three phase reclosing in progress shot 3 q ST 3PT3 Mon Three phase reclosing in progress shot 3 t ST 3PT3 Mon Three phase reclosing in progress shot 3 PrgRec34 vi_dSPS stVal ST 3PT4 Mon Three phase reclosing in progress shot 4 q ST 3PT4 Mon Three phase reclosing in progress shot 4 Table continues on next page 650 series Communication Protocol Manual 153 Section 7 Logical node data model 1MRK 511 242 UEN
179. ignal for step 2 in L3 Table continues on next page 130 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Str adACD q ST sT2 Mon Start of step 2 t ST ST2 Mon Start of step 2 Op a dACT general ST T TR2 Mon Operate signal for step 2 phsA STI T Mon Operate signal for step 2 in L1 phsB ST T Mon Operate signal for step 2 in L2 phsC ST T Mon Operate signal for step 2 in L3 q ST T TR2 Mon Operate signal for step 2 t ST T TR2 Mon Operate signal for step 2 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 93 UC2LLNO Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode paramete
180. in a project e Buffer time valid only for BRCB This parameter describes how long the report should wait for other expected events before it sends the report to the client When it is known that additional events are generated as a follow up it is useful to wait for example 500 ms for additional events stored in the report This feature reduces the number of telegrams transmitted in case of a burst of changes But on the other side it increases the overall transaction time for events from IED input to presentation on HSI which is normally defined to be one second e Trigger options The data attributes know three different trigger options dchg qchg dupd Within the BRCB the two other can be defined integrity and general interrogation The attribute Trigger option is a multiple choice and allows to mask the supported trigger options in this BRCB e Integrity period When integrity is selected in the trigger option attribute it is needed to define an integrity period to force the transmission of all data listed in 650 series Communication Protocol Manual 1MRK 511 242 UEN 650 series Communication Protocol Manual Section 6 Data sets and control blocks the DataSet This is done by the attribute Integrity period This feature can be used as a background cycle to ensure that the process image in all partners is the same Nobody is perfect and someone in the long chain from the contact up to the NCC may have los
181. in orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 RsTrvTm vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 RsSprChaTm vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Table continues on next page 194 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd RsSprChaTm v1_dSPC QOper Check co i Cmd Command parameter for IEC61850 Op
182. including that any applicable safety or other operational requirements are complied with In particular any risks in applications where a system failure and or product failure would create a risk for harm to property or persons including but not limited to personal injuries or death shall be the sole responsibility of the person or entity applying the equipment and those so responsible are hereby requested to ensure that all measures are taken to exclude or mitigate such risks This document has been carefully checked by ABB but deviations cannot be completely ruled out In case any errors are detected the reader is kindly requested to notify the manufacturer Other than under explicit contractual commitments in no event shall ABB be responsible or liable for any loss or damage resulting from the use of this manual or the application of the equipment Conformity This product complies with the directive of the Council of the European Communities on the approximation of the laws of the Member States relating to electromagnetic compatibility EMC Directive 2004 108 EC and concerning electrical equipment for use within specified voltage limits Low voltage directive 2006 95 EC This conformity is the result of tests conducted by ABB in accordance with the product standards EN 50263 and EN 60255 26 for the EMC directive and with the product standards EN 60255 1 and EN 60255 27 for the low voltage directive The IED is designed in accordance with
183. iour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b dACD general ST STZ5 Mon Start zone 5 q ST STZ5 Mon Start zone 5 t ST STZ5 Mon Start zone 5 Op b_dACT general ST T TRZ5 Mon Trip zone 5 q ST T TRZ5 Mon Trip zone 5 t ST T TRZ5 Mon Trip zone 5 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table continues on next page 650 series Communication Protocol Manual 79 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd StrUnDir v2_dACD general ST STND5 Mon Non directional start issued from any phase or loop zone 5 q ST STND5 Mon Non directional start issued from any phase or loop zone 5 t ST STND5 Mon Non directional start issued from any phase or loop zone 5 Table 24 ZQDPTRC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour para
184. iption Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table continues on next page 190 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Seqv a_dSEQ cVal mag f MX 3U0 Mon 3U0 Amplitude cVal mag f MX U1 Mon U1 Amplitude cVal mag f MX U2 Mon U2 Amplitude rangeC hhLim f CF 3UOHiHiLim High High limit physical value rangeC hLim f CF 3U0HiLim High limit physical value rangeC Lim f CF 3U0LowLim Low limit physical value rangeC llLim f CF 3U0LowLowLim Low Low limit physical value rangeC min f CF 3U0Min Minimum value rangeC max f CF 3U0Max Maximum value subCVal mag f SV
185. ive q ST NOOPRDAY Mon The number of days CB has been inactive t ST NOOPRDAY Mon The number of days CB has been inactive RmnLifPhA vi_dINS stVal ST CBLIFEL1 Mon CB Remaining life phase L1 q ST CBLIFEL1 Mon CB Remaining life phase L1 t ST CBLIFEL1 Mon CB Remaining life phase L1 RmnLifPhB vi_dINS stVal ST CBLIFEL2 Mon CB Remaining life phase L2 q ST CBLIFEL2 Mon CB Remaining life phase L2 t ST CBLIFEL2 Mon CB Remaining life phase L2 RmnLifPhC vi_dINS stVal ST CBLIFEL3 Mon CB Remaining life phase L3 q ST CBLIFEL3 Mon CB Remaining life phase L3 t ST CBLIFEL3 Mon CB Remaining life phase L3 RsAccAPwr vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Table continues on next page 650 series 193 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd RsAccAPwr v1_dSPC Oper ctINum co z Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 RsCBWear vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper orig
186. l ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Table 95 PH3PTRC Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd Str a_dACD general ST START Mon General start signal phsA ST ST1L1 Mon Start signal from step 1 phase L1 phsB ST ST1L2 Mon Start signal from step 1 phase L2 phsC ST ST1L3 Mon Start signal from step 1 phase L3 q ST START Mon General start signal t ST START Mon General start signal Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b dACT general ST TRIP Mon General trip signal Table continues on next page 132 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Op b_dACT q ST TRIP Mon General trip signal t ST TRIP Mon General trip signal Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850
187. lAngClc v2_dMV mag f MX ANGLE Mon Angle between 3rd harmonic votage phasors q MX ANGLE Mon Angle between 3rd harmonic votage phasors t MX ANGLE Mon Angle between 3rd harmonic votage phasors 7 5 23 Voltage restrained time overcurrent PVOC 7 5 23 1 Voltage restrained overcurrent function VR2PVOC LN type LN prefix LN class Function block name PH1PTRC instance 1 revision 1 PH1 PTRC VR2PVOC PH1PTUV instance 1 revision 0 PH1 PTUV VR2PVOC VR2LLNO instance 1 revision 0 LLNO VR2PVOC VR2PVOC instance 1 revision 0 VR2 PVOC VR2PVOC Table 104 PH1PTRC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal Table continues on next page 650 series 141 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN
188. lVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode parameter for 61850 q ST Mon Mode parameter for 61850 t ST Mon Mode parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Op b dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal ExtAlm vi_dSPS stVal ST ALARM Mon Overexcitation alarm signal q ST ALARM Mon Overexcitation alarm signal t ST ALARM Mon Overexcitation alarm signal VHzRat v2 dMV mag f MX VPERHZ Mon Voltage to frequency ratio in per unit q MX VPERHZ Mon Voltage to frequency ratio in per unit t MX VPERHZ Mon Voltage to frequency ratio in per unit 136 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model
189. lated currents power lyt phase L1 q MX IACCL1 Mon Accumulated currents power lyt phase L1 t MX IACCL1 Mon Accumulated currents power lyt phase L1 PresAlm v3_dSPS stVal ST PRESALM Mon Pressure below alarm level q ST PRESALM Mon Pressure below alarm level t ST PRESALM Mon Pressure below alarm level OpCnt v5_dINS stVal ST NO_OPR Mon Number of CB operation cycle q ST NO_OPR Mon Number of CB operation cycle t ST NO_OPR Mon Number of CB operation cycle 7 10 2 Insulation medium supervision gas SIMG 7 10 2 1 Insulation gas monitoring function SSIMG LN type LN prefix LN class Function block name SSIMG revision 0 S SIMG SSIMG Table 143 SSIMG Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh
190. leprotection signal transmitted for a forward fault Str b_dACD general ST CS Mon Carrier Send signal dirGeneral ST Mon Directional attribute of carrier send signal q ST CS Mon Carrier Send signal t ST CS Mon Carrier Send signal CarRx b dACT general ST CRL Mon Carrier signal received or missing carrier guard signal q ST CRL Mon Carrier signal received or missing carrier guard signal t ST CRL Mon Carrier signal received or missing carrier guard signal Op b dACT general ST TRIP Mon Trip output q ST TRIP Mon Trip output t ST TRIP Mon Trip output 7 5 8 2 Current reversal and weak end infeed logic for distance protection ZCRWPSCH LN type LN prefix LN class Function block name ZCRWPSCH revision 2 ZCRW PSCH ZCRWPSCH Table 48 ZCRWPSCH Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Op a_dACT general ST T TRWEI Mon Trip of WEI logic phsA ST T Mon Trip of WEI logic in phase L1 phsB ST T Mon Trip of WEI logic in phase L2 phsC ST T Mon Trip of WEI logic in phase L3 q ST T TRWEI Mon Trip of WEI logic t ST T TRWEI Mon Trip of WEI logic Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Table continues on next page 100 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data mod
191. lerts the reader of important facts and conditions Yw The tip icon indicates advice on for example how to design your project or how to use a certain function Although warning hazards are related to personal injury it is necessary to understand that under certain operational conditions operation of damaged equipment may result in degraded process performance leading to personal injury or death Therefore comply fully with all warning and caution notices Manual conventions Conventions used in IED manuals A particular convention may not be used in this manual e Abbreviations and acronyms in this manual are spelled out in the glossary The glossary also contains definitions of important terms e Push button navigation in the LHMI menu structure is presented by using the push button icons for example To navigate between the options use E and EJ e HMI menu paths are presented in bold for example Select Main menu Settings 11 Section 1 Introduction 1MRK 511 242 UEN LHMI messages are shown in Courier font for example To save the changes in non volatile memory select Yes and press Parameter names are shown in italics for example The function can be enabled and disabled with the Operation setting The character in front of an input or output signal name in the function block symbol given for a function indicates that the user can set an own signal name in PCM600 The character after an input or out
192. limit physical value rangeC ILim f CF ULLowLim Low limit physical value rangeC ILim f CF ULLowLowLim Low Low limit physical value rangeC IILim f CF ULLowLowLim Low Low limit physical value rangeC IILim f CF ULLowLowLim Low Low limit physical value rangeC min f CF ULMin Minimum value rangeC min f CF ULMin Minimum value rangeC min f CF ULMin Minimum value rangeC max f CF ULMax Maximum value rangeC max f CF ULMax Maximum value rangeC max f CF ULMax Maximum value cVal mag f MX UL12 Mon UL12 Amplitude cVal mag f MX UL23 Mon UL23 Amplitude cVal mag f MX UL31 Mon UL31 Amplitude subCVal mag f SV Substituted value subCVal mag f SV Substituted value Table continues on next page 650 series Communication Protocol Manual 185 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd PPV a_dDEL subCVal mag f sv Substituted value range MX UL31RANG Mon UL31Amplitude range range MX UL12RANG Mon UL12 Amplitude range range MX UL23RANG Mon UL23 Amplitude range q MX UL31 Mon UL31 Amplitude q MX UL23 Mon UL23 Amplitude q MX UL12 Mon UL12 Amplitude t MX UL12
193. lue parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 31 ZMOPDIS Logical node data instance 5 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STZ5 Mon Start zone 5 q ST STZ5 Mon Start zone 5 t ST STZ5 Mon Start zone 5 Op b dACT general ST T TRZ5 Mon Trip zone 5 q ST T TRZ5 Mon Trip zone 5 t ST T TRZ5 Mon Trip zone 5 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 86 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 32 ZMOPTRC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon Start general q ST START Mon Start general t ST START Mon Start general Op b dACT general ST T
