Name: Toshiba GR200 Series
Brand: Toshiba
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6F2S1914 (Rev. 0.49)

Notice: GRL200 manual is issued for ‘033’, and

‘037’ software code, which you can identify at

the ’S,G&T positions’ on Software nameplate.

GRL200---

S, G, and T positions

TOSHIBA ENERGY SYSTEMS & SOLUTIONS CORPORATION

Instruction manual

Line differential Protection IED

GR200 series (GRL200)

1 Introduction24
- 1.1 Protection functions25
- 1.2 Control35
  - 1.2.1 General control function35
  - 1.2.2 Control and monitoring application35
- 1.3 Monitoring and metering functions36
- 1.4 Hardware overview37
- 1.5 Symbols used in logical diagrams38
- 1.6 Abbreviation42
- 1.7 Function Block (FB), Function ID, Signal number (Data ID)44
  - (i) Signal symbols44
  - (ii) Data length (bit length of Data ID)44
2 Relay application46
- 2.1 Current differential protection for the line47
- 2.2 Segregated-phase current differential protection function (DIFL)48
  - 2.2.1 Differential protection characteristics (DIFL)49
  - 2.2.2 Check relays characteristics (OCs and UVs)55
  - 2.2.3 CT circuit-failure detection (DIFL-CTF)57
  - 2.2.4 Charging-current compensation (DIFL-Ic)58
  - 2.2.5 Differential current monitor (DIFL-IDSV)60
  - 2.2.6 Setting61
  - 2.2.7 Data ID62
- 2.3 Zero-sequence current differential protection (DIFGL)64
  - 2.3.1 Differential protection characteristics (DIFGL)64
  - 2.3.2 Check relay characteristic (EFD)69
    - (i) Earth-fault-current-change detection element (EFD-DIFGL)69
    - (ii) Check relay activation70
  - 2.3.3 CT circuit-failure detection (DIFGL-CTF)70
  - 2.3.4 Charging-current compensation (DIFGL-Ic)71
    - (i) Setting for the compensation71
    - (ii) Activation switch71
- 2.4 CT saturation countermeasure in DIFL (CTsat in DIFL)72
  - 2.4.1 Stabilization for CT saturation owing to through-fault current72
    - (i) Principle of operation72
    - (ii) CT secondary current waveforms74
  - 2.4.2 Settings against CT saturation75
  - 2.4.3 Setting77
- 2.5 Setting DIFL accounting for CT ratio/rating and fault currents78
  - 2.5.1 Nature of CT ratios matching78
    - (i) DIFL setting for CT ratios being identical78
    - (ii) DIFL setting for CT ratios being not identical78
  - 2.5.2 Nature of CT ratings matching79
  - 2.5.3 Nature for fault current setting79
- 2.6 DIFL operations for 1.5CB arrangement82
  - 2.6.1 Through-fault-current encountered by DIF (TFC in DIFL and DIFGL)82
    - (i) Operation of TFC countermeasure in DIFL83
      - (i)-1 Sending DIFL operation signal for the opposite83
      - (i)-2 Reception of DIFL-operation signal from the remote84
    - (ii) Operation of TFC countermeasure in DIFLG86
      - (ii)-1 Sending DIFGL operation signal for the opposite86
      - (ii)-2 Reception of DIFGL-operation signal from the remote87
  - 2.6.2 Settings in TFC90
  - 2.6.3 Data IDs in TFC90
  - 2.6.4 Stub protected by DIFL (Stub-DIFL)91
    - (i) DIFL operation at terminal-G91
    - (ii) DIFL operation at terminal-H92
  - 2.6.5 Settings in Stub93
  - 2.6.6 Data ID in Stub94
  - 2.6.7 DIFL applied to double circuit line with a fault (Fault current outflowing)95
- 2.7 DIFL applied to three-terminal line (RDIF and Fault current flowing)96
