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IEC16000158-1-en.vsdx

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IEC16000158 V1 EN-US

Figure 113:

Auto reclosing sequence

Section 9

1MRK 505 384-UEN A

Control

258

Breaker protection REQ650 2.2 IEC

Technical manual

Summary of Contents for impreza 2017

Page 1: ...RELION 650 SERIES Breaker protection REQ650 Version 2 2 Technical manual...

Page 2: ......

Page 3: ...Document ID 1MRK 505 384 UEN Issued October 2017 Revision A Product version 2 2 1 Copyright 2017 ABB All rights reserved...

Page 4: ...rms of such license This product includes software developed by the OpenSSL Project for use in the OpenSSL Toolkit http www openssl org This product includes cryptographic software written developed b...

Page 5: ...roduct 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 equipme...

Page 6: ...d 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 standa...

Page 7: ...ing functions 38 Communication 40 Basic IED functions 42 Section 3 Analog inputs 45 Introduction 45 Function block 45 Signals 46 Settings 47 Monitored data 52 Operation principle 53 Technical data 54...

Page 8: ...70 Status LEDs 70 Indication LEDs 70 Function keys 79 Functionality 79 Operation principle 79 Section 6 Current protection 81 Instantaneous phase overcurrent protection PHPIOC 81 Identification 81 Fu...

Page 9: ...hin the protection 116 Internal earth fault protection structure 117 Four residual overcurrent steps 117 Directional supervision element with integrated directional comparison function 118 Second harm...

Page 10: ...block 149 Signals 149 Settings 150 Monitored data 151 Operation principle 151 Technical data 154 Stub protection STBPTOC 155 Identification 155 Functionality 155 Function block 155 Signals 156 Setting...

Page 11: ...nciple 182 Time delay 182 Blocking 188 Design 188 Technical data 189 Two step residual overvoltage protection ROV2PTOV 190 Identification 190 Monitored data 190 Operation principle 190 Measurement pri...

Page 12: ...al data 219 Section 9 Control 221 Synchrocheck energizing check and synchronizing SESRSYN 221 Identification 221 Functionality 221 Function block 222 Signals 222 Settings 225 Monitored data 227 Operat...

Page 13: ...gnals 274 Settings 274 Operation principle 275 Local Remote switch LOCREM 276 Function block 277 Signals 277 Settings 278 Operation principle 279 Switch controller SCSWI 280 Functionality 280 Function...

Page 14: ...aphical display 311 Selector mini switch VSGAPC 312 Identification 312 Functionality 313 Function block 313 Signals 313 Settings 314 Operation principle 314 Generic communication function for Double P...

Page 15: ...ngs 327 Operation principle 328 Logic diagram 332 Technical data 334 General start matrix block SMAGAPC 335 Identification 335 Functionality 335 Function block 335 Signals 335 Settings 336 Operation p...

Page 16: ...e logic blocks 353 AND function block AND 354 Function block 354 Signals 355 Technical data 355 Controllable gate function block GATE 355 Function block 355 Signals 355 Settings 356 Technical data 356...

Page 17: ...R 364 Function block 364 Signals 365 Technical data 365 Fixed signals FXDSIGN 365 Identification 365 Functionality 365 Function block 366 Signals 366 Settings 366 Operation principle 366 Boolean 16 to...

Page 18: ...principle 378 Technical data 379 Elapsed time integrator with limit transgression and overflow supervision TEIGAPC 379 Identification 379 Functionality 379 Function block 380 Signals 380 Settings 381...

Page 19: ...ts VMMXU VNMMXU 424 Voltage and current sequence measurements VMSQI CMSQI 424 Technical data 424 Gas medium supervision SSIMG 426 Identification 426 Functionality 426 Function block 427 Signals 427 Se...

Page 20: ...tification 447 Functionality 447 Function block 448 Signals 448 Settings 449 Operation principle 451 Disturbance report DRPRDRE 452 Identification 452 Functionality 452 Function block 453 Signals 455...

Page 21: ...ration accuracy 490 Memory storage 490 Technical data 491 Section 12 Metering 493 Pulse counter logic PCFCNT 493 Identification 493 Functionality 493 Function block 493 Signals 494 Settings 494 Monito...

Page 22: ...tation communication 523 Communication protocols 523 Communication protocol diagnostics 523 DNP3 protocol 524 IEC 61850 8 1 communication protocol 524 Functionality 524 Communication interfaces and pr...

Page 23: ...t value GOOSESPRCV 534 Identification 534 Functionality 534 Function block 535 Signals 535 Settings 535 Operation principle 535 Horizontal communication via GOOSE for interlocking GOOSEINTLKRCV 536 Fu...

Page 24: ...Settings 579 Operation principle 580 Communication ports 585 Technical data 586 IEC 60870 5 103 communication protocol 587 Introduction 587 Measurands for IEC 60870 5 103 I103MEAS 587 Functionality 5...

Page 25: ...Settings 597 Supervison status for IEC 60870 5 103 I103SUPERV 597 Functionality 597 Identification 597 Function block 597 Signals 597 Settings 598 Status for user defined signals for IEC 60870 5 103 I...

Page 26: ...y 606 Identification 607 Function block 607 Signals 607 Settings 608 IED commands with position for IEC 60870 5 103 I103POSCMDV 608 Functionality 608 Identification 608 Function block 609 Signals 609...

Page 27: ...LS FTPACCS 633 Settings 634 Authority status ATHSTAT 634 Identification 634 Functionality 634 Function block 635 Signals 635 Settings 635 Operation principle 635 Self supervision with internal event l...

Page 28: ...est mode functionality TESTMODE 660 Functionality 660 Function block 660 Signals 660 Settings 661 Operation principle 661 IED identifiers TERMINALID 662 Functionality 662 Settings 662 Product informat...

Page 29: ...ware 677 Overview 677 Variants of case size with local HMI display 677 Case from the rear side 678 Hardware modules 679 Overview 679 Numeric module NUM 680 Introduction 680 Functionality 680 Technical...

Page 30: ...n 705 Technical data 706 Galvanic RS485 communication module 707 Introduction 707 Design 707 Technical data 708 IRIG B time synchronization module IRIG B 709 Introduction 709 Design 709 Settings 710 T...

Page 31: ...h mounting 723 Overview 723 Mounting procedure for side by side flush mounting 724 Technical data 724 Enclosure 724 Electrical safety 725 Connection system 725 Influencing factors 726 Type tests accor...

Page 32: ...26...

Page 33: ...at for functions which measure an analogue signal which do not have corresponding primary quantity the 1 1 ratio shall be set for the used analogue inputs on the IED Example of such functions are HZPD...

Page 34: ...ion 1 3 1 Product documentation set GUID 3AA69EA6 F1D8 47C6 A8E6 562F29C67172 v15 IEC07000220 4 en vsd Planning purchase Engineering Installing Commissioning Operation Maintenance Decommissioning Dein...

Page 35: ...how to identify disturbances and how to view calculated and measured power grid data to determine the cause of a fault The application manual contains application descriptions and setting guidelines s...

Page 36: ...27 UEN Communication protocol manual DNP3 1MRK 511 413 UUS Communication protocol manual IEC 60870 5 103 1MRK 511 416 UEN Communication protocol manual IEC 61850 Edition 1 1MRK 511 414 UEN Communicati...

Page 37: ...arning 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 aler...

Page 38: ...nected to another function block in the application configuration to achieve a valid application configuration Logic diagrams describe the signal logic inside the function block and are bordered by da...

Page 39: ...GF2PHAR GF2PTOV GF2PTUC GF2PTUV GF2PVOC PH1PTRC CVMMXN CVMMXN CVMMXN DPGAPC DPGGIO DPGAPC DRPRDRE DRPRDRE DRPRDRE EF4PTOC EF4LLN0 EF4PTRC EF4RDIR GEN4PHAR PH1PTOC EF4PTRC EF4RDIR GEN4PHAR PH1PTOC EFPI...

Page 40: ...QCRSV QCRSV RCHLCCH RCHLCCH RCHLCCH REFPDIF REFPDIF REFPDIF ROV2PTOV GEN2LLN0 PH1PTRC ROV2PTOV PH1PTRC ROV2PTOV SCHLCCH SCHLCCH SCHLCCH SCILO SCILO SCILO SCSWI SCSWI SCSWI SESRSYN RSY1LLN0 AUT1RSYN MA...

Page 41: ...N2LLN0 PH1PTRC UV2PTUV PH1PTRC UV2PTUV VMMXU VMMXU VMMXU VMSQI VMSQI VMSQI VNMMXU VNMMXU VNMMXU VSGAPC VSGGIO VSGAPC WRNCALH WRNCALH WRNCALH ZCLCPSCH ZCLCPLAL ZCLCPSCH ZCPSCH ZCPSCH ZCPSCH ZCRWPSCH ZC...

Page 42: ...36...

Page 43: ...tion 1 EF4PTOC 51N 67N2 Directional residual overcurrent protection four steps 1 NS4PTOC 46I2 Four step directional negative phase sequence overcurrent protection 1 LCPTTR 26 Thermal overload protecti...

Page 44: ...gnals 5 AUTOBITS Automation bits command function for DNP3 0 3 SINGLECMD Single command 16 signals 4 I103CMD Function commands for IEC 60870 5 103 1 I103GENCMD Function commands generic for IEC 60870...

Page 45: ...integer inputs 30 REALCOMP Comparator for real inputs 30 Table 2 Total number of instances for basic configurable logic blocks Basic configurable logic block Total number of instances AND 280 GATE 40...

Page 46: ...unction status auto recloser for IEC 60870 5 103 1 I103EF Function status earth fault for IEC 60870 5 103 1 I103FLTPROT Function status fault protection for IEC 60870 5 103 1 I103IED IED status for IE...

Page 47: ...er value 32 GOOSEMVRCV GOOSE function block to receive a measurand value 60 GOOSESPRCV GOOSE function block to receive a single point value 64 GOOSEXLNRCV GOOSE function block to receive a switching d...

Page 48: ...YNCHCAN SYNCHGPS SYNCHCMPPS SYNCHLON SYNCHPPH SYNCHPPS SNTP SYNCHSPA Time synchronization PTP Precision time protocol TIMEZONE Time synchronization IRIG B Time synchronization SETGRPS Number of settin...

Page 49: ...ior FNKEYTY1 FNKEYTY5 FNKEYMD1 FNKEYMD5 Parameter setting function for HMI in PCM600 LEDGEN General LED indication part for LHMI OPENCLOSE_LED LHMI LEDs for open and close keys GRP1_LED1 GRP1_LED15 GR...

Page 50: ...44...

Page 51: ...analog channel s phase angle will always be fixed to zero degrees and remaining analog channel s phase angle information will be shown in relation to this analog input During testing and commissioning...

Page 52: ...voltage input 11 CH12 U STRING Analogue voltage input 12 PID 3924 OUTPUTSIGNALS v7 Table 6 TRM_9I_3U Output signals Name Type Description STATUS BOOLEAN Analogue input module status CH1 I STRING Anal...

Page 53: ...put 4 CH5 I STRING Analogue current input 5 CH6 I STRING Analogue current input 6 CH7 I STRING Analogue current input 7 CH8 I STRING Analogue current input 8 CH9 I STRING Analogue current input 9 CH10...

Page 54: ...3 L2U MU3 L3U MU3 L4U MU4 L1I L4I MU4 L1U L4U MU5 L1I L4I MU5 L1U L4U MU6 L1I L4I MU7 L1I L4I MU7 L1U L4U MU8 L1I L4I MU8 L1U L4U MU9 L1I L4I MU9 L1U L4U MU10 L1I L4I MU10 L1U L4U MU11 L1I L4I MU11 L1...

Page 55: ...0 A 1 1 Rated CT secondary current CTprim5 1 99999 A 1 3000 Rated CT primary current CTStarPoint6 FromObject ToObject ToObject ToObject towards protected object FromObject the opposite CTsec6 1 10 A 1...

Page 56: ...CTsec5 1 10 A 1 1 Rated CT secondary current CTprim5 1 99999 A 1 3000 Rated CT primary current CTStarPoint6 FromObject ToObject ToObject ToObject towards protected object FromObject the opposite CTsec...

Page 57: ...Object the opposite CTsec4 1 10 A 1 1 Rated CT secondary current CTprim4 1 99999 A 1 3000 Rated CT primary current CTStarPoint5 FromObject ToObject ToObject ToObject towards protected object FromObjec...

Page 58: ...ITOREDDATA v3 Table 12 AISVBAS Monitored data Name Type Values Range Unit Description Status INTEGER 0 Ok 1 Error 2 AngRefLow 3 Uncorrelated Service value status PID 3923 MONITOREDDATA v6 Table 13 TRM...

Page 59: ...ection for directional functions Measured quantity is positive when flowing towards the object e g P Q I Reverse Forward Definition of direction for directional functions e g P Q I Measured quantity i...

Page 60: ...thstand 250 Ir one half wave Burden 20 mVA at Ir 1 A 150 mVA at Ir 5 A max 350 A for 1 s when COMBITEST test switch is included Voltage inputs Rated voltage Ur 110 or 220 V Operating range 0 340 V The...

Page 61: ...s when the signal goes down to 0 again 4 1 2 Oscillation filter GUID 41B89E6F 50C3 44BF 9171 3CC82EB5CA15 v4 Binary input wiring can be very long in substations and there are electromagnetic fields fr...

Page 62: ...ation release limit 4 1 3 2 Setting parameters for binary input output module PID 4050 SETTINGS v2 Table 19 IOMIN Non group settings basic Name Values Range Unit Step Default Description Operation Off...

Page 63: ...n IEC 61850 identification IEC 60617 identification ANSI IEEE C37 2 device number Local HMI signals LHMICTRL 5 2 2 Function block GUID A8AC51E9 5BD7 4A80 9576 4816F14DD08D v2 LHMICTRL CLRLEDS HMI ON R...

Page 64: ...v2 Function description IEC 61850 identification IEC 60617 identification ANSI IEEE C37 2 device number Basic part for LED indication module LEDGEN Basic part for LED indication HW module GRP1_LED1 GR...

Page 65: ...GRP1_LED1 Input signals Name Type Default Description HM1L01R BOOLEAN 0 Red indication of LED1 local HMI alarm group 1 HM1L01Y BOOLEAN 0 Yellow indication of LED1 local HMI alarm group 1 HM1L01G BOOLE...

Page 66: ...trol module GUID EECAE7FA 7078 472C A429 F7607DB884EB v2 5 4 1 Identification GUID E6611022 5EA3 420D ADCD 9D1E7604EFEB v1 Function description IEC 61850 identification IEC 60617 identification ANSI I...

Page 67: ...LCDFn1 LabelOn 0 18 1 LCD_FN1_ON Label for LED on state LabelOff 0 18 1 LCD_FN1_OFF Label for LED off state PID 6452 SETTINGS v2 Table 30 FNKEYTY1 Non group settings basic Name Values Range Unit Step...

Page 68: ...39 V3 EN US Figure 7 Local human machine interface The LHMI of the IED contains the following elements Keypad Display LCD LED indicators Communication port for PCM600 Section 5 1MRK 505 384 UEN A Loca...

Page 69: ...menus The push buttons are also used to acknowledge alarms reset indications provide help and switch between local and remote control mode The keypad also contains programmable push buttons that can b...

Page 70: ...rol navigation and command push buttons and RJ 45 communication port 1 5 Function button 6 Close 7 Open 8 Escape 9 Left 10 Down 11 Up 12 Right 13 Key 14 Enter 15 Remote Local 16 Uplink LED 17 Not in u...

Page 71: ...monochrome liquid crystal display LCD with a resolution of 320 x 240 pixels The character size can vary The amount of characters and rows fitting the view depends on the character size and the view t...

Page 72: ...content The status area shows the current IED time the user that is currently logged in and the object identification string which is settable via the LHMI or with PCM600 If text pictures or other it...

Page 73: ...tance The function key button panel shows on request what actions are possible with the function buttons Each function button has a LED indication that can be used as a feedback signal for the functio...

Page 74: ...LED panel The function button and indication LED panels are not visible at the same time Each panel is shown by pressing one of the function buttons or the Multipage button Pressing the ESC button cl...

Page 75: ...ressing that button cycles through the three pages A lit or un acknowledged LED is indicated with a highlight Such lines can be selected by using the Up Down arrow buttons Pressing the Enter key shows...

Page 76: ...tion that presents the healthy status of the IED The yellow and red LEDs are user configured The yellow LED can be used to indicate that a disturbance report is triggered steady or that the IED is in...

Page 77: ...mit has elapsed In sequence 6 the restarting or reset mode means that upon occurrence of any new event all previous indications will be reset This facilitates that only the LED indications related to...

Page 78: ...acknowledgement are only working in collecting Coll mode Sequence 5 is working according to Latched type and collecting mode while Sequence 6 is working according to Latched type and re starting Rese...

Page 79: ...7 v2 This sequence is the same as Sequence 1 Follow S but the LEDs are flashing instead of showing steady light Sequence 3 LatchedAck F S SEMOD56072 50 v2 This sequence has a latched function and work...

Page 80: ...g signal RED LED Acknow IEC09000313_1_en vsd Activating signal GREEN R R G IEC09000313 V1 EN US Figure 18 Operating Sequence 3 LatchedAck F S 2 colors involved GUID A652A49D F016 472D 8D38 6D3E75DAB1D...

Page 81: ...activation of the input signal the indication will light up with a steady light The difference to sequence 3 and 4 is that indications that are still activated will not be affected by the reset that...

Page 82: ...et S Also in this case indications that are still activated will not be affected by manual reset that is immediately after the positive edge of that the manual reset has been executed a new reading an...

Page 83: ...24 shows the timing diagram for a new indication after tRestart time has elapsed IEC01000240_2_en vsd Activating signal 2 LED 2 Manual reset Activating signal 1 Automatic reset LED 1 Disturbance tRest...

Page 84: ...ing sequence 6 LatchedReset S two indications within same disturbance but with reset of activating signal between Figure 26 shows the timing diagram for manual reset IEC01000242_2_en vsd Activating si...

Page 85: ...ary outputs can in turn be used to control other function blocks for example switch control blocks binary I O outputs etc FNKEYMD1 FNKEYMD5 function block also has a number of settings and parameters...

Page 86: ...500ms 500ms pulse time pulse time pulse time 500ms IEC09000332_2_en vsd Input value Output value IEC09000332 V2 EN US Figure 29 Sequence diagram for setting PULSED Input function GUID 8EA4AE21 7A74 40...

Page 87: ...tionality M12910 3 v13 6 1 3 Function block M12602 3 v6 IEC04000391 2 en vsd PHPIOC I3P BLOCK ENMULT TRIP TRL1 TRL2 TRL3 IEC04000391 V2 EN US Figure 30 PHPIOC function block 6 1 4 Signals IP11433 1 v2...

Page 88: ...ep Default Description IP Min 5 2500 IB 1 5 Minimum used operate phase current level in of IBase if IP is less than IP Min then IP is set to IP Min IP Max 5 2500 IB 1 2500 Maximum used operate phase c...

Page 89: ...signals must be activated for trip There is also a possibility to activate a preset change of the set operation current StValMult via a binary input ENMULT In some applications the operation value nee...

Page 90: ...o 10 x Iset Dynamic overreach 5 at t 100 ms 6 2 Directional phase overcurrent protection four steps OC4PTOC SEMOD129998 1 v8 6 2 1 Identification M14885 1 v6 Function description IEC 61850 identificat...

Page 91: ...C4PTOC I3P U3P BLOCK BLKTR BLKST1 BLKST2 BLKST3 BLKST4 ENMULT1 ENMULT2 ENMULT3 ENMULT4 TRIP TR1 TR2 TR3 TR4 TRL1 TRL2 TRL3 TR1L1 TR1L2 TR1L3 TR2L1 TR2L2 TR2L3 TR3L1 TR3L2 TR3L3 TR4L1 TR4L2 TR4L3 START...

Page 92: ...tep4 PID 6973 OUTPUTSIGNALS v3 Table 39 OC4PTOC Output signals Name Type Description TRIP BOOLEAN Trip TR1 BOOLEAN Common trip signal from step1 TR2 BOOLEAN Common trip signal from step2 TR3 BOOLEAN C...

Page 93: ...step2 phase L2 ST2L3 BOOLEAN Start signal from step2 phase L3 ST3L1 BOOLEAN Start signal from step3 phase L1 ST3L2 BOOLEAN Start signal from step3 phase L2 ST3L3 BOOLEAN Start signal from step3 phase...

Page 94: ...ay curve type for step 1 I1 5 2500 IB 1 1000 Operating phase current level for step 1 in of IBase t1 0 000 60 000 s 0 001 0 000 Def time delay or add time delay for inverse char of step 1 k1 0 05 999...

Page 95: ...in 0 000 60 000 s 0 001 0 000 Minimum operate time for inverse curves for step 2 I2Mult 1 0 10 0 0 1 2 0 Multiplier for current operate level for step 2 DirMode3 Off Non directional Forward Reverse No...

Page 96: ...5 Operating phase current level for step 4 in of IBase t4 0 000 60 000 s 0 001 2 000 Def time delay or add time delay for inverse char of step 4 k4 0 05 999 00 0 01 0 05 Time multiplier for the invers...

Page 97: ...from harmonic restrain I2 Min 5 2500 IB 1 5 Minimum used operating phase current level for step 2 in of IBase if I2 is less than I2 Min then I2 is set to I2 Min I2 Max 5 2500 IB 1 2500 Maximum used o...

Page 98: ...curve for step 3 tTRCrv3 0 005 100 000 0 001 13 500 Parameter TR for customer programmable curve for step 3 tCRCrv3 0 1 10 0 0 1 1 0 Parameter CR for customer programmable curve for step 3 HarmBlock3...

Page 99: ...ta PID 6973 MONITOREDDATA v3 Table 43 OC4PTOC Monitored data Name Type Values Range Unit Description DIRL1 INTEGER 1 Forward 2 Reverse 0 No direction Direction for phase1 DIRL2 INTEGER 1 Forward 2 Rev...

Page 100: ...operation These settings can be chosen 1 out of 3 2 out of 3 or 3 out of 3 Using a parameter setting MeasType within the general settings for the function OC4PTOC it is possible to select the type of...

Page 101: ...be directional The direction of a fault is given as the current angle in relation to the voltage angle The fault current and fault voltage for the directional function are dependent on the fault type...

Page 102: ...current 7 of the set terminal rated current IBase the condition seals in If the fault has caused tripping the trip endures If the fault was detected in the reverse direction the measuring element in...

