Page 1 ® Relion 650 SERIES Bay control REC650 Version 1.1 ANSI Technical manual...
Page 4 Copyright This document and parts thereof must not be reproduced or copied without written permission from ABB Power Grids, and the contents thereof must not be imparted to a third party, nor used for any unauthorized purpose. The software and hardware described in this document is furnished under a license and may be used or disclosed only in accordance with the terms of such license.
Page 5 This document has been carefully checked by ABB Power Grids but deviations cannot be completely ruled out. In case any errors are detected, the reader is kindly requested to notify the manufacturer.
Page 6 Directive 2004/108/EC) and concerning electrical equipment for use within specified voltage limits (Low-voltage directive 2006/95/EC). This conformity is the result of tests conducted by ABB in accordance with the product standard EN 60255-26 for the EMC directive, and with the product standards EN 60255-1 and EN 60255-27 for the low voltage directive.
Page 7: Table Of Contents
4.3.2 Function block..........................47 4.3.3 Signals............................... 47 4.3.4 Settings............................48 LCD part for HMI function keys control module.................48 4.4.1 Identification........................... 48 4.4.2 Function block..........................48 4.4.3 Signals...............................49 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 8 Function block..........................77 5.3.4 Signals............................... 77 5.3.5 Settings............................. 77 5.3.6 Monitored data..........................78 5.3.7 Operation principle.........................78 5.3.8 Technical data..........................78 Four step residual overcurrent protection EF4PTOC (51N/67N)..........78 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 9 Signals............................. 103 5.6.5 Settings............................104 5.6.6 Monitored data..........................104 5.6.7 Operation principle........................104 5.6.8 Technical data..........................108 Breaker failure protection CCRBRF (50BF)................108 5.7.1 Identification..........................108 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 10 5.11 Directional over-/under-power protection GOPPDOP/GUPPDUP (32/37)......122 5.11.1 Functionality...........................122 5.11.2 Directional overpower protection GOPPDOP (32)..............123 5.11.2.1 Identification..........................123 5.11.2.2 Function block.......................... 123 5.11.2.3 Signals............................123 5.11.2.4 Settings............................. 124 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 11 Two step overvoltage protection OV2PTOV (59)..............141 6.2.1 Identification..........................141 6.2.2 Functionality...........................141 6.2.3 Function block..........................141 6.2.4 Signals............................. 142 6.2.5 Settings............................142 6.2.6 Monitored data..........................143 6.2.7 Operation principle........................143 6.2.7.1 Measurement principle......................144 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 12 Measurement principle......................158 7.1.7.2 Time delay..........................159 7.1.7.3 Blocking............................. 159 7.1.7.4 Design............................159 7.1.8 Technical data..........................160 Overfrequency protection SAPTOF (81)..................160 7.2.1 Identification..........................161 7.2.2 Functionality...........................161 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 13 8.2.7 Operation principle........................175 8.2.7.1 Zero and negative sequence detection................175 8.2.7.2 Delta current and delta voltage detection................. 176 8.2.7.3 Dead line detection......................... 179 8.2.7.4 Main logic..........................179 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 14 Control of the auto-reclosing open time................199 9.2.6.3 Long trip signal........................199 9.2.7 Technical data..........................203 Apparatus control...........................204 9.3.1 Functionality..........................204 9.3.2 Switch controller SCSWI......................204 9.3.2.1 Identification .......................... 204 9.3.2.2 Functionality..........................204 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 15 9.3.8.4 Settings............................. 216 9.3.9 Operation principle........................216 9.3.9.1 Switch controller SCSWI......................216 9.3.9.2 Circuit breaker SXCBR......................219 9.3.9.3 Circuit switch SXSWI ......................223 9.3.9.4 Bay control QCBAY........................227 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 16 Signals............................246 9.4.6.6 Settings.............................248 9.4.7 Interlocking for breaker-and-a-half diameter BH (3)............248 9.4.7.1 Identification........................... 