  - 2.7.1 Remote different trip96
    - (i) RDIF operation relating to DIFL function97
      - (i)-1 Sending local-DIFL-operation signal97
      - (i)-2 Reception of remote-DIFL-operation signal98
    - (ii) RDIF operation relating to DIFGL function100
      - (ii)-1 Sending local-DIFGL-operation signal100
      - (ii)-2 Reception of remote-DIFGL-operation signal101
  - 2.7.2 Setting103
  - 2.7.3 Data ID103
  - 2.7.4 Nature of outflowing current in case of internal fault105
    - (i) Account of DIFL settings for a single line with outer loop105
    - (ii) Account of DIFL settings for parallel lines105
  - 2.7.5 Nature of CT saturation in case of external fault106
- 2.8 DIFL applied to protect the blind zone107
- 2.9 Stub protection with overcurrent relay (STUB-OC)109
  - 2.9.1 Stub-OC characteristic110
  - 2.9.2 Scheme logic110
  - 2.9.3 Setting112
  - 2.9.4 Data ID113
- 2.10 Distance protection (ZS/ZG)114
  - 2.10.1 Principle of distance measurement115
    - (i) Phase-to-phase fault115
    - (ii) Single-phase-earth fault116
  - 2.10.2 Equations in distance protection function119
  - 2.10.3 Element characteristic in distance relay126
  - 2.10.4 Common application for ZS and ZG140
  - 2.10.5 Command protection feature147
    - (i) ZS command protection147
    - (ii) ZG command protection149
  - 2.10.6 Extended application152
  - 2.10.7 Scheme logic155
    - (i) ZS logic155
    - (ii) ZG logic162
      - (ii)-1 Instantaneous and blocking TRIP commands169
      - (ii)-1 TRIP commands for opening the CB poles170
  - 2.10.8 Tips to set the main/remote backup relays171
  - 2.10.9 Tips to set the distance zones for multi-terminal lines175
  - 2.10.10 ZS/ZG test177
  - 2.10.11 Setting178
  - 2.10.12 Data ID194
- 2.11 Direct transfer trip (DTT)203
  - 2.11.1 Setting for the operation204
  - 2.11.2 Scheme logic205
  - 2.11.3 Setting206
  - 2.11.4 Data ID206
- 2.12 Distance carrier command protection (DISCAR)208
  - 2.12.1 Permissive underreach protection (PUP)209
    - (i) Application209
    - (ii) Scheme logic209
  - 2.12.2 Permissive overreach protection (POP)210
  - 2.12.3 Unblocking overreach protection (UOP)213
  - 2.12.4 Blocking overreach protection (BOP)215
    - (i) Countermeasure of current reversal (CRL)216
    - (ii) Scheme logic216
  - 2.12.5 Protection for week infeed terminal218
    - (i) ECHO function218
    - (ii) WIKT function219
  - 2.12.6 Countermeasure for current reversal220
  - 2.12.7 Carrier signal reception222
  - 2.12.8 Setting224
  - 2.12.9 Data ID225
- 2.13 Directional earth fault command protection (DEFCAR)227
  - 2.13.1 Permissive overreach protection (POP)228
  - 2.13.2 Unblocking overreach protection (UOP)231
  - 2.13.3 Blocking overreach protection (BOP)231
  - 2.13.4 Coordination with DISCAR protection233
    - (i) DISCAR and DEFCAR signals being separated233
    - (ii) DISCAR and DEFCAR signals being shared233
  - 2.13.5 Carrier signal reception234
  - 2.13.6 Setting236
  - 2.13.7 Data ID237
- 2.14 Switch on to fault (SOTF-OC)239
  - 2.14.1 Scheme logic240
  - 2.14.2 Setting242
  - 2.14.3 Data ID242
- 2.15 Overcurrent protection (OC)243
  - 2.15.1 Relay polarity244