Page 103: ...he steps The time characteristic for each step can be chosen as definite time delay or an inverse time delay characteristic A wide range of standardized inverse time delay characteristics is available...

Page 104: ...rk switching state The operation current value Ix is limited to be between Ix Max and Ix Min The default values of the limits are the same as the setting limits for Ix and the limits can only be used...

Page 105: ...TOC can be blocked from the binary input BLOCK The binary input BLKSTx x 1 2 3 or 4 blocks the operation of the respective step The start signals from the function can be blocked by the binary input B...

Page 106: ...cond harmonic blocking 5 100 of fundamental 2 0 of Ir Independent time delay at 0 to 2 x Iset step 1 4 0 000 60 000 s 0 2 or 35 ms whichever is greater Minimum operate time for inverse curves step 1 4...

Page 107: ...ty percent of the line at minimum source impedance EFPIOC is configured to measure the residual current from the three phase current inputs and can be configured to measure the current from a separate...

Page 108: ...level in of IBase if IN is greater than IN Max then IN is set to IN Max StValMult 0 5 5 0 0 1 1 0 Multiplier for operate current level Table 50 EFPIOC Non group settings basic Name Values Range Unit S...

Page 109: ...ed making it possible to ensure that the operation value used is reasonable If IN is set outside IN Max and IN Min the closest of the limits to IN is used by the function If IN Max is smaller then IN...

Page 110: ...steps EF4PTOC 4 IN 4 alt 4 TEF REVA V2 EN US 51N_67N 6 4 2 Functionality M13667 3 v19 EF4PTOC has an inverse or definite time delay independent for each step All IEC and ANSI time delayed characteris...

Page 111: ...P SIGNAL Group connection for directional current BLOCK BOOLEAN 0 General block BLKTR BOOLEAN 0 Block of trip BLKST1 BOOLEAN 0 Block of step 1 Start and trip BLKST2 BOOLEAN 0 Block of step 2 Start and...

Page 112: ...signal 6 4 5 Settings IP11454 1 v2 PID 6967 SETTINGS v3 Table 55 EF4PTOC Group settings basic Name Values Range Unit Step Default Description Operation Off On Off Operation Off On EnDir Disable Enabl...

Page 113: ...ActUnderTime CB position CB command CB position Select signal to activate under time CB Pos CB Command tUnderTime 0 000 60 000 s 0 001 0 300 Time delay for under time DirMode1 Off Non directional For...

Page 114: ...grammable RI type RD type ANSI Def Time Time delay characteristic for step 2 IN2 1 2500 IB 1 50 Residual current operate level for step 2 in of IBase t2 0 000 60 000 s 0 001 0 400 Def time delay or ad...

Page 115: ...f IBase t3Min 0 000 60 000 s 0 001 0 000 Minimum operate time for inverse time characteristic step 3 IN3Mult 1 0 10 0 0 1 2 0 Multiplier for the residual current setting value for step 3 HarmBlock3 Of...

Page 116: ...reset Instantaneous Reset curve type for step1 Instantaneous IEC ANSI tReset1 0 000 60 000 s 0 001 0 020 Reset time delay for step 1 tPCrv1 0 005 3 000 0 001 1 000 Param P for customized inverse trip...

Page 117: ...1 2500 Maximum used operate residual current level for step 3 in of IBase if IN3 is greater than IN3 Max then IN3 is set to IN3 Max ResetTypeCrv3 Instantaneous IEC Reset ANSI reset Instantaneous Rese...

Page 118: ...rv4 0 005 100 000 0 001 13 500 Param TR for customized inverse reset time curve for step 4 tCRCrv4 0 1 10 0 0 1 1 0 Param CR for customized inverse reset time curve for step 4 Table 57 EF4PTOC Non gro...

Page 119: ...log input of the pre processing block connected to EF4PTOC function input I3P This dedicated IED CT input can be for example connected to parallel connection of current instrument transformers in all...

Page 120: ...olarizing When voltage polarizing is selected the protection will use the residual voltage 3U0 as the polarizing quantity U3P This voltage can be 1 directly measured when a dedicated VT input of the I...

Page 121: ...em star point and earth current transformer located in the star point of a star connected transformer winding For some special line protection applications this dedicated IED CT input can be connected...

Page 122: ...put BLKSTx to provide external directional control that is torque control by for example using one of the following functions if available in the IED 1 Distance protection directional function 2 Negat...

Page 123: ...c Instantaneous IEC Reset ANSI Reset By this parameter setting it is possible to select the reset characteristic of the step For the complete list of available reset curves please refer to section Inv...

Page 124: ...IMinx AND BLKTR AND AND txmin tx AND t t EMULTX IEC10000008 V5 EN US Figure 43 Simplified logic diagram for residual overcurrent step x where x step 1 2 3 or 4 The protection can be completely blocke...

Page 125: ...olarizing quantity are then used inside the directional element as shown in Figure 44 in order to determine the direction of the earth fault STRV 0 6 IN DIR STFW RCA 85 deg 40 of IN DIR IN DIR RCA 65...

Page 126: ...han setting parameter IN Dir and directional supervision element detects fault in forward direction 2 STRV 1 when operating quantity magnitude Iop x cos AngleRCA is bigger than 60 of setting parameter...

Page 127: ...for each step by a parameter setting HarmBlockx If the ratio of the 2nd harmonic component in relation to the fundamental frequency component in the residual current exceeds the preset level defined b...

Page 128: ...however small and the normal 2nd harmonic blocking resets If the BlkParTransf function is activated the 2nd harmonic restrain signal is latched as long as the residual current measured by the relay i...

Page 129: ...TF is set to activate SOTF the under time logic or both When the circuit breaker is closing there is a risk to close it onto a permanent fault for example during an autoreclosing sequence The SOTF log...

Page 130: ...tely after switching of the circuit breaker The under time logic is activated either from change in circuit breaker position or from circuit breaker close and open command pulses This selection is don...

Page 131: ...echnical data IP11455 1 v1 M15223 1 v17 Table 59 EF4PTOC technical data Function Range or value Accuracy Operate current step 1 4 1 2500 of IBase 1 0 of Ir at I Ir 1 0 of I at I Ir Reset ratio 95 at 1...

Page 132: ...n 20 ms Max 35 ms Critical impulse time 10 ms typically at 0 to 2 x Iset Impulse margin time 15 ms typically 6 5 Four step directional negative phase sequence overcurrent protection NS4PTOC GUID E8CF8...

Page 133: ...3PDIR GROUP SIGNAL Group connection for directional current U3P GROUP SIGNAL Group connection for polarizing voltage BLOCK BOOLEAN 0 General block BLKTR BOOLEAN 0 Block of trip BLKST1 BOOLEAN 0 Block...

Page 134: ...nal start signal 6 5 5 Settings PID 4151 SETTINGS v4 Table 62 NS4PTOC Group settings basic Name Values Range Unit Step Default Description Operation Off On Off Operation Off On EnDir Disable Enable En...

Page 135: ...0 000 s 0 001 0 000 Minimum operate time for inverse time characteristic step 1 I1Mult 1 0 10 0 0 1 2 0 Multiplier for scaling the current setting value for step 1 DirMode2 Off Non directional Forward...

Page 136: ...nv IEC L T inv IEC Def Time Reserved Programmable RI type RD type ANSI Def Time Time delay characteristic for step 3 I2 3 1 2500 IB 1 33 Negative sequence current op level for step 3 in of IBase t3 0...

Page 137: ...Table 63 NS4PTOC Group settings advanced Name Values Range Unit Step Default Description ResetTypeCrv1 Instantaneous IEC Reset ANSI reset Instantaneous Reset curve type for step1 Instantaneous IEC ANS...

Page 138: ...0 Param P for customized inverse trip time curve for step 3 tACrv3 0 005 200 000 0 001 13 500 Param A for customized inverse trip time curve for step 3 tBCrv3 0 00 20 00 0 01 0 00 Param B for customiz...

Page 139: ...5BA 431B 9699 EB67E2637560 v3 Four step negative sequence overcurrent protection NS4PTOC function has the following three Analog Inputs on its function block in the configuration tool 1 I3P input used...

Page 140: ...03 68250798851B v3 A polarizing quantity is used within the protection to determine the direction to the fault Forward Reverse Four step negative sequence overcurrent protection NS4PTOC function uses...

Page 141: ...ed negative sequence protection schemes permissive or blocking Each part is described separately in the following sections 6 5 7 5 Four negative sequence overcurrent stages GUID D8ACB136 2BA6 4ADA A09...

Page 142: ...aracteristx DefTime DirModex Off DirModex Non directional DirModex Forward DirModex Reverse AND AND FORWARD_Int REVERSE_Int OR BLKTR OR STAGEx_DIR_Int IEC09000683 vsd AND AND Characteristx Inverse Inv...

Page 143: ...ment Two relevant setting parameters for directional supervision element are Directional element is internally enable to operate as soon as Iop is bigger than 40 of I Dir and the directional condition...

Page 144: ...iagram for directional supervision element with integrated directional comparison step is shown in figure 52 X a b a b I Dir FORWARD_Int REVERSE_Int BLOCK STAGE1_DIR_Int 0 6 X 0 4 a b a b AND STAGE3_D...

Page 145: ...of Ir at I Ir 1 0 of I at I Ir Relay characteristic angle RCA 180 to 180 degrees 2 0 degrees Operate current for directional release 1 100 of IBase For RCA 60 degrees 2 5 of Ir at I Ir 2 5 of I at I...

Page 146: ...and the introduction of the thermal overload protection can allow the protected circuit to operate closer to the thermal limits The three phase current measuring protection has an I2t characteristic...

Page 147: ...R BOOLEAN 0 Block of trip ENMULT BOOLEAN 0 Current multiplyer used when THOL is for two or more lines AMBTEMP REAL 0 Ambient temperature from external temperature sensor SENSFLT BOOLEAN 0 Validity sta...

Page 148: ...able 71 LCPTTR Group settings basic Name Values Range Unit Step Default Description Operation Off On Off Operation Off On TRef 0 300 Deg C 1 90 End temperature rise above ambient of the line when load...

Page 149: ...leading to TRef temperature IMult 1 5 1 1 Current multiplier when function is used for two or more lines Tau 1 1000 Min 1 45 Time constant of the line in minutes AlarmTemp 0 400 Deg F 1 175 Temperatu...

Page 150: ...P REAL Temperature Fahrenheit Calculated temperature of the device TEMPAMB REAL Temperature Fahrenheit Ambient temperature used in the calculations TERMLOAD REAL Temperature relative to operate temper...

Page 151: ...of the actual temperature and t is the set thermal time constant for the protected device line or cable The actual temperature of the protected component line or cable is calculated by adding the ambi...

Page 152: ...sured ambient temperature The calculated time to reset of lockout is available as a real figure signal TENRECL This signal is enabled when the LOCKOUT output is activated In some applications the meas...

Page 153: ...tion of time to reset of lockout Calculation of actual temperature Lockout logic AMBTEMP START TEMP TRIP LOCKOUT TTRIP TENRECL I3P ENMULT SENSFLT ALARM BLKTR BLOCK IEC09000637 2 en vsd IEC09000637 V2...

Page 154: ...m temperature 0 200 C 0 400 F 2 0 C 4 0 F Operate temperature 0 300 C 0 600 F 2 0 C 4 0 F Reset level temperature 0 300 C 0 600 F 2 0 C 4 0 F 6 7 Breaker failure protection CCRBRF IP14514 1 v6 6 7 1 I...

Page 155: ...ng 6 7 3 Function block M11944 3 v7 IEC06000188 2 en vsd CCRBRF I3P BLOCK START STL1 STL2 STL3 CBCLDL1 CBCLDL2 CBCLDL3 CBFLT TRBU TRBU2 TRRET TRRETL1 TRRETL2 TRRETL3 CBALARM IEC06000188 V2 EN US Figur...

Page 156: ...ption Operation Off On Off Operation Off On FunctionMode Current Contact Current Contact Current Detection for trip based on Current Contact Current Contact BuTripMode 2 out of 4 1 out of 3 1 out of 4...

Page 157: ...rinciple M16914 3 v9 Breaker failure protection CCRBRF is initiated from the protection trip command either from protection functions within the IED or from external protection devices The start signa...

Page 158: ...p trip pulse and the back up trip pulse 2 are settable The re trip pulse the back up trip pulse and the back up trip pulse 2 will however sustain as long as there is an indication of closed breaker In...

Page 159: ...09000977 2 en vsd FunctionMode OR OR Current Contact Current and Contact 1 IP CB Closed L1 IL1 IEC09000977 V2 EN US Figure 57 Simplified logic scheme of the CCRBRF CB position evaluation t t1 tPulse A...

Page 160: ...nt High L2 Current High L3 have logical value 1 when the current in the respective phase has the magnitude larger than the setting parameter IP 6 7 8 Technical data IP10269 1 v1 M12353 1 v13 Table 85...

Page 161: ...IEEE C37 2 device number Stub protection STBPTOC 3I STUB SYMBOL T V1 EN US 50STB 6 8 2 Functionality M12902 3 v10 When a power line is taken out of service for maintenance and the line disconnector i...

Page 162: ...PTOC Group settings basic Name Values Range Unit Step Default Description Operation Off On Off Operation Off On ReleaseMode Release Continuous Release Release of stub protection I 5 2500 IB 1 200 Oper...

Page 163: ...rator the RMS values are compared to the set operating current value of the function I If a phase current is larger than the set operating current the signal from the comparator for this phase is acti...

Page 164: ...6 9 1 Identification SEMOD172362 2 v2 Function description IEC 61850 identification IEC 60617 identification ANSI IEEE C37 2 device number Broken conductor check BRCPTOC 46 6 9 2 Functionality SEMOD1...

Page 165: ...it Step Default Description Operation Off On Off Operation Off On Iub 50 90 IM 1 50 Highest and lowest phase currents difference in of highest phase current IP 5 100 IB 1 20 Minimum phase current for...

Page 166: ...olving parallel lines If a conductor breaks in one phase on one line the parallel line will experience an increase in current in the same phase This might result in the first two conditions being sati...

Page 167: ...l data Function Range or value Accuracy Minimum phase current for operation 5 100 of IBase 1 0 of Ir Unbalance current operation 50 90 of maximum current 1 0 of Ir Independent operate time delay 0 000...

Page 168: ...162...

Page 169: ...ndervoltages can occur in the power system during faults or abnormal conditions The two step undervoltage protection function UV2PTUV can be used to open circuit breakers to prepare for system restora...

Page 170: ...0 Block of step 1 BLKTR2 BOOLEAN 0 Block of operate signal step 2 BLKST2 BOOLEAN 0 Block of step 2 PID 3586 OUTPUTSIGNALS v7 Table 101 UV2PTUV Output signals Name Type Description TRIP BOOLEAN Trip TR...

Page 171: ...ay curve type for step 1 OpMode1 1 out of 3 2 out of 3 3 out of 3 1 out of 3 Number of phases required for op 1 of 3 2 of 3 3 of 3 from step 1 U1 1 0 100 0 UB 0 1 70 0 Voltage setting start val DT IDM...

Page 172: ...e Values Range Unit Step Default Description tReset1 0 000 60 000 s 0 001 0 025 Reset time delay used in IEC Definite Time curve step 1 ResetTypeCrv1 Instantaneous Frozen timer Linearly decreased Inst...

Page 173: ...PID 3586 MONITOREDDATA v6 Table 105 UV2PTUV Monitored data Name Type Values Range Unit Description UL1 REAL kV Voltage in phase L1 UL2 REAL kV Voltage in phase L2 UL3 REAL kV Voltage in phase L3 7 1 7...

Page 174: ...ade in percentage of the base voltage which is set in kV phase to phase voltage This means operation for phase to earth voltage under UBase kV 3 U EQUATION1429 V3 EN US Equation 20 and operation for p...

Page 175: ...tinuity Therefore a tuning parameter CrvSatn is set to compensate for this phenomenon In the voltage interval Un down to Un 1 0 CrvSatn 100 the used voltage will be Un 1 0 CrvSatn 100 If the programma...

Page 176: ...time tReset1 and tReset2 for the definite time and tIReset1 and tIReset2 pickup for the inverse time the corresponding start output is reset After leaving the hysteresis area the start condition must...

Page 177: ...d Instantaneous Measured Voltage tIReset1 IEC05000010 4 en vsd IEC05000010 V4 EN US Figure 66 Voltage profile not causing a reset of the START signal for step 1 and inverse time delay at different res...

Page 178: ...and inverse time delay at different reset types Definite timer delay When definite time delay is selected the function will operate as shown in figure 68 Detailed information about individual stage re...

Page 179: ...EN US Figure 68 Logic diagram for step 1 DT operation U1 ST1 TR1 tReset1 t1 IEC10000039 3 en vsd IEC10000039 V3 EN US Figure 69 Example for Definite Time Delay stage1 reset 1MRK 505 384 UEN A Section...

Page 180: ...ecreases below the setting of IntBlkStVal1 either the trip output of step 1 or both the trip and the START outputs of step 1 are blocked The characteristic of the blocking is set by the IntBlkSel1 par...

Page 181: ...oltages Recursive fourier filters or true RMS filters of input voltage signals are used The voltages are individually compared to the set value and the lowest voltage is used for the inverse time char...

Page 182: ...tage Phase Selector OpMode1 1 out of 3 2 out of 3 3 out of 3 UL1 UL2 UL3 TRIP TRIP OR OR OR OR OR OR START IntBlkStVal1 t1Reset IntBlkStVal2 t2Reset IEC05000834 2 en vsd Comparator IEC05000834 V2 EN U...

Page 183: ...l impulse time 5 ms typically at 1 2 x Uset to 0 Impulse margin time 15 ms typically 7 2 Two step overvoltage protection OV2PTOV IP14545 1 v3 7 2 1 Identification M17002 1 v8 Function description IEC...

Page 184: ...T1 BOOLEAN 0 Block of step 1 BLKTR2 BOOLEAN 0 Block of operate signal step 2 BLKST2 BOOLEAN 0 Block of step 2 PID 3535 OUTPUTSIGNALS v7 Table 108 OV2PTOV Output signals Name Type Description TRIP BOOL...

Page 185: ...ay curve type for step 1 OpMode1 1 out of 3 2 out of 3 3 out of 3 1 out of 3 Number of phases required for op 1 of 3 2 of 3 3 of 3 from step 1 U1 1 0 200 0 UB 0 1 120 0 Voltage setting start val DT ID...

Page 186: ...1 0 0 Parameter C for customer programmable curve for step 1 DCrv1 0 000 60 000 0 001 0 000 Parameter D for customer programmable curve for step 1 PCrv1 0 000 3 000 0 001 1 000 Parameter P for custome...

Page 187: ...d voltages being above the set point If the voltage remains above the set value for a time period corresponding to the chosen time delay the corresponding trip signal is issued The time delay characte...

Page 188: ...ed voltages have to be higher than the corresponding set point to issue the corresponding START signal To avoid oscillations of the output START signal a hysteresis is included 7 2 7 2 Time delay M153...

Page 189: ...desired discontinuity Therefore a tuning parameter CrvSatn is set to compensate for this phenomenon In the voltage interval Un up to Un 1 0 CrvSatn 100 the used voltage will be Un 1 0 CrvSatn 100 If t...

Page 190: ...e time the corresponding START output is reset after that the defined reset time has elapsed Here it should be noted that after leaving the hysteresis area the START condition must be fulfilled again...

Page 191: ...set1 Measured tIReset1 Linearly decreased IEC09000055 2 en vsd IEC09000055 V2 EN US Figure 75 Voltage profile not causing a reset of the START signal for step 1 and inverse time delay at different res...

Page 192: ...ay at different reset types Definite time delay When definite time delay is selected the function will operate as shown in figure 77 Detailed information about individual stage reset operation behavio...

Page 193: ...Figure 77 Logic diagram for step 1 definite time delay DT operation tReset1 U1 START TRIP t1 IEC10000037 2 en vsd IEC10000037 V2 EN US Figure 78 Example for step 1 Definite Time Delay stage 1 reset 1M...

Page 194: ...tep 2 7 2 7 4 Design M15330 34 v8 The voltage measuring elements continuously measure the three phase to earth voltages or the three phase to phase voltages Recursive Fourier filters or true RMS filte...

Page 195: ...esetTypeCrv1 Voltage Phase Selector OpMode1 1 out of 3 2 out of 3 3 out of 3 UL1 UL2 UL3 TRIP TRIP OR OR OR OR OR OR IEC05000013 2 en vsd IEC05000013 WMF V2 EN US Figure 80 Schematic design of Two ste...

Page 196: ...ms typically 7 3 Two step residual overvoltage protection ROV2PTOV IP14546 1 v4 7 3 1 Identification SEMOD54295 2 v6 Function description IEC 61850 identification IEC 60617 identification ANSI IEEE C3...

Page 197: ...t UBase value is divided by sqrt 3 before the set value is calculated 7 3 3 1 Measurement principle M15331 6 v6 The residual voltage is measured continuously and compared with the set values U1 and U2...

Page 198: ...section Inverse characteristics TRIP signal issuing requires that the residual overvoltage condition continues for at least the user set time delay This time delay is set by the parameter t1 and t2 fo...

Page 199: ...d during the reset time See figure 81 and figure 82 TRIP U1 TRIP t Time Time Integrator t Frozen Timer Instantaneous Voltage Voltage Time HystAbs1 START START tIReset1 Measured tIReset1 Linearly decre...

Page 200: ...l for step 1 and inverse time delay Definite time delay When definite time delay is selected the function will operate as shown in figure 83 Detailed information about individual stage reset operation...

Page 201: ...N US Figure 83 Logic diagram for step 1 Definite time delay DT operation U1 ST1 TR1 tReset1 t1 IEC10000039 3 en vsd IEC10000039 V3 EN US Figure 84 Example for Definite Time Delay stage 1 reset 1MRK 50...

Page 202: ...s related to step 1 BLKTR2 blocks all trip outputs of step 2 BLKST2 blocks all start and trip inputs related to step 2 7 3 3 4 Design M15331 32 v7 The voltage measuring elements continuously measure t...

Page 203: ...ROV2PTOV technical data Function Range or value Accuracy Operate voltage step 1 step 2 1 0 200 0 of UBase 0 5 of Ur at U Ur 0 5 of U at U Ur Absolute hysteresis 0 0 50 0 of UBase 0 5 of Ur at U Ur 0...

