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Contents 1 Introduction ............................................................................................................................................ 1 1.1 Protection functions ........................................................................................................................ 2 1.2 Control.............................................................................................................................................. 3 1.3 Monitoring and metering functions ............................................................................................... 3 1.4 Hardware overview ......................................................................................................................... 4 1.5 Symbols used in logical diagrams .................................................................................................. 5 1.6 Abbreviation .................................................................................................................................... 9 1.7 Function Block (FB), Function ID, Signal number..................................................................... 10 2 Relay application .................................................................................................................................. 11 2.1 Distance protection (ZSZG with 6 zones) ................................................................................... 12 2.1.1 Principle of distance measurement ...................................................................................... 12 2.1.2 Element characteristic in distance relay.............................................................................. 16 2.1.3 Common application for ZS and ZG...................................................................................... 31 2.1.4 Extended application ............................................................................................................. 37 2.1.5 Command protection feature................................................................................................. 37 2.1.6 Scheme logic ........................................................................................................................... 42 2.1.7 Setting list .............................................................................................................................. 45 2.1.8 Data ID ................................................................................................................................... 60 2.2 Distance carrier command protection (DISCAR)........................................................................ 75 2.2.1 Permissive underreach protection (PUP)............................................................................. 75 2.2.2 Permissive overreach protection (POP)................................................................................ 77 2.2.3 Unblocking overreach protection (UOP) .............................................................................. 80 2.2.4 Blocking overreach protection (BOP) ................................................................................... 82 2.2.5 Protection for week infeed terminal ..................................................................................... 85 2.2.6 Countermeasure for current reversal................................................................................... 87 2.2.7 Setting..................................................................................................................................... 90 2.2.8 Data ID ................................................................................................................................... 91 2.3 Directional earth fault command protection (DEFCAR)............................................................ 93 2.3.1 Permissive overreach protection (POP)................................................................................ 93 2.3.2 Unblocking overreach protection (UOP) .............................................................................. 97 2.3.3 Blocking overreach protection (BOP) ................................................................................... 97 2.3.4 Coordination with DISCAR protection................................................................................. 99 2.3.5 Setting................................................................................................................................... 101 2.3.6 Data ID ................................................................................................................................. 102 2.4 Direct transfer trip (DTT)........................................................................................................... 104 2.4.1 Setting................................................................................................................................... 