  - 2.15.2 Inverse time and definite time delay characteristic247
  - 2.15.3 Threshold value for operation254
  - 2.15.4 Reset Ratio254
  - 2.15.5 Miscellaneous functions254
  - 2.15.6 Scheme logic256
  - 2.15.7 Setting258
  - 2.15.8 Data ID263
- 2.16 Earth fault protection (EF)266
  - 2.16.1 Relay polarity267
  - 2.16.2 Inverse time and definite time delay characteristic269
  - 2.16.3 Threshold level for operation274
  - 2.16.4 Reset Ratio274
  - 2.16.5 Miscellaneous functions274
  - 2.16.6 Scheme logic275
  - 2.16.7 Setting277
  - 2.16.8 Data ID282
- 2.17 Negative sequence overcurrent protection (OCN)284
  - 2.17.1 Relay polarity285
  - 2.17.2 Inverse time and definite time delay characteristic287
  - 2.17.3 Threshold value292
  - 2.17.4 Reset Ratio292
  - 2.17.5 Miscellaneous functions292
  - 2.17.6 Scheme logic293
  - 2.17.7 Setting295
  - 2.17.8 Data ID300
- 2.18 Thermal overload function (THM)302
  - 2.18.1 Thermal state determination303
  - 2.18.2 Thermal characteristic304
  - 2.18.3 Scheme logic305
  - 2.18.4 Setting306
  - 2.18.5 Data ID307
- 2.19 Broken conductor protection (BCD)308
  - 2.19.1 Equivalent circuit for a one-phase series fault309
  - 2.19.2 Characteristic and setting311
  - 2.19.3 Miscellaneous functions311
    - (i) Harmonic detection function311
    - (ii) Block operation of CTF for BCD311
  - 2.19.4 Scheme logic312
  - 2.19.5 Setting312
  - 2.19.6 Data ID313
- 2.20 Circuit breaker fail protection (CBF)314
  - 2.20.1 CBF operation and its elements315
  - 2.20.2 Re-trip feature315
  - 2.20.3 Backup feature316
  - 2.20.4 Scheme logic318
  - 2.20.5 Operation timing320
  - 2.20.6 Setting321
  - 2.20.7 Data ID322
- 2.21 Overvoltage protection for phase-to-neutral (OV)324
  - 2.21.1 Drop-off and pickup characteristic325
  - 2.21.2 Delay for the operation of the OV element325
  - 2.21.3 Time characteristic325
    - (i) Definite time characteristic (DT)325
    - (ii) Invers time characteristic (IDMT)325
      - (ii)-1 Pick-up characteristic325
      - (ii)-2 Reset feature327
  - 2.21.4 Miscellaneous functions328
  - 2.21.5 Scheme logic328
  - 2.21.6 Setting list330
  - 2.21.7 Data ID331
- 2.22 Overvoltage protection for phase-to-phase (OVS)332
  - 2.22.1 Drop-off and pickup setting333
  - 2.22.2 Delay for the operation of the OVS element333
  - 2.22.3 Time characteristic333
    - (i) Definite time characteristic (DT)333
    - (ii) Invers time characteristic (IDMT)333
      - (ii)-1 Operation feature333
      - (ii)-2 Reset feature335
  - 2.22.4 Miscellaneous functions335
  - 2.22.5 Scheme logic336
  - 2.22.6 Setting list337
  - 2.22.7 Data ID338
- 2.23 Earth fault overvoltage protection (OVG)339
  - 2.23.1 Drop-off and pickup setting340
  - 2.23.2 Delay of the operation of the OVG element340
  - 2.23.3 Time characteristic340
    - (i) Definite time characteristic (DT)340
    - (ii) Invers time delay (IDMT)340
      - (ii)-1 Operation feature341
      - (ii)-2 Reset feature341
  - 2.23.4 Miscellaneous functions342
  - 2.23.5 Scheme logic343
  - 2.23.6 Setting344
  - 2.23.7 Data ID345
- 2.24 Phase under-voltage protection (UV)346
  - 2.24.1 Drop-off and pick-up characteristic347
  - 2.24.2 Time characteristic347
    - (i) Definite time characteristic (DT)347