Page 204: ...60617 identification ANSI IEEE C37 2 device number Loss of voltage check LOVPTUV 27 7 4 2 Functionality SEMOD171457 5 v8 Loss of voltage check LOVPTUV is suitable for use in networks with an automatic...

Page 205: ...n Off On Off Operation Off On UPE 1 100 UB 1 70 Operate voltage in of base voltage UBase tTrip 0 000 60 000 s 0 001 7 000 Operate time delay Table 119 LOVPTUV Group settings advanced Name Values Range...

Page 206: ...re and open circuit breaker information signals by their connection to dedicated inputs of the function block Due to undervoltage conditions being continuous the trip pulse is limited to a length set...

Page 207: ...s not three 1 1 t tRestore Reset Enable Set Enable 1 Line restored for at least 3 s Latched Enable IEC07000089_2_en vsd START TRIP CBOPEN VTSU BLOCK IEC07000089 V2 EN US Figure 88 Simplified diagram...

Page 208: ...s greater Time delay for enabling the functions after restoration 0 000 60 000 s 0 2 or 35 ms whichever is greater Operate time delay when disconnecting all three phases 0 000 60 000 s 0 2 or 35 ms wh...

Page 209: ...urrent circuit supervision CCSSPVC compares the residual current from a three phase set of current transformer cores with the neutral point current on a separate input taken from another set of cores...

Page 210: ...IMinOp 10 200 IB 1 20 Minimum operate current differential level in of IBase Table 125 CCSSPVC Group settings advanced Name Values Range Unit Step Default Description Ip Block 20 500 IB 1 150 Block of...

Page 211: ...AIL lasts for more than 150 ms an ALARM will be issued In this case the FAIL and ALARM will remain activated 1 s after the AND gate resets This prevents unwanted resetting of the blocking function whe...

Page 212: ...racy Operate current 10 200 of IBase 10 0 of Ir at I Ir 10 0 of I at I Ir Reset ratio Operate current 90 Block current 20 500 of IBase 5 0 of Ir at I Ir 5 0 of I at I Ir Reset ratio Block current 90 a...

Page 213: ...mended for IEDs used in directly or low impedance earthed networks It is based on the zero sequence measuring quantities The selection of different operation modes is possible by a setting parameter i...

Page 214: ...N General start of function 3PH BOOLEAN Three phase start of function DLD1PH BOOLEAN Dead line condition in at least one phase DLD3PH BOOLEAN Dead line condition in all three phases STDI BOOLEAN Commo...

Page 215: ...Off On DU 1 100 UB 1 60 Operate level of change in phase voltage in of UBase DI 1 100 IB 1 15 Operate level of change in phase current in of IBase UPh 1 100 UB 1 70 Operate level of phase voltage in...

Page 216: ...3I2 the negative sequence voltage 3U2 The measured signals are compared with their respective set values 3U0 and 3I0 3U2 and 3I2 The function enable the internal signal FuseFailDetZeroSeq if the meas...

Page 217: ...resent The operation mode selector OpMode is set to Off The IED is in TEST status TEST ACTIVE is high and the function has been blocked from the HMI BlockFUSE Yes The input BLOCK signal is a general p...

Page 218: ...ected by the position of the line disconnector since there will be no line currents that can cause malfunction of the distance protection If DISCPOS 0 it signifies that the line is connected to the sy...

Page 219: ...the DUDI detections of three phases set the internal signal FuseFailDetDUDI at the level high then the signal FuseFailDetDUDI will remain high as long as the voltages of three phases are lower then t...

Page 220: ...AND a b a b UL3 IL3 a b a b AND AND OR OR AND AND FuseFailDetDUDI DUDI Detection DeltaIL1 DeltaUL1 DeltaIL2 DeltaUL2 DeltaIL3 DeltaUL3 IEC12000166 3 en vsd IL1 DI detection based on sample analysis DU...

Page 221: ...2 7 3 Dead line detection M13679 44 v4 A simplified diagram for the functionality is found in figure 96 A dead phase condition is indicated if both the voltage and the current in one phase is below t...

Page 222: ...fferent operating modes for the negative and zero sequence based algorithms The different operation modes are Off The negative and zero sequence function is switched off UNsINs Negative sequence is se...

Page 223: ...resent before the shut down All phase voltages must be restored above USealIn before fuse failure is de activated and resets the signals BLKU BLKZ and 3PH The output signal BLKU will also be active if...

Page 224: ...AND CurrZeroSeq CurrNegSeq a b a b OR AND AND AND FuseFailDetDUDI AND OpDUDI On DeadLineDet1Ph OR OR OR OR AND VoltZeroSeq VoltNegSeq t 5 s AllCurrLow t 150 ms intBlock Fuse failure detection Main log...

Page 225: ...ltage change level 1 100 of UBase 10 0 of Ur Operate current change level 1 100 of IBase 10 0 of Ir Operate phase voltage 1 100 of UBase 0 5 of Ur Operate phase current 1 100 of IBase 0 5 of Ir Operat...

Page 226: ...220...

Page 227: ...with at least one side dead to ensure that closing can be done safely SESRSYN function includes a built in voltage selection scheme for double bus and 1 breaker or ring busbar arrangements Manual clo...

Page 228: ...000046 1 en vsd IEC10000046 V1 EN US Figure 98 SESRSYN function block 9 1 4 Signals PID 6724 INPUTSIGNALS v1 Table 134 SESRSYN Input signals Name Type Default Description U3PBB1 GROUP SIGNAL Group sig...

Page 229: ...rmer OK ULN1FF BOOLEAN 0 Line1 voltage transformer fuse failure ULN2OK BOOLEAN 0 Line2 voltage transformer OK ULN2FF BOOLEAN 0 Line2 voltage transformer fuse failure STARTSYN BOOLEAN 0 Start synchroni...

Page 230: ...g UOKSC BOOLEAN Voltage amplitudes above set limits UDIFFSC BOOLEAN Voltage difference out of limit FRDIFFA BOOLEAN Frequency difference out of limit for Auto operation PHDIFFA BOOLEAN Phase angle dif...

Page 231: ...200 Breaker closing pulse duration tMaxSynch 0 00 6000 00 s 0 01 600 00 Resets synch if no close has been made before set time tMinSynch 0 000 60 000 s 0 001 2 000 Minimum time to accept synchronizing...

Page 232: ...UB 1 0 115 0 Maximum voltage for energizing in of UBase Line and or Bus tAutoEnerg 0 000 60 000 s 0 001 0 100 Time delay for automatic energizing check tManEnerg 0 000 60 000 s 0 001 0 100 Time delay...

Page 233: ...lected line voltage 9 1 6 Monitored data PID 6724 MONITOREDDATA v1 Table 139 SESRSYN Monitored data Name Type Values Range Unit Description UDIFFME REAL Calculated difference of voltage in p u of set...

Page 234: ...capability to make the necessary voltage selection For double bus single circuit breaker arrangements selection of the correct voltage is made using auxiliary contacts of the bus disconnectors For 1 c...

Page 235: ...outputs MANSYOK and AUTOSYOK are activated when the actual measured conditions match the set conditions for the respective output The output signal can be delayed independently for MANSYOK and AUTOSYO...

Page 236: ...ltage with the set values for UHighBusSynch and UHighLineSynch which is a supervision that the voltages are both live Also the voltage difference is checked to be smaller than the set value for UDiffS...

Page 237: ...e value with CloseAngleMax 30 degrees max value SlipFrequency Hz BusFrequency LineFrequency 0 040 0 080 1 000 0 050 0 100 0 800 0 080 0 160 0 500 0 200 0 400 0 200 0 400 0 810 0 100 1 000 0 080 0 800...

Page 238: ...ve or dead This is done by comparing with the set values UHighBusEnerg and ULowBusEnerg for bus energizing and UHighLineEnerg and ULowLineEnerg for line energizing The frequency on both sides of the c...

Page 239: ...ve block of the Energizing check function TSTENERG will allow testing of the function where the fulfilled conditions are connected to a separate test output fBus and fLine 5 Hz ManEnerg OR AND OR t tM...

Page 240: ...00030 1 en vsd BOTH IEC14000030 V1 EN US Figure 102 Automatic energizing ManEnerg CBConfig AND AND AND AND AND AND B1QOPEN B1QCLD B2QOPEN LN1QOPEN LN2QOPEN B2QCLD OR OR OR OR BLKENERG BLOCK AND AND AN...

Page 241: ...propriate Line and Bus voltages and MCB supervision The voltage selection type to be used is set with the parameter CBConfig If No voltage sel is set the voltages used will be U Line1 and U Bus1 This...

Page 242: ...ltages have a VT failure This output as well as the function can be blocked with the input signal BLOCK The function logic diagram is shown in figure 104 AND AND AND bus1Voltage OR OR OR ULN1FF ULN1OK...

Page 243: ...on what is available from each fuse MCB The tie circuit breaker is connected either to bus 1 or line 1 voltage on one side and the other side is connected either to bus 2 or line 2 voltage Four diffe...

Page 244: ...LN2SEL OR AND B2SEL AND AND AND en05000780 2 vsd OR OR line2Voltage bus2Voltage line1Voltage invalidSelection lineVoltage selectedFuseOK IEC05000780 V2 EN US Figure 105 Simplified logic diagram for t...

Page 245: ...CLD B2QOPEN LN2QCLD LN2QOPEN bus2Voltage LN2SEL AND AND 1 B2SEL line2Voltage OR en05000781 2 vsd OR OR busVoltage invalidSelection lineVoltage selectedFuseOK IEC05000781 V2 EN US Figure 106 Simplified...

Page 246: ...ference minimum limit for synchronizing 0 003 0 250 Hz 2 5 mHz Frequency difference maximum limit for synchronizing 0 050 1 000 Hz 2 5 mHz Maximum allowed frequency rate of change 0 000 0 500 Hz s 10...

Page 247: ...617 identification ANSI IEEE C37 2 device number Autorecloser for 1 phase 2 phase and or 3 phase SMBRREC 5 0 1 IEC15000204 V1 EN US 79 9 2 2 Functionality M12390 3 v16 The auto reclosing function prov...

Page 248: ...block 9 2 4 Signals PID 6796 INPUTSIGNALS v2 Table 142 SMBRREC Input signals Name Type Default Description ON BOOLEAN 0 Switch AR On at ExternalCtrl On OFF BOOLEAN 0 Switch AR Off at ExternalCtrl On B...

Page 249: ...g is unsuccessful INPROGR BOOLEAN Reclosing in progress inactive during reclaim time 1PT1 BOOLEAN Single phase reclosing is in progress for shot 1 2PT1 BOOLEAN Two phase reclosing is in progress for s...

Page 250: ...2 3ph 1 2 3ph AR mode selection t1 1Ph 0 000 120 000 s 0 001 1 000 Dead time for shot 1 single phase reclosing t1 3Ph 0 000 120 000 s 0 001 6 000 Dead time for shot 1 delayed three phase reclosing wit...

Page 251: ...t4 3Ph 0 00 6000 00 s 0 01 30 00 Dead time for shot 4 three phase reclosing t5 3Ph 0 00 6000 00 s 0 01 30 00 Dead time for shot 5 three phase reclosing Extended t1 Off On Off Extend dead time at loss...

Page 252: ...eceived high speed shot is generally used for an application where the dead time is less than 1 second and synchrocheck is not required delayed auto reclosing is generally regarded as an application w...

Page 253: ...ime GUID D838C380 C74B 498C 82D6 3364E2F6BA22 v1 The auto recloser is in reclaim time status while the following conditions are fulfilled the reclaim time has not yet expired the status is not interru...

Page 254: ...d Description of the status transition carefully The logic for most of the explained inputs outputs settings and internal signals described in this chapter is shown in Figure 113 Other figures mention...

Page 255: ...be switched Off or On with a setting or by external control inputs With the setting Operation On the auto recloser is activated and with the setting Operation Off it is deactivated With the settings...

Page 256: ...the setting the mode can be selected by connecting an integer for example from function block B16I to the MODEINT input The six possible modes are described in Table 147 below with their corresponding...

Page 257: ...ettings for single two and three phase dead times t1 1Ph t1 2Ph and t1 3Ph If only the START input signal is applied and an auto reclosing program with single phase reclosing is selected the auto recl...

Page 258: ...change from ready status to in progress status When the dead time has expired the close command is issued and the reclaim time is started and the in progress status will change to reclaim time status...

Page 259: ...conditions The TRSOTF trip by switch onto fault input starts shots 2 to 5 It may be connected to the switch onto fault output of line protection if multi shot auto reclosing is used In normal circumst...

Page 260: ...ate IEC16000156 V1 EN US Figure 111 Automatic proceeding of shots Blocking resetting and inhibiting auto reclosing GUID 82719FE0 02E4 48FB 9685 2146480F3653 v1 The BLKON input is used to block the aut...

Page 261: ...e functionality described above is described in Table 148 and Table 149 below Table 148 BLKON BLKOFF RESET INHIBIT and SYNC behavior when the function is in ready status Output Input READY ACTIVE BLOC...

Page 262: ...of type CBReadyType OCO circuit breaker ready for an Open Close Open sequence this condition may not be fulfilled during the dead time and at the moment of auto reclosure The Open Close Open condition...

Page 263: ...seCB OR AND AND S R t tSuccessful count0 SUCCL IEC16000157 V1 EN US Figure 112 Successful Unsuccessful Figure 113 shows the logic for most parts of an auto reclosing sequence Figure 113 should be read...

Page 264: ...ND tInhibit OR CB readiness check AND CBReadyType OR CutPulse AND OR OR tPulse 50ms AND Follow CB cbClosed inhibitWaitForMaster longStartInhibit INPROGR 2PT1 1PT1 3PT1 3PT2 3PT3 3PT4 3PT5 inProgress r...

Page 265: ...the table Mapping from IEC 61850 Ed2 standard is also shown for the AutoRecSt data object Table 150 Auto reclosing status reported by IEC 61850 in priority order Data object AutoRecSt value Descripti...

Page 266: ...is initiated then actually normal three phase shot one with dead time t1 3Ph will be started The ZONESTEP input is used when coordination between local auto reclosers and down stream auto reclosers i...

Page 267: ...d to continue the reclosing sequence after the set tSlaveDeadTime The reason for shortening the time for the normal dead timers with the value of tSlaveDeadTime is to give the slave permission to reac...

Page 268: ...iority by just setting the High and the Low priorities without changing the configuration The CBCLOSED inputs from each circuit breaker are important in multi breaker arrangements to ensure that the c...

Page 269: ...ngle phase fault single phase reclosing CBREADY Fault UNSUCCL ACTIVE 3PT2 3PT1 INPROGR READY SYNC TR3P START CBCLOSED Closed Time IEC04000197 3 en vsd PREP3P CLOSECB Open C Open C t1 3Ph tPulse t2 3Ph...

Page 270: ...BCLOSED IEC04000198 3 en vsd PREP3P CLOSECB t1 1Ph tReclaim IEC04000198 V3 EN US Figure 118 Permanent single phase fault single phase trip single shot reclosing ARMode 1 2 3ph Section 9 1MRK 505 384 U...

Page 271: ...h 0 00 6000 00 s 0 2 or 35 ms whichever is greater Extend three phase dead time duration tExtended t1 0 000 60 000 s 0 2 or 35 ms whichever is greater Minimum time that circuit breaker must be closed...

Page 272: ...0 00 6000 00 s 0 2 or 45 ms whichever is greater 9 3 Interlocking IP15572 1 v2 9 3 1 Logical node for interlocking SCILO IP14138 1 v2 9 3 1 1 Identification GUID 3EC5D7F1 FDA0 4F0E 9391 08D357689E0C v...

Page 273: ...s respectively if the interlocking conditions are fulfilled That means also if the switch has a defined end position for example open then the appropriate enable signal in this case EN_OPEN is false T...

Page 274: ...selection and external or internal blockings Apparatus control features Select Execute principle to give high reliability Selection function to prevent simultaneous operation Selection and supervision...

Page 275: ...tomatic sequences Because a primary apparatus can be allocated to many functions within a Substation Automation system the object oriented approach with a function block that handles the interaction a...

Page 276: ...tion block for Switch controller SCSWI Circuit breaker SXCBR and Circuit switch SXSWI indicates the value of the cause during the latest command if the function specific command evaluation has been st...

Page 277: ...CT general TRUE X 18 Object not selected Control action is rejected because control object was not selected X 19 Object already selected Select action is not executed because the addressed object is a...

Page 278: ...ion 5 5 5 Position reached 6 6 6 Parameter change in execution 7 7 7 Step limit 8 8 8 Blocked by Mode 9 9 9 Blocked by process 10 10 10 Blocked by interlocking 11 11 11 Blocked by synchrocheck 12 12 1...

Page 279: ...e limit over Control action is terminated due to exceed of some time limit 18 Object not selected Control action is rejected because control object was not selected 19 Object already selected Select a...

Page 280: ...eady signal to block the command PID 4086 OUTPUTSIGNALS v8 Table 158 QCBAY Output signals Name Type Description PSTO INTEGER Value for the operator place allocation UPD_BLKD BOOLEAN Update of position...

Page 281: ...O output will always be set to faulty state 3 which means no possibility to operate To adapt the signals from the local HMI or from an external local remote switch the function blocks LOCREM and LOCRE...

Page 282: ...the user to make common blockings for the functions configured within a complete bay The blocking facilities provided by the bay control function are the following Blocking of position indications BL...

Page 283: ...R9 HMICTR10 HMICTR11 HMICTR12 IEC05000361 3 en vsdx IEC05000361 V3 EN US Figure 124 LOCREMCTRL function block 9 4 5 2 Signals PID 3944 INPUTSIGNALS v7 Table 161 LOCREM Input signals Name Type Default...

Page 284: ...INTEGER Bitmask output 3 to local remote LHMI input HMICTR4 INTEGER Bitmask output 4 to local remote LHMI input HMICTR5 INTEGER Bitmask output 5 to local remote LHMI input HMICTR6 INTEGER Bitmask outp...

Page 285: ...OFF LR_ LOC LR_ REM LR_ VALID BL_ UPD BL_ CMD PSTO UPD_ BLKD CMD_ BLKD LOCREM CTRLOFF LOCCTRL REMCTRL LHMICTRL OFF LOCAL REMOTE VALID LOC STA LOC STA IEC10000052 1 en vsd REM REM IEC10000052 V2 EN US...

Page 286: ...0337 V5 EN US Figure 126 SCSWI function block 9 4 6 3 Signals PID 6798 INPUTSIGNALS v3 Table 166 SCSWI Input signals Name Type Default Description BLOCK BOOLEAN 0 Block of function PSTO INTEGER 2 Oper...

Page 287: ...on indication POLEDISC BOOLEAN The positions for poles L1 L3 are not equal after a set time CMD_BLK BOOLEAN Commands are blocked L_CAUSE INTEGER Latest value of the error indication during command POS...

Page 288: ...to reservation granted tSynchrocheck 0 00 600 00 s 0 01 10 00 Allowed time for synchrocheck to fulfil close conditions tSynchronizing 0 00 600 00 s 0 01 0 00 Supervision time to get the signal synchro...

Page 289: ...n in figure 128 Client Reservation logic SCSWI SXCBR SXSWI RES_GRT TRUE EXE_CL operateAck AddCause 0 SEL_CL TRUE SELECTED TRUE selectAck AddCause 0 POSITION 00 timeStamp POSITION 10 timeStamp cmdTermi...

Page 290: ...d from the function block and used for example at commissioning There is no relation between the command direction and the actual position For example if the switch is in closed position it is possibl...

Page 291: ...aker SXCBR circuit switch SXSWI At error the cause value with highest priority is shown Blocking principles M13484 37 v5 The blocking signals are normally coming from the bay control function QCBAY an...

Page 292: ...n from the synchrocheck function SCSWI will send a start signal START_SY to the synchronizing function which will send the closing command to SXCBR when the synchronizing conditions are fulfilled see...

Page 293: ...been issued If an operation is issued after the time out the negative response is Object not selected The parameter tResResponse is used to set the maximum allowed time to make the reservation that i...

Page 294: ...The parameter tSynchrocheck is used to define the maximum allowed time between the execute command and the input SYNC_OK to become true If SYNC_OK true at the time the execute command signal is recei...

Page 295: ...ssion for distributing the cause of failure over GOOSE the XLNPROXY function is used for evaluating the causes normally evaluated by the SXCBR and SXSWI functions Further in some cases selection may a...

Page 296: ...e 0 Pos stVal 00 Pos t Pos stVal 10 Pos t SELECTED FALSE Pos stSeld FALSE XCBR XSWI IEC16000069 1 EN vsdx IEC16000069 V1 EN US Figure 134 Example of command sequence for a successful close command whe...

Page 297: ...sed to immediately close the switch BL_OPEN BOOLEAN 0 Signal to block the open command BL_CLOSE BOOLEAN 0 Signal to block the close command BL_UPD BOOLEAN 0 Steady signal for block of the position upd...

Page 298: ...CBR Non group settings basic Name Values Range Unit Step Default Description tStartMove 0 000 60 000 s 0 001 0 100 Supervision time for the apparatus to move after a command tIntermediate 0 000 60 000...

Page 299: ...he signal is set to TRUE all commands for change of position are rejected even trip commands from protection functions are rejected The functionality of the local remote switch is described in Figure...

Page 300: ...update when the substitution is released the position value is kept the same as the last substitution value but the quality is changed to questionable old data indicating that the value is old and no...

Page 301: ...the output pulses for open and close command can have different pulse lengths The pulses can also be set to be adaptive with the configuration parameter AdaptivePulse Figure 138 shows the principle of...

Page 302: ...e cases with the additional condition that the configuration parameter AdaptivePulse is true the execute output pulse is always activated and resets when tStartMove has elapsed If the configuration pa...

Page 303: ...ction block 9 4 8 3 Signals PID 6800 INPUTSIGNALS v3 Table 172 SXSWI Input signals Name Type Default Description BLOCK BOOLEAN 0 Block of function LR_SWI BOOLEAN 0 Local Remote switch indication from...

Page 304: ...and EEHEALTH INTEGER External equipment health 1 No warning or alarm 2 Warning 3 Alarm SWOPCAP INTEGER Switch operating capability 1 None 2 O 3 C 4 O and C 9 4 8 4 Settings PID 6800 SETTINGS v3 Table...

Page 305: ...cal Remote switch M16494 6 v4 One binary input signal LR_SWI is included in SXSWI to indicate the local remote switch position from switchyard provided via the I O board If this signal is set to TRUE...