104 2.4.2 Scheme logic ......................................................................................................................... 105 2.4.3 Setting................................................................................................................................... 1066F2S1905 (0.41) vi 2.4.4 Data ID ................................................................................................................................. 107 2.5 Overcurrent protection (OC)....................................................................................................... 108 2.5.1 Relay polarity ....................................................................................................................... 108 2.5.2 Inverse definite mean time and definite time characteristic ........................................... 112 2.5.3 Threshold value for operation............................................................................................. 118 2.5.4 Reset Ratio............................................................................................................................ 118 2.5.5 Miscellaneous functions....................................................................................................... 118 2.5.6 Scheme logic ......................................................................................................................... 120 2.5.7 Setting................................................................................................................................... 122 2.5.8 Data ID ................................................................................................................................. 125 2.6 Earth fault protection (EF)......................................................................................................... 127 2.6.1 Relay polarity ....................................................................................................................... 127 2.6.2 Inverse time and definite time delay characteristic.......................................................... 130 2.6.3 Threshold level for operation .............................................................................................. 136 2.6.4 Reset Ratio............................................................................................................................ 136 2.6.5 Miscellaneous functions....................................................................................................... 136 2.6.6 Scheme logic ......................................................................................................................... 138 2.6.7 Setting................................................................................................................................... 139 2.6.8 Data ID ................................................................................................................................. 142 2.7 Negative sequence overcurrent protection (OCN) .................................................................... 143 2.7.1 Relay polarity ....................................................................................................................... 143 2.7.2 Inverse time and definite time delay characteristic.......................................................... 146 2.7.3 Threshold value.................................................................................................................... 152 2.7.4 Reset Ratio............................................................................................................................ 152 2.7.5 Miscellaneous functions....................................................................................................... 152 2.7.6 Scheme logic ......................................................................................................................... 153 2.7.7 Setting................................................................................................................................... 155 2.7.8 Data ID ................................................................................................................................. 159 2.8 Thermal overload function (THM) ............................................................................................. 160 2.8.1 Thermal state determination.............................................................................................. 160 2.8.2 Thermal characteristic ........................................................................................................ 161 2.8.3 Scheme logic ......................................................................................................................... 163 2.8.4 Setting................................................................................................................................... 