249 9.4.7.2 Functionality..........................249 9.4.7.3 Function block......................... 250 9.4.7.4 Logic diagrams........................252 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 17 9.5.4 Signals............................. 291 9.5.5 Settings............................292 9.5.6 Monitored data..........................293 9.5.7 Operation principle........................293 Selector mini switch VSGGIO......................293 9.6.1 Identification..........................293 9.6.2 Functionality..........................293 9.6.3 Function block..........................294 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 18 9.12.2 Function block..........................304 9.12.3 Signals............................304 9.12.4 Settings............................305 9.13 Function commands generic for IEC 60870-5-103 I103GENCMD......... 305 9.13.1 Functionality..........................305 9.13.2 Function block..........................305 9.13.3 Signals............................306 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 19 ORQT function block ......................327 10.3.2.3 INVERTERQT function block ....................328 10.3.2.4 Pulse timer function block PULSTIMERQT................. 329 10.3.2.5 XORQT function block......................330 10.3.2.6 Settable timer function block TIMERSETQT..............330 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 20 Operation principle........................348 10.8 Integer to boolean 16 conversion with logic node representation IB16FCVB....350 10.8.1 Identification..........................350 10.8.2 Functionality..........................350 10.8.3 Function block..........................350 10.8.4 Signals............................350 10.8.5 Settings............................351 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 21 11.4.3.2 Function block......................... 365 11.4.3.3 Signals............................366 11.4.3.4 Settings.............................366 11.4.3.5 Monitored data........................367 11.4.4 Phase-phase voltage measurement VMMXU................367 11.4.4.1 Identification ...........................367 11.4.4.2 Function block......................... 368 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 22 Operation principle........................389 11.5.7.1 Reporting..........................389 11.5.8 Technical data..........................389 11.6 Disturbance report.........................390 11.6.1 Functionality..........................390 11.6.2 Disturbance report DRPRDRE....................390 11.6.2.1 Identification........................... 390 11.6.2.2 Function block..........................391 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 23 Function block..........................418 11.7.3 Signals.............................418 11.7.3.1 Input signals..........................418 11.7.4 Operation principle........................418 11.7.5 Technical data..........................419 11.8 Event recorder ..........................419 11.8.1 Functionality..........................419 11.8.2 Function block..........................420 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 24 11.13.2 Function block..........................428 11.13.3 Functionality..........................428 11.13.4 Signals.............................428 11.13.5 Settings............................429 11.13.6 Measured values........................... 429 11.13.7 Monitored Data..........................429 11.13.8 Operation principle ........................429 11.13.9 Technical data..........................430 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 25 Signals............................449 11.17.4 Settings............................449 11.18 Measurands user defined signals for IEC 60870-5-103 I103MEASUSR........ 450 11.18.1 Functionality..........................450 11.18.2 Function block..........................450 11.18.3 Signals............................450 11.18.4 Settings............................451 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 26 Signals............................459 12.1.5 Settings............................460 12.1.6 Monitored data..........................460 12.1.7 Operation principle........................461 12.1.8 Technical data..........................462 12.2 Energy calculation and demand handling ETPMMTR.............. 462 12.2.1 Identification..........................462 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 27 13.6.6 Operation principle ........................476 13.7 GOOSE function block to receive a measurand value GOOSEMVRCV........477 13.7.1 Identification..........................477 13.7.2 Functionality..........................477 13.7.3 Function block..........................477 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 28 Identification..........................491 14.3.2.2 Settings.............................492 14.3.3 Time synchronization via SNTP....................492 14.3.3.1 Identification........................... 