Page 306: ...n and the status information of the I O board When substitution is enabled the other signals related to the position follow the substituted position The substituted values are stored in a non volatile...

Page 307: ...the output pulses for open and close command can have different pulse lengths The pulses can also be set to be adaptive with the configuration parameter AdaptivePulse Figure 143 shows the principle of...

Page 308: ...ted In these cases with the additional condition that the configuration parameter AdaptivePulse is true the execute output pulse is always activated and resets when tStartMove has elapsed If the confi...

Page 309: ...NT_V BLK BLK_VAL STSELD STSELD_V OPRCVD OPRCVD_V OPOK OPOK_VAL EEHEALTH EEH_VAL OPCAP OPCAP_V COMMVALID XIN XPOS SELECTED OP_BLKD CL_BLKD OPENPOS CLOSEPOS CNT_VAL L_CAUSE EEHEALTH OPCAP IEC16000043 1...

Page 310: ...H_VLD BOOLEAN 0 Valid data on EEHEALTH input OPCAP INTEGER 1 Operating capability OPCAP_VLD BOOLEAN 0 Valid data on OPCAP input COMMVALID BOOLEAN 0 Communication valid XIN GROUP SIGNAL Execution infor...

Page 311: ...ame format as used from SXCBR and SXSWI to SCSWI It makes a similar evaluation of the command response as SXCBR and SXSWI when a command is issued from the connected SCSWI 9 4 9 6 Position supervision...

Page 312: ...78 Possible cause values from XLNPROXY Cause No Cause Description Conditions 8 Blocked by Mode The BEH input is 5 2 Blocked by switching hierarchy The LOC input indicates that only local commands are...

Page 313: ...input of XLNPROXY before accepting selection this information is transferred to the SCSWI function from the XLNPROXY through the group connection XPOS If STSELD is not activated within tSelect of the...

Page 314: ...P17 P18 P19 P20 P21 P22 P23 P24 P25 P26 P27 P28 P29 P30 P31 P32 SWPOSN IEC14000005 1 en vsd IEC14000005 V1 EN US Figure 146 SLGAPC function block 9 5 4 Signals PID 6641 INPUTSIGNALS v3 Table 179 SLGAP...

Page 315: ...N Selector switch position 15 P16 BOOLEAN Selector switch position 16 P17 BOOLEAN Selector switch position 17 P18 BOOLEAN Selector switch position 18 P19 BOOLEAN Selector switch position 19 P20 BOOLEA...

Page 316: ...received on the DOWN input the function will activate the output next to the present activated output in descending order for example if the present activated output is P03 and one activates the DOWN...

Page 317: ...the monitoring the switches will be listed with their actual position names as defined by the user max 13 characters if it is used for control the switches will be listed with their actual positions...

Page 318: ...rds Settings Diagnostics Test Reset Authorization Language O Select switch Press the I or O key A dialog box appears The pos will not be modified outputs will not be activated until you press the Ente...

Page 319: ...83 VSGAPC Input signals Name Type Default Description BLOCK BOOLEAN 0 Block of function PSTO INTEGER 0 Operator place selection IPOS1 BOOLEAN 0 Position 1 indicating input IPOS2 BOOLEAN 0 Position 2 i...

Page 320: ...61850 and distributed in the configuration through outputs CMDPOS12 and CMDPOS21 The output CMDPOS12 is set when the function receives a CLOSE command from the local HMI when the SLD is displayed and...

Page 321: ...0 identification IEC 60617 identification ANSI IEEE C37 2 device number Generic communication function for Double Point indication DPGAPC 9 7 2 Functionality SEMOD55850 5 v7 Generic communication func...

Page 322: ...lock in which systems equipment or functions should receive this information More specifically DPGAPC function reports a combined double point position indication output POSITION by evaluating the val...

Page 323: ...function block is a collection of 8 single point commands that can be used for direct commands for example reset of LEDs or putting IED in ChangeLock state from remote In this way simple commands can...

Page 324: ...Description Operation Off On Off Operation Off On PulseMode1 Pulsed Latched Pulsed Setting for pulsed latched mode for output 1 tPulse1 0 01 6000 00 s 0 01 0 10 Pulse time output 1 PulseMode2 Pulsed L...

Page 325: ...signal will be pulsed and how long the pulse is or latched steady BLOCK will block the operation of the function in case a command is sent no output will be activated PSTO is the universal operator p...

Page 326: ...MDBIT28 CMDBIT29 CMDBIT30 CMDBIT31 CMDBIT32 IEC09000925 V1 EN US Figure 151 AUTOBITS function block 9 9 4 Signals PID 3776 INPUTSIGNALS v6 Table 192 AUTOBITS Input signals Name Type Default Descriptio...

Page 327: ...d out bit 19 CMDBIT20 BOOLEAN Command out bit 20 CMDBIT21 BOOLEAN Command out bit 21 CMDBIT22 BOOLEAN Command out bit 22 CMDBIT23 BOOLEAN Command out bit 23 CMDBIT24 BOOLEAN Command out bit 24 CMDBIT2...

Page 328: ...s like an overriding the function still receives data from the DNP3 master Upon deactivation of BLOCK all the 32 CMDBITxx outputs will be set by the DNP3 master again momentarily For AUTOBITS the PSTO...

Page 329: ...mmand output 1 OUT2 BOOLEAN Single command output 2 OUT3 BOOLEAN Single command output 3 OUT4 BOOLEAN Single command output 4 OUT5 BOOLEAN Single command output 5 OUT6 BOOLEAN Single command output 6...

Page 330: ...ters in PCM600 The output signals can be of the types Off Steady or Pulse This configuration setting is done via the local HMI or PCM600 and is common for the whole function block The length of the ou...

Page 331: ...ach circuit breaker It provides a settable pulse prolongation time to ensure a trip pulse of sufficient length as well as all functionality necessary for correct co operation with autoreclosing functi...

Page 332: ...RINL1 BOOLEAN 0 Trip phase L1 TRINL2 BOOLEAN 0 Trip phase L2 TRINL3 BOOLEAN 0 Trip phase L3 PSL1 BOOLEAN 0 Functional input for phase selection in phase L1 PSL2 BOOLEAN 0 Functional input for phase se...

Page 333: ...gnal 10 1 5 Settings GUID 6D6424B9 B676 4D9B 949A 33C74BDC5711 v1 Table 200 SMPPTRC Group settings basic Name Values Range Unit Step Default Description Operation Off On Off Operation Off On Program 3...

Page 334: ...which all trip output signals from the protection functions within the IED or from external protection functions via one or more of the IEDs binary inputs are routed It has a single three phase trip o...

Page 335: ...RSTLKOUT TRIP Final Tripping Circuits TRL1 TRL2 TRL3 TR1P TR2P TR3P CLLKOUT TRIN TRINL1 TRINL2 TRINL3 PSL1 PSL2 PSL3 1PTRZ 1PTREF L1TRIP Phase Segregated L2TRIP L3TRIP BLOCK BLKLKOUT TRIN TRINL1 TRINL...

Page 336: ...ch will force all tripping to be three phase This input is required in order to cooperate with the SMBRREC function In multi breaker arrangements one SMPPTRC function block is used for each circuit br...

Page 337: ...se REV are all available as outputs on the trip function All start and directional outputs are mapped to the IEC 61850 logical node data model of the trip function The time stamping is updated each ti...

Page 338: ...hase front logic simplified logic diagram IEC10000056 4 en Original vsdx L1TRIP TRIN OR 1PTREF t tWaitForPHS OR TRINL1 AND PSL1 OR OR AND AND PSL2 PSL3 TRINL2 TRINL3 L2TRIP L3TRIP OR OR OR LOOP AND AN...

Page 339: ...BLKLKOUT OR OR TRIPL1 AND TRIPL3 TRIPL2 TRIPALL TRL2 TRL3 LOOP AND LOOP OR AND OR OR OR OR AND AND OR AND AND OR t 10 ms t 5 ms TR3P AND OR SETLKOUT RSTLKOUT AND OR LOOP LOOP AND AND TR1P TR2P CLKLKO...

Page 340: ...b12 b13 b14 b15 AND AND XOR b0 b1 out BitsToInt DIRN STN STN FWN REVN dirPhsB 61850 Standard 0 unknown 1 forward 2 backward reverse dirPhsC 61850 Standard 0 unknown 1 forward 2 backward reverse dirNeu...

Page 341: ...s to provide general start and directional information for the IEC 61850 trip logic data model SMPPTRC 10 2 3 Function block GUID 99B1DF71 F7C4 4954 8688 BC709C3C2A16 v1 SMAGAPC BLOCK STDIR1 STDIR2 ST...

Page 342: ...als Name Type Description STDIR INTEGER Common start direction output 10 2 5 Settings PID 6906 SETTINGS v2 Table 205 SMAGAPC Group settings basic Name Values Range Unit Step Default Description Operat...

Page 343: ...he block This is done individually for each protection function connected to the StartMatrix via the STDIRX inputs see Figure 162 All STDIROUT signals are then connected via an OR gate see Figure 161...

Page 344: ...ria STDIRX STDIROUT START Criteria STDIRX STDIROUT START Criteria STDIRX STDIROUT START Criteria STDIRX STDIROUT START Criteria STDIRX STDIROUT START Criteria STDIRX STDIROUT START Criteria STDIRX STD...

Page 345: ...V2 EN US Figure 162 The START Criteria function START in STL1 in STL3 in FW in REV in FWL1 in REVL1 in START out FW out REV out STL1 out FWL1 out REVL1 out STL2 out FWL2 out REVL2 out STL3 out FWL3 o...

Page 346: ...b1 FW forward b2 REV reverse b3 STL1 startL1 b4 FWL1 forwardL1 b5 REVL1 reverseL1 b6 STL2 startL2 b7 FWL2 forwardL2 b8 REVL2 reverseL2 b9 STL3 startL3 b10 FWL3 forwardL3 b11 REVL3 reverseL3 b12 STN s...

Page 347: ...STDIR PROTECTION 4 BLOCK START FW REV STL1 FWL1 REVL1 STL2 FWL2 REVL2 STL3 FWL3 REVL3 STDIR STARTCOMB STN FWN REVN BLOCK BLKLKOUT TRIN TRINL1 TRINL2 TRINL3 PSL1 PSL2 PSL3 1PTRZ 1PTREF P3PTR SETLKOUT R...

Page 348: ...1 3 v12 The trip matrix logic TMAGAPC function is used to route trip signals and other logical output signals to different output contacts on the IED The trip matrix logic function has 3 output signal...

Page 349: ...PC function block 10 3 4 Signals PID 6513 INPUTSIGNALS v4 Table 206 TMAGAPC Input signals Name Type Default Description BLOCK BOOLEAN 0 Block of function BLK1 BOOLEAN 0 Block of output 1 BLK2 BOOLEAN...

Page 350: ...INPUT22 BOOLEAN 0 Binary input 22 INPUT23 BOOLEAN 0 Binary input 23 INPUT24 BOOLEAN 0 Binary input 24 INPUT25 BOOLEAN 0 Binary input 25 INPUT26 BOOLEAN 0 Binary input 26 INPUT27 BOOLEAN 0 Binary inpu...

Page 351: ...6 has logical value 1 the first output signal OUTPUT1 will get logical value 1 2 when any one of second 16 inputs signals INPUT17 to INPUT32 has logical value 1 the second output signal OUTPUT2 will g...

Page 352: ...ulse time shall be set to at least 0 150 seconds in order to obtain satisfactory minimum duration of the trip pulse to the circuit breaker trip coils 10 3 7 Technical data GUID 3AB1EE95 51BF 4CC4 99BD...

Page 353: ...ALH Input signals Name Type Default Description BLOCK BOOLEAN 0 Block of function INPUT1 BOOLEAN 0 Binary input 1 INPUT2 BOOLEAN 0 Binary input 2 INPUT3 BOOLEAN 0 Binary input 3 INPUT4 BOOLEAN 0 Binar...

Page 354: ...nal logic OR gate in order to provide grouping of connected input signals to the output ALARM signal from the function block When any one of 16 input signals INPUT1 to INPUT16 has logical value 1 the...

Page 355: ...2 v1 WRNCALH BLOCK INPUT1 INPUT2 INPUT3 INPUT4 INPUT5 INPUT6 INPUT7 INPUT8 INPUT9 INPUT10 INPUT11 INPUT12 INPUT13 INPUT14 INPUT15 INPUT16 WARNING IEC13000182 1 en vsd IEC13000182 V1 EN US 10 5 4 Signa...

Page 356: ...ration Off On Off Operation Off On 10 5 6 Operation principle GUID 71C65C20 7B6C 499F BFCD E418AA55F7EC v2 The logic for group warning WRNCALH block is provided with 16 input signals and 1 WARNING out...

Page 357: ...gic for group indication INDCALH 10 6 2 Functionality GUID D8D1A4EE A87F 46C6 8529 277FC1ADA9B0 v4 The group indication logic function INDCALH is used to route several indication signals to a common i...

Page 358: ...t 14 INPUT15 BOOLEAN 0 Binary input 15 INPUT16 BOOLEAN 0 Binary input 16 PID 4128 OUTPUTSIGNALS v4 Table 219 INDCALH Output signals Name Type Description IND BOOLEAN OR function betweeen inputs 1 to 1...

Page 359: ...logic blocks and timers are always available as basic for the user to adapt the configuration to the specific application needs The list below shows a summary of the function blocks and their features...

Page 360: ...e memory setting controls if after a power interruption the flip flop resets or returns to the state it had before the power interruption The SET input has priority TIMERSET function has pick up and d...

Page 361: ...ND instances Logic block Quantity with cycle time 3 ms 8 ms 100 ms AND 60 60 160 10 7 2 Controllable gate function block GATE IP11021 1 v2 M11489 3 v2 The Controllable gate function block GATE is used...

Page 362: ...TE instances Logic block Quantity with cycle time 3 ms 8 ms 100 ms GATE 10 10 20 10 7 3 Inverter function block INV IP11011 1 v2 10 7 3 1 Function block M11445 3 v1 IEC04000404_2_en vsd INV INPUT OUT...

Page 363: ...Function block GUID EE44CFDF C8F7 4870 BD1C 98D9CD91FD97 v4 LLD INPUT OUT IEC15000144 vsd IEC15000144 V1 EN US Figure 172 LLD function block 10 7 4 2 Signals PID 3805 INPUTSIGNALS v5 Table 232 LLD Inp...

Page 364: ...Name Type Default Description INPUT1 BOOLEAN 0 Input 1 to OR gate INPUT2 BOOLEAN 0 Input 2 to OR gate INPUT3 BOOLEAN 0 Input 3 to OR gate INPUT4 BOOLEAN 0 Input 4 to OR gate INPUT5 BOOLEAN 0 Input 5...

Page 365: ...SETIMER Input signals Name Type Default Description INPUT BOOLEAN 0 Input to pulse timer PID 6985 OUTPUTSIGNALS v1 Table 239 PULSETIMER Output signals Name Type Description OUT BOOLEAN Output from pul...

Page 366: ...priority over SET input Table 242 Truth table for RSMEMORY function block RESET SET OUT NOUT 0 0 Last value Inverted last value 0 1 1 0 1 0 0 1 1 1 0 1 10 7 7 1 Function block GUID 50D5A4C0 59BF 44DE...

Page 367: ...ORY is a flip flop with memory that can set or reset an output from two inputs respectively Each SRMEMORY function block has two outputs where one is inverted The memory setting controls if after a po...

Page 368: ...n Memory Off On On Operating mode of the memory function 10 7 8 4 Technical data GUID 7A0F4327 CA83 4FB0 AB28 7C5F17AE6354 v1 Table 251 Number of SRMEMORY instances Logic block Quantity with cycle tim...

Page 369: ...RSET function block 10 7 9 2 Signals PID 6976 INPUTSIGNALS v1 Table 252 TIMERSET Input signals Name Type Default Description INPUT BOOLEAN 0 Input to timer PID 6976 OUTPUTSIGNALS v1 Table 253 TIMERSET...

Page 370: ...10 ms 10 7 10 Exclusive OR function block XOR IP11018 1 v2 M11477 3 v4 The exclusive OR function XOR is used to generate combinatory expressions with boolean variables XOR has two inputs and two outpu...

Page 371: ...ms XOR 10 10 20 10 8 Fixed signals FXDSIGN 10 8 1 Identification SEMOD167904 2 v2 Function description IEC 61850 identification IEC 60617 identification ANSI IEEE C37 2 device number Fixed signals FX...

Page 372: ...ith no characters ZEROSMPL GROUP SIGNAL Channel id for zero sample GRP_OFF GROUP SIGNAL Group signal fixed off 10 8 5 Settings PID 1325 SETTINGS v11 The function does not have any settings available i...

Page 373: ...on ANSI IEEE C37 2 device number Boolean 16 to integer conversion B16I 10 9 2 Functionality SEMOD175725 4 v5 Boolean to integer conversion 16 bit B16I is used to transform a set of 16 boolean logical...

Page 374: ...ut 11 IN12 BOOLEAN 0 Input 12 IN13 BOOLEAN 0 Input 13 IN14 BOOLEAN 0 Input 14 IN15 BOOLEAN 0 Input 15 IN16 BOOLEAN 0 Input 16 PID 3606 OUTPUTSIGNALS v3 Table 262 B16I Output signals Name Type Descript...

Page 375: ...x from function block B16I for 1 x 16 The sum of the value on each INx corresponds to the integer presented on the output OUT on the function block B16I Name of input Type Default Description Value wh...

Page 376: ...to integer conversion with logical node representation 16 bit BTIGAPC 10 10 2 Functionality SEMOD175781 4 v8 Boolean to integer conversion with logical node representation 16 bit BTIGAPC is used to t...

Page 377: ...11 IN12 BOOLEAN 0 Input 12 IN13 BOOLEAN 0 Input 13 IN14 BOOLEAN 0 Input 14 IN15 BOOLEAN 0 Input 15 IN16 BOOLEAN 0 Input 16 PID 6944 OUTPUTSIGNALS v2 Table 266 BTIGAPC Output signals Name Type Descrip...

Page 378: ...k BTIGAPC for 1 x 16 The sum of the value on each INx corresponds to the integer presented on the output OUT on the function block BTIGAPC Name of input Type Default Description Value when activated V...

Page 379: ...IEEE C37 2 device number Integer to boolean 16 conversion IB16 10 11 2 Functionality SEMOD158373 5 v6 Integer to boolean 16 conversion function IB16 is used to transform an integer into a set of 16 b...

Page 380: ...LEAN Output 11 OUT12 BOOLEAN Output 12 OUT13 BOOLEAN Output 13 OUT14 BOOLEAN Output 14 OUT15 BOOLEAN Output 15 OUT16 BOOLEAN Output 16 10 11 5 Setting parameters ABBD8E242451 v3 The function does not...

Page 381: ...ally If the BLOCK input is activated it will freeze the logical outputs at the last value Values of each of the different OUTx from function block IB16 for 1 x 16 The sum of the value on each INx corr...

Page 382: ...version with logic node representation function ITBGAPC is used to transform an integer which is transmitted over IEC 61850 and received by the function to 16 boolean logic output signals ITBGAPC func...

Page 383: ...GER 1 Operator place selection PID 3627 OUTPUTSIGNALS v7 Table 273 ITBGAPC Output signals Name Type Description OUT1 BOOLEAN Output 1 OUT2 BOOLEAN Output 2 OUT3 BOOLEAN Output 3 OUT4 BOOLEAN Output 4...

Page 384: ...ger value received over IEC 61850 to the ITBGAPC_1 function block The Integer to Boolean 16 conversion with logic node representation function ITBGAPC will transfer an integer with a value between 0 t...

Page 385: ...PSTO is in position Off or Local then no changes are applied to the outputs 10 12 7 Technical data GUID A339BBA3 8FD0 429D BB49 809EAC4D53B0 v1 Table 275 Number of ITBGAPC instances Function Quantity...

Page 386: ...cking and reset of the total integrated time Report of the integrated time 10 13 3 Function block GUID 6D50A060 7751 405B AEC1 FAE942EBDA64 v2 TEIGAPC BLOCK IN RESET WARNING ALARM OVERFLOW ACCTIME IEC...

Page 387: ...ervision tAlarm 1 00 999999 00 s 0 01 1200 00 Time limit for alarm supervision 10 13 6 Operation principle GUID 04CC8365 DCDE 4DC7 BEF0 6EF8382305DD v3 The elapsed time integrator TEIGAPC provides tim...

Page 388: ...the integration value Consequently all other outputs are also reset unconditionally on the input IN value reset the value of the nonvolatile memory to zero BLOCK Freeze the integration and block rese...

Page 389: ...45544AB8688 v3 The value of the integrated elapsed time is retained in a non volatile memory 10 13 7 Technical data GUID B258726E 1129 47C9 94F9 BE634A2085FA v3 Table 279 TEIGAPC Technical data Functi...

Page 390: ...pared with reference value REF INTEGER 0 Reference value to be compared with input value PID 6928 OUTPUTSIGNALS v2 Table 282 INTCOMP Output signals Name Type Description INEQUAL BOOLEAN Input value is...

Page 391: ...econd input signal REF If RefSource is selected as Set Value then the reference value for comparison is taken from setting SetValue The comparison can be done either between absolute values or signed...

Page 392: ...escription IEC 61850 identification IEC 60617 identification ANSI IEEE C37 2 device number Comparator for real inputs REALCOMP Real 10 15 2 Functionality GUID E17A88D7 D095 4F36 9CD5 64EBFD2A1DEA v1 T...

Page 393: ...ion for absolute or signed comparison RefSource Set Value Input REF Set Value Selection for reference value either input or setting SetValue 999 999 999 999 0 001 0 001 Set value for reference SetValP...

Page 394: ...omparison is done If EnaAbs is selected as Signed then the comparison is done without absolute conversion High Comparator Low comparator XOR ABS INPUT REF INHIGH INEQUAL INLOW T F ABS EqualBandHigh En...

Page 395: ...s During the above mentioned condition due to marginal value for avoiding oscillations of function outputs the INLOW output will never set 10 15 7 Technical data GUID 62792FCB B436 4034 9A08 C9FF918FF...

Page 396: ...390...

Page 397: ...nce component measurement VMSQI U1 U2 U0 SYMBOL TT V1 EN US Phase neutral voltage measurement VNMMXU U SYMBOL UU V1 EN US 11 1 2 Functionality SEMOD54488 4 v12 Measurement functions are used for power...