194. mand parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 StrAcc vi_dSPS stVal ST ACCST Mon Start of accumulating energy values Table continues on next page 650 series Communication Protocol Manual 177 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd StrAcc vi_dSPS q ST ACCST Mon Start of accumulating energy values t ST ACCST Mon Start of accumulating energy values WhFwdAlm vi_dSPS stVal ST EAFALM Mon Alarm for active forward energy exceed limit in set interval q ST EAFALM Mon Alarm for active forward energy exceed limit in set interval t ST EAFALM Mon Alarm for active forward energy exceed limit in set interval WhRvAIm vi_dSPS stVal ST EARALM Mon Alarm for active reverse energy exceed limit in set interval q ST EARALM Mon Alarm for active reverse energy exceed limit in set interval t ST EARALM Mon Alarm for active reverse energy exceed limit in set interval VArhFwdAlm vi_dSPS stVal ST ERFALM Mon Alarm for reactive forward energy exceed limit in set interval q ST ERFALM Mon Alarm for reactive forward energy exceed limit in set interval t ST ERFALM Mon Alarm for reactive forward energy exceed limit in set interval VArhRvAlm vi_dSPS stVal ST ERRALM Mon Alarm for reactive reverse ener
195. md Special block command value Oper origin orldent CO Cmd Special block command value Oper ctINum CO Cmd Special block command value Oper T CO Cmd Special block command value Oper Test CO Cmd Special block command value Oper Check CO Cmd Special block command value stVal ST UPD_BLKD Mon Update of position indication is blocked q ST UPD BLKD Mon Update of position indication is blocked t ST UPD BLKD Mon Update of position indication is blocked 7 11 2 Switch XSWI 7 11 2 1 Apparatus control SXSWI LN type LN prefix LN class Function block name SXSWI revision 1 S XSWI SXSWI Table 146 SXSWI Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 Table continues on next page 202 650 series
196. meter for 61850 Str b_dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Op b dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 7 5 2 2 Phase selection with load enchroachment quadrilateral characteristic FDPSPDIS LN type LN prefix LN class Function block name FDPSPDIS revision 1 FDPS PDIS FDPSPDIS Table 25 FDPSPDIS Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Table continues on next page 80 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper Test CO Cmd Mode parameter for 61850 Oper Check CO
197. meter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 Table continues on next page 106 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST TRIP Mon Trip output q ST TRIP Mon Trip output t ST TRIP Mon Trip output 7 5 11 Time over current PTOC 7 5 11 1 Four step residual overcurrent protection EF4PTOC LN type LN prefix LN class Function block name EF4LLNO instance 1 revision 2 LLNO EF4PTOC EF4PTRC instance 1 revision 2 EF4 PTRC EF4PTOC EF4RDIR instance 1 revision 2 EF4 RDIR EF4PTOC GEN4PHAR instance 1 revision 2 GEN4 PHAR EF4PTOC PH1PTOC instance 1 revision 2 PH1 PTOC EF4PTOC PH1PTOC instance 2 revision 2 PH1 PTOC EF4PTOC PH1PTOC instance 3 revision 2 PH1 PTOC EF4PTOC PH1PTOC instance 4 revision 2 PH1 PTOC EF4PTOC Table 53 EF4LLNO Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a dINC Oper ctlVal CO Cmd Mode parameter for 61850 Op
198. mit powerActiveForw HiWRv vi_dSPS stVal ST PLTREV Mon Active power below the set limit powerActiveRev q ST PLTREV Mon Active power below the set limit powerActiveRev t ST PLTREV Mon Active power below the set limit powerActiveRev HiVArFwd vi_dSPS stVal ST QGTFWD Mon Reactive power above the set limit powerReactiveForw q ST QGTFWD Mon Reactive power above the set limit powerReactiveForw t ST QGTFWD Mon Reactive power above the set limit powerReactiveForw HiVArRv vi_dSPS stVal ST QLTREV Mon Reactive power below the set limit powerReactiveRev q ST QLTREV Mon Reactive power below the set limit powerReactiveRev t ST QLTREV Mon Reactive power below the set Table continues on next page 650 series Communication Protocol Manual 53 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd CircABlIk vi_dSPS stVal ST ICIRC Mon Block from high circulating current q ST ICIRC Mon Block from high circulating current t ST ICIRC Mon Block from high circulating current HiABIk vi_dSPS stVal ST IBLK Mon One phase current is above the set limit q ST IBLK Mon One phase current is above the set limit t ST IBLK Mon One phase current is above the set limit ExLowerBlk vi_dSPS stVal ST Mon External block of lower command activated q ST
199. mmand parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST AUTO Mon Automatic control mode is active q ST AUTO Mon Automatic control mode is active t ST AUTO Mon Automatic control mode is active LVA10n vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Table continues on next page 650 series Communication Protocol Manual 49 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd LVA10n v1_dSPC Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST Mon Setting LVAConst1 is used service value q ST Mon Setting LVAConst1 is used service value t ST Mon Setting LVAConst1 is used service value LVA2On vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Comm
200. model Table 8 QCBAY Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 LocSwPos vi_dINS stVal ST Mon Position of the Local Remote switch q ST Mon Position of the Local Remote switch t ST Mon Position of the Local Remote switch SrcOpPrm vi_dINS stVal ST PSTO Mon Value for the operator place allocation q ST PSTO Mon Value for the operator place allocation t ST PSTO Mon Value for the operator place allocation BlkCmd vi_dSPC Oper ctlVal CO Cmd Special block command value Oper origin orCat CO Cmd Special block command value Oper origin orldent CO Cmd Special block command value Oper ctINum CO Cmd Special block command value Oper T CO Cmd Special block command value Oper Test CO Cmd Special bl
201. model 1MRK 511 242 UEN Table 131 MVGGIO Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Anin a dMV rangeC hhLim f CF MV hhLim High High limit multiplied with the base prefix multiplication factor rangeC hLim f CF MV hLim High limit multiplied with the base prefix multiplication factor rangeC Lim f CF MV ILim Low limit multiplied with the base prefix multiplication factor rangeC llLim f CF MV IILim Low Low limit multiplied with the base prefix multiplication factor rangeC max f CF MV max Maximum value multiplied with the base prefix multiplication factor rangeC min f CF MV min Minimum value multiplied with the base prefix multiplication factor mag f MX VALUE Mon Magnitude of deadband value subMag f SV Substituted value range MX RANGE Mon Range q
202. n Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Op b dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal BIk2H vi_dSPS stVal ST BLK2H Mon Block due to 2 nd harmonic q ST BLK2H Mon Block due to 2 nd harmonic t ST BLK2H Mon Block due to 2 nd harmonic ItrF lt vi_dSPS stVal ST DIROK Mon Directional criteria has operated for internal fault q ST DIROK Mon Directional criteria has operated for internal fault t ST DIROK Mon Directional criteria has operated for internal fault 7 5 1 4 Generator differential protection GENPDIF LN type LN prefix LN class Function block name GENPDIF revision 1 GEN PDIF GENPDIF 72 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 16 GENPDIF Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Str aACD general ST START Mon Common start signal from any phase phsA ST Mon Start signal from phase L1 phsB ST Mon Start signal from phase L2 phsC ST Mon Start
203. n Fault detected in phase L3 reverse direction q ST STRVL3 Mon Fault detected in phase L3 reverse direction t ST STRVL3 Mon Fault detected in phase L3 reverse direction StrRvGnd v1_dSPS stVal ST STRVPE Mon Earth fault detected in reverse direction q ST STRVPE Mon Earth fault detected in reverse direction t ST STRVPE Mon Earth fault detected in reverse direction StrNDPhA v1_dSPS stVal ST STNDL1 Mon Non directional start in L1 q ST STNDL1 Mon Non directional start in L1 t ST STNDL1 Mon Non directional start in L1 StrNDPhB v1_dSPS stVal ST STNDL2 Mon Non directional start in L2 q ST STNDL2 Mon Non directional start in L2 t ST STNDL2 Mon Non directional start in L2 StrNDPhC v1_dSPS stVal ST STNDL3 Mon Non directional start in L3 q ST STNDL3 Mon Non directional start in L3 t ST STNDL3 Mon Non directional start in L3 StrNDGnd v1_dSPS stVal ST STNDPE Mon Non directional start Phase Earth q ST STNDPE Mon Non directional start Phase Earth t ST STNDPE Mon Non directional start Phase Earth Table continues on next page 82 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd StriPh vi_dSPS stVal ST STFW1PH Mon Start in forward direction for single phase fault ST STFW1PH Mon Start i
204. n Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal BIkLoMg vi_dSPS stVal ST BLKDMAGN Mon Measurement blocked due to low voltage amplitude q ST BLKDMAGN Mon Measurement blocked due to low voltage amplitude t ST BLKDMAGN Mon Measurement blocked due to low voltage amplitude RstLd vi_dSPS stVal ST RESTORE Mon Restore signal for load restoring purposes q ST RESTORE Mon Restore signal for load restoring purposes t ST RESTORE Mon Restore signal for load restoring purposes 650 series 135 Communication Protocol Manual Section 7 1MRK 511 242 UEN Logical node data model 7 5 19 Volts per Hz PVPH 7 5 19 1 Overexcitation protection OEXPVPH LN type LN prefix LN class Function block name OEXPVPH revision 3 OEX PVPH OEXPVPH Table 100 OEXPVPH Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ct
205. n detected ItrF it v1_dSPS stVal ST Mon Indication that internal fault has been detected q ST Mon Indication that internal fault has been detected t ST Mon Indication that internal fault has been detected DifAlm v1_dSPS stVal ST IDALARM Mon General alarm for sustained differential currents q ST IDALARM Mon General alarm for sustained differential currents t ST IDALARM Mon General alarm for sustained differential currents 7 5 1 3 Restricted earth fault protection low impedance REFPDIF LN type LN prefix LN class Function block name REFPDIF revision 1 REF PDIF REFPDIF 650 series 71 Communication Protocol Manual Section 7 1MRK 511 242 UEN Logical node data model Table 15 REFPDIF Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mo
206. n forward direction for single phase fault ST STFW1PH Mon Start in forward direction for single phase fault Str2Ph v1_dSPS stVal ST STFW2PH Mon Start in forward direction for two phase fault ST STFW2PH Mon Start in forward direction for two phase fault ST STFW2PH Mon Start in forward direction for two phase fault Str3Ph v1_dSPS stVal ST STFW3PH Mon Start in forward direction for three phase fault ST STFW3PH Mon Start in forward direction for three phase fault ST STFW3PH Mon Start in forward direction for three phase fault RelGnd v1_dSPS stVal ST STPE Mon Current conditions release of Phase Earth measuring elements ST STPE Mon Current conditions release of Phase Earth measuring elements ST STPE Mon Current conditions release of Phase Earth measuring elements RelPP v1_dSPS stVal ST STPP Mon Current conditions release of Phase Phase measuring elements ST STPP Mon Current conditions release of Phase Phase measuring elements ST STPP Mon Current conditions release of Phase Phase measuring elements 7 5 2 3 Five zone distance protection mho characteristic ZMOPDIS LN type LN prefix LN class Function block name ZMOLLNO instance 1 revision 0 LLNO ZMOPDIS ZMOPDIS instance 1 revision 0 ZMO PDIS ZMOPDIS ZMOPDIS instance 2 revision 0 ZMO PDIS ZMOPDIS ZMOPDIS instance 3 revision 0 ZMO PDIS ZMOPDIS ZMOPDIS instance 4 revision 0 ZMO PDI
207. n indication SELGGIO Select release QCBAY Bay control LOCREM Handling of LR switch positions LOCREMCTRL LHMI control of PSTO APC8 Apparatus control for single bay max 8 app 1CB incl interlocking TR8ATCC 90 Automatic voltage control for tap changer parallel control TCMYLTC 84 Tap changer control and supervision 6 binary inputs SLGGIO Logic rotating Switch for function selection and LHMI presentation VSGGIO Selector mini switch extension DPGGIO IEC61850 generic communication I O functions double point SPC8GGIO Single point generic control 8 signals AUTOBITS AutomationBits command function for DNP3 0 1103CMD Function commands for IEC60870 5 103 1103IEDCMD IED commands for IEC60870 5 103 1103USRCMD Function commands user defined for IEC60870 5 103 1103GENCMD Function commands generic for IEC60870 5 103 Table continues on next page 14 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 1 Introduction IEC 61850 Function ANSI Function description block name 1103POSCMD IED commands with position and select for IEC60870 5 103 Secondary system supervision CCSRDIF 87 Current circuit supervision SDDRFUF Fuse failure supervision TCSSCBR Breaker close trip circuit monitoring Logic SMPPTRC 94 Tripping logic SPTPTRC 94 Tripping logic TMAGGIO Trip matrix logic OR Configurable log