164 2.8.5 Data ID ................................................................................................................................. 165 2.9 Broken conductor protection (BCD)........................................................................................... 166 2.9.1 Equivalent circuit for a onephase series fault.................................................................. 166 2.9.2 Characteristic and setting................................................................................................... 167 2.9.3 Miscellaneous functions....................................................................................................... 168 2.9.4 Scheme logic ......................................................................................................................... 168
6F2S1905 (0.41) INSTRUCTION MANUAL Distance Protection IED GRZ 200 (Revision 0.41) 6F2S1905 (0.41) Safety Precautions Before using this equipment, please read this chapter carefully This chapter describes the safety precautions recommended when using the GR equipment Before installing and using the equipment, this chapter must be thoroughly read and understood Explanation of symbols used Signal words such as DANGER, WARNING, and CAUTION, will be followed by important safety information that must be carefully reviewed DANGER WARNING CAUTION Indicates an imminently hazardous situation which will result indeath or serious injury if you not follow the instructions Indicates a potentially hazardous situation which could result in death or serious injury if you not follow the instructions Indicates a potentially hazardous situation which if not avoided, may result in minor injury or moderate injury or property damage DANGER •Current transformer circuit Never allow the current transformer (CT) secondary circuit connected to this equipment to be opened while the primary system is live Opening the CT circuit will produce a dangerously high voltage WARNING •Exposed terminals Do not touch the terminals of this equipment while the power is on, as the high voltage generated is dangerous •Residual voltage Hazardous voltage can be present in the DC circuit just after switching off the DC power supply It takes approximately 30 seconds for the voltage to discharge •Fiber optic Invisible laser radiation Do not view directly with optical instruments i 6F2S1905 (0.41) CAUTION •Earth The earthing terminal of the equipment must be securely earthed CAUTION •Operating environment The equipment must only be used within the range of ambient temperature, humidity and dust detailed in the specification and in an environment free of abnormal vibration •Ratings Before applying AC voltage and current or the DC power supply to the equipment, check that they conform to the equipment ratings •Printed circuit board Do not attach and remove printed circuit boards when the DC power to the equipment is on, as this may cause the equipment to malfunction •External circuit When connecting the output contacts of the equipment to an external circuit, carefully check the supply voltage used in order to prevent the connected circuit from overheating •Connection cable Carefully handle the connection cable without applying excessive force •Modification Do not modify this equipment, as this may cause the equipment to malfunction •Short-wire Do not remove a short-wire which is mounted at the terminal on the rear of the equipment before shipment, as this may cause the performance of this equipment such as withstand voltage, etc., to reduce ii 6F2S1905 (0.41) •Disposal This equipment contains neither expendable supplies nor parts that can be recycled When disposing of this equipment, the customer must contact an operator responsible for industrial waste disposal, and request that the operator dispose of this equipment in accordance with the local waste disposal regulations; otherwise the person who disposes of this equipment may be punished under local regulations When disposing of this equipment is practiced by the customer acting on their own behalf, it must be done so in a safe manner according to local regulations For further information in terms of the disposal, the customer shall contact to a local dealer and sales staff at Toshiba This equipment contains neither expendable supplies nor recyclables •Plastics material This equipment contains the following plastics material - ABS, Polycarbonate, Acrylic resins, Nylon 66, and others Equipment installation and operation •Equipment installation Never remove cables at frame ground terminals (FGs) while the AC/DC power supplies •Equipment operation The user shall have responsibilities to use and install the equipment where the specifications are designated by the manufacture Never operate the equipment on the condition where the manufacture cannot intend Otherwise, the safety function furnished into the equipment may not be operated properly •Symbols Symbol Description