      - (i)-1 Setting pick-up operation347
      - (i)-2 Setting drop-off operation347
    - (ii) Inverse definite minimum time (IDMT) characteristic347
      - (ii)-1 Setting pick-up operation348
      - (ii)-2 Setting drop-off operation348
  - 2.24.3 Miscellaneous functions349
  - 2.24.4 Scheme logic350
  - 2.24.5 Setting352
  - 2.24.6 Data ID353
- 2.25 Phase-to-phase under-voltage protection (UVS)354
  - 2.25.1 Drop-off and pick-up characteristic355
  - 2.25.2 Time characteristic355
    - (i) Definite time characteristic (DT)355
      - (i)-1 Setting pick-up operation355
      - (i)-2 Setting drop-off operation355
    - (ii) Inverse definite minimum time (IDMT) characteristic355
      - (ii)-1 Pick-up characteristic356
      - (ii)-2 Drop-off characteristic356
  - 2.25.3 Miscellaneous functions357
  - 2.25.4 Scheme logic358
  - 2.25.5 Setting360
  - 2.25.6 Data ID361
- 2.26 Frequency protection (FRQ/DFRQ)363
  - 2.26.1 FRQ features and characteristics364
  - 2.26.2 DFRQ features and characteristics366
  - 2.26.3 Setting368
  - 2.26.4 Data ID370
- 2.27 Out of step tripping by voltage (OSTV)373
  - 2.27.1 Operation characteristic374
  - 2.27.2 Scheme logic and settings376
  - 2.27.3 Setting377
  - 2.27.4 Data ID378
- 2.28 Inrush current detection function (ICD)379
  - 2.28.1 Operation and characteristic380
  - 2.28.2 Scheme logic380
  - 2.28.3 Setting381
  - 2.28.4 Data ID381
- 2.29 Fail safe (FS)382
  - 2.29.1 Overcurrent element (OCFS)383
  - 2.29.2 Phase current change detector element (OCDFS)383
  - 2.29.3 Earth fault current element (EFFS)383
  - 2.29.4 Multi-level overcurrent elements (OCMFS)384
    - (i) Characteristic of OCMFS384
    - (ii) Setting of OCMF385
  - 2.29.5 Under-voltage element for phase-to-earth (UVFS)385
  - 2.29.6 Under-voltage element for phase-to-phase (UVSFS)385
  - 2.29.7 Under-voltage change detection element (DUVFS)385
  - 2.29.8 Scheme logic386
  - 2.29.9 Setting388
  - 2.29.10 Data ID list389
- 2.30 VT failure detection (VTF)390
  - 2.30.1 VTF features391
  - 2.30.2 Operation for the VTF function391
  - 2.30.3 VTF Logic392
  - 2.30.4 Setting394
  - 2.30.5 Data ID395
- 2.31 CT failure detection (CTF)396
  - 2.31.1 CTF features397
  - 2.31.2 Operation for the CTF function397
  - 2.31.3 Scheme logic397
  - 2.31.4 Setting399
  - 2.31.5 Data ID400
- 2.32 Multi-end fault locator (FL-A and FL-Z)401
  - 2.32.1 FL calculation with data at a local-terminal and remote-terminals402
  - 2.32.2 FL calculation with data at a local-terminal only409
  - 2.32.3 Selection of calculation results415
  - 2.32.4 Screen of FL output416
  - 2.32.5 Preparation and consideration of setting419
  - 2.32.6 Setting procedure421
  - 2.32.7 Setting425
  - 2.32.8 Data ID427
- 2.33 Trip circuit (TRC)428
  - 2.33.1 Command for tripping CB and signal to block reclosing CB#1/CB#2431
  - 2.33.2 Recording identifiers for respective fault types434
  - 2.33.3 Scheme logic435
  - 2.33.4 Setting440
  - 2.33.5 Data ID441
- 2.34 Autoreclose (ARC)443
  - 2.34.1 Overview444
  - 2.34.2 Terminology449
  - 2.34.3 Function block diagram454
  - 2.34.4 Timing diagram463
  - 2.34.5 Autoreclosing logics466
  - 2.34.6 Setting490
  - 2.34.7 Data ID492