208. nAlm vi_dSPS stVal ST TRVTOAL Mon CB open travel time exceeded set value q ST TRVTOAL Mon CB open travel time exceeded set value t ST TRVTOAL Mon CB open travel time exceeded set value CIsAlm vi_dSPS stVal ST TRVTCAL Mon CB close travel time exceeded set value q ST TRVTCAL Mon CB close travel time exceeded set value t ST TRVTCAL Mon CB close travel time exceeded set value OpNumAlm vi_dSPS stVal ST OPRALM Mon Number of CB operations exceeds alarm limit q ST OPRALM Mon Number of CB operations exceeds alarm limit t ST OPRALM Mon Number of CB operations exceeds alarm limit OpNumLO vi_dSPS stVal ST OPRLOALM Mon Number of CB operations exceeds lockout limit q ST OPRLOALM Mon Number of CB operations exceeds lockout limit t ST OPRLOALM Mon Number of CB operations exceeds lockout limit APwrAlm vi_dSPS stVal ST IACCALM Mon Accumulated currents power lyt exceeded alarm limit q ST IACCALM Mon Accumulated currents power lyt exceeded alarm limit t ST IACCALM Mon Accumulated currents power lyt exceeded alarm limit APwrLO vi_dSPS stVal ST IACCLOAL Mon Accumulated currents power lyt exceeded lockout limit q ST IACCLOAL Mon Accumulated currents power lyt exceeded lockout limit t ST IACCLOAL Mon Accumulated currents power lyt exceeded lockout limit LonTmAlm vi_dSPS stVal ST NOOPRALM Mon CB not operated for long time alarm q ST NOOPRALM Mon CB not operated for long time alarm t ST NO
209. nce 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b dACD general ST ST1 Mon Start signal from step 1 q ST ST1 Mon Start signal from step 1 t ST ST1 Mon Start signal from step 1 Op b dACT general ST T TR1 Mon Trip signal from step 1 q ST T TR1 Mon Trip signal from step 1 t ST T TR1 Mon Trip signal from step 1 Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table 86 ROV2PTOV Logical node data instance 2 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST ST2 Mon Start signal from step 2 q ST ST2 Mon Start signal from step 2 Table continues on next page 124 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Str b_dACD t ST ST
210. nd infeed logic for residual overcurrent protection ECRWPSCH cccccccceesseeeeeeees 103 Sensitive directional earthfault PSDE eeeeeeeeeeeeeees 104 Sensitive Directional residual over current and power protetcion SDEPSDE ccecccccccccseseeseecceeeseeeeeseeeeeeeseaueaes 104 Switch onto fault logic PSOF cccccceeeseeeeeeeeeeenteeeeeeeeeenaaaes 106 Automatic switch onto fault logic voltage and current based ZCVPSOP euen AEEA 106 Time over Current PTOG accirni n 107 Four step residual overcurrent protection EF4PTOC 107 Four step phase overcurrent protection OC4PTOC 111 Stub protection STBPTOC cccccceeceeeeeceeeeeeeeeeeeeeeeeteees 114 Broken conductor check BRCPTOC eeseeeeeeeees 115 Negative sequence based overcurrent function DPNSPT OG nr cebiads teicdatec SS edad 116 Negativ sequence time overcurrent protection for machines NS2ZPTOGC vc ssicteedeesseceleteeeaess nen ea raia a 118 Overfrequency PLOF vs csctciesscecerctccdeveessceccestecevuviaaecoaeieeevaveeenes 120 Overfrequency function SAPTOF csseeceeeceeeeeeeeeeees 120 Overvoliage P TOV aiccieiecsteiecl a A S 121 Two step overvoltage protection OV2PTOV 0 121 Two step residual overvoltage protection ROV2PTOV 123 Protection trip conditioning PTRC cc cccccceeeeseeeeeteteeteeeeeees 125 Tripping logic SMPPTRC ccccccceeeeeeeeeeetteeeee
211. nds are blocked q ST CMD_BLK Mon Commands are blocked t ST CMD_BLK Mon Commands are blocked 7 4 7 4 1 7 4 1 1 650 series Communication Protocol Manual Logical nodes for conversion functions Integer to Boolean converter FCVB Integer to Boolean 16 conversion with Logic Node representation IB16FCVB LN type LN prefix LN class Function block name IB16FCVB revision 0 IB16 FCVB IB16FCVB 65 Section 7 Logical node data model 1MRK 511 242 UEN Table 11 1B16FCVB Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 ISCSO b_dINC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Comm
212. neral ST T Mon General start signal phsA ST T Mon Fault detected in phase L1 phsB ST T Mon Fault detected in phase L2 phsC ST T Mon Fault detected in phase L3 q ST T Mon General start signal t ST T Mon General start signal Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Table continues on next page 92 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str e_dACD general ST Mon General start signal phsA ST Mon Fault detected in phase L1 phsB ST Mon Fault detected in phase L2 phsC ST Mon Fault detected in p
213. nfiguration The ICD files may be of an template type and represent a pre configured IED e Bottom up approach means that the configurations are produced by the IED tool and that are exported as ICD files or SCD file to be imported by system tools 29 Section 3 Substation Configuration description Language SCL 30 1MRK 511 242 UEN Client A Client B IED A IED B IED Z Figure 5 Relation between system and IED tools IEC09000151 1 en vsd Regardless of engineering approach the idea is that the IED tool provides the CID or ICD file for each IED These ICD CID files are then imported into the system tool and merged into a SCD file representing the complete substation or a part of the substation like one for each voltage level 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 4 650 series Communication Protocol Manual Section 4 Communication profile Communication profile The IEC 61850 standard is conceptually written to be independent of an existing communication media and message transmission concept Out of this a specific communication profile is decided and is been commonly used The actual decision is for e Ethernet as the media e TCP IP e ISO session and presentation layer e MMS Manufacturing Message Specification ISO 9506 1 and ISO 9506 2 The IEC 61850 standard describes its requested services in ACSI
214. ng voltage t ST ILAG Mon Current is lagging voltage 7 9 3 Measurement MMXU 7 9 3 1 Phase current measurement CMMXU LN type LN prefix LN class Function block name CMMXU revision 1 C MMXU CMMXU Table 136 CMMXU Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 Table continues on next page 650 series 183 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd Beh a_dINS t ST Beh Mon Behaviour parameter for 61850 A a_dWYE rangeC hhLim f CF ILHiHiLim High High limit physical value rangeC hhLim f CF ILHiHiLim High High limit physical value ra
215. ngeC hhLim f CF ILHiHiLim High High limit physical value rangeC hLim f CF ILHiLim High limit physical value rangeC hLim f CF ILHiLim High limit physical value rangeC hLim f CF ILHiLim High limit physical value rangeC Lim f CF ILLowLim Low limit physical value rangeC Lim f CF ILLowLim Low limit physical value rangeC Lim f CF ILLowLim Low limit physical value rangeC llLim f CF ILLowLowLim Low Low limit physical value rangeC lILim f CF ILLowLowLim Low Low limit physical value rangeC lILim f CF ILLowLowLim Low Low limit physical value rangeC min f CF ILMin Minimum value rangeC min f CF ILMin Minimum value rangeC min f CF ILMin Minimum value rangeC max f CF ILMax Maximum value rangeC max f CF ILMax Maximum value rangeC max f CF ILMax Maximum value cVal mag f MX IL1 Mon IL1 Amplitude cVal mag f MX IL2 Mon IL2 Amplitude cVal mag f MX IL3 Mon IL3 Amplitude subCVal mag f SV Substituted value subCVal mag f SV Substituted value subCVal mag f SV Substituted value range MX ILSRANG Mon IL3 Amplitude range range MX IL1RANG Mon IL1 Amplitude range range MX ILZ2RANG Mon IL2 Amplitude range q MX IL3 Mon IL3 Amplitude q MX IL2 Mon IL2 Amplitude q MX IL1 Mon IL1 Amplitude t MX IL1 Mon IL1 Amplitude t MX IL2 Mon IL2 Amplitude t MX IL3 Mon IL3 Amplitude subEna SV Enable substitution subEna SV Enable substitution subEna SV Enable substitution db CF ILDbRepiInt C
216. ngineering concept in IEC 61850 68 22k SANSER 29 Communication profile ener 31 Supported services Er 33 Data sets and control blocks sseeeeeeererrrrrnn nn nnnne 37 Data SOts i aasieisiace tues ESS E L SETE ERE SEES 37 Report control block URCB BRE BY 2 ERE 38 GOOSE Control Blocks GOG BY eses 41 Logical node data Model rr 45 Common data objects in each logical node sssseeeeeereerer rene 45 Logical nodes for automatic Control cccceeeeeeeeeeeeeeeettteeeeeeeeenaaes 46 Automatic tap changer control ATCC 46 Automatic voltage control for tapchanger parallel control TREAT CC ccccceceeceeceeeceeeeececcnecaecaeeceeeeeeeeeeneeeeeeeess 46 Tap changer control and supervision 6 binary inputs TOMY LUG wrvviesucudacecctwnds caudastadescue cag EE EEEE E a EE 58 Logical nodes for CONtIOI cccccccceeeeeeeeeeeeeeeeeeeeeeeeeetaaeeeeeeeeeeeenaaaes 60 1 Table of contents Bay contol GBA T eseese a dre ken OS Apparatus control QCBAY eeeeccecceeceeeeeeeeeeeeteeeeeteees Interlocking CRONES Interlocking SCILO Eee SEPP switch controller CSW aa ra ia needs Apparatus control SCSWI ccccccccccececeeeceeeeeaeeeaeeeeaeeaeeees Logical nodes for Conversion functions Integer to Boolean converter FOVB ecceseeeeeeeteeeeeeenteeeeeeenaas Integer to Boolean 16 conversion with Logic Node representation IB1GFCVB cccccccssseececceeesseeseceeeeseeae
217. nstance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 650 series 121 Communication Protocol Manual Section 7 1MRK 511 242 UEN Logical node data model Table 80 OV2PTOV Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Str a_dACD general ST ST1 Mon Start signal from step 1 phsA ST ST1L1 Mon Start signal from step 1 phase L1 phsB ST ST1L2 Mon Start signal from step 1 phase L2 phsC ST ST1L3 Mon Start signal from step 1 phase L3 q ST ST1 Mon Start signal from step 1 t ST ST1 Mon Start signal from step 1 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850
218. o ej 2 2 ke i ne 2 2 elo Z w E Data setH Data setH Data set Subnetwork DataSet DataSet en06000109 vsd Figure 10 IEC 61850 Principle operation of GOOSE messages The Generic Object Oriented Substation Event GOOSE class model is used to distribute input and output data values between IEDs on bay level in horizontal direction through the use of multicast services GOOSE messages bypass the server and enable fast transmission from a publisher to one or several subscribers receivers GOOSE messages are unidirectional send only messages which request an application specific method to secure that the sender and the receiver of the message operate safely This implies that the receiver of the GOOSE message distributes also GOOSE messages and closes the loop for communication request 41 Section 6 1MRK 511 242 UEN Data sets and control blocks 42 respond on application level The return message is not a must It depends on the application in which way a confirmation may be done The GOOSE service model of IEC 61850 7 2 provides the possibility for fast and reliable system wide distribution of input and output data values This implementation uses a specific scheme of re transmission to achieve the appropriate level of reliability When a GOOSE server generates a SendGOOSEMessage request the current data set values are encoded in a GOOSE message and transmitted on the multicast associa
219. ock command value Oper Check CO Cmd Special block command value stVal ST CMD_BLKD Mon Function is blocked for commands q ST CMD_BLKD Mon Function is blocked for commands t ST CMD_BLKD Mon Function is blocked for commands BikUpd vi_dSPC Oper ctlVal CO Cmd Special block command value Oper origin orCat CO Cmd Special block command value Oper origin orldent CO Cmd Special block command value Oper ctINum CO Cmd Special block command value Oper T CO Cmd Special block command value Table continues on next page 650 series Communication Protocol Manual 61 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd BlkUpd v1_dSPC Oper Test CO Cmd Special block command value Oper Check CO Cmd Special block command value stVal ST UPD_BLKD Mon Update of position is blocked q ST UPD_BLKD Mon Update of position is blocked t ST UPD_BLKD Mon Update of position is blocked BlkMeas vi_dSPS stVal ST Mon Update of measurand is blocked q ST Mon Update of measurand is blocked t ST Mon Update of measurand is blocked Loc vi_dSPS stVal ST LOC Mon Local operation allowed q ST LOC Mon Local operation allowed t ST LOC Mon Local operation allowed Rem
220. ode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 OpEx b_dACT general ST T TRBU Mon Back up trip by breaker failure protection function q ST T TRBU Mon Back up trip by breaker failure protection function t ST T TRBU Mon Back up trip by breaker failure protection function Opln b_dACT general ST T TRRET Mon Retrip by breaker failure protection function q ST T TRRET Mon Retrip by breaker failure protection function t ST T TRRET Mon Retrip by breaker failure protection function 7 7 1 2 Breaker failure protection CSPRBRF LN type LN prefix LN class Function block name CSPRBRF revision 0 CSP RBRF CSPRBRF 144 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 110 CSPRBRF Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Opin a dACT general ST T TRRET Mon Retrip phsA ST T TRRETL1 Mon Retrip of phase L1 phsB ST T TRRETL2 Mon Retrip of phase L2 phsC ST T TRRETL3 Mon Retrip of phase L3 q ST T
221. ommand parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 TmpLO vi_dSPS stVal ST TEMP_LO Mon Temperature above lockout level q ST TEMP LO Mon Temperature above lockout level t ST TEMP LO Mon Temperature above lockout level 7 10 3 Insulation medium supervision liquid SIML 7 10 3 1 Insulation liquid monitoring function SSIML LN type LN prefix LN class Function block name SSIML revision 0 S SIML SSIML 198 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 144 SSIML Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Be