Protective conductor terminal Caution, risk of electric shock iii 6F2S1905 (0.41) Liability, copyright and others •Disclaimer of liability We have checked the description of this manual against the hardware and software described, but we cannot guarantee that all deviations have been eliminated from the description completely; hence, no liability can be accepted for any errors or omissions contained in the information given We review the information in this manual regularly and there will be some corrections in subsequent editions We reserve the right to make technical improvements without notice ãCopyright Copyright â Toshiba 2014, 2015 All rights reserved •Registered Trademarks Product/Equipment names (mentioned herein) may be trademarks of their respective companies iv 6F2S1905 (0.41) Contents Introduction 1.1 Protection functions 1.2 Control 1.3 Monitoring and metering functions 1.4 Hardware overview 1.5 Symbols used in logical diagrams 1.6 Abbreviation 1.7 Function Block (FB), Function ID, Signal number 10 Relay application 11 2.1 Distance protection (ZS/ZG with zones) 12 2.1.1 Principle of distance measurement 12 2.1.2 Element characteristic in distance relay 16 2.1.3 Common application for ZS and ZG 31 2.1.4 Extended application 37 2.1.5 Command protection feature 37 2.1.6 Scheme logic 42 2.1.7 Setting list 45 2.1.8 Data ID 60 2.2 Distance carrier command protection (DISCAR) 75 2.2.1 Permissive underreach protection (PUP) 75 2.2.2 Permissive overreach protection (POP) 77 2.2.3 Unblocking overreach protection (UOP) 80 2.2.4 Blocking overreach protection (BOP) 82 2.2.5 Protection for week infeed terminal 85 2.2.6 Countermeasure for current reversal 87 2.2.7 Setting 90 2.2.8 Data ID 91 2.3 Directional earth fault command protection (DEFCAR) 93 2.3.1 Permissive overreach protection (POP) 93 2.3.2 Unblocking overreach protection (UOP) 97 2.3.3 Blocking overreach protection (BOP) 97 2.3.4 Coordination with DISCAR protection 99 2.3.5 Setting 101 2.3.6 Data ID 102 2.4 Direct transfer trip (DTT) 104 2.4.1 Setting 104 2.4.2 Scheme logic 105 2.4.3 Setting 106 v 6F2S1905 (0.41) 2.4.4 2.5 Data ID 107 Overcurrent protection (OC) 108 2.5.1 Relay polarity 108 2.5.2 Inverse definite mean time and definite time characteristic 112 2.5.3 Threshold value for operation 118 2.5.4 Reset Ratio 118 2.5.5 Miscellaneous functions 118 2.5.6 Scheme logic 120 2.5.7 Setting 122 2.5.8 Data ID 125 2.6 Earth fault protection (EF) 127 2.6.1 Relay polarity 127 2.6.2 Inverse time and definite time delay characteristic 130 2.6.3 Threshold level for operation 136 2.6.4 Reset Ratio 136 2.6.5 Miscellaneous functions 136 2.6.6 Scheme logic 138 2.6.7 Setting 139 2.6.8 Data ID 142 2.7 Negative sequence overcurrent protection (OCN) 143 2.7.1 Relay polarity 143 2.7.2 Inverse time and definite time delay characteristic 146 2.7.3 Threshold value 152 2.7.4 Reset Ratio 152 2.7.5 Miscellaneous functions 152 2.7.6 Scheme logic 153 2.7.7 Setting 155 2.7.8 Data ID 159 2.8 Thermal overload function (THM) 160 2.8.1 Thermal state determination 160 2.8.2 Thermal characteristic 161 2.8.3 Scheme logic 163 2.8.4 Setting 164 2.8.5 Data ID 165 2.9 Broken conductor protection (BCD) 166 2.9.1 Equivalent circuit for a one-phase series fault 166 2.9.2 Characteristic and setting 167 2.9.3 Miscellaneous functions 168 2.9.4 Scheme logic 168 vi 6F2S1905 (0.41) 2.9.5 Setting 169 2.9.6 Data ID 170 2.10 Circuit breaker fail protection (CBF) 171 2.10.1 CBF operation and its elements 172 2.10.2 Re-trip feature 172 2.10.3 Backup feature 173 2.10.4 Scheme logic 174 2.10.5 Operation timing 175 2.10.6 Setting 176 2.10.7 Data ID 177 2.11 Switch on to fault (SOTF-OC) 179 2.11.1 Scheme logic and setting 179 2.11.2 Setting 181 2.11.3 Data ID 181 2.12 Overvoltage protection for phase-to-neutral (OV) 182 2.12.1 Drop-off and pickup characteristic 182 2.12.2 Delay for the operation of the OV element 182 2.12.3 Time characteristic 182 2.12.4 Miscellaneous functions 185 2.12.5 Scheme logic 186 2.12.6 Setting list 187 2.12.7 Data ID 188 2.13 Overvoltage protection for phase-to-phase (OVS) 189 2.13.1 Drop-off and pickup setting 189 2.13.2 Delay for the operation of the OVS element 189 2.13.3 Time characteristic 189 2.13.4 Miscellaneous functions 192 2.13.5 Scheme logic 193 2.13.6 Setting list 194 2.13.7 Data ID 196 2.14 Phase under-voltage protection (UV) 197 2.14.1 Delay for the operation of the UV element 197 2.14.2 Drop-off and pick-up characteristic 197 2.14.3 Time characteristic 197 2.14.4 Miscellaneous functions 200 2.14.5 Scheme logic 201 2.14.6 Setting 203 2.14.7 Data ID 204 2.15 Phase-to-phase under-voltage protection (UVS) 205 vii 6F2S1905 (0.41) 2.15.1 Delay for the operation of the UVS element 205 2.15.2 Drop-off and pick-up characteristic 205 2.15.3 Time characteristic 205 2.15.4 Miscellaneous functions 208 2.15.5 Scheme logic 209 2.15.6 Setting 211 2.15.7 Data ID 212 2.16 Out of step tripping protection by distance relay (OSTZ) 213 2.16.1 Phenomenon