- 2.35 Voltage check for autoreclose (VCHK)498
  - 2.35.1 VCHK1 for 1CB system499
    - (i) Characteristic and elements499
    - (ii) Voltage condition and check zone499
  - 2.35.2 VCHK1 and VCHK2 for 1.5CB system500
    - (i) Characteristic and elements500
    - (ii) Voltage condition and check zone500
  - 2.35.3 Scheme for synchronism501
  - 2.35.4 VCHK1 setting for 1CB system506
  - 2.35.5 VCHK1 and VCHK2 settings for 1.5CB system510
  - 2.35.6 Scheme and activation512
  - 2.35.7 Setting514
  - 2.35.8 Data ID516
- 2.36 Transmission control function (DIF_COMM)517
  - 2.36.1 Data communication interface518
    - (i) IEEE C37.94 (N=1)518
    - (ii) IEEE C37.94 (N=3)519
  - 2.36.2 Synchronization control519
  - 2.36.3 Topology of telecommunication526
    - (i) Dual mode526
    - (ii) Star mode527
  - 2.36.4 Communication setup527
    - (i) Setting of Channel exchange527
    - (ii) Setting in multiplexer527
  - 2.36.5 Setting529
  - 2.36.6 Data ID530
- 2.37 Communication application (COMM_APPL)531
  - 2.37.1 Relay-address configuration532
    - (i) Address configuration532
      - (i)-1 ID numbering for two-terminals532
      - (i)-2 Three-terminal application532
  - 2.37.2 Sub-communication channel for 1CB arrangement533
    - (i) Normal (N=1) communication533
    - (ii) Wide (N=3) communication534
  - 2.37.3 Sub-communication channel for 1.5CB arrangement535
    - (i) Normal (N=1) communication535
    - (ii) Wide (N=3) communication536
  - 2.37.4 Integral communication bits536
  - 2.37.5 Communication bits for OSTV537
  - 2.37.6 Usage of sub-communication channel537
  - 2.37.7 Setting of open terminal detection537
  - 2.37.8 Communication test538
  - 2.37.9 Setting539
  - 2.37.10 Data ID540
- 2.38 Protection common (PROT_COMMON)557
  - 2.38.1 Selection of breaker system558
  - 2.38.2 Decision of CB open/close status558
  - 2.38.3 Decision of DS open/close status561
  - 2.38.4 Dead line detection562
  - 2.38.5 Detection of current change (OCD)563
    - (i) Current change detection relay563
    - (ii) OCD logic563
  - 2.38.6 User logic switches564
  - 2.38.7 Setting565
  - 2.38.8 Data ID566
- 2.39 Cold load protection (CLP)569
  - 2.39.1 Scheme logic570
  - 2.39.2 Setting572
  - 2.39.3 Data ID573
3 General control function574
- 3.1 Control scheme575
  - (i) Command reception in SBO mode576
  - (ii) Command reception in DIR mode577
- 3.2 Control mode578
  - 3.2.1 Select-before-operation mode (SBO)578
    - (i) SBO with enhanced security (SBOes)578
    - (ii) SBO with normal security (SBOns)578
  - 3.2.2 Direct-operation mode (DIR)579
    - (i) DIR with enhanced security (DOes)579
    - (ii) DIR with normal security (DOns)579
- 3.3 Control hierarchy581
- 3.4 Common controls (CMNCTRL)584
- 3.5 Local, remote and PLC control594
- 3.6 LED reset function (LEDR)598
- 3.7 Counter function for the general (GCNT)612
- 3.8 Mode control function (MDCTRL)632
4 Control and monitoring application641
- 4.1 Single position device function (SPOS)642
- 4.2 Double position controller with synchronizing-checking (DPSY)693
- 4.3 Software switch controller function (SOFTSW)757
- 4.4 Operation time reset function (OPTIM)792
- 4.5 Total time measurement function (TOTALTIM)806