492 14.3.3.2 Settings.............................492 14.3.4 Time system, summer time begin DSTBEGIN.................492 14.3.4.1 Identification........................... 492 14.3.4.2 Settings.............................493 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 29 Functionality..........................504 14.6.3 Function block..........................504 14.6.4 Signals............................504 14.6.5 Settings............................504 14.6.6 Operation principle........................504 14.7 IED identifiers TERMINALID......................505 14.7.1 Identification..........................505 14.7.2 Functionality..........................505 14.7.3 Settings............................506 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 30 14.13.4 Operation principle........................515 14.13.4.1 Authorization handling in the IED..................516 14.14 Authority status ATHSTAT......................517 14.14.1 Identification..........................517 14.14.2 Functionality..........................517 14.14.3 Function block..........................517 14.14.4 Signals............................. 517 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 31 Section 16 Labels........................ 537 16.1 Labels on IED............................537 Section 17 Technical data....................539 17.1 Dimensions............................539 17.2 Power supply........................... 539 17.3 Energizing inputs........................... 540 17.4 Binary inputs............................540 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 32 Section 19 Time inverse characteristics................. 549 19.1 Application............................549 19.2 Operation principle.........................551 19.2.1 Mode of operation........................551 19.3 Inverse time characteristics......................554 Section 20 Glossary......................579 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 33: Introduction
The system engineer must have a thorough knowledge of protection systems, protection equipment, protection functions and the configured functional logic in the IEDs. The installation and commissioning personnel must have a basic knowledge in handling electronic equipment. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 34: Product Documentation
The operation manual contains instructions on how to operate the IED once it has been commissioned. The manual provides instructions for monitoring, controlling and setting the IED. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 35: Document Revision History
Communication protocol manual, DNP3 1MRK 511 241-UUS Communication protocol manual, IEC 61850 1MRK 511 242-UUS Communication protocol manual, IEC 60870-5-103 1MRK 511 243-UUS Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 36: Symbols And Conventions
Abbreviations and acronyms in this manual are spelled out in the glossary. The glossary also contains definitions of important terms. • Push button navigation in the LHMI menu structure is presented by using the push button icons, for example: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 37 • Dimensions are provided both in inches and mm. If it is not specifically mentioned then the dimension is in mm. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 39: Available Functions
Evaluation of position indication SELGGIO Select release QCBAY Bay control LOCREM Handling of LR-switch positions LOCREMCTRL LHMI control of Permitted Source To Operate (PSTO) Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 40 Configurable logic blocks, loop delay TIMERSET Configurable logic blocks, timer function block Configurable logic blocks, AND gate SRMEMORY Configurable logic blocks, set-reset memory flip-flop gate Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 41 Monitoring CVMMXN Measurements CMMXU Phase current measurement VMMXU Phase-phase voltage measurement CMSQI Current sequence component measurement VMSQI Voltage sequence measurement Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 42 I103SUPERV Supervison status for IEC60870-5-103 I103USRDEF Status for user defined signals for IEC60870-5-103 Metering PCGGIO Pulse counter logic ETPMMTR Function for energy calculation and demand handling Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 43: Back-Up Protection Functions
Two step overvoltage protection ROV2PTOV Two step residual overvoltage protection LOVPTUV Loss of voltage check Frequency protection SAPTUF Underfrequency function SAPTOF Overfrequency function SAPFRC Rate-of-change frequency protection Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 44: Designed To Communicate
DTSBEGIN, DTSEND, Time synchronization, daylight saving TIMEZONE IRIG-B Time synchronization SETGRPS Setting group handling ACTVGRP Parameter setting groups TESTMODE Test mode functionality Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 45 DOSFRNT Denial of service, frame rate control for front port DOSLAN1 Denial of service, frame rate control for LAN1 DOSSCKT Denial of service, socket flow control Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 47: Analog Inputs