and principle of out-of-step 213 2.16.2 Function features 214 2.16.3 Operation zones and element characteristics 215 2.16.4 Scheme logic and setting 216 2.16.5 Setting 218 2.16.6 Data ID 219 2.17 Inrush current detection function (ICD) 220 2.17.1 Characteristic 220 2.17.2 Setting 220 2.17.3 Scheme logic 220 2.17.4 Setting 221 2.17.5 Data ID 221 2.18 Fail safe (FS) 222 2.18.1 Overcurrent element (OCFS) 222 2.18.2 Phase current change detector element (OCDFS) 222 2.18.3 Earth fault current element (EFFS) 223 2.18.4 Multi-level overcurrent elements (OCMFS) 223 2.18.5 Under-voltage element for phase-to-earth (UVFS) 224 2.18.6 Under-voltage element for phase-to-phase (UVSFS) 224 2.18.7 Under-voltage change detection element (UVDFS) 224 2.18.8 Scheme logic 225 2.18.9 Setting 227 2.18.10 2.19 Data ID list 228 VT failure detection (VTF) 229 2.19.1 VTF features 229 2.19.2 Operation for the VTF function 230 2.19.3 VTF Logic 230 2.19.4 Setting 233 2.19.5 Data ID 234 2.20 CT failure detection (CTF) 235 2.20.1 CTF features 235 viii 6F2S1905 (0.41) 2.20.2 Operation for the CTF function 235 2.20.3 CTF logic 236 2.20.4 Setting 238 2.20.5 Data ID 239 2.21 Single-end fault locator (FL-A) 240 2.21.1 Computation method 240 2.21.2 Output of FL computation on display 243 2.21.3 Setting and operation 245 2.21.4 Scheme logic 250 2.21.5 Setting 252 2.21.6 Data ID 254 2.22 Autoreclose (ARC) 255 2.22.1 Selection of breaker system 256 2.22.2 Number of shots 257 2.22.3 Single-phase auto-reclose mode (SPAR) 258 2.22.4 Three-phase auto-reclose mode (TPAR) 260 2.22.5 Single-phase and three-phase auto-reclose (SPAR&TPAR) 263 2.22.6 Multi-phase auto-reclose mode (MPAR) 263 2.22.7 Final trip 264 2.22.8 User configurable auto-reclose (ORIGINAL) 264 2.22.9 Disable auto-reclose (Off) 264 2.22.10 Success decision of reclose operation 265 2.22.11 Dead time counter for evolving fault 265 2.22.12 Reclaim time (TREADY) 267 2.22.13 Test shot function 267 2.22.14 Setting 268 2.22.15 Data ID 270 2.23 Voltage check for autoreclose (VCHK) 276 2.23.1 VCHK1 for 1CB system 276 2.23.2 VCHK1 and VCHK2 for 1.5CB system 278 2.23.3 Scheme for synchronism 279 2.23.4 VCHK1 setting for 1CB 282 2.23.5 VCHK1 and VCHK2 settings for 1.5CB 286 2.23.6 Scheme and activation 288 2.23.7 Setting 290 2.23.8 Data ID 292 2.24 Trip circuit (TRC) 293 2.24.1 Operation mode 293 2.24.2 Scheme logic 294 ix 6F2S1905 (0.41) Seal up tapped holes with covers CP-CC1 Figure-3 Three 1/3 x 19’’ size rack mount - 969 - 6F2S1905 (0.41) CP-121 Figure-4 Single 1/2 x 19’’ size rack mount - 970 - 6F2S1905 (0.41) CP-CC1 Figure-5 Two 1/2 x 19’’ size rack mount - 971 - 6F2S1905 (0.41) Panel cut out for an attachement (1/1×19 inch) when “Compression type terminal” applied Panel cut out for an attachement (1/1×19 inch) when “Ring lug type terminal” applied Note: Dimensions shown in millimeter - 972 - 6F2S1905 (0.41) Appendix 10 CT requirement - 973 - 6F2S1905 (0.41) For the GRZ series relays, the requirement for minimum CT knee-point voltage is evaluated in three cases: (1) Stability for faults beyond the Zone1 reach-point: Vk > k1 × If_z1_max × (Rct + R2) (2) Stability for close-up faults in the reverse: Vk> k2 × If_rev_max × (Rct + R2) (3) Dependability of tripping for close-up faults in the forward: Vk> k3 ×If_max × (Rct + R2) where, Vk: Knee point voltage If_z1_max: Maximum fault current at the zone reach point If_rev_max: Maximum close-up reverse fault current If_max: Maximum close-up forward fault current Rct: Resistance of CT R2: Burden including connecting leads k1, k2, k3: Transient dimensioning factor (All values refer to the CT secondary side) The minimum requirement for Vk is determined for each of the three cases and the highest of the three results is used to dimension the CT k1, k2 and k3 are chosen depending on the primary system time constant as follows: Transient dimensioning factor, k Primary system time constant, Td (ms) a) Stability for faults beyond the zone reach point (If_z1_max) b) Stability for close-up reverse faults (If_rev_max) c) Dependability of tripping for close-up forward faults (If_max) k1 k2 k3 < 35 2 < 50 < 75 < 100 < 150 Notes: Knee-point voltage, Vk, is defined according to IEC 60044-1 as the minimum sinusoidal e.m.f (r.m.s.) at rated power frequency when applied to the secondary terminals of the transformer, all other terminals being open circuited, which when increased by 10%, causes the r.m.s exciting current to increase by no more than - 974 - 6F2S1905 (0.41) 50% In cases where CTs are specified as P-class protective current transformers according to IEC 60044-1 (e.g 5P10, 5P20 etc.), the knee point voltage can be approximated as follows: Vk 0.8 × n × In × (Rct + RVA) where, Vk: Knee point voltage In: Rated secondary current Rct: Resistance of CT RVA: Rated burden n: Accuracy limiting factor of CT (e.g 20 for 5P20) (All values refer to the CT secondary side) Remanent flux has not been considered In cases where a high level of