- 4.6 Synchronizing check for different network (SYNDIF)819
- 4.7 Software interlock function (ILK)846
- 4.8 Double position device function (DPOS)864
- 4.9 Three position device function (TPOS)930
- 4.10 Event detection function for general BIs (GENBI)1010
- 4.11 Automatic sequence control function (ASEQ)1019
5 Technical Description1033
- 5.1 IED case and module slot1036
  - 5.1.1 Type using compression terminals1037
  - 5.1.2 Type using ring terminals1043
- 5.2 Transformer module for AC analog input (VCT)1049
- 5.3 Signal processing and communication module (CPU)1062
- 5.4 Binary IO module (BI, BO, and BIO)1071
- 5.5 Power supply module (PWS)1106
- 5.6 Human Machine Interface (HMI)1111
- 5.7 Clock function1125
- 5.8 Group setting for protection functions1134
6 Engineering tool1137
- 6.1 Overview of GR-TIEMS1138
- 6.2 Connection1139
- 6.3 Common tools1140
- 6.4 Monitoring tools1140
- 6.5 Record tools1141
- 6.6 Generic configuration tools1141
- 6.7 IEC 61850 configuration tool1142
- 6.8 IEC 60870-5-103 configuration tool1142
- 6.9 MIMIC configuration tool1142
7 PLC function1143
- 7.1 Overview of PLC function1144
- 7.2 PLC data error1144
- 7.3 PLC driver1145
  - 7.3.1 Monitoring point for PLC driver1145
- 7.4 PLC setting samples1149
- 7.5 Timer variable settings using PLC drivers1164
8 Recording function1169
- 8.1 Fault recorder1170
- 8.2 Event recorder1179
- 8.3 Disturbance recorder1187
- 8.4 Transferred information during fault1195
9 Monitoring function1210
- 9.1 Outline1211
- 9.2 Metering data (Metering group)1211
- 9.3 Statistics data (Power value group)1219
- 9.4 Statistics data (Demand value group)1220
- 9.5 Statistics data (Peak-demand value group)1222
  - 9.5.1 Max/Min/Averaged information about the peak-demand feature1222
  - 9.5.2 Resetting data of peak-demand features1222
- 9.6 Statistics data (Counter group)1223
  - 9.6.1 Count information on the screen1223
  - 9.6.2 Report setting for GCNT (Dead band feature)1223
- 9.7 Statistics data (Accumulated time)1224
- 9.8 Statistics data (Total time group)1225
  - 9.8.1 Time information on the screen1225
  - 9.8.2 Report setting for TOTALTIM (Dead band feature)1225
- 9.9 Monitoring for miscellaneous functions1226
- 9.10 Setting1227
- 9.11 Signal and measurand (Data ID)1228
10 Automatic supervision1253
- 10.1 Outline of automatic supervision1254
- 10.2 Generic supervision tasks1257
- 10.3 Trip circuit supervision task1313
- 10.4 Supervision task of interruption capability on CB1321
- 10.5 Supervision tasks for device dependent features1326
11 Communication protocol1345
- 11.1 Selection of slave protocol1346
- 11.2 LAN operation1347
- 11.3 IEC 61850 communication1366
- 11.4 IEC 60870-5-103 communication1422
- 11.5 USB communication1451
- 11.6 RS485 communication1452
12 User interface1453
- 12.1 Outline1454
- 12.2 HMI operation1457
  - (i) Screen and LEDs during normal HMI operation1457
  - (ii) Main-menu and Sub-menu1457
- 12.3 Record sub-menu1460
- 12.4 Monitoring sub-menu1467
- 12.5 Setting sub-menu1475
- 12.6 I/O setting sub-menu1488
- 12.7 Time sub-menu1496
- 12.8 Test sub-menu1504
- 12.9 Information sub-menu1510
- 12.10 Security setting sub-menu1511
- 12.11 Control sub-menu1513