Page 398: ...ervision can be used to report measured signal value to station level when change in measured value is above set threshold limit or time integral of all changes since the last time value updating exce...

Page 399: ...d angle U sequence voltages positive zero and negative sequence amplitude and angle 11 1 3 Function block SEMOD130334 4 v7 The available function blocks of an IED are depending on the actual hardware...

Page 400: ...GL IEC05000703 V2 EN US Figure 194 CMSQI function block IEC05000704 2 en vsd VMSQI U3P 3U0 3U0RANG 3U0ANGL U1 U1RANG U1ANGL U2 U2RANG U2ANGL IEC05000704 V2 EN US Figure 195 VMSQI function block IEC090...

Page 401: ...of deadband value Q_RANGE INTEGER Reactive Power range PF REAL Power Factor magnitude of deadband value PF_RANGE INTEGER Power Factor range ILAG BOOLEAN Current is lagging voltage ILEAD BOOLEAN Curren...

Page 402: ...ROUP SIGNAL Group signal for voltage input PID 6738 OUTPUTSIGNALS v2 Table 295 VMMXU Output signals Name Type Description UL12 REAL UL12 Amplitude magnitude of reported value UL12RANG INTEGER UL12 Amp...

Page 403: ...ion U3P GROUP SIGNAL Group signal for voltage input PID 6739 OUTPUTSIGNALS v2 Table 299 VMSQI Output signals Name Type Description 3U0 REAL 3U0 Amplitude magnitude of reported value 3U0RANG INTEGER 3U...

Page 404: ...ms are used in the Unit and Description columns UBase UB Base voltage in primary kV This voltage is used as reference for voltage setting It can be suitable to set this parameter to the rated primary...

Page 405: ...rting type UMin 0 0 200 0 UB 0 1 50 0 Minimum value in of UBase UMax 0 0 200 0 UB 0 1 200 0 Maximum value in of UBase URepTyp Cyclic Deadband Int deadband Db Cyclic 5s Db Cyclic 30s Db Cyclic 1min Cyc...

Page 406: ...1 10 Cycl Report interval s Db In 0 001 of range Int Db In 0 001 s PZeroDb 0 100000 m 500 1000 Magnitude zero point clamping in 0 001 of range PHiHiLim 2000 0 2000 0 SB 0 1 150 0 High High limit in of...

Page 407: ...l s Db In 0 001 of range Int Db In 0 001 s IZeroDb 0 100000 m 500 1000 Magnitude zero point clamping in 0 001 of range IHiHiLim 0 0 500 0 IB 0 1 150 0 High High limit in of IBase IHiLim 0 0 500 0 IB 0...

Page 408: ...Report interval s Db In 0 001 of range Int Db In 0 001 s Operation Off On Off Operation Mode On Off IL1Min 0 0 500 0 IB 0 1 50 0 Minimum value in of IBase IL1Max 0 0 500 0 IB 0 1 200 0 Maximum value...

Page 409: ...bration for current at 5 of Ir IAngComp30 10 000 10 000 Deg 0 001 0 000 Angle calibration for current at 30 of Ir IAngComp100 10 000 10 000 Deg 0 001 0 000 Angle calibration for current at 100 of Ir I...

Page 410: ...n 0 001 of range Int Db In 0 001 s UL23ZeroDb 0 100000 m 500 1000 Magnitude zero point clamping in 0 001 of range UL23Min 0 0 200 0 UB 0 1 50 0 Minimum value in of UBase UL23Max 0 0 200 0 UB 0 1 200 0...

Page 411: ...0 1 120 0 High limit in of UBase UL31LowLim 0 0 200 0 UB 0 1 80 0 Low limit in of UBase UL31LowLowLim 0 0 200 0 UB 0 1 60 0 Low Low limit in of UBase UL31LimHys 0 000 100 000 0 001 5 000 Hysteresis va...

Page 412: ...00 0 001 5 000 Hysteresis value in of range common for all limits I2AngDbRepInt 1 100000 s 1 10 Cyclic report interval s Table 309 CMSQI Non group settings advanced Name Values Range Unit Step Default...

Page 413: ...b In 0 001 s U1ZeroDb 0 100000 m 500 1000 Magnitude zero point clamping in 0 001 of range U1Min 0 0 200 0 UB 0 1 50 0 Minimum value in of UBase U1Max 0 0 200 0 UB 0 1 200 0 Maximum value in of UBase U...

Page 414: ...00 0 UB 0 1 60 0 Low Low limit in of UBase U2HiHiLim 0 0 200 0 UB 0 1 150 0 High High limit in of UBase U2HiLim 0 0 200 0 UB 0 1 120 0 High limit in of UBase U2LowLim 0 0 200 0 UB 0 1 80 0 Low limit i...

Page 415: ...value in of UBase UL3RepTyp Cyclic Deadband Int deadband Db Cyclic 5s Db Cyclic 30s Db Cyclic 1min Cyclic Reporting type UL3LimHys 0 000 100 000 0 001 5 000 Hysteresis value in of range common for all...

Page 416: ...or magnitude of deadband value U REAL kV Calculated voltage magnitude of deadband value I REAL A Calculated current magnitude of deadband value F REAL Hz System frequency magnitude of deadband value P...

Page 417: ...Unit Description 3I0 REAL A 3I0 Amplitude magnitude of reported value 3I0ANGL REAL deg 3I0 Angle magnitude of reported value I1 REAL A I1 Amplitude magnitude of reported value I1ANGL REAL deg I1 Angle...

Page 418: ...ent supervision SEMOD54417 130 v4 The protection control and monitoring IEDs have functionality to measure and further process information for currents and voltages obtained from the pre processing bl...

Page 419: ...t XHiHiLim pre set values Underfunction when the measured quantity decreases under the Low limit XLowLim or Low low limit XLowLowLim pre set values X_RANGE is illustrated in figure 197 IEC05000657 3 e...

Page 420: ...ting Cyclic Amplitude dead band supervision Dead band Integral dead band supervision Int deadband Amplitude Deadband and 5s cyclic Amplitude Deadband and 30s cyclic Amplitude Deadband and 1min cyclic...

Page 421: ...e last reported value and the change is larger than the Y pre defined limits that are set by user XDbRepInt then the measuring channel reports the new value to a higher level This limits the informati...

Page 422: ...implified the process is not continuous but the values are evaluated with a time interval of one execution cycle from each other The last value reported Y1 in figure 200 serves as a basic value for fu...

Page 423: ...DFA 4A38 BC9D 29538491254D v1 In this mode of operation the reporting interval will be cyclic like in reporting type cyclic This cyclic time has three options 5sec 30 sec and 1 min Additionally if a m...

Page 424: ...4417 174 v7 The measurement function must be connected to three phase current and three phase voltage input in the configuration tool group signals but it is capable to measure and calculate above men...

Page 425: ...when only symmetrical three phase power shall be measured 4 L1L2 1 2 1 2 L L L L S U I I EQUATION1391 V1 EN US Equation 44 1 2 1 2 2 L L L L U U I I I EQUATION1392 V1 EN US Equation 45 Used when only...

Page 426: ...he power system is fully symmetrical Once the complex apparent power is calculated then the P Q S PF are calculated in accordance with the following formulas Re P S EQUATION1403 V1 EN US Equation 56 I...

Page 427: ...ltage phase signal in the group signals will be used as reference The amplitude and angle compensation will be used for other related input signals Low pass filtering SEMOD54417 233 v4 In order to min...

Page 428: ...the zero clamping will influence the subsequent supervision observe the possibility to do zero point clamping within measurement supervision see section Measurement supervision Compensation facility...

Page 429: ...ing the active and reactive power will have positive values when they flow from the protected object towards the busbar Frequency SEMOD54417 261 v2 Frequency is actually not calculated within measurem...

Page 430: ...ent CMSQI or voltage VMSQI input in the configuration tool to be operable No outputs other than X_RANG are calculated within the measuring blocks and it is not possible to calibrate the signals Input...

Page 431: ...5 Ir I 4 0 Ir GUID 374C2AF0 D647 4159 8D3A 71190FE3CFE0 v5 Table 322 VMMXU technical data Function Range or value Accuracy Voltage 10 to 300 V 0 5 of U at U 50 V 0 2 of U at U 50 V Phase angle 10 to...

Page 432: ...e 5 to 175 V 0 5 degrees at U 50 V 0 2 degrees at U 50 V 11 2 Gas medium supervision SSIMG GUID 358AD8F8 AE06 4AEA 9969 46E5299D5B4B v3 11 2 1 Identification GUID AD96C26E C3E5 4B21 9ED6 12E540954AC3...

Page 433: ...M BOOLEAN 0 Pressure alarm signal SENPRESLO BOOLEAN 0 Pressure lockout signal SETPLO BOOLEAN 0 Set pressure lockout SETTLO BOOLEAN 0 Set temperature lockout RESETLO BOOLEAN 0 Reset pressure and temper...

Page 434: ...m 0 000 60 000 s 0 001 0 000 Reset time delay for temperture alarm 11 2 6 Monitored data PID 6950 MONITOREDDATA v5 Table 329 SSIMG Monitored data Name Type Values Range Unit Description PRESSURE REAL...

Page 435: ...out TEMPLO The TEMPLO output retains the last value until it is reset by using the binary input RESETLO The binary input BLKALM can be used to block the alarms and the BLOCK input can block both alarm...

Page 436: ...SSIML 71 11 3 2 Functionality GUID 3B1A665F 60A5 4343 85F4 AD9C066CBE8D v6 Insulation supervision for liquid medium SSIML is used for monitoring the transformer condition Binary information based on...

Page 437: ...above alarm level LVLALM BOOLEAN Level below alarm level TEMPALM BOOLEAN Temperature above alarm level LEVEL REAL Level service value TEMP REAL Temperature of the insulation medium 11 3 5 Settings PID...

Page 438: ...Limit or binary signal from transformer SENLVLLO is high the oil level indication lockout LVLLO will be initiated There may be sudden change in oil level for a very small time for which the function n...

Page 439: ...8 Technical data GUID 83B0F607 D898 403A 94FD 7FE8D45C73FF v7 Table 335 SSIMLTechnical data Function Range or value Accuracy Oil alarm level 1 00 100 00 10 0 of set value Oil lockout level 1 00 100 00...

Page 440: ...FEAL MONALM IPOWALPH IPOWLOPH SPCHALM GPRESALM GPRESLO IEC13000231 2 en vsd IEC13000231 V2 EN US Figure 206 SSCBR function block 11 4 4 Signals PID 3267 INPUTSIGNALS v10 Table 336 SSCBR Input signals...

Page 441: ...IPOWALPH BOOLEAN Accum I CurrExponent integr over CB open travel time exceeds alarm limit IPOWLOPH BOOLEAN Accum I CurrExponent integr over CB open travel time exceeds lockout limit SPCHALM BOOLEAN S...

Page 442: ...mates InactiveAlDays 0 9999 Day 1 2000 Alarm level for inactive days counter Table 339 SSCBR Non group settings advanced Name Values Range Unit Step Default Description OpenTimeCorr 0 100 0 100 s 0 00...

Page 443: ...urrExponent integrated over CB open travel time SPCHT REAL s The charging time of the CB spring 11 4 7 Operation principle GUID 3902D69C 1858 40DD AD63 C33C381697BA v12 The breaker monitoring function...

Page 444: ...B Status CB Operation Monitoring CB Operation Cycles Accumulated energy Remaining Life of CB RSTCBWR IPOWLOPH IPOWALPH MONALM INADAYS PRESALM PRESLO GPRESALM GPRESLO SPCHALM SPCHT RSTSPCHT CB Spring C...

Page 445: ...iliary contacts Similarly the closing travel time is measured between the opening of the POSOPEN and closing of the POSCLOSE auxiliary contacts A compensation factor has been added to consider the tim...

Page 446: ...ition of the circuit breaker that is whether the breaker is in the open closed or error position The operation is described in figure 210 Phase current check Contact position indicator POSCLOSE POSOPE...

Page 447: ...vsd IEC12000620 V3 EN US Figure 211 Functional module diagram for estimating the life of the circuit breaker Circuit breaker remaining life estimation If the interrupted current is less than the rate...

Page 448: ...I3P IL TRCMD IEC12000619 3 en vsd IEC12000619 V3 EN US Figure 212 Functional module diagram for estimating accumulated energy Accumulated energy calculation Accumulated energy can be calculated eithe...

Page 449: ...e The value can be reset by enabling RSTIPOW through LHMI or by activating the input RSTIPOW Alarm limit check The IPOWALPH alarm is activated when the accumulated energy exceeds the set value AlmAccC...

Page 450: ...ds the set value of the OperAlmLevel threshold setting If the number of operations increases and exceeds the limit value set with the OperLOLevel setting the OPERLO output is activated The binary outp...

Page 451: ...imit Check SPRCHRST RSTSPCHT SPCHT SPCHALM IEC12000621 V2 EN US Figure 216 Functional module diagram for circuit breaker spring charge indication Spring charging time measurement Spring charging time...

Page 452: ...ting The GPRESALM alarm can be blocked by activating the BLKALM input If the pressure drops further to a very low level the PRESLO binary input goes high activating the lockout alarm GPRESLO after a t...

Page 453: ...50 identification IEC 60617 identification ANSI IEEE C37 2 device number Event function EVENT S00946 V1 EN US 11 5 2 Functionality M12805 6 v11 When using a Substation Automation system with LON or SP...

Page 454: ...ult Description BLOCK BOOLEAN 0 Block of function INPUT1 GROUP SIGNAL 0 Input 1 INPUT2 GROUP SIGNAL 0 Input 2 INPUT3 GROUP SIGNAL 0 Input 3 INPUT4 GROUP SIGNAL 0 Input 4 INPUT5 GROUP SIGNAL 0 Input 5...

Page 455: ...t OnReset OnChange AutoDetect AutoDetect Reporting criteria for input 1 EventMask2 NoEvents OnSet OnReset OnChange AutoDetect AutoDetect Reporting criteria for input 2 EventMask3 NoEvents OnSet OnRese...

Page 456: ...2 EventMask13 NoEvents OnSet OnReset OnChange AutoDetect AutoDetect Reporting criteria for input 13 EventMask14 NoEvents OnSet OnReset OnChange AutoDetect AutoDetect Reporting criteria for input 14 Ev...

Page 457: ...he first eight inputs 1 8 must be used Inputs 9 16 can be used for other types of events in the same EVENT block The EVENT function also has an input BLOCK to block the generation of events Events tha...

Page 458: ...events at a rate that completely consume the granted quota then further events from the channel will be blocked This block will be removed when the input calms down and the accumulated quota reach 66...

Page 459: ...gnals from start of pre fault time to the end of post fault time will be included in the recording Disturbance record will have visible settings from all function instances that are configured in the...

Page 460: ...T33 INPUT34 INPUT35 INPUT36 INPUT37 INPUT38 INPUT39 INPUT40 IEC05000431 V3 EN US Figure 221 A4RADR function block derived analog inputs SEMOD54845 4 v6 IEC05000432 3 en vsd B1RBDR INPUT1 INPUT2 INPUT3...

Page 461: ...nput 4 GRPINPUT5 GROUP SIGNAL Group signal for input 5 GRPINPUT6 GROUP SIGNAL Group signal for input 6 GRPINPUT7 GROUP SIGNAL Group signal for input 7 GRPINPUT8 GROUP SIGNAL Group signal for input 8 G...

Page 462: ...nary channel 5 INPUT6 BOOLEAN 0 Binary channel 6 INPUT7 BOOLEAN 0 Binary channel 7 INPUT8 BOOLEAN 0 Binary channel 8 INPUT9 BOOLEAN 0 Binary channel 9 INPUT10 BOOLEAN 0 Binary channel 10 INPUT11 BOOLE...

Page 463: ...nnels 289 to 304 B20RBDR INPUT305 to INPUT320 binary channels 305 to 320 B21RBDR INPUT321 to INPUT336 binary channels 321 to 336 B22RBDR INPUT337 to INPUT352 binary channels 337 to 352 11 6 5 Settings...

Page 464: ...channel 1 on or not off UnderTrigLe01 0 200 1 50 Under trigger level for analog channel 1 in of signal OverTrigOp01 Off On Off Use over level trigger for analog channel 1 on or not off OverTrigLe01 0...

Page 465: ...0 5000 1 200 Over trigger level for analog channel 5 in of signal NomValue06 0 0 999999 9 0 1 0 0 Nominal value for analog channel 6 UnderTrigOp06 Off On Off Use under level trigger for analog channel...

Page 466: ...l 10 on or not off UnderTrigLe10 0 200 1 50 Under trigger level for analog channel 10 in of signal OverTrigOp10 Off On Off Use over level trigger for analog channel 10 on or not off OverTrigLe10 0 500...

Page 467: ...Off Start Trip Start and Trip Off Set LED on HMI for binary channel 4 TrigDR05 Off On Off Trigger operation On Off SetLED05 Off Start Trip Start and Trip Off Set LED on HMI for binary channel 5 TrigD...

Page 468: ...Start and Trip Off Set LED on HMI for binary channel 13 TrigDR14 Off On Off Trigger operation On Off SetLED14 Off Start Trip Start and Trip Off Set LED on HMI for binary channel 14 TrigDR15 Off On Of...

Page 469: ...0 Function type for binary channel 8 IEC 60870 5 103 InfNo8 0 255 1 0 Information number for binary channel 8 IEC 60870 5 103 FunType9 0 255 1 0 Function type for binary channel 9 IEC 60870 5 103 InfN...

Page 470: ...t 3 IndicationMa03 Hide Show Show Indication mask for binary channel 3 TrigLevel04 Trig on 0 Trig on 1 Trig on 1 Trigger on positive 1 or negative 0 slope for binary input 4 IndicationMa04 Hide Show S...

Page 471: ...ion mask for binary channel 15 TrigLevel16 Trig on 0 Trig on 1 Trig on 1 Trigger on positive 1 or negative 0 slope for binary input 16 IndicationMa16 Hide Show Show Indication mask for binary channel...

Page 472: ...a97 indication mask for binary channel 97 B8RBDR 113 to 128 IndicationMa113 indication mask for binary channel 113 B9RBDR 129 to 144 IndicationMa129 indication mask for binary channel 129 B10RBDR 145...

Page 473: ...Over level trig for analog channel 4 activated UnTrigStatCh5 BOOLEAN Under level trig for analog channel 5 activated OvTrigStatCh5 BOOLEAN Over level trig for analog channel 5 activated UnTrigStatCh6...

Page 474: ...4 BOOLEAN Over level trig for analog channel 14 activated UnTrigStatCh15 BOOLEAN Under level trig for analog channel 15 activated OvTrigStatCh15 BOOLEAN Over level trig for analog channel 15 activated...

Page 475: ...4 BOOLEAN Over level trig for analog channel 24 activated UnTrigStatCh25 BOOLEAN Under level trig for analog channel 25 activated OvTrigStatCh25 BOOLEAN Over level trig for analog channel 25 activated...

Page 476: ...4 BOOLEAN Over level trig for analog channel 34 activated UnTrigStatCh35 BOOLEAN Under level trig for analog channel 35 activated OvTrigStatCh35 BOOLEAN Over level trig for analog channel 35 activated...

Page 477: ...d related function blocks The whole disturbance report can contain information for a number of recordings each with the data coming from all the parts mentioned above The event list function is workin...

Page 478: ...lue recorder TVR 100 400 s 350 300 40 60 80 40 analog 96 binary 20 analog 96 binary 3 4 s 6 3 s 6 3 s 60 Hz 50 Hz 6 3 s 3 4 s 250 Total recording time Number of recordings en05000488 vsd IEC05000488 V...

Page 479: ...9E1181187 v1 For each disturbance recording the setting values of the configured components are read twice once during the trigger of disturbance record and again during post processing of the disturb...

Page 480: ...e current disturbance recording PreFaultRecT TimeLimit PostFaultRecT en05000487 vsd 1 2 3 Trig point IEC05000487 V1 EN US Figure 225 The recording times definition PreFaultRecT 1 Pre fault or pre trig...

Page 481: ...acquired filtered and skewed and after configuration available as an input signal on the AxRADR function block via the SMAI function block The information is saved at the Disturbance report base sampl...

Page 482: ...e selected from internal logical and binary input signals A binary signal is selected to be recorded when the corresponding function block is included in the configuration the signal is connected to t...

Page 483: ...threshold level for an overvoltage or overcurrent trigger this trigger is indicated with a greater than sign with the user defined name If the average value is below the set threshold level for an un...

Page 484: ...60 Hz Recording bandwidth 5 300 Hz 11 7 Logical signal status report BINSTATREP GUID E7A2DB38 DD96 4296 B3D5 EB7FBE77CE07 v2 11 7 1 Identification GUID E0247779 27A2 4E6C A6DD D4C31516CA5C v3 Functio...

Page 485: ...INPUT2 BOOLEAN 0 Single status report input 2 INPUT3 BOOLEAN 0 Single status report input 3 INPUT4 BOOLEAN 0 Single status report input 4 INPUT5 BOOLEAN 0 Single status report input 5 INPUT6 BOOLEAN...

Page 486: ...status report output 13 OUTPUT14 BOOLEAN Logical status report output 14 OUTPUT15 BOOLEAN Logical status report output 15 OUTPUT16 BOOLEAN Logical status report output 16 11 7 5 Settings PID 4144 SET...

Page 487: ...C are provided with measurement supervision functionality All measured values can be supervised with four settable limits low low limit low limit high limit and high high limit The measure value expan...

Page 488: ...8 5 Operation principle SEMOD52462 4 v5 The input signal must be connected to a range output of a measuring function block CVMMXN CMMXU VMMXU VNMMXU CMSQI VMSQ or MVGAPC The function block converts t...

Page 489: ...d for each up counter 11 9 3 Operation principle GUID 4D58423F 329C 4553 9FAF E55A368849A5 v2 Limit counter L4UFCNT counts the number of positive and or negative flanks on the binary input signal depe...

Page 490: ...sed overflow indication for the next count The pulsed overflow output lasts up to the first count after rolling over to zero as illustrated in figure 231 IEC12000626_1_en vsd Max value 3 Max value 1 M...

Page 491: ...al HMI graphical display 11 9 4 Function block GUID C90E7375 F3CC 414A 93FC 9AC4A9156FFC v1 L4UFCNT BLOCK INPUT RESET ERROR OVERFLOW LIMIT1 LIMIT2 LIMIT3 LIMIT4 VALUE IEC12000029 1 en vsd IEC12000029...