222. on ZCPSCH 85 Scheme communication logic for distance or overcurrent protection ZCRWPSCH 85 Current reversal and weak end infeed logic for distance protection ZCWSPSCH 85 Current reversal and weak end infeed logic for distance protection ZCLCPLAL Local acceleration logic ECPSCH 85 Scheme communication logic for residual overcurrent protection ECRWPSCH 85 Current reversal and weak end infeed logic for residual overcurrent protection Table 5 Basic IED functions IEC 61850 Function Function descripti block name on Basic functions included in all products INTERRSIG Self supervision with internal event list SELFSUPEVLST Self supervision with internal event list TIMESYNCHGEN Time synchronization SNTP Time synchronization Table continues on next page 650 series Communication Protocol Manual 17 Section 1 1MRK 511 242 UEN Introduction IEC 61850 Function Function description block name DTSBEGIN Time synchronization DTSEND Time synchronization TIMEZONE Time synchronization IRIG B Time synchronization SETGRPS Setting group handling ACTVGRP Parameter setting groups TESTMODE Test mode functionality CHNGLCK Change lock function ATHSTAT Authority status ATHCHCK Authority check TERMINALID IED identifiers PRODINF Product information PRIMVAL Primary system values SMAI_20_1 Signal Matrix for
223. on well as verifying settings by secondary injection The manual describes the process of testing an IED in a substation which is not in service The chapters are organized in chronological order in which the IED should be commissioned The operation manual contains instructions on how to operate the IED once it has been commissioned The manual provides instructions for monitoring controlling and setting the IED The manual also describes how to identify disturbances and how to view calculated and measured power grid data to determine the cause of a fault The service manual contains instructions on how to service and maintain the IED The manual also provides procedures for de energizing de commissioning and disposal of the IED The application manual contains application descriptions and setting guidelines sorted per function The manual can be used to find out when and for what purpose a typical protection function can be used The manual can also be used when calculating settings The technical manual contains application and functionality descriptions and lists function blocks logic diagrams input and output signals setting parameters and technical data sorted per function The manual can be used as a technical reference during the engineering phase installation and commissioning phase and during normal service The communication protocol manual describes a communication protocol supported by the IED The manual concentrates on v
224. on Mode status value parameter for 61850 7 5 2 6 Loss of exectation LEXPDIS LN type LN prefix LN class Function block name LEXPDIS revision 1 LEX PDIS LEXPDIS Table 39 LEXPDIS Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon Common start signal q ST START Mon Common start signal t ST START Mon Common start signal Op b_dACT general ST T TRIP Mon Common trip signal q ST T TRIP Mon Common trip signal t ST T TRIP Mon Common trip signal OpZ1 vi_dSPS stVal ST TRZ1 Mon Trip signal from impedance zone Z1 q ST TRZ1 Mon Trip signal from impedance zone Z1 t ST TRZ1 Mon Trip signal from impedance zone Z1 Table continues on next page 650 series
225. on Start signal step 2 t ST STIN2 Mon Start signal step 2 Op b_dACT general ST T TRIN2 Mon Trip signal from step 2 q ST T TRIN2 Mon Trip signal from step 2 t ST T TRIN2 Mon Trip signal from step 2 Table continues on next page 650 series Communication Protocol Manual 109 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 59 PH1PTOC Logical node data instance 3 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STIN3 Mon Start signal step 3 q ST STIN3 Mon Start signal step 3 t ST STIN3 Mon Start signal step 3 Op b_dACT general ST T TRIN3 Mon Trip signal from step 3 q ST T TRINS Mon Trip signal from step 3 t ST T TRIN3 Mon Trip signal from step 3 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value paramet
226. on 7 Logical node data model Table 42 GUPPDUP Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal OpZ1 vi_dSPS stVal ST TRIP1 Mon Trip signal from stage 1 q ST TRIP1 Mon Trip signal from stage 1 t ST TRIP1 Mon Trip signal from stage 1 OpZ2 vi_dSPS stVal
227. on 8 Glossary dissemination of standard frequencies and time signals UTC is derived from International Atomic Time TAI by the addition of a whole number of leap seconds to synchronize it with Universal Time UT1 thus allowing for the eccentricity of the Earth s orbit the rotational axis tilt 23 5 degrees but still showing the Earth s irregular rotation on which UT1 is based The Coordinated Universal Time is expressed using a 24 hour clock and uses the Gregorian calendar It is used for aeroplane and ship navigation where it is also sometimes known by the military name Zulu time Zulu in the phonetic alphabet stands for Z which stands for longitude zero Undervoltage Weak end infeed logic Voltage transformer A digital signalling interface primarily used for telecom equipment Three times zero sequence current Often referred to as the residual or the earth fault current Three times the zero sequence voltage Often referred to as the residual voltage or the neutral point voltage 221 222 223 Contact us ABB AB Substation Automation Products SE 721 59 V ster s Sweden Phone 46 0 21 32 50 00 Fax 46 0 21 14 69 18 www abb com substationautomation Power and productivity for a better world A P Copyright 2011 ABB All rights reserved 1MRK 511 242 UEN
228. on for IEC60870 5 103 1103IED IED status for IEC60870 5 103 1103SUPERV Supervision status for IEC60870 5 103 1103USRDEF Status for user defiend signals for IEC60870 5 103 Metering PCGGIO Pulse counter logic ETPMMTR Function for energy calculation and demand handling 16 650 series Communication Protocol Manual 1MRK 511 242 UEN Table 4 Designed to communicate Section 1 Introduction IEC 61850 Function block ANSI name Function description Station communication IEC61850 8 1 IEC61850 communication protocol DNPGEN CH1TCP CH2TCP CH3TCP CH4TCP MST1TCP MST2TCP MST3TCP MST4TCP DNP3 0 for TCP IP communication protocol DNPFREC DNP3 0 fault records for TCP IP communication protocol IED61870 5 103 IEC60870 5 103 serial communication via COM02 GOOSEINTLKRCV Horizontal communication via GOOSE for interlocking GOOSEBINRCV GOOSE binary receive GOOSEVCTRCONF GOOSE VCTR configuration for send and receive VCTRSEND Voltage control sending block for GOOSE GOOSEVCTRRCV Voltage control receiving block for GOOSE ETHFRNT Ethernet configuration of front port LAN1 port and gateway ETHLAN1 GATEWAY GOOSEDPRCV GOOSE function block to receive a double point value GOOSEINTRCV GOOSE function block to receive an integer value GOOSEMVRCV GOOSE function block to receive a measurand value GOOSESPRCV GOOSE function block to receive a single point value Scheme communicati
229. on for phase L1 phsB ST STL2 Mon Start signal from phase L2 dirPhsB ST DIRL2 Mon Direction for phase L2 phsC ST STL3 Mon Start signal from phase L3 dirPhsC ST DIRL3 Mon Direction for phase L3 q ST START Mon General start signal t ST START Mon General start signal Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal Mod c_dINC stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 7 5 11 3 Stub protection STBPTOC LN type LN prefix LN class Function block name STBPTOC revision 1 STB PTOC STBPTOC Table 68 STBPTOC Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status param
230. on that the function is blocked for open commands Loc a_dSPS stVal ST Mon Indication that the function is in local mode process level q ST Mon Indication that the function is in local mode process level t ST Mon Indication that the function is in local mode process level OpCnt b_dINS stVal ST CNT_VAL Mon Operation counter value q ST CNT_VAL Mon Operation counter value t ST CNT_VAL Mon Operation counter value Pos c dDPC stVal ST POSITION Mon Apparatus position indication q ST POSITION Mon Apparatus position indication t ST POSITION Mon Apparatus position indication subEna SV Substitute enable subVal SV Substituted double position value CBOpCap h_dINS stVal ST Mon Breaker operating capability 1 None 2 O 3 CO 4 OCO 5 COCO 6 More q ST Mon Breaker operating capability 1 None 2 O 3 CO 4 OCO 5 COCO 6 More Table continues on next page 650 series Communication Protocol Manual 201 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd CBOpCap h_dINS t ST Mon Breaker operating capability 1 None 2 O 3 CO 4 OCO 5 COCO 6 More BlkUpd vi_dSPC Oper ctlVal CO Cmd Special block command value Oper origin orCat CO C
231. onal start issued from any phase or loop zone 3 t ST STND3 Mon Non directional start issued from any phase or loop zone 3 78 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 22 ZQDPDIS Logical node data instance 4 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STZ4 Mon Start zone 4 q ST STZ4 Mon Start zone 4 t ST STZ4 Mon Start zone 4 Op b_dACT general ST T TRZ4 Mon Trip zone 4 q ST T TRZ4 Mon Trip zone 4 t ST T TRZ4 Mon Trip zone 4 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 StrUnDir v2 dACD general ST STND4 Mon Non directional start issued from any phase or loop zone 4 q ST STND4 Mon Non directional start issued from any phase or loop zone 4 t ST STND4 Mon Non directional start issued from any phase or loop zone 4 Table 23 ZQDPDIS Logical node data instance 5 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behav
232. onstraint FC e Data objects with different FC can be selected for a data set For example DOs with FC ST and DOs with FC MX can be member in one data set e single data attribute can be selected when it is specified with a trigger option For example the data attribute stVal of the data object Pos can be selected as a member of a data set because it is specified with the trigger option data change detected dchg The description of the data sets with name and the list of data object members FCDAs is included in the SCL file in the IED section in the Logical device subsection As specified in IEC 61850 7 2 clause 9 the data sets are part of a logical node They are most likely included in the LLNO Report control block URCB BRCB To be able to transmit the signals configured in a DataSet a report control block must be configured to handle and specify how the events are transmitted to the clients There are two types of report control blocks unbuffered and buffered The buffered report control block stores the events during a communication interrupt while the unbuffered is sent upon data change and not stored during interruption The content of a BRCB is listed in IEC 61850 7 2 in clause 14 The BRCB contains many attributes which are of interest to handle and secure the communication between the client and the server and may be set once as default in a project Others are of application interest in the way events are handled
233. ot 3 q ST COUNT3P3 Mon Counting the number of three phase reclosing shot 3 t ST COUNT3P3 Mon Counting the number of three phase reclosing shot 3 Rec34Cnt vi_dINS stVal ST COUNT3P4 Mon Counting the number of three phase reclosing shot 4 q ST COUNT3P4 Mon Counting the number of three phase reclosing shot 4 t ST COUNT3P4 Mon Counting the number of three phase reclosing shot 4 Rec35Cnt vi_dINS stVal ST COUNT3P5 Mon Counting the number of three phase reclosing shot 5 q ST COUNT3P5 Mon Counting the number of three phase reclosing shot 5 t ST COUNT3P5 Mon Counting the number of three phase reclosing shot 5 TotRecCnt vi_dINS stVal ST COUNTAR Mon Counting total number of reclosing shots q ST COUNTAR Mon Counting total number of reclosing shots t ST COUNTAR Mon Counting total number of reclosing shots Rec1PhCnt vi_dINS stVal ST COUNT1P Mon Counting the number of single phase reclosing shots q ST COUNT1P Mon Counting the number of single phase reclosing shots Table continues on next page 650 series Communication Protocol Manual 155 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd Rec1PhCnt vi_dINS ST COUNTIP Mon Counting the number of single phase reclosing shots OpRs vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO
234. otection UC2PTUC LN type LN prefix LN class Function block name PH3PTRC instance 1 revision 1 PH3 PTRC UC2PTUC PH3PTUC instance 1 revision 0 PH3 PTUC UC2PTUC PH3PTUC instance 2 revision 0 PH3 PTUC UC2PTUC UC2LLNO instance 1 revision 0 LLNO UC2PTUC Table 90 PH3PTRC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Str a_dACD general ST START Mon General start signal dirGeneral ST Mon Output for reporting the direction during start phsA ST Mon Start signal for step 1 in L1 phsB ST Mon Start signal for step 1 in L2 phsC ST Mon Start signal for step 1 in L3 q ST START Mon General start signal t ST START Mon General start signal Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b_dACT general ST T TRIP Mon General trip signal Table continues on next page 650 series 129 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd Op b_dACT q ST TRIP Mon General trip signal t ST TRIP Mon General trip signal Mod c_dINC stVal ST Mon Mode status value parameter for
235. other Logical devices than LDO the Mod can only be controlled by communication on LLNO Behaviour The operational mode as given by the Mode control is shown in the data object Beh with the priority rules as described for Beh in clause 6 of IEC 61850 7 4 The Beh shows the actual state of the function dependent upon the hierarchy described in IEC 61850 7 4 clause 6 Health The 650 series products show always only the state green Ok NamePIt The name of the logical node and its relation to namespace definition are shown in the data object NamePIt as specified for the SCL structure 7 2 Logical nodes for automatic control 7 2 1 Automatic tap changer control ATCC 7 2 1 1 Automatic voltage control for tapchanger parallel control TR8ATCC LN type LN prefix LN class Function block name TR8ATCC revision 3 TR8 ATCC TR8ATCC 46 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 6 TR8ATCC Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for