remanent flux may be experienced, it may be necessary to include an additional margin when dimensioning the CT The data provided is valid for 50Hz and 60Hz power systems - 975 - 6F2S1905 (0.41) Appendix 11 Input dummy for relay application - 976 - 6F2S1905 (0.41) The PLC connection points described in the main chapter are applicable to use when the user wishes to create a custom logic by itself provided both the custom logic and the functions provided by the manufacture are accommodated in the same CPU On the other hand, the custom logic and the logic provided are not accommodated in the same CPU, the user cannot use the PLC connection point directly This is because exchanging data between CPUs are proved by the PLC function Therefore, dummy connection points are provided†; the user can program the PLC logic using the dummy connection points when exchanging data is required between CPUs †Note that the user should use the dummy connection points only for the model 11 to HOTST(Function ID: 341001) APP_INPUT_DUMMY Element ID to Destination PLC connection point CH1_CH_CHG 715001 310010E001 → CH1_CH_CHG 341001 310000E001 CH2_CH_CHG 715001 310011E001 → CH2_CH_CHG 341001 310001E001 to CARDEF (Function ID: 437001) APP_INPUT_DUMMY Function ID + Element ID to Destination PLC connection point DEF PHSEL-A 715001 820002EBB2 → DEF PHSEL-A 437001 800000EBBB DEF PHSEL-B 715001 830002EBB3 → DEF PHSEL-B 437001 810000EBBC DEF PHSEL-C 715001 840002EBB4 → DEF PHSEL-C 437001 820000EBBD DEF-ECHO BLOCK 715001 850002EBB5 → DEF-ECHO BLOCK 437001 800000EBBE DEF-WKIT BLOCK 715001 860002EBB6 → DEF-WKIT BLOCK 437001 810000EBBF DEFCAR-R1 715001 870002EBB7 → DEFCAR-R1 437001 800000EBB1 DEFCAR-R1-2 715001 880002EBB8 → DEFCAR-R1-2 437001 800000EBB2 DEFCAR-R2 715001 890002EBB9 → DEFCAR-R2 437001 810000EBB3 DEFCAR-R2-2 715001 8A0002EBBA → DEFCAR-R2-2 437001 810000EBB4 DEFCAR_3PTP 715001 8B0002EBBB → DEFCAR_3PTP 437001 800000EBC0 DEFCAR_ARCBLOCK 715001 8C0002EBBC → DEFCAR_ARCBLOCK 437001 810000EBC1 DEFCAR_BLOCK 715001 8D0002EBBD → DEFCAR_BLOCK 437001 800000EBB0 DEFCAR_F.BLOCK 715001 8E0002EBBE → DEFCAR_F.BLOCK 437001 800000EBC2 DEFCAR_F.PERMIT 715001 8F0002EBBF → DEFCAR_F.PERMIT 437001 810000EBC3 INT.DISCAR-R1-A 715001 810002EBD1 → INT.DEFCAR-R1-A 437001 800000EBB5 INT.DISCAR-R1-B 715001 820002EBD2 → INT.DEFCAR-R1-B 437001 810000EBB6 INT.DISCAR-R1-C 715001 830002EBD3 → INT.DEFCAR-R1-C 437001 820000EBB7 INT.DISCAR-R2-A 715001 850002EBD5 → INT.DEFCAR-R2-A 437001 840000EBB8 INT.DISCAR-R2-B 715001 860002EBD6 → INT.DEFCAR-R2-B 437001 850000EBB9 INT.DISCAR-R2-C 715001 870002EBD7 → INT.DEFCAR-R2-C 437001 860000EBBA to OC(Function ID: 440001) APP_INPUT_DUMMY Element ID to Destination PLC connection point OC1_INST_OP 715001 870003EBF7 → OC1_INST_OP 444001 800001EBB4 OC2_BLOCK 715001 880003EBF8 → OC2_BLOCK 444001 810002EBB1 OC2_INST_OP 715001 890003EBF9 → OC2_INST_OP 444001 810002EBB5 OC3_BLOCK 715001 8A0003EBFA → OC3_BLOCK 444001 820003EBB2 OC3_INST_OP 715001 8B0003EBFB → OC3_INST_OP 444001 820003EBB6 - 977 - 6F2S1905 (0.41) to OC(Function ID: 440001) APP_INPUT_DUMMY Element ID to Destination OC4_BLOCK 715001 8C0003EBFC → OC4_BLOCK PLC connection point 444001 830004EBB3 OC4_INST_OP 715001 8D0003EBFD → OC4_INST_OP 444001 830004EBB7 to EF(Function ID: 441001) APP_INPUT_DUMMY Element ID to Destination PLC connection point EF1_BLOCK 715001 860003EBD6 → EF1_BLOCK 441001 800001EBB0 EF1_INST_OP 715001 870003EBD7 → EF1_INST_OP 441001 800001EBB1 EF2_BLOCK 715001 880003EBD8 → EF2_BLOCK 441001 810002EBB0 EF2_INST_OP 715001 890003EBD9 → EF2_INST_OP 441001 810002EBB1 EF3_BLOCK 715001 8A0003EBDA → EF3_BLOCK 441001 820003EBB0 EF3_INST_OP 715001 8B0003EBDB → EF3_INST_OP 441001 820003EBB1 EF4_BLOCK 715001 8C0003EBDC → EF4_BLOCK 441001 830004EBB0 EF4_INST_OP 715001 8D0003EBDD → EF4_INST_OP 441001 830004EBB1 APP_INPUT_DUMMY Element ID to Destination PLC connection point OCN1_BLOCK 715001 8E0003EBFE → OCN1_BLOCK 443001 800001EBB0 OCN1_INST_OP 715001 8F0003EBFF → OCN1_INST_OP 443001 800001EBB1 OCN2_BLOCK 715001 800004EBB0 → OCN2_BLOCK 443001 810002EBB0 OCN2_INST_OP 715001 810004EBB1 → OCN2_INST_OP 443001 810002EBB1 OCN3_BLOCK 715001 820004EBB2 → OCN3_BLOCK 443001 820003EBB0 OCN3_INST_OP 715001 830004EBB3 → OCN3_INST_OP 443001 820003EBB1 OCN4_BLOCK 715001 840004EBB4 → OCN4_BLOCK 443001 830004EBB0 OCN4_INST_OP 715001 850004EBB5 → OCN4_INST_OP 443001 830004EBB1 to OCN(Function ID: 443001) to THMA(Function ID: 451001) APP_INPUT_DUMMY Element ID to Destination PLC connection point THMA_BLOCK 715001 8D0004EBBD → THMA_BLOCK 451001 800001EBB0 THMT_BLOCK 715001 8E0004EBBE → THMT_BLOCK 451001 810002EBB0 to BCD(Function ID: 452001) APP_INPUT_DUMMY Element ID to Destination PLC connection point BCD_BLOCK 715001 800002EBB0 → BCD_BLOCK 452001 800000EBB0 to CBF(Function ID: 453001) APP_INPUT_DUMMY Element ID to Destination PLC connection point CBF1-RE_INST 715001 890002EBD9 → CBF1-RE_INST 453001 810001EBB5 CBF1-TP_INST 715001 8A0002EBDA → CBF1-TP_INST 453001 