Page 492: ...econd limit CounterLimit3 1 65535 1 300 Value of the third limit CounterLimit4 1 65535 1 400 Value of the fourth limit MaxValue 1 65535 1 500 Maximum count value OnMaxValue Stop Rollover Steady Rollov...

Page 493: ...ET IN tWarning tAlarm OVERFLOW WARNING ALARM q 1 a b a b a b a b a b a b q 1 unit delay IEC15000321 1 en vsd ACC_DAY 99 999 9 h tAddToTime ADDTIME IEC15000321 V1 EN US Figure 233 TEILGAPC logics The m...

Page 494: ...Output signals Name Type Description ALARM BOOLEAN Indicator that accumulated time has reached alarm limit WARNING BOOLEAN Indicator that accumulated time has reached warning limit OVERFLOW BOOLEAN In...

Page 495: ...presents accumulated value in hours and ACC_DAY presents accumulated value in days accumulated value is retained in a non volatile memory any retained value is used as initiation value for the integra...

Page 496: ...ible to be defined with a resolution of 0 1 hours 6 minutes The limit for the overflow supervision is fixed at 99999 9 hours The outputs will reset and the accumulated time will reset and start from z...

Page 497: ...lue Accuracy Time limit for alarm supervision tAlarm 0 99999 9 hours 0 1 of set value Time limit for warning supervision tWarning 0 99999 9 hours 0 1 of set value Time limit for overflow supervision F...

Page 498: ...492...

Page 499: ...rgy meter for calculation of energy consumption values The pulses are captured by the binary input module and then read by the PCFCNT function A scaled service value is available over the station bus...

Page 500: ...e is generated SCAL_VAL REAL Scaled value with time and status information 12 1 5 Settings PID 6509 SETTINGS v4 Table 372 PCFCNT Non group settings basic Name Values Range Unit Step Default Descriptio...

Page 501: ...lue is a 32 bit signed integer with a range 0 2147483647 The counter is reset at initialization of the IED The reported value to station HMI over the station bus contains Identity Scaled Value pulse c...

Page 502: ...tion block for the Binary Input Module BIM The RS_CNT input is used for resetting the counter Each pulse counter logic function block has four binary output signals that can be connected to an Event f...

Page 503: ...on and demand handling ETPMMTR W_Varh 12 2 2 Functionality GUID 6898E29B DA70 421C 837C 1BBED8C63A7A v3 Power system measurement CVMMXN can be used to measure active as well as reactive power values F...

Page 504: ...demand values are calculated for both forward and reverse direction and these values can be reset with RSTDMD input 12 2 3 Function block SEMOD175502 4 v5 ETPMMTR P Q STARTACC STOPACC RSTACC RSTDMD A...

Page 505: ...nergy value ERFACC REAL Accumulated forward reactive energy value ERRACC REAL Accumulated reverse reactive energy value MAXPAFD REAL Maximum forward active power demand value for set interval MAXPARD...

Page 506: ...0 MVArh 0 001 1000 000 Reactive energy limit EnZeroClamp Off On On Enable of zero point clamping detection function LevZeroClampP 0 001 10000 000 MW 0 001 10 000 Zero point clamping level at active Po...

Page 507: ...active power demand value for set interval MAXPRFD REAL MVAr Maximum forward reactive power demand value for set interval MAXPRRD REAL MVAr Maximum reverse reactive power demand value for set interva...

Page 508: ...G is low even if the integration of energy is enabled ACCINPRG is deactivated by activating the STOPACC input T F STARTACC ACCINPRG RSTACC 1 q 1 STOPACC FALSE EnaAcc IEC13000186 4 en vsd q 1 unit dela...

Page 509: ...d by the energy per pulse value to get the number of pulses The number of pulses can be reset to zero by activating RSTACC input or by using the local HMI reset menu The pulse on and off time duration...

Page 510: ...nd reverse direction When the RSTDMD input is active from the local HMI reset menu these outputs are reset to zero The energy alarm is activated once the periodic energy value crosses the energy limit...

Page 511: ...4F35 8C69 FFAA951FE374 v1 Table 380 Function Range or value Accuracy Energy metering MWh Export Import MVarh Export Import Input from MMXU No extra error at steady load 1MRK 505 384 UEN A Section 12...

Page 512: ...506...

Page 513: ...right DHCP is available for the front port and a device connected to it can thereby obtain an automatically assigned IP address 13 1 2 Settings PID 6775 SETTINGS v4 Table 381 AP_1 Non group settings...

Page 514: ...he TCP control server C37 118UDP5 Off On On IEEE 1344 and C37 118 UDP stream and the TCP control server C37 118UDP6 Off On On IEEE 1344 and C37 118 UDP stream and the TCP control server DefaultGateway...

Page 515: ...C37 118 UDP stream and the TCP control server DefaultGateway 0 18 IP Address 1 0 0 0 0 Default gateway IP address PID 6811 SETTINGS v3 Table 383 DHCP Non group settings basic Name Values Range Unit St...

Page 516: ...UTPUTSIGNALS v2 Table 384 SCHLCCH Output signals Name Type Description LINKUP BOOLEAN Access point link status DOSALARM BOOLEAN Denial of service alarm PID 6819 OUTPUTSIGNALS v2 Table 385 RCHLCCH Outp...

Page 517: ...able 389 FRONTSTATUS Monitored data Name Type Values Range Unit Description GatewayConfig INTEGER 0 Ok 1 Error 1 Off 2 Invalid Gateway configuration status 13 3 Redundant communication 13 3 1 Identifi...

Page 518: ...unication according to 62439 3 uses two optical Ethernet ports 13 3 3 Operation principle GUID 73DB23CD A924 4B89 8AAB 1E79D44DE429 v1 PRP IEC 62439 3 redundant communication The communication is perf...

Page 519: ...tions over the ring Every node forwards the frames it receives from one port to another to reach the next node When the originating sender node receives the frame it sent the sender node discards the...

Page 520: ...lues in digital format commonly known as Merging Units MU The rear access points are used for the communication The merging units MU are called so because they can gather analog values from one or mor...

Page 521: ...ite CTStarPoint4 FromObject ToObject ToObject ToObject towards protected object FromObject the opposite 13 4 3 Monitored data PID 6850 MONITOREDDATA v3 Table 392 MU1_HW Monitored data Name Type Values...

Page 522: ...0 Process 1 Substituted Source indication output for I1 Test BOOLEAN 1 Yes 0 No Test indication output for I1 Validity INTEGER 0 Good 2 Reserved 1 Invalid 3 Questionable Validity indication output I1...

Page 523: ...ory indication output for I3 OutOfRange BOOLEAN 1 Yes 0 No OutOfRange indication output for I3 Overflow BOOLEAN 1 Yes 0 No Overflow indication output for I3 Source BOOLEAN 0 Process 1 Substituted Sour...

Page 524: ...indication output for U1 OldData BOOLEAN 1 Yes 0 No OldData indication output for U1 OperatorBlocked BOOLEAN 1 Yes 0 No OperatorBlocked indication output for U1 Oscillatory BOOLEAN 1 Yes 0 No Oscilla...

Page 525: ...indication output for U3 Failure BOOLEAN 1 Yes 0 No Failure indication output for U3 Inaccurate BOOLEAN 1 Yes 0 No Inaccurate indication output for U3 Inconsistent BOOLEAN 1 Yes 0 No Inconsistent ind...

Page 526: ...on output for U4 Overflow BOOLEAN 1 Yes 0 No Overflow indication output for U4 Source BOOLEAN 0 Process 1 Substituted Source indication output for U4 Test BOOLEAN 1 Yes 0 No Test indication output for...

Page 527: ...18 IP Address 1 0 0 0 0 IP address of the gateway DestIPAddress 0 18 IP Address 1 0 0 0 0 Destination IP address DestSubnetMask 0 18 IP Address 1 255 255 255 255 Destination IP subnet mask Name 1 18...

Page 528: ...522...

Page 529: ...EC 60870 5 103 communication protocol DNP 3 0 communication protocol Several protocols can be combined in the same IED 14 2 Communication protocol diagnostics GUID 6BC4671F 6D06 4BBD B1FF 2F03FF16A856...

Page 530: ...15 IEC 61850 Ed 1 or Ed 2 can be chosen by a setting in PCM600 The IED is equipped with four optical Ethernet rear ports for IEC 61850 8 1 station bus communication The IEC 61850 8 1 communication is...

Page 531: ...Non group settings basic Name Values Range Unit Step Default Description Operation Off On Off Operation Off On GOOSEPortEd1 AP_FRONT AP_1 AP_2 AP_3 AP_4 AP_5 AP_6 AP_1 Selection of GOOSE port only for...

Page 532: ...ion speed for the IEDs 1 25 Mbit s Protocol SPA Communication speed for the IEDs 300 38400 Bd 14 4 5 Generic communication function for Single Point indication SPGAPC SP16GAPC SEMOD55999 1 v4 14 4 5 1...

Page 533: ...NAL Output 3 status OUT4 GROUP SIGNAL Output 4 status OUT5 GROUP SIGNAL Output 5 status OUT6 GROUP SIGNAL Output 6 status OUT7 GROUP SIGNAL Output 7 status OUT8 GROUP SIGNAL Output 8 status OUT9 GROUP...

Page 534: ...DPOUT DATAVALID COMMVALID TEST IEC10000249 2 en vsdx IEC10000249 V2 EN US Figure 254 GOOSEDPRCV function block 14 4 6 4 Signals GUID 2DC54788 86AF 4B4B 8E57 A89E30F0C433 v1 Except for the BLOCK input...

Page 535: ...otal failure condition and the GOOSE transmission from the sending IED does not happen The TEST output will go HIGH if the sending IED is in test mode Data Value Data Valid Comm Valid Test Incoming da...

Page 536: ...NTRCV 14 4 7 2 Functionality GUID 27B1ED7A C8E8 499E 89C1 C656FB0337F8 v3 GOOSEINTRCV is used to receive an integer value using IEC 61850 protocol via GOOSE 14 4 7 3 Function block GUID 56F0C9F7 98F3...

Page 537: ...e GUID 5BBDF772 3B3E 4F7C ABE9 18CE3C1A2E2D v4 The DATAVALID output will be HIGH if the incoming message is with valid data The COMMVALID output will become LOW when the sending IED is under total fai...

Page 538: ...URE or OLD DATA then the DATAVALID output will be LOW 14 4 8 GOOSE function block to receive a measurand value GOOSEMVRCV 14 4 8 1 Identification GUID B1FFBE08 C823 4A58 9FE0 A9A20DA6BB44 v1 Function...

Page 539: ...UT REAL Measurand value output DATAVALID BOOLEAN Data valid for measurand value output COMMVALID BOOLEAN Communication valid for measurand value output TEST BOOLEAN Test output 14 4 8 5 Settings PID 6...

Page 540: ...receive the measured value The implementation for IEC 61850 quality data handling is restricted to a simple level If quality data validity is GOOD then the DATAVALID output will be HIGH If quality dat...

Page 541: ...Input signals Name Type Default Description BLOCK BOOLEAN 0 Block of function SRCSPOUT BOOLEAN 0 Source to single point output PID 6832 OUTPUTSIGNALS v3 Table 410 GOOSESPRCV Output signals Name Type...

Page 542: ...GOOSE connection if easy GOOSE engineering is enabled to receive the binary single point values The implementation for IEC 61850 quality data handling is restricted to a simple level If quality data v...

Page 543: ...OP APP11_CL APP11VAL APP12_OP APP12_CL APP12VAL APP13_OP APP13_CL APP13VAL APP14_OP APP14_CL APP14VAL APP15_OP APP15_CL APP15VAL COMMVALID TEST IEC07000048 V4 EN US Figure 258 GOOSEINTLKRCV function b...

Page 544: ...INTEGER 0 Source to apparatus 13 position SRCAPP14 INTEGER 0 Source to apparatus 14 position SRCAPP15 INTEGER 0 Source to apparatus 15 position PID 6831 OUTPUTSIGNALS v3 Table 413 GOOSEINTLKRCV Output...

Page 545: ...on is closed APP10VAL BOOLEAN Apparatus 10 position is valid APP11_OP BOOLEAN Apparatus 11 position is open APP11_CL BOOLEAN Apparatus 11 position is closed APP11VAL BOOLEAN Apparatus 11 position is v...

Page 546: ...th q Invalid 0 0 1 0 Incoming data with q test 0 0 1 1 Incoming data with q test oldData 0 0 1 1 Receiver in block 0 0 1 0 Receiver in block and communication error 0 0 0 0 Receiver in test mode and i...

Page 547: ...LID9 OUT10 DVALID10 OUT11 DVALID11 OUT12 DVALID12 OUT13 DVALID13 OUT14 DVALID14 OUT15 DVALID15 OUT16 DVALID16 COMMVALID TEST IEC07000047 V4 EN US Figure 259 GOOSEBINRCV function block 14 4 11 2 Signal...

Page 548: ...e to binary output 14 SRCOUT15 BOOLEAN 0 Source to binary output 15 SRCOUT16 BOOLEAN 0 Source to binary output 16 PID 6827 OUTPUTSIGNALS v3 Table 416 GOOSEBINRCV Output signals Name Type Description O...

Page 549: ...AN Test Output 14 4 11 3 Settings SEMOD173168 1 v2 PID 6827 SETTINGS v3 Table 417 GOOSEBINRCV Non group settings basic Name Values Range Unit Step Default Description Operation Off On Off Operation Of...

Page 550: ...HIGH If quality data validity is INVALID QUESTIONABLE OVERFLOW FAILURE or OLD DATA then the DVALIDx output will be LOW 14 4 12 GOOSE function block to receive a switching device GOOSEXLNRCV 14 4 12 1...

Page 551: ...onnections are visible and possible to make only if Easy GOOSE engineering is enabled For instructions on how to enable Easy GOOSE engineering in PCM600 refer to the Engineering Manual PID 6643 INPUTS...

Page 552: ...n POSVAL_VLD BOOLEAN Valid data on PosVal output OPCNT INTEGER Operation counter OPCNT_VLD BOOLEAN Valid data on OpCnt output BLK BOOLEAN Dynamic blocking of function described by the LN BLK_VLD BOOLE...

Page 553: ...ected will be updated The implementation for IEC 61850 quality data handling is restricted to a simple level If quality data validity is GOOD then the xxx_VALID output will be HIGH If quality data val...

Page 554: ...NCH BOOLEAN High when IED clock is not within configured accuracy or time domain SMPLLOST BOOLEAN Fatal error or recovery state after fatal error High if any subscribed channel has bad quality or TEST...

Page 555: ...sample rate SYNCH BOOLEAN 0 Ok 1 Error High when IED clock is not within configured accuracy or time domain SMPLLOST BOOLEAN 1 Yes 0 No Fatal error or recovery state after fatal error High if any sub...

Page 556: ...output for I2 Inaccurate BOOLEAN 1 Yes 0 No Inaccurate indication output for I2 Inconsistent BOOLEAN 1 Yes 0 No Inconsistent indication output for I2 OldData BOOLEAN 1 Yes 0 No OldData indication outp...

Page 557: ...e Validity indication output I3 BadReference BOOLEAN 1 Yes 0 No BadReference indication output for I4 Derived BOOLEAN 1 Yes 0 No Derived indication output for I4 Failure BOOLEAN 1 Yes 0 No Failure ind...

Page 558: ...cation output for U1 Source BOOLEAN 0 Process 1 Substituted Source indication output for U1 Test BOOLEAN 1 Yes 0 No Test indication output for U1 Validity INTEGER 0 Good 2 Reserved 1 Invalid 3 Questio...

Page 559: ...dication output for U3 Oscillatory BOOLEAN 1 Yes 0 No Oscillatory indication output for U3 OutOfRange BOOLEAN 1 Yes 0 No OutOfRange indication output for U3 Overflow BOOLEAN 1 Yes 0 No Overflow indica...

Page 560: ...tput U4 14 5 6 Operation principle GUID A1D31CDA 1FE2 4BC0 A472 1B35E73CA1F2 v4 The merging units MUs are situated close to the primary equipment like circuit breakers isolators etc The MUs have the c...

Page 561: ...le Preprocessing blocks SMAI IED Access Point IEC08000072 V3 EN US Figure 261 Example of signal path for sampled analogue values from MU and conventional CT VT The function has the following alarm sig...

Page 562: ...cates when merging unit data are generated by internal substitution when one more channel s Quality is not good when merging unit is in Testmode detailed quality Test IED is not in test mode MUSYNCH O...

Page 563: ...g values will be forced to 0 with quality as Invalid Substituted Failure Timeout TSYNCERR Indicates that there is some timeout on any configured time source or the time quality is worse than specified...

Page 564: ...the outputs as per IEC 61850 7 3 standard When written to IED the configuration will show the expanded form of the respective MU channel quality information during the online monitoring in the ACT Th...

Page 565: ...Protocol IEC UCA 61850 9 2LE Communication speed for the IEDs 100BASE FX 14 6 LON communication protocol IP14420 1 v1 14 6 1 Functionality M11924 3 v6 An optical network can be used within the substat...

Page 566: ...er design With protection and control devices fibre optic media is used which enables the use of the maximum speed of 1 25 Mbits s The protocol is a peer to peer protocol where all the devices connect...

Page 567: ...ion Station communication LON HORZCOMM 1 where Operation must be set to ON Add LON Device Types LNT M15083 19 v3 A new device is added to LON Network Tool from the Device menu or by installing the dev...

Page 568: ...th a loop time of 100 ms The EVENT blocks are used to send binary signals integers real time values like analogue data from measuring functions and mA input modules as well as pulse counter signals 16...

Page 569: ...3 Double indications can only be reported for the first 8 inputs on an EVENT function block 00 generates an intermediate event with the read status 0 01 generates an open event with the read status 1...

Page 570: ...mmand BL_CMD SCSWI06 1 I 5234 SPA parameters for block command BL_CMD SCSWI07 1 I 5258 SPA parameters for block command BL_CMD SCSWI08 1 I 5283 SPA parameters for block command BL_CMD SCSWI09 1 I 5307...

Page 571: ...CSWI31 1 I 5835 SPA parameters for block command BL_CMD SCSWI32 1 I 5859 SPA parameters for block command CANCEL SCSWI01 1 I 5107 SPA parameters for cancel command CANCEL SCSWI02 1 I 5131 SPA paramete...

Page 572: ...s for cancel command CANCEL SCSWI24 1 I 5659 SPA parameters for cancel command CANCEL SCSWI25 1 I 5683 SPA parameters for cancel command CANCEL SCSWI26 1 I 5707 SPA parameters for cancel command CANCE...

Page 573: ...1 I 5393 SPA parameters for select Open Close command SELECTOpen 00 SELECTClose 01 so on SCSWI14 1 I 5417 SPA parameters for select Open Close command SELECTOpen 00 SELECTClose 01 so on SCSWI15 1 I 54...

Page 574: ...5152 SPA parameters for operate Open Close command ExcOpen 00 ExcClose 01 so on SCSWI04 1 I 5177 SPA parameters for operate Open Close command ExcOpen 00 ExcClose 01 so on SCSWI05 1 I 5201 SPA paramet...

Page 575: ...5706 SPA parameters for operate Open Close command ExcOpen 00 ExcClose 01 so on SCSWI27 1 I 5730 SPA parameters for operate Open Close command ExcOpen 00 ExcClose 01 so on SCSWI28 1 I 5754 SPA paramet...

Page 576: ...I 179 SPA parameter for position to be substituted Sub Value SXSWI01 3 I 196 SPA parameter for position to be substituted Sub Value SXSWI02 3 I 216 SPA parameter for position to be substituted Sub Va...

Page 577: ...b Value SXSWI24 3 I 625 SPA parameter for position to be substituted Sub Value SXSWI25 3 I 644 SPA parameter for position to be substituted Sub Value SXSWI26 3 I 663 SPA parameter for position to be s...

Page 578: ...3 I 197 SPA parameter for substitute enable command Sub Enable SXSWI02 3 I 215 SPA parameter for substitute enable command Sub Enable SXSWI03 3 I 234 SPA parameter for substitute enable command Sub En...

Page 579: ...able SXSWI25 3 I 645 SPA parameter for substitute enable command Sub Enable SXSWI26 3 I 664 SPA parameter for substitute enable command Sub Enable SXSWI27 3 I 683 SPA parameter for substitute enable c...

Page 580: ...WI03 3 I 236 SPA parameter for update block command Update Block SXSWI04 3 I 253 SPA parameter for update block command Update Block SXSWI05 3 I 273 SPA parameter for update block command Update Block...

Page 581: ...twork variables are used for communication between 500 and 650 series IEDs The supported network variable type is SNVT_state NV type 83 SNVT_state is used to communicate the state of a set of 1 to 16...

Page 582: ...ions New en05000719 vsd IEC05000719 V1 EN US Figure 265 The network variables window in LNT There are two ways of downloading NV connections Either the users can use the drag and drop method where the...

Page 583: ...is a mezzanine module placed on the first analog digital conversion module ADM and it is used for LON SPA IEC 60870 5 103 and DNP communication In the following figure X311 ports A B are for SPA IEC10...

Page 584: ...h connectors This is identified by a tag Connect the incoming optical fibre to the RX receiver input and the outgoing optical fibre to the TX transmitter output Pay special attention to the instructio...

Page 585: ...s Opto electrical converter for the PC PC SPA cannot be accessed via PCM600 When communicating between the local HMI and a PC the only hardware required is a front connection cable SPA can be accessed...

Page 586: ...ng for example for event information or only on demand The master requests slave information using request messages and sends information to the slave in write messages Furthermore the master can send...

Page 587: ...16 binary output signals each The signals can be individually controlled from the operator station remote control gateway or from the local HMI on the IED For Single command 3 signals function block...

Page 588: ...4684 5 O 539 SINGLECMD2 Cmd14 4 S 4685 5 O 540 SINGLECMD2 Cmd15 4 S 4686 5 O 541 SINGLECMD2 Cmd16 4 S 4687 5 O 542 SINGLECMD3 Cmd1 4 S 4705 5 O 543 SINGLECMD3 Cmd2 4 S 4706 5 O 544 SINGLECMD3 Cmd3 4 S...

Page 589: ...ses to control the outputs OUT1 OUT16 in SINGLECMD 1 are shown in table 433 SINGLECMD BLOCK OUT1 OUT2 OUT3 OUT4 OUT5 OUT6 OUT7 OUT8 OUT9 OUT10 OUT11 OUT12 OUT13 OUT14 OUT15 OUT16 AND INPUT1 INPUT2 INP...