236. overvoltage protection ROV2PTOV 59N Two step residual overvoltage protection OEXPVPH 24 Overexcitation protection LOVPTUV 27 Loss of voltage check STEFPHIZ 64 100 Stator earth fault protection 3rd harmonic based Frequency protection SAPTUF 81 Underfrequency function SAPTOF 81 Overfrequency function SAPFRC 81 Rate of change frequency protection 650 series 13 Communication Protocol Manual Section 1 Introduction 1MRK 511 242 UEN Table 3 Control and monitoring functions IEC 61850 Function ANSI Function description block name Control SESRSYN 25 Synchrocheck energizing check and synchronizing SMBRREC 79 Autorecloser STBRREC 79 Autorecloser SCILO 3 Logical node for interlocking BB ES 3 Interlocking for busbar earthing switch A1A2 BS 3 Interlocking for bus section breaker A1A2 DC 3 Interlocking for bus section disconnector ABC BC 3 Interlocking for bus coupler bay BH CONN 3 Interlocking for 1 1 2 breaker diameter BH LINE A 3 Interlocking for 1 1 2 breaker diameter BH LINE B 3 Interlocking for 1 1 2 breaker diameter DB BUS A 3 Interlocking for double CB bay DB BUS B 3 Interlocking for double CB bay DB LINE 3 Interlocking for double CB bay ABC LINE 3 Interlocking for line bay AB TRAFO 3 Interlocking for transformer bay SCSWI Switch controller SXCBR Circuit breaker SXSWI Circuit switch POS EVAL Evaluation of positio
237. ows all partners in the IEC 61850 project who need this LN to understand the LN in all details for the communication part The IEC 61850 standard does not describe the functionality and way of operation Each supplier has to describe this separately ABB has described their function blocks that represent a logical node and all other function blocks in the technical manuals This chapter in the communication protocol manual has two tasks e Describe the Logical Node types and their data object attribute types e Make the link to the description of the function block Common data objects in each logical node The IEC 61850 standard describes in part 7 5 a Common Logical Node The data objects contained in that LN are both mandatory and optional The mandatory data objects have to be included in each LN This clause describes the general handling of the data objects within the 650 series products 45 Section 7 1MRK 511 242 UEN Logical node data model The mandatory data objects as defined in IEC 61850 7 4 as part of the Common Logical Node are Mode Behavior Health and NamePlate Mode The operation modes ON enabled and BLOCKED are supported remotely by a command or locally from the LHMI of the IED The TEST and the TEST BLOCKED mode can be operated locally from the LHMI or by using PCM600 The state OFF can be set from the LHMI or by using PCM600 for the functions having the setting operation Note also that for functions in
238. parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 stVal ST Mon Setting LVAConst4 is used service value q ST Mon Setting LVAConst4 is used service value t ST Mon Setting LVAConst4 is used service value LVAReset vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 ForceMast vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Table continues on next page 650 series Communication Protocol Manual 51 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd ForceMast v1_dSPC Oper Test co z Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC618
239. parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b dACD general ST START Mon Set when measured impedance enters lens characteristic ST START Mon Set when measured impedance enters lens characteristic ST START Mon Set when measured impedance enters lens characteristic Op b dACT general ST T TRIP Mon Common trip issued when either zone 1 or zone 2 give trip ST T TRIP Mon Common trip issued when either zone 1 or zone 2 give trip ST T TRIP Mon Common trip issued when either zone 1 or zone 2 give trip N1SlpDet vi_dSPS stVal ST TRIPZ1 Mon Zone 1 trip ST TRIPZ1 Mon Zone 1 trip ST TRIPZ1 Mon Zone 1 trip N2SlpDet vi_dSPS stVal ST TRIPZ2 Mon Zone 2 trip ST TRIPZ2 Mon Zone 2 trip ST TRIPZ2 Mon Zone 2 trip Table continues on next page 138 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Gen v1_dSPS stVal ST GENMODE Mon Generator rotates faster than the system during pole slip q ST GENMODE Mon Generator rotates faster than the system during pole slip t ST GENMODE Mon Generator rotates faster than the system during pole slip Mot v1_dSPS stVal ST MOTMODE Mon Generator rotates slower than th
240. parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 SeqA a dSEQ cVal mag f MX 310 Mon 310 Amplitude cVal mag f MX 11 Mon 11 Amplitude cVal mag f MX 12 Mon 12 Amplitude rangeC hhLim f CF 3IOHIHiLim High High limit physical value rangeC hLim f CF 3IOHiLim High limit physical value rangeC Lim f CF 310LowLim Low limit physical value rangeC lILim f CF 310LowLowLim Low Low limit physical value rangeC min f CF 3I0Min Minimum value rangeC max f CF 310Max Maximum value subCVal mag f SV Substituted value rangeC hhLim f CF MHiHiLim High High limit physical value rangeC hLim f CF I1HiLim High limit physical value rangeC Lim f CF l1LowLim Low limit physical value rangeC IILim f CF l1LowLowLim Low Low limit physical value rangeC min f CF 11Min Minimum value rangeC max f CF 11Max Maximum value rangeC hhLim f CF I2HiHiLim High High limit physical value rangeC hLim f CF I2HiLim High limit physical value rangeC lILim f CF I2LowLim Low limit physical value rangeC IILim f CF I2LowLowLim Low Low limit physical value rangeC min f CF I2Min Minimum value rangeC max f CF I2Max Maximum value subCVal mag f SV Substituted value subCVal mag f SV Substituted value range MX IZRANG Mon 12 Amplitude range
241. per Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 Table continues on next page 650 series Communication Protocol Manual 15 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op b dACT general ST T TRIP Mon Trip signal q ST T TRIP Mon Trip signal t ST T TRIP Mon Trip signal ImpAlm vi_dSPS stVal ST ALARM Mon Alarm signal q ST ALARM Mon Alarm signal t ST ALARM Mon Alarm signal 7 5 2 Distance protection PDIS 7 5 2 1 Five zone distance protection quadrilateral characteristic ZQDPDIS LN type LN prefix LN class Function block name ZQDLLNO instance 1 revision 0 LLNO ZQDPDIS ZQDPDIS instance 1 revision 0 ZQD PDIS ZQDPDIS ZQDPDIS instance 2 revision 0 ZQD PDIS ZQDPDIS ZQDPDIS instance 3 revision 0 ZQD PDIS ZQDPDIS ZQDPDIS instance 4 revision 0 ZQD PDIS ZQDPDIS ZQDPDIS instance 5 revision 0 ZQD PDIS ZQDPDIS ZQDPTRC instance 1 revision 0
242. per origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 EnaRec vi_dSPS stVal ST SETON Mon AR operation is switched on q ST SETON Mon AR operation is switched on t ST SETON Mon AR operation is switched on RdyRec vi_dSPS stVal ST READY Mon Indicates that AR is ready for a new sequence Table continues on next page 152 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd RdyRec vi_dSPS q ST READY Mon Indicates that AR is ready for a new sequence t ST READY Mon Indicates that AR is ready for a new sequence ActRec vi_dSPS stVal ST ACTIVE Mon Reclosing sequence in progress q ST ACTIVE Mon Reclosing sequence in progress t ST ACTIVE Mon Reclosing sequence in progress SucRec vi_dSPS stVal ST SUCCL Mon Activated if CB closes during the time tUnsucCI q ST SUCCL Mon Activated if CB closes during the time tUnsucCI t ST SUCCL Mon Activated if CB closes during the time tUnsucCI UnsRec vi_dSPS stVal ST UNSUCCL Mon Reclosing unsuccessful s
243. plementation conformance statement 650 series 1 1 IEC 61850 PICS Protocol implementation conformance statement 650 series 1 1 IEC 61850 PIXIT Protocol implementation extra information 650 series 1 1 IEC 61850 TICS Tissue implementation conformance statement 21 22 1MRK 511 242 UEN Section 3 Substation Configuration description Language SCL Section 3 Substation Configuration description Language SCL The SCL language is based on XML However detailed knowledge of the XML contents is not needed The SCL XML file ied ICD and or station SCD contains five sections which are specified in IEC 61850 6 clause 9 e Header e Substation section describes the functional structure and its relation to primary devices e Communication section describes the connection between the IED access points to the respective subnetwork and includes also the properties addresses of the access points e IED section contains a description of the supported communication services the access point s and the IEDs logical devices logical nodes and their attributes e Data type template section contains a declaration of all types used in the SCL file logical nodes type DO types attributes and enums The substation section and the communication section are tasks to organize the IEDs within the substation and to establish the communication The system structure is defined by the organization of the plant structure in PCM600 The
244. plitude magnitude of reported value t MX UL3 Mon UL3 Amplitude magnitude of reported value subEna SV Enable substitution subEna SV Enable substitution subEna SV Enable substitution db CF UDbRepInt Cycl Report interval s Db In of range Int Db In s db CF UDbRepInt Cycl Report interval s Db In of range Int Db In s db CF UDbRepInt Cycl Report interval s Db In of range Int Db In s zeroDb CF UZeroDb Zero point clamping in 0 001 of range zeroDb CF UZeroDb Zero point clamping in 0 001 of range zeroDb CF UZeroDb Zero point clamping in 0 001 of range 7 9 4 Sequence and imbalance MSQI 7 9 4 1 Current sequence component measurement CMSQI LN type LN prefix LN class Function block name CMSAQI revision 2 C MSQI CMSQI 188 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model Table 139 CMSQI Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status
245. position q ST HIPOSAL Mon Alarm for tap in the highest volt position t ST HIPOSAL Mon Alarm for tap in the highest volt position EndPosL a_dSPS stVal ST LOPOSAL Mon Alarm for tap in the lowest volt position q ST LOPOSAL Mon Alarm for tap in the lowest volt position t ST LOPOSAL Mon Alarm for tap in the lowest volt position TapChg b dBSC valWTr posVal ST TCPOS Mon Integer value corresponding to actual tap position valWTr transInd ST Mon Tap position change in progress q ST TCPOS Mon Integer value corresponding to actual tap position t ST TCPOS Mon Integer value corresponding to actual tap position OpCnt b_dINS stVal ST CNT_VAL Mon Number of operations on tap changer Table continues on next page 58 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd OpCnt b_dINS q ST CNT_VAL Mon Number of operations on tap changer t ST CNT_VAL Mon Number of operations on tap changer HiTapPos vi_dINS stVal ST Mon Tap position for the highest voltage q ST Mon Tap position for the highest voltage t ST Mon Tap position for the highest voltage LoTapPos vi_dINS stVal ST Mon Tap position for the lowest voltage q ST Mon Tap position for the lowest volta
246. put of counter 6 q ST VALUE6 Mon Output of counter 6 t ST VALUE6 Mon Output of counter 6 RsCnt vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Command parameter for IEC61850 Table continues on next page 170 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd RsCnt v1_dSPC Oper T CO Cmd Command parameter for IEC61850 Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 7 8 1 7 IEC61850 generic communication I O functions SPGGIO LN type LN prefix LN class Function block name SPGGIO revision 1 SP GGIO SPGGIO Table 129 SPGGIO Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO
247. put signal name in the function block symbol given for a function indicates that the signal must be connected to another function block in the application configuration to achieve a valid application configuration 1 4 3 Functions included in 650 series IEDs Table 1 Main protection functions IEC 61850 Function block ANSI Function description name Differential protection T2WPDIF 87T Transformer differential protection two winding T3WPDIF 87T Transformer differential protection three winding REFPDIF 87N Restricted earth fault protection low impedance HZPDIF 87 1Ph High impedance differential protection GENPDIF 87G Generator differential protection Impedance protection ZQDPDIS 21 Five zone distance protection quadrilateral characteristic FDPSPDIS 21 Phase selection with load enchroachment quadrilateral characteristic ZMOPDIS 21 Five zone distance protection mho characteristic FMPSPDIS 21 Faulty phase identification with load enchroachment for mho ZDNRDIR 21 Directional impedance quadrilateral and mho PPLPHIZ Phase preference logic ZMRPSB 68 Power swing detection ZCVPSOF Automatic switch onto fault logic voltage and current based ZGPDIS 21G Underimpedance protection for generators and transformers LEXPDIS 40 Loss of excitation OOSPPAM 13 Out of step protection LEPDIS Load enchroachment 12 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 1
248. q ST Mon Tap position t ST Mon Tap position TotW c_dMV mag f MX P Mon Calculated active power service value q MX P Mon Calculated active power service value t MX P Mon Calculated active power service value Table continues on next page 48 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd TotVAr c_dMV mag f MX Q Mon Calculated reactive power service value q MX Q Mon Calculated reactive power service value t MX Q Mon Calculated reactive power service value ParOp c dSPC stVal ST PARALLEL Mon Transformer operates in parallel mode q ST PARALLEL Mon Transformer operates in parallel mode t ST PARALLEL Mon Transformer operates in parallel mode LTCld vi_dINS stVal ST Mon Identity of the transformer q ST Mon Identity of the transformer t ST Mon Identity of the transformer ParSet vi_dINS stVal ST Mon Setting value for transformer in parallel mode q ST Mon Setting value for transformer in parallel mode t ST Mon Setting value for transformer in parallel mode AutoCtl vi_dSPC Oper ctlVal CO Cmd Command parameter for IEC61850 Oper origin orCat CO Cmd Command parameter for IEC61850 Oper origin orldent CO Cmd Command parameter for IEC61850 Oper ctINum CO Cmd Co