820001EBB6 CBF1_BLOCK 715001 8B0002EBDB → CBF1_BLOCK 453001 800001EBB4 CBF2-RE_INST 715001 8C0002EBDC → CBF2-RE_INST 453001 810002EBB5 CBF2-TP_INST 715001 8D0002EBDD → CBF2-TP_INST 453001 820002EBB6 CBF2_BLOCK 715001 8E0002EBDE → CBF2_BLOCK 453001 800002EBB4 EXT.CBF1_START 715001 8F0002EBDF → EXT.CBF1_START 453001 830001EBB3 EXT.CBF1_START-A 715001 800002EBE0 → EXT.CBF1_START-A 453001 800001EBB0 EXT.CBF1_START-B 715001 810002EBE1 → EXT.CBF1_START-B 453001 810001EBB1 EXT.CBF1_START-C 715001 820002EBE2 → EXT.CBF1_START-C 453001 820001EBB2 EXT.CBF2_START 715001 830002EBE3 → EXT.CBF2_START 453001 830002EBB3 - 978 - 6F2S1905 (0.41) to CBF(Function ID: 453001) APP_INPUT_DUMMY Element ID to Destination PLC connection point EXT.CBF2_START-A 715001 840002EBE4 → EXT.CBF2_START-A 453001 800002EBB0 EXT.CBF2_START-B 715001 850002EBE5 → EXT.CBF2_START-B 453001 810002EBB1 EXT.CBF2_START-C 715001 860002EBE6 → EXT.CBF2_START-C 453001 820002EBB2 to SOTF-OC(Function ID: 454001) APP_INPUT_DUMMY Element ID to Destination PLC connection point OC-RTP.EN 715001 8A0004EBBA → OC-RTP.EN 454001 800000EBB1 SOTFOC_BLOCK 715001 8B0004EBBB → SOTFOC_BLOCK 454001 800000EBB0 ADD.SOFT_EN 715001 8C0004EBCC → ADD.SOFT_EN 454001 800000EBB2 to OV(Function ID: 460001) APP_INPUT_DUMMY Element ID to Destination PLC connection point OV1_BLOCK 715001 860004EBB6 → OV1_BLOCK 460001 800001EBB0 OV2_BLOCK 715001 870004EBB7 → OV2_BLOCK 460001 810002EBB0 to OVS(Function ID: 461001) APP_INPUT_DUMMY Element ID to Destination PLC connection point OVS1_BLOCK 715001 880004EBB8 → OVS1_BLOCK 461001 800001EBB0 OVS2_BLOCK 715001 890004EBB9 → OVS2_BLOCK 461001 810002EBB0 PLC connection point to UV(Function ID: 470001) APP_INPUT_DUMMY Element ID to Destination CB_APH_OPEN 715001 8F0004EBBF → CB_APH_OPEN 470001 800000EBB0 CB_BPH_OPEN 715001 800004EBC0 → CB_BPH_OPEN 470001 810000EBB1 CB_CPH_OPEN 715001 810004EBC1 → CB_CPH_OPEN 470001 820000EBB2 UV1_BLOCK 715001 820004EBC2 → UV1_BLOCK 470001 800001EBB0 UV2_BLOCK 715001 830004EBC3 → UV2_BLOCK 470001 810002EBB0 to UVS(Function ID: 471001) APP_INPUT_DUMMY Element ID to Destination PLC connection point CB_APH_OPEN 715001 840004EBC4 → CB_APH_OPEN 471001 800000EBB0 CB_BPH_OPEN 715001 850004EBC5 → CB_BPH_OPEN 471001 810000EBB1 CB_CPH_OPEN 715001 860004EBC6 → CB_CPH_OPEN 471001 820000EBB2 UVS1_BLOCK 715001 870004EBC7 → UVS1_BLOCK 471001 800001EBB0 UVS2_BLOCK 715001 880004EBC8 → UVS2_BLOCK 471001 810002EBB0 APP_INPUT_DUMMY Element ID to Destination PLC connection point OSTZ_BLOCK 715001 8B0004EBCB → OSTZ_BLOCK 478001 800000EBB0 APP_INPUT_DUMMY Element ID to Destination PLC connection point EXTERNAL VTF 715001 890004EBC9 → EXTERNAL VTF 490001 810000EBB1 VTF BLOCK 715001 8A0004EBCA → VTF BLOCK 490001 800000EBB0 to OSTZ(Function ID: 478001) to VTF(Function ID: 490001 ) to CTF(Function ID: 491001) - 979 - 6F2S1905 (0.41) APP_INPUT_DUMMY Element ID to Destination PLC connection point CTF BLOCK 715001 870002EBE7 → CTF BLOCK 491001 800000EBB0 EXTERNAL CTF 715001 880002EBE8 → EXTERNAL CTF 491001 810000EBB1 PLC connection point to ARC(Function ID: 4A6001) APP_INPUT_DUMMY Element ID to Destination ARC NO ACT 715001 800001EBB0 → ARC NO ACT 4A6001 800000EBB3 ARC1-S2 COND 715001 810001EBB1 → ARC1-S2 COND 4A6001 810001EBC9 ARC1-S3 COND 715001 820001EBB2 → ARC1-S3 COND 4A6001 820001EBCA ARC1-S4 COND 715001 830001EBB3 → ARC1-S4 COND 4A6001 830001EBCB ARC1-S5 COND 715001 840001EBB4 → ARC1-S5 COND 4A6001 840001EBCC ARC1_BLOCK 715001 850001EBB5 → ARC1_BLOCK 4A6001 800001EBCF ARC1_MODE-FT 715001 860001EBB6 → ARC1_MODE-FT 4A6001 810001EBB1 ARC1_MODE-MPAR 715001 870001EBB7 → ARC1_MODE-MPAR 4A6001 850001EBB5 ARC1_MODE-OFF 715001 880001EBB8 → ARC1_MODE-OFF 4A6001 800001EBB0 ARC1_MODE-ORG 715001 890001EBB9 → ARC1_MODE-ORG 4A6001 860001EBB6 ARC1_MODE-S&T 715001 8A0001EBBA → ARC1_MODE-S&T 4A6001 840001EBB4 ARC1_MODE-SPAR 715001 8B0001EBBB → ARC1_MODE-SPAR 4A6001 820001EBB2 ARC1_MODE-TPAR 715001 8C0001EBBC → ARC1_MODE-TPAR 4A6001 830001EBB3 ARC2_BLOCK 715001 8D0001EBBD → ARC2_BLOCK 4A6001 810002EBB7 ARC2_MODE-FT 715001 8E0001EBBE → ARC2_MODE-FT 4A6001 810002EBB1 ARC2_MODE-MPAR 715001 8F0001EBBF → ARC2_MODE-MPAR 4A6001 850002EBB5 ARC2_MODE-OFF 715001 800001EBC0 → ARC2_MODE-OFF 4A6001 800002EBB0 ARC2_MODE-ORG 715001 810001EBC1 → ARC2_MODE-ORG 4A6001 860002EBB6 ARC2_MODE-S&T 715001 820001EBC2 → ARC2_MODE-S&T 4A6001 840002EBB4 ARC2_MODE-SPAR 715001 830001EBC3 → ARC2_MODE-SPAR 4A6001 820002EBB2 ARC2_MODE-TPAR 715001 840001EBC4 → ARC2_MODE-TPAR 4A6001 830002EBB3 ARC_BLOCK 715001 850001EBC5 → ARC_BLOCK 4A6001 820000EBB4 CB1 F.BRIDGE 715001 860001EBC6 → CB1 F.BRIDGE 4A6001 800001EBB8 CB1-ARC READY 715001 870001EBC7 → CB1-ARC READY 4A6001 800001EBB7 CB1_MANUAL_CLOSE 715001 880001EBC8 → CB1_MANUAL_CLOSE 4A6001 800001EBCD CB2 F.BRIDGE 715001 890001EBC9 → CB2 F.BRIDGE 4A6001 810002EBB9 CB2-ARC READY 715001 8A0001EBCA → CB2-ARC READY 4A6001 810002EBB8 CB2_MANUAL_CLOSE 715001 8B0001EBCB → CB2_MANUAL_CLOSE 4A6001 810002EBCA EXT.ARC_START-A 