Page 590: ...ENT 1 Input 1 Input 2 Input 3 Input 4 Input 5 Input 6 Input 7 Input 8 Input 9 Input 10 Input 11 Input 12 Input 13 Input 14 Input 15 Input 16 22O1 22O2 22O3 22O4 22O5 22O6 22O7 22O8 22O9 22O10 22O11 22...

Page 591: ...otection signals for event handling 14 7 4 1 Communication ports M11880 315 v6 The serial communication module SLM is a mezzanine module placed on the first analog digital conversion module ADM It is...

Page 592: ...receiver input and the outgoing optical fibre to the TX transmitter output Pay special attention to the instructions concerning handling and connection of fibre cables For setting the transfer rate ba...

Page 593: ...are generated 9 Will be generated if at least IL1 is connected IL2 IL3 UL1 UL2 UL3 P Q F are optional but there can be no holes 3 4 Will be generated if IN and UN are present 3 3 Will be generated if...

Page 594: ...L1 UL2 REAL 0 0 Service value for voltage phase L2 UL3 REAL 0 0 Service value for voltage phase L3 UL1L2 REAL 0 0 Service value for voltage phase phase L1 L2 UN REAL 0 0 Service value for residual vol...

Page 595: ...03MEASUSR 14 8 3 1 Functionality GUID FC9ED4BD F11C 4BDA 8CDB 3ACF00931D3A v1 I103MEASUSR is a function block with user defined input measurands in monitor direction These function blocks include the...

Page 596: ...ult Description FunctionType 1 255 1 25 Function type 1 255 InfNo 1 255 1 1 Information number for measurands 1 255 MaxMeasur1 0 05 10000000000 00 0 05 1000 00 Maximum value for measurement on input 1...

Page 597: ...ock GUID FAC5A3DF 73CB 4A39 A213 5C21ACA05756 v1 I103AR BLOCK 16_ARACT 128_CBON 130_BLKD IEC10000289 2 en vsd IEC10000289 V2 EN US Figure 273 I103AR function block 14 8 4 4 Signals PID 3973 INPUTSIGNA...

Page 598: ...status earth fault for IEC 60870 5 103 I103EF 14 8 5 3 Function block GUID 25B47484 2976 4063 BD81 AE02D03B08B0 v1 IEC10000290 1 en vsd I103EF BLOCK 51_EFFW 52_EFREV IEC10000290 V1 EN US Figure 274 I1...

Page 599: ...e and therefore must be connected to the general trip signal SMPPTRC_TRIP or equivalent The delay observed in the protocol is the time difference in between the signal that is triggering the Disturban...

Page 600: ...LOCK BOOLEAN 0 Block of status reporting 64_STL1 BOOLEAN 0 Information number 64 start phase L1 65_STL2 BOOLEAN 0 Information number 65 start phase L2 66_STL3 BOOLEAN 0 Information number 66 start pha...

Page 601: ...tem phase L1 87_MTRL2 BOOLEAN 0 Information number 87 trip measuring system phase L2 88_MTRL3 BOOLEAN 0 Information number 88 trip measuring system phase L3 89_MTRN BOOLEAN 0 Information number 89 tri...

Page 602: ...22_SETCH 23_GRP1 24_GRP2 25_GRP3 26_GRP4 IEC10000292 2 en vsd IEC10000292 V2 EN US Figure 276 I103IED function block 14 8 7 4 Signals PID 3975 INPUTSIGNALS v5 Table 446 I103IED Input signals Name Type...

Page 603: ...v1 Function description Function block name IEC 60617 identification ANSI IEEE C37 2 device number Supervison status for IEC 60870 5 103 I103SUPERV 14 8 8 3 Function block GUID 69C2C974 2D64 4174 9F9A...

Page 604: ...C7AC3CD4 v3 I103USRDEF is a function block with user defined input signals in monitor direction Each instance is associated with a Function Type FUN and each input signal with an Information Number IN...

Page 605: ...ut 3 INPUT4 BOOLEAN 0 Binary signal input 4 INPUT5 BOOLEAN 0 Binary signal input 5 INPUT6 BOOLEAN 0 Binary signal input 6 INPUT7 BOOLEAN 0 Binary signal input 7 INPUT8 BOOLEAN 0 Binary signal input 8...

Page 606: ...Absolute Type identification TYP TypNo2 Absolute Relative Absolute Type identification TYP TypNo3 Absolute Relative Absolute Type identification TYP TypNo4 Absolute Relative Absolute Type identificati...

Page 607: ...e of the IEC 60870 5 103 standard The GiNon parameters determine whether a message is sent as a part of a GI reply or not Refer to the IEC 60870 5 103 standard for details 14 8 10 Function commands fo...

Page 608: ...ic Name Values Range Unit Step Default Description FunctionType 1 255 1 1 Function type 1 255 14 8 11 IED commands for IEC 60870 5 103 I103IEDCMD 14 8 11 1 Functionality GUID 19AD44B2 21D6 4DB0 AD74 1...

Page 609: ...ng group 2 25 GRP3 BOOLEAN Information number 25 activate setting group 3 26 GRP4 BOOLEAN Information number 26 activate setting group 4 14 8 11 5 Settings PID 3788 SETTINGS v5 Table 457 I103IEDCMD No...

Page 610: ...281 I103USRCMD function block 14 8 12 4 Signals PID 3790 INPUTSIGNALS v5 Table 458 I103USRCMD Input signals Name Type Default Description BLOCK BOOLEAN 0 Block of commands PID 3790 OUTPUTSIGNALS v5 T...

Page 611: ...ality GUID 729E9AFD 0468 4BBD B54A A6CDCC68A9B2 v3 I103GENCMD is used for transmitting generic commands over IEC 60870 5 103 The function has two outputs signals CMD_OFF and CMD_ON that can be used to...

Page 612: ...Unit Step Default Description FunctionType 1 255 1 1 Function type 1 255 PulseLength 0 000 60 000 s 0 001 0 400 Pulse length InfNo 1 255 1 1 Information number for command output 1 255 14 8 14 IED co...

Page 613: ...se INF 2 and 3 respectively The base INF Information Number parameter is an IEC 60870 5 103 identifier that associates a function in a 103 Master such as Scada with its equivalent in the IED 14 8 14 2...

Page 614: ...te and faulty is reported spontaneously However the intermediate and faulty states may be suppressed by setting the Report Intermediate Position Off See the settings for RS485 and optical serial commu...

Page 615: ...16 Operation principle IP14407 1 v3 14 8 16 1 General M11874 3 v5 IEC 60870 5 103 is an unbalanced master slave protocol for coded bit serial communication exchanging information with a control syste...

Page 616: ...different cycle times for function blocks must be considered to ensure correct time stamping Commands in control direction M11874 27 v1 Commands in control direction I103IEDCMD M11874 29 v6 Command b...

Page 617: ...ected for each output signal Default values are 1 8 Table 470 I103USRCMD supported indications INF 1 Description 1 Output signal 01 2 Output signal 02 3 Output signal 03 4 Output signal 04 5 Output si...

Page 618: ...SRDEF Information number default values INF Description GI TYP COT 11 Input signal 01 x 1 2 1 7 9 2 Input signal 02 x 1 2 1 7 9 3 Input signal 03 x 1 2 1 7 9 4 Input signal 04 x 1 2 1 7 9 5 Input sign...

Page 619: ...rth fault forward 52 Earth fault reverse Autorecloser indications in monitor direction I103AR M11874 363 v6 Indication block for autorecloser in monitor direction with defined functions Number of inst...

Page 620: ...2 Y 1 7 9 85 Breaker failure 2 N 1 7 86 Trip measuring system phase L1 2 N 1 7 87 Trip measuring system phase L2 2 N 1 7 88 Trip measuring system phase L3 2 N 1 7 89 Trip measuring system neutral N 2...

Page 621: ...h difference You can configure client client scaled max 1 2 rated or client scaled max 1 0 maxVal If the client has a hard coded gain of 1 2 rated then client scaled max 1 2 times maxVal 1 2 Resolutio...

Page 622: ...onnected 1 2 that is only Input1 and Input2 will be transmitted Disturbance recordings M11874 467 v7 The following elements are used in the ASDUs Application Service Data Units defined in the standard...

Page 623: ...pload is specified by the standard however some of the information are adapted to information available in disturbance recorder in the IED series This section describes all data that is not exactly as...

Page 624: ...yer M11874 482 v3 Supported Electrical Interface EIA RS 485 Yes number of loads 32 Optical interface glass fibre Yes plastic fibre Transmission speed 9600 bit s Yes 19200 bit s Yes Link Layer DFC bit...

Page 625: ...ric services No 14 8 16 2 Communication ports M11874 626 v3 The serial communication module SLM is used for SPA IEC 60870 5 103 DNP and LON communication This module is a mezzanine module and is place...

Page 626: ...TICMDSND takes 16 binary inputs LON enables these to be transmitted to the equivalent receiving function block MULTICMDRCV which has 16 binary outputs 14 9 2 Design SEMOD119958 1 v1 14 9 2 1 General M...

Page 627: ...ck SEMOD120009 4 v2 IEC06000008 2 en vsd MULTICMDSND BLOCK INPUT1 INPUT2 INPUT3 INPUT4 INPUT5 INPUT6 INPUT7 INPUT8 INPUT9 INPUT10 INPUT11 INPUT12 INPUT13 INPUT14 INPUT15 INPUT16 ERROR IEC06000008 V2 E...

Page 628: ...OLEAN 0 Input 15 INPUT16 BOOLEAN 0 Input 16 PID 400 OUTPUTSIGNALS v10 Table 482 MULTICMDRCV Output signals Name Type Description ERROR BOOLEAN MultiReceive error NEWDATA BOOLEAN New data is received O...

Page 629: ...ault Description tMaxCycleTime 0 000 200 000 s 0 001 5 000 Maximum time interval between transmission of output data tMinCycleTime 0 000 200 000 s 0 001 0 000 Minimum time interval between transmissio...

Page 630: ...of the generated security event 14 10 1 2 Settings PID 3430 SETTINGS v6 Table 487 SECALARM Non group settings basic Name Values Range Unit Step Default Description Operation Off On On Operation On Of...

Page 631: ...514 External log server 3 port number ExtLogSrv3IP 0 18 IP Address 1 127 0 0 1 External log server 3 IP address ExtLogSrv4Type Off SYSLOG UDP IP SYSLOG TCP IP CEF TCP IP Off External log server 4 type...

Page 632: ...626...

Page 633: ...guard the interests of our customers both the IED and the tools that are accessing the IED are protected by means of authorization handling The authorization handling of the IED and the PCM600 is impl...

Page 634: ...access or operate different areas of the IED and tools functionality The pre defined user types are given in Table 489 Ensure that the user logged on to the IED has the access required when writing pa...

Page 635: ...R W R R R R W R W File loading database loading from XML file R W R W R W File dumping database dumping to XML file R W R W R W File transfer FTP file transfer R W R W R W R W R W File transfer limite...

Page 636: ...to perform an operation that is password protected the Log on window will appear The cursor is focused on the User identity field so upon pressing the key the user can change the user name by browsing...

Page 637: ...Role explanation User rights VIEWER Viewer Can read parameters and browse the menus from LHMI OPERATOR Operator Can read parameters and browse the menus as well as perform control actions ENGINEER En...

Page 638: ...to log in to the IED If user replication has been disabled in a CAM enabled IED and if communication with SDM600 is lost access to that IED will be denied until communication is re established All com...

Page 639: ...enu log on time out 15 2 3 Settings PID 6837 SETTINGS v2 Table 493 AUTHMAN Non group settings basic Name Values Range Unit Step Default Description MaintMenuEnable Disable Enable Enable Maintenance me...

Page 640: ...Non group settings basic Name Values Range Unit Step Default Description SSLMode FTP FTPS FTPS FTPS Support for AUTH TLS SSL TCPPortFTP 1 65535 1 21 TCP port for FTP and FTP with Explicit SSL PasvPort...

Page 641: ...ion does not have any parameters available in Local HMI or in Protection and Control IED Manager PCM600 15 4 6 Operation principle SEMOD158543 4 v5 Authority status ATHSTAT function informs about two...

Page 642: ...vsdx IEC09000787 V2 EN US Figure 289 INTERRSIG function block 15 5 3 Signals IP9674 1 v2 PID 4077 OUTPUTSIGNALS v6 Table 496 INTERRSIG Output signals Name Type Description FAIL BOOLEAN Internal fail W...

Page 643: ...l The information from the self supervision function is also available in the Event Viewer in PCM600 IEC15000414 2 en vsdx IEC15000414 V2 EN US Figure 290 IED general status in local HM The self super...

Page 644: ...7 Hardware dependent internal signals are collected depending on the hardware configuration see table 498 Table 497 Self supervision s standard internal signals Name of signal Description Displayed on...

Page 645: ...the Internal Event list if any settings are changed SETGRPCHGD Setting groups changed Settings changed This signal will generate an Internal Event to the Internal Event list if any setting groups are...

Page 646: ...rter channels can be performed If the validation fails the CPU will be informed and an alarm will be given for A D converter failure 15 5 6 Technical data IP10272 1 v2 M11963 1 v5 Table 499 Self super...

Page 647: ...ock override 15 6 4 Operation principle GUID 74581AA2 6EB4 4CFA 92DA 90FB89F9A62C v3 The Change lock function CHNGLCK is configured using ACT The function when activated will still allow the following...

Page 648: ...e allowed to compromise the primary functionality of the device All inbound network traffic is quota controlled so that a too heavy network load can be controlled Heavy network load might for instance...

Page 649: ...The DOS functionality activates when the inbound traffic rate exceeds 3000 packets per second 1MRK 505 384 UEN A Section 15 Security Breaker protection REQ650 2 2 IEC 643 Technical manual...

Page 650: ...644...

Page 651: ...cro SCADA OPC server should not be used as a time synchronization source 16 1 2 Settings IP9657 1 v2 SEMOD55141 5 v6 There are two groups of parameter settings related to time System time Synchronizat...

Page 652: ...cSource Off SPA LON BIN GPS GPS SPA GPS LON GPS BIN SNTP GPS SNTP IRIG B GPS IRIG B PPS Off Fine time synchronization source SyncMaster Off SNTP Server Off Activate IEDas synchronization master TimeAd...

Page 653: ...ge Unit Step Default Description ModulePosition 3 16 1 3 Hardware position of IO module for time synchronization BinaryInput 1 16 1 1 Binary input number for time synchronization BinDetection Positive...

Page 654: ...en daylight time starts DayInWeek Sunday Monday Tuesday Wednesday Thursday Friday Saturday Sunday Day in week when daylight time starts WeekInMonth Last First Second Third Fourth Last Week in month wh...

Page 655: ...r when daylight time ends DayInWeek Sunday Monday Tuesday Wednesday Thursday Friday Saturday Sunday Day in week when daylight time ends WeekInMonth Last First Second Third Fourth Last Week in month wh...

Page 656: ...30 11 00 11 30 12 00 12 45 13 00 14 00 1 00 Local time from UTC PID 5187 SETTINGS v5 Table 510 IRIG B Non group settings basic Name Values Range Unit Step Default Description SynchType BNC Opto Opto T...

Page 657: ...e devices the clock with the lowest priority 2 is selected as the reference clock Grand Master 16 1 3 Operation principle IP12360 1 v4 16 1 3 1 General concepts M11346 77 v1 Time definitions M11346 80...

Page 658: ...event is time tagged by the software clock when it reaches the event recorder The hardware clock can thus run independently The echo mode of the line differential protection function is based on the...

Page 659: ...M11346 83 v4 From a general point of view synchronization can be seen as a hierarchical structure A function is synchronized from a higher level and provides synchronization to lower levels Function S...

Page 660: ...obtain zero offset at the next coming time message If the synchronization message has a large offset compared to the other messages a spike filter in the IED removes this time message Rate accuracy M...

Page 661: ...automation is a synchronization method that differs from SNTP for instance by providing much better accuracy and by being not predefined By not predefined is meant that it is not mandatory to have a p...

Page 662: ...gs of each access point To setup a PTP network with no obvious Grand Master you simply connect the IEDs to one network and configure PTP to be on on all IEDs On one IED the one from which you want to...

Page 663: ...ghly adaptable IED that can be applied to a variety of power system scenarios 16 2 2 Function block IP9661 1 v1 M12010 3 v3 ACTVGRP ACTGRP1 ACTGRP2 ACTGRP3 ACTGRP4 ACTGRP5 ACTGRP6 GRP1 GRP2 GRP3 GRP4...

Page 664: ...ActiveGroup function has six functional inputs each corresponding to one of the setting groups stored in the IED Activation of any of these inputs changes the active setting group Eight functional out...

Page 665: ...ver IEC 61850 is enabled with the setting EnableSettings in the IEC 61850 8 1 configuration under Main menu Configuration Communication Station communication IEC 61850 8 1 IEC 61850 8 1 Please refer t...

Page 666: ...tually set and configured values within the IED No settings will be changed thus mistakes are avoided Forcing of binary input and output signals is only possible when the IED is in IED test mode 16 3...

Page 667: ...put SIGNAL on the function block TESTMODE setting TestMode to On in the local HMI under Main menu TEST IED test mode While the IED is in test mode the output ACTIVE of the function block TESTMODE is a...

Page 668: ...ty M15324 3 v6 IED identifiers TERMINALID function allows the user to identify the individual IED in the system not only in the substation but in a whole region or a country Use only characters A Z a...

Page 669: ...ings M11789 39 v10 The factory defined settings are very useful for identifying a specific version and very helpful in the case of maintenance repair interchanging IEDs between different Substation Au...

Page 670: ...xample 128 meaning line protection SerialNo OrderingNo ProductionDate 16 6 Signal matrix for binary inputs SMBI SEMOD55793 1 v2 16 6 1 Functionality M15302 3 v5 The Signal matrix for binary inputs SMB...

Page 671: ...ary input 5 BI6 BOOLEAN Binary input 6 BI7 BOOLEAN Binary input 7 BI8 BOOLEAN Binary input 8 BI9 BOOLEAN Binary input 9 BI10 BOOLEAN Binary input 10 16 6 4 Operation principle M15305 3 v5 The Signal m...

Page 672: ...SEMOD55887 1 v2 PID 3831 INPUTSIGNALS v5 Table 523 SMBO Input signals Name Type Default Description BO1 BOOLEAN 0 Signal name for BO1 in Signal Matrix Tool BO2 BOOLEAN 0 Signal name for BO2 in Signal...

Page 673: ...nd calculates all relevant information from them like the phasor magnitude phase angle frequency true RMS value harmonics sequence components and so on This information is then used by the respective...

Page 674: ...L 20 0 Number of samples per fundamental cycle used for DFT calculation REVROT BOOLEAN 0 Reverse rotation group 1 GRP1L1 STRING First analog input used for phase L1 or L1 L2 quantity GRP1L2 STRING Sec...

Page 675: ...rth analog input used for residual or neutral quantity PID 3406 OUTPUTSIGNALS v5 Table 527 SMAI2 Output signals Name Type Description G2AI3P GROUP SIGNAL Group 2 analog input 3 phase group G2AI1 GROUP...

Page 676: ...alDFTRef DFTRefGrp1 DFTRefGrp2 DFTRefGrp3 DFTRefGrp4 DFTRefGrp5 DFTRefGrp6 DFTRefGrp7 DFTRefGrp8 DFTRefGrp9 DFTRefGrp10 DFTRefGrp11 DFTRefGrp12 External DFT ref InternalDFTRef DFT reference Connection...

Page 677: ...alog signals three phases and one neutral or residual value either voltage or current see figure 300 and figure 301 SMAI outputs give information about every aspect of the 3ph analog signals acquired...

Page 678: ...GRPxL2 L3 L1 to GRPxL3 If SMAI setting ConnectionType is Ph N all three inputs GRPxL1 GRPxL2 and GRPxL3 must be connected in order to calculate the positive sequence voltage If only one phase phase v...

Page 679: ...those IED functions that might need it 16 9 2 Function block SEMOD54885 4 v3 3PHSUM BLOCK REVROT G1AI3P G2AI3P AI3P AI1 AI2 AI3 AI4 IEC05000441 3 en vsdx IEC05000441 V3 EN US Figure 303 3PHSUM functi...

Page 680: ...erence shall be set to default value InternalDFTRef if no VT inputs are available PID 6428 SETTINGS v3 Table 534 3PHSUM Non group settings basic Name Values Range Unit Step Default Description GlobalB...

Page 681: ...of global values consists of values for current voltage and apparent power and it is possible to have twelve different sets This is an advantage since all applicable functions in the IED use a single...

Page 682: ...rotation direction are set under Main menu Configuration Power system Primary Values in the local HMI and PCM600 parameter setting tree 16 11 3 Settings PID 1626 SETTINGS v17 Table 537 PRIMVAL Non gro...

Page 683: ...17 1 1 Variants of case size with local HMI display M15024 3 v5 IEC04000458 2 en psd IEC04000458 V2 EN US Figure 304 1 2 19 case with local HMI display 1MRK 505 384 UEN A Section 17 IED hardware Brea...

Page 684: ...3 P30 6 Rear view X11 X31 X41 X51 X401 X301 X302 X303 X304 X311 A B C D X305 X312 X306 X313 X32 X42 X52 6U IEC17000067 V1 EN US Rear position Module X11 PSM X31 and X32 etc to X51 and X52 BIM BOM or...

Page 685: ...gnals processed by the NUM Carrier for communication boards Combined backplane module CBM The module has two main purposes to distribute supply voltages from the PSM to the other modules and to act as...

Page 686: ...pe LC or galvanic type RJ45 Ethernet ports one basic and three optional 17 2 2 2 Functionality M12644 3 v5 The numeric module NUM is a high performance CPU module based on a dual core processor It is...

Page 687: ...ector Type RJ45 Communication Speed Fast Ethernet 100 Mbit s GUID 96676D5D 0835 44DA BC22 058FD18BDF34 v2 Table 543 NUM Communication ports NUM 4 Ethernet ports 1 Basic 3 Optional Ethernet connection...

Page 688: ...0 Power consumption 32 W typically Auxiliary DC power in rush 10 A during 0 1 s 17 2 4 Local human machine interface Local HMI SEMOD56218 5 v4 Refer to section Local HMI for information 17 2 5 Transfo...

Page 689: ...tended for protection purposes due to limitations in overload characteristics The TRM is connected to the ADM and NUM For configuration of the input and output signals refer to section Signal matrix f...