249. r 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 Table continues on next page 146 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS t ST Beh Mon Behaviour parameter for 61850 RcdMade a_dSPS stVal ST RECMADE Mon Disturbance recording made q ST RECMADE Mon Disturbance recording made t ST RECMADE Mon Disturbance recording made FitNum b_dINS stVal ST FaultNumber Mon Disturbance fault number q ST FaultNumber Mon Disturbance fault number t ST FaultNumber Mon Disturbance fault number 7 7 4 Fault locator RFLO 7 7 4 1 Fault locator LMBRFLO LN type LN prefix LN class Function block name LMBRELO revision 1 LMB RFLO LMBRFLO Table 113 LMBRFLO Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_d
250. r for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 650 series 131 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN 7 5 17 Undervoltage PTUV 7 5 17 1 Two step undervoltage protection UV2PTUV LN type LN prefix LN class Function block name GEN2LLNO instance 1 revision 1 LLNO UV2PTUV PH3PTRC instance 1 revision 1 PH3 PTRC UV2PTUV UV2PTUV instance 1 revision 1 UV2 PTUV UV2PTUV UV2PTUV instance 2 revision 1 UV2 PTUV UV2PTUV Table 94 GENZ2LLNO Logical node data instance 1 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVa
251. r for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 EndPosR a_dSPS stVal ST HIPOSAL Mon Alarm for tap in the highest volt position q ST HIPOSAL Mon Alarm for tap in the highest volt position t ST HIPOSAL Mon Alarm for tap in the highest volt position EndPosL a_dSPS stVal ST LOPOSAL Mon Alarm for tap in the lowest volt position q ST LOPOSAL Mon Alarm for tap in the lowest volt position t ST LOPOSAL Mon Alarm for tap in the lowest volt position TapChg b_dBSC valWTr posVal ST TCPOS Mon Integer value corresponding to actual tap position valWTr transInd ST Mon Tap position change in progress q ST TCPOS Mon Integer value corresponding to actual tap position t ST TCPOS Mon Integer value corresponding to actual tap position OpCnt b_dINS stVal ST CNT_VAL Mon Number of operations on tap changer q ST CNT VAL Mon Number of operations on tap changer t ST CNT VAL Mon Number of operations on tap changer HiTapPos vi_dINS stVal ST Mon Tap position for the highest voltage Table continues on next p
252. r of operations at rated load t MX CLCNT VAL Mon Remaining number of operations at rated load 7 13 Logical nodes for further power system equipment 7 13 1 Battery ZBAT 7 13 1 1 Station battery supervision SPVNZBAT LN type LN prefix LN class Function block name SPVNZBAT revision 0 SPVN ZBAT SPVNZBAT Table 148 SPVNZBAT Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Table continues on next page 650 series 207 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper Test co Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850
253. r parameter for 61850 Str b_dACD general ST STZ3 Mon Start zone 3 q ST STZ3 Mon Start zone 3 t ST STZ3 Mon Start zone 3 Op b dACT general ST T TRZ3 Mon Trip zone 3 q ST T TRZ3 Mon Trip zone 3 t ST T TRZ3 Mon Trip zone 3 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 38 ZGPTRC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b dACD general ST START Mon Start general q ST START Mon Start general t ST START Mon Start general Op b dACT general ST TRIP Mon Trip general q ST TRIP Mon Trip general t ST TRIP Mon Trip general Table continues on next page 90 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST M
254. rameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 LosOfGrd a_dSPS stVal ST LCG Mon Loss of carrier guard signal q ST LCG Mon Loss of carrier guard signal t ST LCG Mon Loss of carrier guard signal ProRx a_dSPS stVal ST Mon Carrier signal received or missing carrier guard signal Table continues on next page 650 series Communication Protocol Manual 99 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd ProRx adSPS q ST T Mon Carrier signal received or missing carrier guard signal t ST T Mon Carrier signal received or missing carrier guard signal ProTx a_dSPS stVal ST T Mon Teleprotection signal transmitted for a forward fault q STIT Mon Teleprotection signal transmitted for a forward fault t ST T Mon Te
255. rd 61850 6 describes that this is given by including the LN ofthe client IED in the ReportBlockEnabled option The selected client IED with the corresponding LN for example ITCI is included in the SCL structure of the Report Control description of the IED section The description of the BRCB with selected DataSet configured parameters and selected IEDs is included in the SCL file in the IED section in the LNO structure for the LD where this LNO belongs to IED IED IED HSI NCC GW 1 NCC GW m Client 1 IHS11 Client 2 TCM Client m Tcl2 Subnetwork YYY DATA SET LD1 LLNO AppPos IED 1 LD1 SXCBR1 Pos FC ST LD1 SXSWI1 Pos FC ST Server 1 LLNO q _ LD1 SXSWI2 Pos FC ST LD1 SXSWI3 Pos FC ST LD1 SXSW14 Pos FC ST en06000107 vsd Figure 9 Link BRCB to a client LN 40 650 series Communication Protocol Manual 1MRK 511 242 UEN 6 3 650 series Communication Protocol Manual Section 6 Data sets and control blocks GOOSE Control Blocks GoCB o o o o o
256. s a number of roles for tools In the Relion series PCM600 is defined as IED tool and CCT600 is defined as system tool The sections in SCL contain properties that are to be configured by these tools There is no relation between one section and one specific tool The task of the IED tool is to configure all properties for the IED while the system tool has the task to define the place of the IED in the system and its communication dependencies For example the plant structure in PCM600 results in the subsystem section in SCL regarding the subsystem structure down to the IED level The PCM600 also configures the IED section as a result of the IED configuration In PCM600 the configuration properties for SCL are handled automatically as a result of the configuration except for the receiving of GOOSE information that has a dependency with the system tool IEC 61850 engineering with PCM600 and CCT600 PCM600 e When an JED is instantiated its place in the plant structure creates the corresponding structure in the substation section in SCL The communication facilities is also created in the communication section e The functionality of the IED is configured by using ACT in PCM600 For each function the corresponding logical device and logical node s is created in the IED section together with its type definition in data type template section e The above forms the IED capabilities from a communication perspective and will then be included in t
257. s that have event handled measured values but they cannot be added directly to the data set need to be connected to a MVGGIO function block 650 series Communication Protocol Manual 1MRK 511 242 UEN 650 series Communication Protocol Manual Section 5 Supported services e PCGGIO Pulse Counter e ETPMMTR Function for energy calculation and demand handling e LMBRFLO Fault Locator e SESRSYN Synchrocheck energizing check and synchronizing SSCBR Circuit breaker condition monitoring e SSIMG Insulation liquid monitoring function e SSIML Circuit breaker condition monitoring e VR2PVOC Voltage restrained time overcurrent protection e DNSPTOC Negative sequence based overcurrent function Control Of the different control sequences the direct with normal security and SBO with enhanced security are supported defined by the ctlModel parameter IEC 61850 7 2 The command model can be changed for some functions by using PCM600 or PST From communication perspective in IEC61850 this parameter is read only Check bits interlock check and synchrocheck check are only valid for LN types based upon CSWI class Verification of Originator Category is supported see also PIXIT Time and time synchronization For properties about time synchronization see PIXIT and Time synchronization description in the technical manual and the application manual File transfer See PIXIT 35 36 1MRK 511 24
258. s v1_dSPC Oper Test CO Cmd Command parameter for IEC61850 Oper Check CO Cmd Command parameter for IEC61850 TmpLo vi_dSPS stVal ST TEMP_LO Mon Temperature above lockout level q ST TEMP LO Mon Temperature above lockout level t ST TEMP LO Mon Temperature above lockout level 7 11 Logical nodes for switchgear 7 11 1 Circuit breaker XCBR 7 11 1 1 Apparatus control SXCBR LN type LN prefix LN class Function block name SXCBR revision 1 S XCBR SXCBR Table 145 SXCBR Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 BikCIs a dSPC Oper ctlVal CO Cmd Special block command value
259. s v2_dMV mag f MX CBCLTRVT Mon Travel time of the CB during closing operation q MX CBCLTRVT Mon Travel time of the CB during closing operation t MX CBCLTRVT Mon Travel time of the CB during closing operation TmmsOpn v2_dMV mag f MX CBOTRVT Mon Travel time of the CB during opening operation q MX CBOTRVT Mon Travel time of the CB during opening operation t MX CBOTRVT Mon Travel time of the CB during opening operation TmsSprCha v2 dMV mag f MX SPRCHRT Mon The charging time of the CB spring q MX SPRCHRT Mon The charging time of the CB spring t MX SPRCHRT Mon The charging time of the CB spring AccAPwrPhB v2_dMV mag f MX IACCL2 Mon Accumulated currents power lyt phase L2 q MX IACCL2 Mon Accumulated currents power lyt phase L2 t MX IACCL2 Mon Accumulated currents power lyt phase L2 AccAPwrPhC v2_dMV mag f MX IACCL3 Mon Accumulated currents power lyt phase L3 q MX IACCL3 Mon Accumulated currents power lyt phase L3 Table continues on next page 196 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd AccAPwrPhC v2_dMV MX IACCL3 Mon Accumulated currents power lyt phase L3 AccAPwrPhA v2 dMV mag f MX IACCL1 Mon Accumu
260. sformer ratio Permissive underreach transfer trip Synchrocheck relay COMBIFLEX Relay characteristic angle Resistance for phase to phase faults Resistance for phase to earth faults Reduced instruction set computer Root mean square value A balanced serial interface for the transmission of digital data in point to point connections Serial link according to EIA standard RS485 Real time clock Remote terminal unit Substation Automation Select before operate Switch or push button to close Station control system Supervision control and data acquisition System configuration tool according to standard IEC 61850 Service data unit 219 Section 8 Glossary 220 SMA connector SMT SMS SNTP SRY ST Starpoint SVC TC TCS TCP TCP IP TNC connector TPZ TPY TPX TPS UMT Underreach U I PISA UTC 1MRK 511 242 UEN Subminiature version A A threaded connector with constant impedance Signal matrix tool within PCM600 Station monitoring system Simple network time protocol is used to synchronize computer clocks on local area networks This reduces the requirement to have accurate hardware clocks in every embedded system in a network Each embedded node can instead synchronize with a remote clock providing the required accuracy Switch for CB ready condition Switch or push button to trip Neutral point of transformer or generator Static VAr compensation Trip coil Trip circuit super
261. sical value rangeC hLim f CF UHiLim High limit physical value rangeC hLim f CF UHiLim High limit physical value rangeC Lim f CF ULowLim Low limit physical value rangeC Lim f CF ULowLim Low limit physical value rangeC Lim f CF ULowLim Low limit physical value rangeC llLim f CF ULowLowLim Low Low limit physical value rangeC llLim f CF ULowLowLim Low Low limit physical value rangeC llLim f CF ULowLowLim Low Low limit physical value rangeC min f CF UMin Minimum value rangeC min f CF UMin Minimum value rangeC min f CF UMin Minimum value rangeC max f CF UMax Maximum value rangeC max f CF UMax Maximum value rangeC max f CF UMax Maximum value Table continues on next page 650 series Communication Protocol Manual 187 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd PhV a dWYE subCVal mag f SV Substituted value range MX UL3RANG Mon UL3 Amplitude range range MX UL1RANG Mon UL1 Amplitude range range MX UL2RANG Mon UL2 Amplitude range q MX UL3 Mon UL3 Amplitude magnitude of reported value q MX UL2 Mon UL2 Amplitude magnitude of reported value q MX UL1 Mon UL1 Amplitude magnitude of reported value t MX UL1 Mon UL1 Amplitude magnitude of reported value t MX UL2 Mon UL2 Am
262. signal from phase L3 q ST START Mon Common start signal from any phase t ST START Mon Common start signal from any phase Mod alNC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh alNS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Op bACT general ST T TRIP Mon General common trip signal q ST T TRIP Mon General common trip signal t ST T TRIP Mon General common trip signal OpnCTVal viINS stVal ST Mon Open CT side 1 gt Terminal side 2 gt Neutral side q ST Mon Open CT side 1 gt Terminal side 2 gt Neutral side t ST Mon Open CT side 1 gt Terminal side 2 gt Neutral side OpnCTIn viINS stVal ST Mon Open CT on Input 1 for input 1 2 for input 2 q ST Mon Open CT on Input 1 for input 1 2 for input 2 t ST Mon Open CT on Input 1 for input 1 2 for input 2