715001 8C0001EBCC → EXT.ARC_START-A 4A6001 800000EBB0 EXT.ARC_START-B 715001 8D0001EBCD → EXT.ARC_START-B 4A6001 810000EBB1 EXT.ARC_START-C 715001 8E0001EBCE → EXT.ARC_START-C 4A6001 820000EBB2 F.CB1_94TT 715001 8F0001EBCF → F.CB1_94TT 4A6001 800001EBCE F.CB2_94TT 715001 800001EBD0 → F.CB2_94TT 4A6001 810002EBCB MPAR1_COND 715001 810001EBD1 → MPAR1_COND 4A6001 830001EBC6 MPAR1_START 715001 820001EBD2 → MPAR1_START 4A6001 830001EBC5 MPAR1_SUB_COND 715001 830001EBD3 → MPAR1_SUB_COND 4A6001 830001EBC8 MPAR1_SUB_START 715001 840001EBD4 → MPAR1_SUB_START 4A6001 830001EBC7 MPAR2_COND 715001 850001EBD5 → MPAR2_COND 4A6001 830002EBC7 MPAR2_START 715001 860001EBD6 → MPAR2_START 4A6001 830002EBC6 MPAR2_SUB_COND 715001 870001EBD7 → MPAR2_SUB_COND 4A6001 830002EBC9 MPAR2_SUB_START 715001 880001EBD8 → MPAR2_SUB_START 4A6001 830002EBC8 ORGAR1_COND 715001 890001EBD9 → ORGAR1_COND 4A6001 820001EBC2 ORGAR1_START 715001 8A0001EBDA → ORGAR1_START 4A6001 820001EBC1 ORGAR1_SUB_COND 715001 8B0001EBDB → ORGAR1_SUB_COND 4A6001 820001EBC4 - 980 - 6F2S1905 (0.41) to ARC(Function ID: 4A6001) APP_INPUT_DUMMY Element ID to Destination ORGAR1_SUB_START 715001 8C0001EBDC → ORGAR1_SUB_START PLC connection point 4A6001 820001EBC3 ORGAR2_COND 715001 8D0001EBDD → ORGAR2_COND 4A6001 820002EBC3 ORGAR2_START 715001 8E0001EBDE → ORGAR2_START 4A6001 820002EBC2 ORGAR2_SUB_COND 715001 8F0001EBDF → ORGAR2_SUB_COND 4A6001 820002EBC5 ORGAR2_SUB_START 715001 800001EBE0 → ORGAR2_SUB_START 4A6001 820002EBC4 P.INTCONN-A_LR1 715001 810001EBE1 → P.INTCONN-A_LR1 4A6001 800000EBB8 P.INTCONN-A_LR2 715001 820001EBE2 → P.INTCONN-A_LR2 4A6001 800000EBBB P.INTCONN-A_LR3 715001 830001EBE3 → P.INTCONN-A_LR3 4A6001 800000EBBE P.INTCONN-A_LR4 715001 840001EBE4 → P.INTCONN-A_LR4 4A6001 800000EBC1 P.INTCONN-B_LR1 715001 850001EBE5 → P.INTCONN-B_LR1 4A6001 810000EBB9 P.INTCONN-B_LR2 715001 860001EBE6 → P.INTCONN-B_LR2 4A6001 810000EBBC P.INTCONN-B_LR3 715001 870001EBE7 → P.INTCONN-B_LR3 4A6001 810000EBBF P.INTCONN-B_LR4 715001 880001EBE8 → P.INTCONN-B_LR4 4A6001 810000EBC2 P.INTCONN-C_LR1 715001 890001EBE9 → P.INTCONN-C_LR1 4A6001 820000EBBA P.INTCONN-C_LR2 715001 8A0001EBEA → P.INTCONN-C_LR2 4A6001 820000EBBD P.INTCONN-C_LR3 715001 8B0001EBEB → P.INTCONN-C_LR3 4A6001 820000EBC0 P.INTCONN-C_LR4 715001 8C0001EBEC → P.INTCONN-C_LR4 4A6001 820000EBC3 RYOP-A 715001 8D0001EBED → RYOP-A 4A6001 800000EBB5 RYOP-B 715001 8E0001EBEE → RYOP-B 4A6001 810000EBB6 RYOP-C 715001 8F0001EBEF → RYOP-C 4A6001 820000EBB7 SPAR1_COND 715001 800001EBF0 → SPAR1_COND 4A6001 800001EBBA SPAR1_START 715001 810001EBF1 → SPAR1_START 4A6001 800001EBB9 SPAR1_SUB_COND 715001 820001EBF2 → SPAR1_SUB_COND 4A6001 800001EBBC SPAR1_SUB_START 715001 830001EBF3 → SPAR1_SUB_START 4A6001 800001EBBB SPAR2_COND 715001 840001EBF4 → SPAR2_COND 4A6001 800002EBBB SPAR2_START 715001 850001EBF5 → SPAR2_START 4A6001 800002EBBA SPAR2_SUB_COND 715001 860001EBF6 → SPAR2_SUB_COND 4A6001 800002EBBD SPAR2_SUB_START 715001 870001EBF7 → SPAR2_SUB_START 4A6001 800002EBBC TPAR1_COND 715001 880001EBF8 → TPAR1_COND 4A6001 810001EBBE TPAR1_START 715001 890001EBF9 → TPAR1_START 4A6001 810001EBBD TPAR1_SUB_COND 715001 8A0001EBFA → TPAR1_SUB_COND 4A6001 810001EBC0 TPAR1_SUB_START 715001 8B0001EBFB → TPAR1_SUB_START 4A6001 810001EBBF TPAR2_COND 715001 8C0001EBFC → TPAR2_COND 4A6001 810002EBBF TPAR2_START 715001 8D0001EBFD → TPAR2_START 4A6001 810002EBBE TPAR2_SUB_COND 715001 8E0001EBFE → TPAR2_SUB_COND 4A6001 810002EBC1 TPAR2_SUB_START 715001 8F0001EBFF → TPAR2_SUB_START 4A6001 810002EBC0 - 981 - Revision-up Records Rev and Date Section (page) Change place and contents Approved by Checked by Prepared by T Kaneko Jun 12 -Feb 17 2014 Tentative edition 0.00 Jun 12 2014 First issue M Okai Jun 12 M Okai Jun 12 T Kaneko Sep 11 0.1 Oct 2014 Chapter LED setting added M Okai Oct M Okai Oct T Kaneko Sep 30 0.11 Oct 2014 Appendix FB table revised M Okai Oct M Okai Oct T Kaneko Sep 30 0.12 Oct 15 2014 Chapter Terminal names on VCT revised M Okai Oct 15 M Okai Oct 15 T Kaneko Oct 14 Chapter Appendix Half size case added; Comm modules added External connection figs added CT requirement added M Okai Oct 20 M Okai Oct 20 T Kaneko Oct 19 Chap 2.1.3 Chap 2.3.1 Chap 2.11.1 Chap 2.24.1 PSB reset timer added in ZS and ZG TDEFC timer added in DEFCAR PLC Point ADD.SOTF_EN added in SOTF Timer TCBLOSPH added in PORT_COMMON M Okai Oct 31 X Tang Oct 30 T Kaneko Oct 29 Chap 2.3.4 Examples of TDEFC timer added in DEFCAR M Okai Nov.6 X Tang Nov T Kaneko Nov 0.4 Jan 30 2015 Chapter 2.1 Chapter 2.5 Chapter 2.6 Chapter 2.7 Chapter 12.5 Appendix Description in Offset ZS revised Description revised in OC Description revised in EF Description revised in OCN Signal control function revised Input dummy added A Morimoto K Kobayashi Jan 30 Jan 30 T Kaneko Jan 27 0.41 Feb Chapter 2.24 Chapter 2.25 Description revised entirely in VTF Description revised entirely in CTF M Okai Feb.6 K Kobayashi 0.2 Oct 20 2014 0.3 Oct 31 2014 0.31 Nov 2014 Feb T Kaneko Feb