Page 690: ...ge 0 340 V Thermal withstand 450 V for 10 s 420 V continuously Burden 20 mVA at 110 V 80 mVA at 220 V all values for individual voltage inputs Note All current and voltage data are specified as RMS va...

Page 691: ...nput current In this way a 20 bit dynamic range is obtained with a 16 bit A D converter Input signals are sampled with a sampling freqency of 5 kHz at 50 Hz system frequency and 6 kHz at 60 Hz system...

Page 692: ...Channel 4 Channel 5 Channel 6 Channel 7 Channel 8 Channel 9 Channel 10 Channel 11 Channel 12 1 2v 2 5v level shift en05000474 vsd IEC05000474 V1 EN US Figure 307 The ADM layout Section 17 1MRK 505 384...

Page 693: ...onfiguration of the input signals refer to section Signal matrix for binary inputs SMBI A signal discriminator detects and blocks oscillating signals When blocked a hysteresis function may be set to r...

Page 694: ...n Operation uncertain No operation This binary input module communicates with the Numerical module NUM The design of all binary inputs enables the burn off of the oxide of the relay contact connected...

Page 695: ...EC07000105 V2 EN US Figure 309 Approximate binary input inrush current for the BIM version with enhanced pulse counting capabilities 1MRK 505 384 UEN A Section 17 IED hardware Breaker protection REQ65...

Page 696: ...EAN Binary input module status BI1 BOOLEAN Binary input 1 value BI2 BOOLEAN Binary input 2 value BI3 BOOLEAN Binary input 3 value BI4 BOOLEAN Binary input 4 value BI5 BOOLEAN Binary input 5 value BI6...

Page 697: ...17 2 7 4 Settings PID 3473 SETTINGS v2 Table 548 BIM Non group settings basic Name Values Range Unit Step Default Description Operation Off On On Operation Off On DebounceTime 0 001 0 020 s 0 001 0 00...

Page 698: ...The binary output module has 24 independent output relays and is used for trip output or any signaling purpose 17 2 8 2 Design M1819 3 v4 The binary output module BOM has 24 software supervised output...

Page 699: ...ay pair example 1 Output connection from relay 1 2 Output signal power source connection 3 Output connection from relay 2 IEC99000505 V3 EN US Figure 312 Connection diagram 1MRK 505 384 UEN A Section...

Page 700: ...ry output 11 BO12 BOOLEAN 0 Binary output 12 BO13 BOOLEAN 0 Binary output 13 BO14 BOOLEAN 0 Binary output 14 BO15 BOOLEAN 0 Binary output 15 BO16 BOOLEAN 0 Binary output 16 BO17 BOOLEAN 0 Binary outpu...

Page 701: ...2 value BO2FORCE BOOLEAN 0 Normal 1 Forced Binary output 2 force BO2 BOOLEAN 0 Normal 1 Forced 2 Blocked Binary output 2 status BO3VALUE BOOLEAN 1 1 0 0 Binary output 3 value BO3FORCE BOOLEAN 0 Normal...

Page 702: ...LEAN 0 Normal 1 Forced Binary output 9 force BO9 BOOLEAN 0 Normal 1 Forced 2 Blocked Binary output 9 status BO10VALUE BOOLEAN 1 1 0 0 Binary output 10 value BO10FORCE BOOLEAN 0 Normal 1 Forced Binary...

Page 703: ...BO16 BOOLEAN 0 Normal 1 Forced 2 Blocked Binary output 16 status BO17VALUE BOOLEAN 1 1 0 0 Binary output 17 value B017FORCE BOOLEAN 0 Normal 1 Forced Binary output 17 force BO17 BOOLEAN 0 Normal 1 For...

Page 704: ...orce BO23 BOOLEAN 0 Normal 1 Forced 2 Blocked Binary output 23 status BO24VALUE BOOLEAN 1 1 0 0 Binary output 24 value BO24FORCE BOOLEAN 0 Normal 1 Forced nary output 24 force BO24 BOOLEAN 0 Normal 1...

Page 705: ...hannels are needed The ten standard output channels are used for trip output or any signaling purpose The two high speed signal output channels are used for applications where short operating time is...

Page 706: ...UTPUTSIGNALS v4 Table 556 IOMIN Output signals Name Type Description STATUS BOOLEAN Binary input part of IOM module status BI1 BOOLEAN Binary input 1 value BI2 BOOLEAN Binary input 2 value BI3 BOOLEAN...

Page 707: ...001 0 001 Debounce time for binary inputs OscBlock 1 40 Hz 1 40 Oscillation block limit OscRelease 1 30 Hz 1 30 Oscillation release limit 17 2 9 5 Monitored data PID 4050 MONITOREDDATA v2 Table 559 I...

Page 708: ...e BO5 BOOLEAN 0 Normal 1 Forced 2 Blocked Binary output 5 status BO6VALUE BOOLEAN 1 1 0 0 Binary output 6 value BO6FORCE BOOLEAN 0 Normal 1 Forced Binary output 6 force BO6 BOOLEAN 0 Normal 1 Forced 2...

Page 709: ...Binary output 12 force BO12 BOOLEAN 0 Normal 1 Forced 2 Blocked Binary output 12 status 17 2 9 6 Technical data IP10636 1 v1 M12573 1 v9 Table 561 IOM Binary input output module Quantity Rated value N...

Page 710: ...50 V 8 0 A 250 V 8 0 A Breaking capacity for DC with L R 40 ms 48 V 1 A 110 V 0 4 A 125 V 0 35 A 220 V 0 2 A 250 V 0 15 A 48 V 1 A 110 V 0 4 A 125 V 0 35 A 220 V 0 2 A 250 V 0 15 A Maximum capacitive...

Page 711: ...5 103 DNP3 and LON communication SLM has two optical communication ports for plastic plastic plastic glass or glass glass fibre cables One port is used for serial communication SPA IEC 60870 5 103 or...

Page 712: ...of the IED contact 4 is in the topmost position and contact 1 in the lowest position 17 2 10 3 Technical data SEMOD117454 1 v1 M12589 1 v4 Table 564 SLM LON port Quantity Range or value Optical connec...

Page 713: ...cated Master or slave This variant requires however a control of the output The 4 wire connection has separated signals for RX and TX multidrop communication with a dedicated Master and the rest are s...

Page 714: ...screw connector is used for the connection of IO ground It can be used in two combinations like Unconnected No ground of the IO part Soft grounded The IO is connected to the GND with an RC net paralle...

Page 715: ...le both a pulse width modulated signal also called unmodulated and an amplitude modulated signal also called sine wave modulated The other is an optical input type ST for optical pulse width modulated...

Page 716: ...Table 569 IRIG B Quantity Rated value Number of channels IRIG B 1 Number of optical channels 1 Electrical connector Electrical connector IRIG B BNC Pulse width modulated 5 Vpp Amplitude modulated low...

Page 717: ...EMOD53199 1 v1 M11985 110 v4 IEC05000501 V2 EN US Figure 317 Case with rear cover IEC05000502 V2 EN US Figure 318 Case with rear cover and 19 rack mounting kit 1MRK 505 384 UEN A Section 17 IED hardwa...

Page 718: ...42 1 255 8 205 7 190 5 203 7 465 1 228 6 482 6 The H and K dimensions are defined by the 19 rack mounting kit 17 3 2 Case without rear cover SEMOD53195 1 v1 M2152 3 v5 IEC04000448 3 en vsdx C D E A B...

Page 719: ...rack mounting kit M2152 11 v4 Case size mm A B C D E F G H J K 6U 1 2 x 19 266 7 224 0 204 1 249 9 205 8 190 5 204 0 242 3 188 9 259 1 The H and K dimensions are defined by the 19 rack mounting kit 1M...

Page 720: ...C D 6U 1 2 x 19 210 1 254 3 4 0 10 0 13 5 E 191 1 mm without rear protection cover 231 8 mm with rear protection cover 17 3 4 Side by side flush mounting dimensions M11984 3 v6 IEC06000182 2 en vsd I...

Page 721: ...g Case size mm Tolerance A 1 B 1 C 1 D 1 E 1 F 1 G 1 6U 1 2 x 19 214 0 259 3 240 4 190 5 34 4 13 2 6 4 diam 17 3 5 Wall mounting dimensions M11569 3 v4 IEC04000471 2 en vsd IEC04000471 V2 EN US Figure...

Page 722: ...le panel for class IP54 protection The screws from the IED shall be used to fasten the fasteners to the IED Flush mounting cannot be used for side by side mounted IEDs when IP54 class must be fulfille...

Page 723: ...3 Groove 4 Screw 4 M3x8 mm 5 Joining point of sealing strip 6 Panel 17 4 2 19 panel rack mounting IP10313 1 v1 17 4 2 1 Overview SEMOD127656 5 v4 The IED can be mounted in a standard 19 cubicle rack...

Page 724: ...unting the plates and the angles on the IED Screws with wrong dimension may damage the PCBs inside the IED 17 4 2 2 Mounting procedure for 19 panel rack mounting M11948 2 v6 IEC04000452 3 en vsd 1b 1a...

Page 725: ...all a panel or in a cubicle Use only the screws included in the mounting kit when mounting the plates and the angles on the IED Screws with wrong dimension may damage the PCBs inside the IED If fiber...

Page 726: ...corresponding 4 Mounting bar 2 5 Screw 6 M5x8 6 Side plate 2 17 4 3 3 How to reach the rear side of the IED M11941 2 v5 The IED can be equipped with a rear protection cover recommended to be used with...

Page 727: ...e 1 2 x 19 and RHGS cases can be mounted side by side up to a maximum size of 19 For side by side rack mounting the side by side mounting kit together with the 19 rack panel mounting kit must be used...

Page 728: ...plate 2 2 3 Screw 16 M4x6 4 Mounting angle 2 5 Washer 16 M4x6 17 4 4 3 IED mounted with a RHGS6 case M11953 3 v4 A 1 2 x 19 size IED can be mounted with a RHGS case 6 or 12 The RHGS case can be used...

Page 729: ...ack mounting kit must be used The mounting kit has to be ordered separately The maximum size of the panel cut out is 19 With side by side flush mounting installation only IP class 20 is obtained To re...

Page 730: ...rews is 3 5 Nm PosNo Description Quantity Type 1 Mounting plate 2 2 3 Screw washer 16 M4x6 4 Mounting angle 2 17 5 Technical data IP16276 1 v1 17 5 1 Enclosure IP16278 1 v1 M11778 1 v6 Table 570 Case...

Page 731: ...ive pollution occurs except that occasionally a temporary conductivity caused by condensation is to be expected 17 5 3 Connection system SEMOD53371 1 v1 SEMOD53376 2 v6 Table 574 CT and VT circuit con...

Page 732: ...erative range max 2 Full wave rectified 15 of EL 0 01 Auxiliary voltage dependence operate value 20 of EL 0 01 Interrupted auxiliary DC voltage 24 60 V DC 20 100 250 V DC 20 Interruption interval 0 50...

Page 733: ...frequency immunity test 150 300 V 50 Hz IEC 60255 26 Zone A Conducted common mode immunity test 15 Hz 150 kHz IEC 61000 4 16 Class IV Power frequency magnetic field test 1000 A m 3 s 100 A m cont IEC...

Page 734: ...C 60068 2 78 Damp heat test cyclic Test Db for 6 cycles at 25 to 55 C and humidity 93 to 95 1 cycle 24 hours IEC 60068 2 30 Table 583 CE compliance Test According to Immunity EN 60255 26 Emissivity EN...

Page 735: ...ing code 2 Power supply module PSM 3 Ordering and serial number 4 Manufacturer 5 Transformer designations 6 Transformer input module rated currents and voltages 7 Optional customer specific informatio...

Page 736: ...0573 V2 EN US 1 Warning label 2 Caution label 3 Class 1 laser product label It is used when an optical SFP or an MR LDCM is configured in the product IEC06000575 V1 EN US Section 18 1MRK 505 384 UEN A...

Page 737: ...diagrams can be downloaded from http www abb com protection control Connection diagrams for Configured products Connection diagram REQ650 2 2 B11X00 1MRK006507 QA Connection diagrams for Customized pr...

Page 738: ...732...

Page 739: ...ons current dependent time characteristics are used Both alternatives are shown in a simple application with three overcurrent protections operating in series xx05000129 vsd I I I IEC05000129 V1 EN US...

Page 740: ...argin between the operation time of the protections This required time margin is dependent of following factors in a simple case with two protections in series Difference between pickup time of the pr...

Page 741: ...he trip is sent to the B1 circuit breaker At the time t2 the circuit breaker B1 has opened its primary contacts and thus the fault current is interrupted The breaker time t2 t1 can differ between diff...

Page 742: ...erent characteristics for reset delay can also be chosen If current in any phase exceeds the set start current value here internal signal startValue a timer according to the selected operating mode is...

Page 743: ...A k in EQUATION1192 V1 EN US Equation 64 where j 1 is the first protection execution cycle when a fault has been detected that is when 1 i in EQUATION1193 V1 EN US Dt is the time interval between two...

Page 744: ...endent on the selected setting value for time multiplier k In addition to the ANSI and IEC standardized characteristics there are also two additional inverse curves available the RI curve and the RD c...

Page 745: ...US Equation 67 Also the reset time of the delayed function can be controlled There is the possibility to choose between three different reset time lags Instantaneous Reset IEC Reset ANSI Reset If ins...

Page 746: ...he programmable inverse time delay characteristics all three types of reset time characteristics are available instantaneous IEC constant time reset and ANSI current dependent reset time If the curren...

Page 747: ...2 2 0 or 40 ms whichever is greater ANSI Extremely Inverse A 28 2 B 0 1217 P 2 0 tr 29 1 ANSI Very inverse A 19 61 B 0 491 P 2 0 tr 21 6 ANSI Normal Inverse A 0 0086 B 0 0185 P 0 02 tr 0 46 ANSI Moder...

Page 748: ...ON1253 SMALL V1 EN US I Imeasured Iset k 0 05 999 in steps of 0 01 A 0 005 200 000 in steps of 0 001 B 0 00 20 00 in steps of 0 01 C 0 1 10 0 in steps of 0 1 P 0 005 3 000 in steps of 0 001 TR 0 005 1...

Page 749: ...I 20 x Iset ANSI IEEE C37 112 5 0 or 160 ms whichever is greater ANSI Extremely Inverse A 28 2 B 0 1217 P 2 0 tr 29 1 ANSI Very inverse A 19 61 B 0 491 P 2 0 tr 21 6 ANSI Normal Inverse A 0 0086 B 0...

Page 750: ...se A 120 P 1 0 Programmable characteristic Operate characteristic P A t B k I C EQUATION1370 SMALL V1 EN US Reset characteristic PR TR t k I CR EQUATION1253 SMALL V1 EN US I Imeasured Iset k 0 05 999...

Page 751: ...urrent protection Function Range or value Accuracy Operating characteristic 1 P A t B k tDef I EQUATION1249 SMALL V2 EN US Reset characteristic 2 1 tr t k I EQUATION1250 SMALL V1 EN US I Imeasured Ise...

Page 752: ...ection Function Range or value Accuracy Type A curve t k U U U EQUATION1436 SMALL V1 EN US U Uset U Umeasured k 0 05 1 10 in steps of 0 01 5 0 or 45 ms whichever is greater Type B curve 2 0 480 0 035...

Page 753: ...t U U U EQUATION1432 SMALL V1 EN US U Uset U Umeasured k 0 05 1 10 in steps of 0 01 Programmable curve P k A t D U U B C U EQUATION1433 SMALL V1 EN US U Uset U Umeasured k 0 05 1 10 in steps of 0 01 A...

Page 754: ...V2 EN US k 0 05 1 10 in steps of 0 01 Type C curve 3 0 480 32 0 5 0 035 t k U U U EQUATION1438 SMALL V2 EN US k 0 05 1 10 in steps of 0 01 Programmable curve P k A t D U U B C U EQUATION1439 SMALL V1...

Page 755: ...EMOD118114 4 v4 A070750 V2 EN US Figure 339 ANSI Extremely inverse time characteristics 1MRK 505 384 UEN A Section 20 Inverse time characteristics Breaker protection REQ650 2 2 IEC 749 Technical manua...

Page 756: ...A070751 V2 EN US Figure 340 ANSI Very inverse time characteristics Section 20 1MRK 505 384 UEN A Inverse time characteristics 750 Breaker protection REQ650 2 2 IEC Technical manual...

Page 757: ...A070752 V2 EN US Figure 341 ANSI Normal inverse time characteristics 1MRK 505 384 UEN A Section 20 Inverse time characteristics Breaker protection REQ650 2 2 IEC 751 Technical manual...

Page 758: ...A070753 V2 EN US Figure 342 ANSI Moderately inverse time characteristics Section 20 1MRK 505 384 UEN A Inverse time characteristics 752 Breaker protection REQ650 2 2 IEC Technical manual...

Page 759: ...A070817 V2 EN US Figure 343 ANSI Long time extremely inverse time characteristics 1MRK 505 384 UEN A Section 20 Inverse time characteristics Breaker protection REQ650 2 2 IEC 753 Technical manual...

Page 760: ...A070818 V2 EN US Figure 344 ANSI Long time very inverse time characteristics Section 20 1MRK 505 384 UEN A Inverse time characteristics 754 Breaker protection REQ650 2 2 IEC Technical manual...

Page 761: ...A070819 V2 EN US Figure 345 ANSI Long time inverse time characteristics 1MRK 505 384 UEN A Section 20 Inverse time characteristics Breaker protection REQ650 2 2 IEC 755 Technical manual...

Page 762: ...A070820 V2 EN US Figure 346 IEC Normal inverse time characteristics Section 20 1MRK 505 384 UEN A Inverse time characteristics 756 Breaker protection REQ650 2 2 IEC Technical manual...

Page 763: ...A070821 V2 EN US Figure 347 IEC Very inverse time characteristics 1MRK 505 384 UEN A Section 20 Inverse time characteristics Breaker protection REQ650 2 2 IEC 757 Technical manual...

Page 764: ...A070822 V2 EN US Figure 348 IEC Inverse time characteristics Section 20 1MRK 505 384 UEN A Inverse time characteristics 758 Breaker protection REQ650 2 2 IEC Technical manual...

Page 765: ...A070823 V2 EN US Figure 349 IEC Extremely inverse time characteristics 1MRK 505 384 UEN A Section 20 Inverse time characteristics Breaker protection REQ650 2 2 IEC 759 Technical manual...

Page 766: ...A070824 V2 EN US Figure 350 IEC Short time inverse time characteristics Section 20 1MRK 505 384 UEN A Inverse time characteristics 760 Breaker protection REQ650 2 2 IEC Technical manual...

Page 767: ...A070825 V2 EN US Figure 351 IEC Long time inverse time characteristics 1MRK 505 384 UEN A Section 20 Inverse time characteristics Breaker protection REQ650 2 2 IEC 761 Technical manual...

Page 768: ...A070826 V2 EN US Figure 352 RI type inverse time characteristics Section 20 1MRK 505 384 UEN A Inverse time characteristics 762 Breaker protection REQ650 2 2 IEC Technical manual...

Page 769: ...A070827 V2 EN US Figure 353 RD type inverse time characteristics 1MRK 505 384 UEN A Section 20 Inverse time characteristics Breaker protection REQ650 2 2 IEC 763 Technical manual...

Page 770: ...2E 4CBD 8247 C6ABE3796FA6 V1 EN US Figure 354 Inverse curve A characteristic of overvoltage protection Section 20 1MRK 505 384 UEN A Inverse time characteristics 764 Breaker protection REQ650 2 2 IEC...

Page 771: ...C8 4DC7 A84B 174544C09142 V1 EN US Figure 355 Inverse curve B characteristic of overvoltage protection 1MRK 505 384 UEN A Section 20 Inverse time characteristics Breaker protection REQ650 2 2 IEC 765...

Page 772: ...A3 47F2 AEF9 45FF148CB679 V1 EN US Figure 356 Inverse curve C characteristic of overvoltage protection Section 20 1MRK 505 384 UEN A Inverse time characteristics 766 Breaker protection REQ650 2 2 IEC...

Page 773: ...3 40E6 9767 69C1536E3CBC V1 EN US Figure 357 Inverse curve A characteristic of undervoltage protection 1MRK 505 384 UEN A Section 20 Inverse time characteristics Breaker protection REQ650 2 2 IEC 767...

Page 774: ...5 4D9A A7C0 E274AA3A6BB1 V1 EN US Figure 358 Inverse curve B characteristic of undervoltage protection Section 20 1MRK 505 384 UEN A Inverse time characteristics 768 Breaker protection REQ650 2 2 IEC...

Page 775: ...American Wire Gauge standard BBP Busbar protection BFOC 2 5 Bayonet fibre optic connector BFP Breaker failure protection BI Binary input BIM Binary input module BOM Binary output module BOS Binary out...

Page 776: ...isturbance recorder according to IEEE ANSI C37 111 1999 IEC 60255 24 Contra directional Way of transmitting G 703 over a balanced line Involves four twisted pairs two of which are used for transmittin...

Page 777: ...d performance architecture ESD Electrostatic discharge F SMA Type of optical fibre connector FAN Fault number FCB Flow control bit Frame count bit FOX 20 Modular 20 channel telecommunication system fo...

Page 778: ...e IEC 60870 5 103 Communication standard for protection equipment A serial master slave protocol for point to point communication IEC 61850 Substation automation communication standard IEC 61850 8 1 C...

Page 779: ...gh the data link layer 2 Ingression protection according to IEC 60529 IP 20 Ingression protection according to IEC 60529 level 20 IP 40 Ingression protection according to IEC 60529 level 40 IP 54 Ingr...

Page 780: ...er PC MIP Mezzanine card standard PMC PCI Mezzanine card POR Permissive overreach POTT Permissive overreach transfer trip Process bus Bus or LAN used at the process level that is in near proximity to...

Page 781: ...hardware clocks in every embedded system in a network Each embedded node can instead synchronize with a remote clock providing the required accuracy SOF Status of fault SPA Str mberg Protection Acqui...

Page 782: ...e 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 UTC Coordinated Universal Time A coordinated time scal...

Page 783: ...to as the residual or the earth fault current 3UO Three times the zero sequence voltage Often referred to as the residual voltage or the neutral point voltage 1MRK 505 384 UEN A Section 21 Glossary Br...

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Page 786: ...AB Grid Automation Products 721 59 V ster s Sweden Phone 46 0 21 32 50 00 abb com protection control Copyright 2017 ABB All rights reserved Specifications subject to change without notice 1MRK 505 384...

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