263. signal from step 1 OC1 dirGeneral ST DIROC1 Mon Directional mode of step 1 non directional forward reverse q ST STOC1 Mon Start signal from step 1 OC1 t ST STOC1 Mon Start signal from step 1 OC1 Op b_dACT general ST T TROC1 Mon Trip signal from step 1 OC1 q ST T TROC1 Mon Trip signal from step 1 OC1 t ST T TROC1 Mon Trip signal from step 1 OC1 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 72 PH1PTOC Logical node data instance 2 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STOC2 Mon Start signal from step 2 OC2 dirGeneral ST DIROC2 Mon Directional mode of step 2 non directional forward reverse q ST STOC2 Mon Start signal from step 2 OC2 t ST STOC2 Mon Start signal from step 2 OC2 Op b dACT general ST T TROC2 Mon Trip signal from step 2 OC2 q ST T TROC2 Mon Trip signal from step 2 OC2 t ST T TROC2 Mon Trip signal from step 2 OC2 Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status val
264. ssues process as defined by UCA Utility Communication Architecture forum The Tissues handling is found in http www tissue iec61850 com The conformance documents are unique for each product release and refer to each other the identities included in the related documents refer to a specific version of the 650 series The communication profile in IEC 61850 uses the MMS standard which uses Ethernet and TCP IP to handle the information transport within the substation The data modelling uses the concept of logical nodes to identify the published information for communication The standard defines a set of logical nodes each representing a communication view of a process function with a number of data objects The standard cannot cover all possible information that is given for example by a protection function of vendor A or vendor B or for the variants of a protection function given by the process part which is protected For example a transformer differential or line differential protection because the standard defines only a differential protection Therefore it is possible to adapt the logical node which is defined in the standard as a logical node class The standard defines methods to describe the actual used logical node as an logical node type which is then based upon the logical node class This allows all partners to interpret the logical node type information because the description is completely given in the standard The type
265. start of function Str3Ph v2_dACD general ST 3PH Mon Three phase start of function q ST 3PH Mon Three phase start of function t ST 3PH Mon Three phase start of function Table continues on next page 148 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd StrRst v2_dACD general ST BLKZ Mon Start of current and voltage controlled function q ST BLKZ Mon Start of current and voltage controlled function t ST BLKZ Mon Start of current and voltage controlled function 7 7 6 Pole discordance protection RPLD 7 7 6 1 Pole discordance protection CCRPLD LN type LN prefix LN class Function block name CCRPLD revision 1 CC RPLD CCRPLD Table 115 CCRPLD Logical node data instance 0 DO name DO type DA name FC Signal Mon Description Cmd Mod a dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode s
266. status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Outlnt b dINS stVal ST OUT Mon Output value q ST OUT Mon Output value t ST OUT Mon Output value 7 5 Logical nodes for protection functions 7 5 1 Differential protection PDIF 7 5 1 1 Transformer differential protection two winding T2WPDIF LN type LN prefix LN class Function block name T2WPDIF revision 2 T2W PDIF T2WPDIF Table 13 T2WPDIF Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Str a_dACD general ST START Mon General start signal phsA ST STL1 Mon Start signal from phase L1 phsB ST STL2 Mon Start signal from phase L2 phsC ST STL3 Mon Start signal from phase L3 q ST START Mon General start signal t ST START Mon General start signal Mod a_dINC Oper ctlVal CO Cmd Mode parameter Table continues on next page 650 series 67 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO
267. t CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 Table continues on next page 650 series 165 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd Beh a dINS q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 DPCSO b_dDPC stVal ST POSITION Mon Double point indication q ST POSITION Mon Double point indication t ST POSITION Mon Double point indication 7 8 1 5 Single Point Generic Control 8 signals SPC8GGIO LN type LN prefix LN class Function block name SPC8GGIO revision 1 SPC8 GGIO SPC8GGIO Table 127 SPC8GGI O Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd
268. t an event The background cycle can repair it e General interrogation A general interrogation is only done on request from a client Not all Data sets may contain information which is needed for a general update of the client For example data with T ransient TRUE are not part of a GI When the BRCB attribute general interrogation is set to TRUE a GI request from the client will be handled The report handler will transmit all data defined in the Data set with their actual values The IEC 61850 standard defines that all buffered events shall be transmitted first before the GI is started A running GI shall be stopped and a new GI shall be started when a new GI request is received while a GI is running e Purge buffer valid only for BRCB e This BRCB attribute can be used by a client to clean the event buffer from old events The events are discarded on request of the client This feature can be used to delete old events not transmitted to the client due to stopped communication After the link is reestablished the client can decide to clean the buffer or to receive the history Trigger Options IEC 61850 has defined in total five different TrgOp Three of them belonging to data attributes and marked per data attribute in the column TrgOp of the CDC tables in part 7 3 The other two belonging to the configuration of control blocks e dchg data change The classical trigger Whenever a process value has changed its value eit
269. tVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 Table continues on next page 64 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 OpCls b_dACT general ST T EXE CL Mon Execute command for close direction q ST T EXE CL Mon Execute command for close direction t ST T EXE CL Mon Execute command for close direction OpOpn b_dACT general ST T EXE_OP Mon Execute command for open direction q ST T EXE_OP Mon Execute command for open direction t ST T EXE_OP Mon Execute command for open direction BlkCmd vi_dSPC Oper ctlVal CO Cmd Special block command value Oper origin orCat CO Cmd Special block command value Oper origin orldent CO Cmd Special block command value Oper ctINum CO Cmd Special block command value Oper T CO Cmd Special block command value Oper Test CO Cmd Special block command value Oper Check CO Cmd Special block command value stVal ST CMD_BLK Mon Comma
270. tatus parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon Trip condition TRUE waiting for time delay q ST START Mon Trip condition TRUE waiting for time delay t ST START Mon Trip condition TRUE waiting for time delay Op b dACT general ST TRIP Mon Trip signal to CB q ST TRIP Mon Trip signal to CB t ST TRIP Mon Trip signal to CB 650 series 149 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN 7 7 7 Power swing detection RPSB 7 7 7 1 Power swing detection ZMRPSB LN type LN prefix LN class Function block name ZMRPSB revision 2 ZM RPSB ZMRPSB Table 116 ZMRPSB Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 618
271. tatus parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon Start signal q ST START Mon Start signal t ST START Mon Start signal Op b dACT general ST T TRIP Mon Trip signal q ST T TRIP Mon Trip signal t ST T TRIP Mon Trip signal 134 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model 7 5 18 Underfrequency PTUF 7 5 18 1 Underfrequency function SAPTUF LN type LN prefix LN class Function block name SAPTUF revision 1 SA PTUF SAPTUF Table 99 SAPTUF Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mo
272. te temperature q MX TERMLOAD Mon Temperature relative to operate temperature t MX TERMLOAD Mon Temperature relative to operate temperature TmmOp vi_dINS stVal ST TTRIP Mon Estimated time to trip in min q ST TTRIP Mon Estimated time to trip in min t ST TTRIP Mon Estimated time to trip in min TmmRsLO vi_dINS stVal ST TENRECL Mon Estimated time to reset of lockout in min q ST TENRECL Mon Estimated time to reset of lockout in min t ST TENRECL Mon Estimated time to reset of lockout in min BlkRecSt vi_dSPS stVal ST LOCKOUT Mon Lockout signal q ST LOCKOUT Mon Lockout signal t ST LOCKOUT Mon Lockout signal SenFit vi_dSPS stVal ST Mon Error signal from the temperature sensor q ST Mon Error signal from the temperature sensor t ST Mon Error signal from the temperature sensor TmpAmb v2_dMV mag f MX TEMPAMB Mon Ambient temperature used in the calculations q MX TEMPAMB Mon Ambient temperature used in the calculations t MX TEMPAMB Mon Ambient temperature used in the calculations 650 series 127 Communication Protocol Manual Section 7 1MRK 511 242 UEN Logical node data model 7 5 15 2 Thermal overload protection two time constants TRPTTR LN type LN prefix LN class Function block name TRP
273. ted circulating voltage VCTRStatus V6_dINS stVal ST ATCCOUT Mon Group connection to YLTCIN q ST ATCCOUT Mon Group connection to YLTCIN t ST ATCCOUT Mon Group connection to YLTCIN 650 series 57 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN 7 2 1 2 Tap changer control and supervision 6 binary inputs TCMYLTC LN type LN prefix LN class Function block name TCMYLTC revision 1 TCM YLTC TCMYLTC Table 7 TCMYLTC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter for 61850 Oper origin orCat CO Cmd Mode parameter for 61850 Oper origin orldent CO Cmd Mode parameter for 61850 Oper ctINum CO Cmd Mode parameter for 61850 Oper T CO Cmd Mode parameter for 61850 Oper Test CO Cmd Mode parameter for 61850 Oper Check CO Cmd Mode parameter for 61850 stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 EndPosR a_dSPS stVal ST HIPOSAL Mon Alarm for tap in the highest volt
274. ter Table continues on next page 650 series Communication Protocol Manual 179 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper Test co Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a_dINS stVal ST Mon Function execute even when no connections is done q ST Mon Function execute even when no connections is done t ST Mon Function execute even when no connections is done Amp a dMV mag f MX l Mon Calculated current magnitude of deadband value rangeC hhLim f CF IHiHiLim High High limit in of IBase rangeC hLim f CF IHiLim High limit in of IBase rangeC lLim f CF ILowLim Low limit in of IBase rangeC lILim f CF ILowLowLim Low Low limit in of IBase rangeC max f CF IMax Maximum value in of IBase rangeC min f CF IMin Minimum value in of IBase subMag f SV Substituted value range MX RANGE Mon Calculated current range q MX Mon Calculated current magnitude of deadband value t MX Mon Calculated current magnitude of deadband value subEna SV Enable substitution db CF IDbRepint Cycl Report interval s Db In of rang
275. ter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Table continues on next page 98 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 OpLosLod v2_dACT general ST TRLL Mon Trip by loss of load q ST TRLL Mon Trip by loss of load t ST TRLL Mon Trip by loss of load OpZnExd v2_dACT general ST TRZE Mon Trip by zone extension q ST TRZE Mon Trip by zone extension t ST TRZE Mon Trip by zone extension 7 5 8 Protection scheme PSCH 7 5 8 1 Scheme communication logic for distance or overcurrent protection ZCPSCH LN type LN prefix LN class Function block name ZCPSCH revision 1 ZC PSCH ZCPSCH Table 47 ZCPSCH Logical node data instance 0 DO name DO type DA name FC Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode pa
276. that the function is blocked for open commands t ST OP_BLKD Mon Indication that the function is blocked for open commands Loc a_dSPS stVal ST Mon Indication that the function is in local mode process level q ST Mon Indication that the function is in local mode process level t ST Mon Indication that the function is in local mode process level OpCnt b_dINS stVal ST CNT_VAL Mon Operation counter value q ST CNT_VAL Mon Operation counter value t ST CNT_VAL Mon Operation counter value Pos c_dDPC stVal ST POSITION Mon Apparatus position indication q ST POSITION Mon Apparatus position indication t ST POSITION Mon Apparatus position indication subEna SV Substitute enable subVal SV Substituted double position value Table continues on next page 650 series Communication Protocol Manual 203 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd SwOpCap f_dINS stVal ST Mon Switch operating capability 1 None 2 0 3 C 4 O08 amp C q ST Mon Switch operating capability 1 None 2 0 3 C 4 O08 amp C t ST Mon Switch operating capability 1 None 2 0 3 C 4 O8 amp C SwTyp g_dINS stVal ST Mon 1 LoadBreak 2 Disconnector 3 EarthSw 4 HighSpeedEarthSw q ST Mon 1 LoadBreak 2 Disconnector 3 EarthSw 4 HighSpeedEarthSw t