  - (i) CB operation1514
13 Installation and setting1515
- 13.1 Caution for storage1516
- 13.2 Handling precautions1516
- 13.3 Unpack and inspection of hardware and software1517
- 13.4 Changing rated current1522
- 13.5 PWS alarm threshold setting1527
14 Commissioning and maintenance1528
- 14.1 Scope of required test1529
- 14.2 Cautions1530
  - (i) Safety Precautions1530
  - (ii) Cautions on Tests1530
- 14.3 Preparations1530
- 14.4 Test operations1532
- 14.5 Setting1536
- 14.6 Signal1537
Appendix 1 Signal list for common function1538
Appendix 2 Case outline1545
Appendix 3 Typical external connection1554
Appendix 4 IEC61850 MICS, PICS, PIXIT, and TICS1563
- (MICS Edition 1)1564
- (PICS Editon1 and 2)1599
- Introduction1600
- ASCI basic conformance statement1601
- ACSI models conformance statement1602
- ACSI service conformance statement1603
- (PIXIT Edition1&2)1606
- 1. Introduction1607
- 2. CONTENTS OF THIS DOCUMENT1607
- 3. PIXIT FOR DOCUMENTATION1607
- 4. PIXIT FOR ASSOCIATION MODEL1608
- 5. PIXIT FOR SERVER MODEL1609
- 6. PIXIT for Data set model1610
- 7. PIXIT FOR SUBSTITUTION MODEL1610
- 8. PIXIT FOR SETTING GROUP CONTROL MODEL1610
- 9. PIXIT for Reporting model1611
- 9. PIXIT for Reporting model (continued)1612
- 10. PIXIT FOR LOGGING MODEL1612
- 11. PIXIT FOR GOOSE PUBLISH MODEL1613
- 12. PIXIT FOR GOOSE SUBSCRIBE MODEL1614
- 12. PIXIT FOR GOOSE SUBSCRIBE MODEL (continued)1615
- 12. PIXIT FOR GOOSE SUBSCRIBE MODEL (continued)1616
- 13. PIXIT for GOOSE performance1616
- 14. PIXIT FOR CONTROL MODEL1617
- 14. PIXIT FOR CONTROL MODEL(Continued)1618
- 14. PIXIT FOR CONTROL MODEL(Continued)1619
- 14. PIXIT FOR CONTROL MODEL(Continued)1620
- 15. PIXIT FOR TIME AND TIME SYNCHONISATION MODEL1621
- 16. PIXIT FOR FILE TRANSFER MODEL1622
- 17. PIXIT FOR SERVICE TRACKING MODEL1622
- (TICS Edition2)1623
- 1. Introduction1624
- 2. Mandatory Edition2 Tissues1625
- 2. Mandatory Edition2 Tissues (continued)1626
- 2. Mandatory Edition2 Tissues (continued)1627
- 2. Mandatory Edition2 Tissues (continued)1628
- (Default mapping: Ed.1)1629
- (Default mapping: Ed.2)1652
Appendix 5 IEC60870-5-103 interoperability1657
Appendix 6 Ordering1671
Appendix 7 Technical data1691
- Trip time characteristics (IEC60255-121)1709
- SIR trip time characteristics for three-phase fault (ZS element) [Short line]1710
- SIR trip time characteristics for ground fault (ZG element) [Short line]1711
- SIR trip time characteristics for three-phase fault (ZS element) [Long line]1712
- SIR trip time characteristics for ground fault (ZG element) [Long line]1713
Appendix 8 Manufacture setting1714
Appendix 9 Matrix between VCT terminals and relay applications1716
Appendix 10 CT requirement1721
Appendix 11 Notes for the dielectric voltage test1731
Appendix 12 Engineering exercise1736
- (i) CB operation on MIMIC1737
- (ii) Signal monitor and meter displayed on MIMIC1746

Model	GR200 Series
Category	Storage
Type	NAS
RAID Levels	0, 1, 5, 6, 10
Drive Types Supported	3.5" SATA HDD
Host Connectivity	Ethernet
Power Supply	Redundant

Toshiba GR200 Series User Manual

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Toshiba GR200 Series Specifications

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