277. the international standards of the IEC 60255 series 650 series Communication Protocol Manual Table of conten Table of contents Section 1 Section 2 Section 3 Section 4 Section 5 Section 6 Section 7 ts NOC U CMON ss nernsevatuindneceasinnappesdaubusnitsainuntivinssanettieeinansiavaions 7 This mantalisssenisensni an deeb reg E A Me 7 Intended audiences ninrin aa a E 7 Product COCUMENTATION cccccccccecceseceeeeseeeeeeeeceeeeeeceseeeeeseeeeseeaeaeaea 8 Product documentation Set ccccccccccceeceeseseeeseeseeeeseeeeeeeeeeeees 8 Document revision histoner keder drei sse ns 9 Related COCUMENMS ccccccccccccceeeecceseecesesesesesseseesseeseseseeeeeeeseees 9 Symbols and conventions eerca 11 Safety indication SYMDOIS eceeeceeeeeeeeeeeneeeeeeseeeeeeeeeeeeeeneaeeees 11 Manual CONVENTIONS cccccccccecececeeseeeesesecaeaeseaeseaeeseaeeseseseeees 11 Functions included in 650 series IEDS seeeeeeeeeeeees 12 Introduction to IEC 61850 ccccceeeeeeeeeeeessssseeeees 19 Related documentation to IEC 61850 eceeeeeeeeeeeeeeetees 20 Substation Configuration description Language CLE js E E Eee 23 The substation section sssseseeeee eee rannen 24 The communication SeCtION ccccecccecceeeeeeeeeeeeeteeseeeeeetteneneaaeees 24 The IED Se ON Es ae A T A 25 TOO COMCE DE saas sa re ne en aa a A NN 28 E
278. they read or write information from or to the bay IEDs This functionality is represented by logical nodes of group Information I These are the logical nodes LN ITCI IHMI and ITMI Client IEDs are the receiver of information in monitoring direction and sender of commands control These logical nodes have no data objects They are only used to link the report control blocks BRCBs from the server IEDs They have to read their information about the signals and the signal configuration from the bay IEDs This is possible by checking all control blocks for a link to it as a client Bay level IEDs are located on the bay level and are identified as server IEDs when they read or write information vertically When GOOSE messages are received the bay level IED also has the client role 650 series Communication Protocol Manual 1MRK 511 242 UEN 650 series Communication Protocol Manual Section 3 Substation Configuration description Language SCL Subnetwork Logical Node LLNO LPHD Data SXCBR1 fe 2 SCSWI1 uw D h SXSWI1 Health Data NamePIt Attribute ctlVal SCSWI2 SXSWI2 SCSWI3 oc SXSWI3 OpCnt SCSWI4 BlkOpn SXSWI4 BIkCls CBOpCap ctlModel CVMMXU1 Control SCSWI5 scswis boc en06000104 vsd Figure 4 Organization of LDs LNs DOs and DAs in an IED A server represents the communication interface to the subnetwork Ethernet One or more logical device s L
279. tion The event that causes the server to invoke a SendGOOSE service is a local application issue as defined in IEC 61850 7 2 Each update may generate a message in order to minimize throughput time Additional reliability is achieved by re transmitting the same data with gradually increasing SqNum and retransmission time TO retransmission in stable conditions no event for a long time TO retransmission in stable conditions may be shortened by an event T1 shortest retransmission time after the event T2 T3 retransmission times until achieving the stable conditions time Time of transmission Wij Wj Wj a 4 TO T0 eye T3 TO 1EC09000152 1 en vsd Figure 11 Transmission time for events Each message in the retransmission sequence carries a timeAllowedToLive parameter that informs the receiver of the maximum time to wait for the next re transmission If a new message is not received within that time interval the receiver assumes that the association is lost The specific intervals used by any GOOSE publisher are a local issue The timeAllowedtoLive parameter informs subscribers of how long to wait In 650 series the detection time is 1 8 timeAllowedToLive to cope with possible transmission delays 650 series Communication Protocol Manual 1MRK 511 242 UEN 650 series Communication Protocol Manual Section 6 Data sets and control blocks
280. tion block name VCTRGREC instance 1 revision 0 VCTR GREC GOOSEVCTRRCV Table 151 VCTRGREC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd In_LodAlm V10_dMV mag f MX Mon Imaginary part of load current horizontal communication q MX Mon Imaginary part of load current horizontal communication t MX Mon Imaginary part of load current horizontal communication In_LodARe V11_dMV mag f MX Mon Real part of load current horizontal communication q MX Mon Real part of load current horizontal communication t MX Mon Real part of load current horizontal communication In_BusV V12_dMV mag f MX Mon Busbar voltage horizontal communication q MX Mon Busbar voltage horizontal communication t MX Mon Busbar voltage horizontal communication In_SetV V13_dMV mag f MX Mon Voltage setpoint horizontal communication q MX Mon Voltage setpoint horizontal communication t MX Mon Voltage setpoint horizontal communication In_PosRel V14_dMV mag f MX Mon Relative tap position horizontal communication Table continues on next page 650 series Communication Protocol Manual 211 Section 7 Logical node data model 1MRK 511 242 UEN
281. ue parameter for 61850 650 series 117 Communication Protocol Manual Section 7 Logical node data model 1MRK 511 242 UEN Table 73 PH1PTRC Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST START Mon General start signal q ST START Mon General start signal t ST START Mon General start signal Op b_dACT general ST T TRIP Mon General trip signal q ST T TRIP Mon General trip signal t ST T TRIP Mon General trip signal Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 7 5 11 6 Negativ sequence time overcurrent protection for machines NS2PTOC LN type LN prefix LN class Function block name NS2LLNO instance 1 revision 1 LLNO NS2PTOC NS2PTOC instance 1 revision 1 NS2 PTOC NS2PTOC NS2PTOC instance 2 revision 1 NS2 PTOC NS2PTOC NS2PTRC instance 1 revision 1 NS2 PTRC NS2PTOC Table 74 NS2LLNO Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO
282. us value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 36 ZGPDIS Logical node data instance 2 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Str b_dACD general ST STZ2 Mon Start zone 2 q ST STZ2 Mon Start zone 2 t ST STZ2 Mon Start zone 2 Op b dACT general ST T TRZ2 Mon Trip zone 2 q ST T TRZ2 Mon Trip zone 2 t ST T TRZ2 Mon Trip zone 2 Table continues on next page 650 series Communication Protocol Manual 89 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd Mod c_dINC stVal ST Mon Mode status value parameter for 61850 q ST Mon Mode status value parameter for 61850 t ST Mon Mode status value parameter for 61850 Table 37 ZGPDIS Logical node data instance 3 DO name DO type DA name FC T Signal Mon Description Cmd Beh a_dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviou
283. ut an expected position change q ST CMDERRAL Mon Alarm for a command without an expected position change t ST CMDERRAL Mon Alarm for a command without an expected position change ConvFlt vi_dSPS stVal ST CONVERR Mon General tap position conversion error q ST CONVERR Mon General tap position conversion error t ST CONVERR Mon General tap position conversion error 206 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd InvPosChg vi_dSPS stVal ST INVALPOS Mon Last position change was an invalid change q ST INVALPOS Mon Last position change was an invalid change t ST INVALPOS Mon Last position change was an invalid change TapChgFIt vi_dSPS stVal ST TCERRAL Mon Alarm for none or illegal tap position change q ST TCERRAL Mon Alarm for none or illegal tap position change t ST TCERRAL Mon Alarm for none or illegal tap position change TapPosFIt vi_dSPS stVal ST POSERRAL Mon Alarm that indicates a problem with the position indication q ST POSERRAL Mon Alarm that indicates a problem with the position indication t ST POSERRAL Mon Alarm that indicates a problem with the position indication CLCnt v2_dMV mag f MX CLCNT VAL Mon Remaining number of operations at rated load q MX CLCNT VAL Mon Remaining numbe
284. ve power demand value for set interval t MX MAXPRFD Mon Maximum forward reactive power demand value for set interval MaxVArRvDm v2_dMV mag f MX MAXPRRD Mon Maximum reactive power demand value in reverse direction q MX MAXPRRD Mon Maximum reactive power demand value in reverse direction t MX MAXPRRD Mon Maximum reactive power demand value in reverse direction MaxWFwdDmd v2_dMV mag f MX MAXPAFD Mon Maximum forward active power demand value for set interval q MX MAXPAFD Mon Maximum forward active power demand value for set interval t MX MAXPAFD Mon Maximum forward active power demand value for set interval MaxWRvDmd v2_dMV mag f MX MAXPARD Mon Maximum reverse active power demand value for set interval q MX MAXPARD Mon Maximum reverse active power demand value for set interval t MX MAXPARD Mon Maximum reverse active power demand value for set interval 7 9 2 Non phase related measurement MMXN 7 9 2 1 Measurements CVMMXN LN type LN prefix LN class Function block name CVMMXN revision 0 CV MMXN CVMMXN Table 135 CVMMXWN Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parame
285. vervoltage StrResA vi_dSPS stVal ST STNDIN Mon Start of non directional residual overcurrent q ST STNDIN Mon Start of non directional residual overcurrent t ST STNDIN Mon Start of non directional residual overcurrent StrResV vi_dSPS stVal ST STUN Mon Start of non directional residual overvoltage q ST STUN Mon Start of non directional residual overvoltage t ST STUN Mon Start of non directional residual overvoltage StrDirResA vi_dSPS stVal ST STDIRIN Mon Start of the directional residual overcurrent function q ST STDIRIN Mon Start of the directional residual overcurrent function t ST STDIRIN Mon Start of the directional residual overcurrent function OpDirResA vi_dSPS stVal ST TRDIRIN Mon Trip of the directional residual overcurrent q ST TRDIRIN Mon Trip of the directional residual overcurrent t ST TRDIRIN Mon Trip of the directional residual overcurrent AngAV v2_dMV mag f MX ANG FI RCA Mon Angle between 3U0 and 310 minus RCA Fi RCA q MX ANG FI RCA Mon Angle between 3U0 and 310 minus RCA Fi RCA Table continues on next page 650 series Communication Protocol Manual 105 Section 7 Logical node data model 1MRK 511 242 UEN DO name DO type DA name FC T Signal Mon Description Cmd AngAV v2_dMV MX ANG FI RCA Mon
286. vi_dSPS stVal ST REM Mon Remote operation allowed q ST REM Mon Remote operation allowed t ST REM Mon Remote operation allowed 7 3 2 Interlocking CILO 7 3 2 1 Interlocking SCILO LN type LN prefix LN class Function block name SCILO revision 1 S CILO SCILO Table 9 SCILO Logical node data instance 0 DO name DO type DA name FC T Signal Mon Description Cmd Mod a_dINC Oper ctlVal CO Cmd Mode parameter Oper origin orCat CO Cmd Mode parameter Oper origin orldent CO Cmd Mode parameter Oper ctINum CO Cmd Mode parameter Oper T CO Cmd Mode parameter Oper Test CO Cmd Mode parameter Oper Check CO Cmd Mode parameter stVal ST Mon Mode status parameter for 61850 q ST Mon Mode status parameter for 61850 t ST Mon Mode status parameter for 61850 Beh a dINS stVal ST Beh Mon Behaviour parameter for 61850 q ST Beh Mon Behaviour parameter for 61850 t ST Beh Mon Behaviour parameter for 61850 Table continues on next page 62 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd EnaCls a_dSPS stVal ST EN_CLOSE Mon Close operation at open or intermediate or bad position is enabled q ST EN_CLOSE Mon Close operation at open or intermediate or bad position is en
287. vision Transmission control protocol The most common transport layer protocol used on Ethernet and the Internet Transmission control protocol over Internet Protocol The de facto standard Ethernet protocols incorporated into 4 2BSD Unix TCP IP was developed by DARPA for Internet working and encompasses both network layer and transport layer protocols While TCP and IP specify two protocols at specific protocol layers TCP IP is often used to refer to the entire US Department of Defense protocol suite based upon these including Telnet FTP UDP and RDP Threaded Neill Concelman a threaded constant impedance version of a BNC connector Current transformer class according to IEC User management tool A term used to describe how the relay behaves during a fault condition For example a distance relay is underreaching when the impedance presented to it is greater than the apparent impedance to the fault applied to the balance point that is the set reach The relay does not see the fault but perhaps it should have seen it See also Overreach Process interface components that deliver measured voltage and current values Coordinated Universal Time A coordinated time scale maintained by the Bureau International des Poids et Mesures BIPM which forms the basis of a coordinated 650 series Communication Protocol Manual 1MRK 511 242 UEN 650 series Communication Protocol Manual UV WEI VT X 21 319 3Uo Secti
288. ycl Report interval s Db In of range Int Db In s Table continues on next page 184 650 series Communication Protocol Manual 1MRK 511 242 UEN Section 7 Logical node data model DO name DO type DA name FC T Signal Mon Description Cmd A adWYE db CF ILDbRepint Cycl Report interval s Db In of range Int Db In s db CF ILDbRepInt Cycl Report interval s Db In of range Int Db In s zeroDb CF ILZeroDb Zero point clamping zeroDb CF ILZeroDb Zero point clamping zeroDb CF ILZeroDb Zero point clamping 7 9 3 2 Phase phase voltage measurement VMMXU LN type LN prefix LN class Function block name VMMXU revision 1 V MMXU VMMXU Table 137 VMMXU Logical node data instance 1 DO name DO type DA name FC T Signal Mon Description Cmd PPV a_dDEL rangeC hhLim f CF ULHiHiLim High High limit physical value rangeC hhLim f CF ULHiHiLim High High limit physical value rangeC hhLim f CF ULHiHiLim High High limit physical value rangeC hLim f CF ULHiLim High limit physical value rangeC hLim f CF ULHiLim High limit physical value rangeC hLim f CF ULHiLim High limit physical value rangeC Lim f CF ULLowLim Low limit physical value rangeC ILim f CF ULLowLim Low
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