Negative value of current or power means quantity direction out from the object. Directional conventions for directional functions (see figure 2) Forward means direction into the object. • Reverse means direction out from the object. • Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 48: Settings
TRM - Channel 4 TRM - Channel 5 TRM - Channel 6 TRM - Channel 7 TRM - Channel 8 TRM - Channel 9 TRM - Channel 10 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 49 ToObject FromObject= the opposite CTsec1 0.1 - 10.0 Rated CT secondary current CTprim1 1 - 99999 1000 Rated CT primary current Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 50 0.001 - 9999.999 0.001 Rated VT primary voltage VTsec10 0.001 - 999.999 0.001 Rated VT secondary voltage VTprim10 0.001 - 9999.999 0.001 Rated VT primary voltage Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 51: Local Human-Machine-Interface Lhmi
Enable bypass of commands Local HMI signals 4.2.1 Identification GUID-03AB7AEE-87D3-4F3C-B6B9-B1EB1B538E38 v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Local HMI signals LHMICTRL Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 52: Function Block
Basic part for LED indication module LEDGEN Basic part for LED indication module GRP1_LED1 - GRP1_LED15 GRP2_LED1 - GRP2_LED15 GRP3_LED1 - GRP3_LED15 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 53: Function Block
LEDGEN Output signals Name Type Description NEWIND BOOLEAN New indication signal if any LED indication input is set BOOLEAN A pulse is provided when the LEDs are acknowledged Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 54: Settings
LCD part for HMI Function Keys FNKEYMD1 - Control module FNKEYMD5 4.4.2 Function block GUID-A803A728-5CFC-4606-98E4-793E873B99D4 v2 FNKEYMD1 ^LEDCTL1 ^FKEYOUT1 IEC09000327 V1 EN-US Figure 6: FNKEYMD1 function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 55: Signals
Step Default Description Type Disabled Disabled Function key type Menu shortcut Control MenuShortcut Main menu Main menu Events Measurements Diagnostics Disturbance records Clear Single Line Diagram Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 56 The LHMI includes a graphical monochrome display with a resolution of 320 x 240 pixels. The character size can vary. The display view is divided into four basic areas. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 57 The text in content area is truncated from the beginning if it does not fit in the display horizontally. Truncation is indicated with three dots. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 58 The LED is connected to the required signal with PCM600. GUID-11D6D98C-A2C9-4B2C-B5E0-FF7E308EC847 V1 EN-US Figure 10: Function button panel The alarm LED panel shows on request the alarm text labels for the alarm LEDs. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 59 The keypad also contains programmable push-buttons that can be configured either as menu shortcut or control buttons. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 60 Section 4 1MRK 511 247-UUS B Local Human-Machine-Interface LHMI GUID-23A12958-F9A5-4BF1-A31B-F69F56A046C7 V2 EN-US Figure 12: LHMI keypad Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 61 LHMI keypad with object control, navigation and command push-buttons and RJ-45 communication port 1...5 Function button Close Open Escape Left Down Right Enter Remote/Local Uplink LED Not in use Multipage Menu Clear Help Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 62 • The active indications can be acknowledged/reset manually. Manual acknowledgment and manual reset have the same meaning and is a common signal for all the operating Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 63 This sequence follows all the time, with a steady light, the corresponding input signals. It does not react on acknowledgment or reset. Every LED is independent of the other LEDs in its operation. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 65 If an indication with higher priority appears after acknowledgment of a lower priority indication the high priority indication will be shown as not acknowledged according to Figure Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 66 That means if an indication with higher priority has reset while an indication with lower priority still is active at the time of reset, the LED will change color according to Figure Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 67 Figure 23: Operating sequence 6 (LatchedReset-S), two indications within same disturbance Figure 24 shows the timing diagram for a new indication after tRestart time has elapsed. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 68 Figure 25: Operating 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. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 69 The operation mode is set individually for each output, either OFF, TOGGLE or PULSED. Mode 0 (OFF) This mode always gives the output the value 0 (FALSE). Changes on the IO attribute are ignored. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 70 (they can be red, yellow or green). Each of these LEDs are controlled by three inputs, which are prioritized in the following order: Red - Yellow - Green Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 71 1MRK 511 247-UUS B Section 4 Local Human-Machine-Interface LHMI INPUT OUTPUT YELLOW GREEN Function key LED color yellow green Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 73 Three phase group signal for current inputs SIGNAL BLOCK BOOLEAN Block of function PID-1097-OUTPUTSIGNALS v5 Table 17: PHPIOC (50) Output signals Name Type Description TRIP BOOLEAN Common trip signal Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 74 This signal will, without delay, activate the TRIP signal that is common for all three phases. PHPIOC (50) can be blocked from the binary input BLOCK. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 75 All IEC and ANSI inverse time characteristics are available. The directional function is voltage polarized with memory. The function can be set to be directional or non-directional independently for each of the steps. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 76 PU_ST2 BOOLEAN Start signal from step 2 PU_ST3 BOOLEAN Start signal from step 3 PU_ST4 BOOLEAN Start signal from step 4 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 77 Phase current operate level for step 2 in % of IBase 0.000 - 60.000 0.001 0.400 Definite time delay of step 2 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 78 Values (Range) Unit Step Default Description GlobalBaseSel 1 - 6 Selection of one of the Global Base Value groups MeasType Selection between DFT and RMS measurement Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 79 PICKUP, PU_STx, PU_A, PU_B and PU_C are, without delay, activated. Output signals PU_A, PU_B and PU_C are common for all steps. This means that the Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 80 (15%). The following combinations are used. Phase-phase short circuit: ref_AB dir_AB ref_BC dir_BC –V ref_CA dir_CA Phase-ground short circuit: ref_A dir_A ref_B dir_B ref_C dirC Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 81 All four steps in OC4PTOC (51/67) can be blocked from the binary input BLOCK. The binary input BLKx (x=1, 2, 3 or 4) blocks the operation of respective step. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 82 The Instantaneous residual overcurrent protection EFPIOC (50N) has a low transient overreach and short tripping times to allow the use for instantaneous ground-fault protection, with the Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 83 EFPIOC (50N) Non group settings (basic) Name Values (Range) Unit Step Default Description GlobalBaseSel 1 - 6 Selection of one of the Global Base Value groups Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 84 2 ms typically at 0 to 10 x I Dynamic overreach < 5% at t = 100 ms Four step residual overcurrent protection EF4PTOC (51N/67N) IP14509-1 v4 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 85 TRST2 BLOCK TRST3 BLK1 TRST4 BLK2 BFI_3P BLK3 PUST1 BLK4 PUST2 PUST3 PUST4 PUFW PUREV 2NDHARMD ANSI08000004-1-en.vsd ANSI08000004 V1 EN-US Figure 34: EF4PTOC (51N/67N) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 86 Pickup signal step 3 PUST4 BOOLEAN Pickup signal step 4 PUFW BOOLEAN Forward directional pickup signal PUREV BOOLEAN Reverse directional pickup signal 2NDHARMD BOOLEAN 2nd harmonic block signal Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 87 Time multiplier for the dependent time delay for step 1 IMin1 1 - 10000 Minimum operate current for step1in% of IBase Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 88 Independent (definite) time delay of step 4 0.05 - 999.00 0.01 0.05 Time multiplier for the dependent time delay for step 4 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 89 (when a dedicated CT input of the IED is connected in PCM600 to the fourth analog input of the pre-processing block connected to EF4PTOC (51N/67N) function input I3P). This dedicated IED CT input can be for example, connected to: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 90 VT input of the IED in PCM600). In such case the pre-processing block will calculate -3V from the first three inputs into the pre-processing block by using the following formula: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 91 This phasor is then multiplied with pre-set equivalent zero-sequence source Impedance in order to calculate equivalent polarizing voltage VIPol in accordance with the following formula: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 92 (permissive or blocking). Second harmonic blocking element with additional feature for sealed-in blocking during switching of parallel transformers. Each part is described separately in the following sections. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 93 It shall be noted that at least one of the four residual overcurrent steps shall be set as directional in order to enable execution of the directional supervision element and the integrated directional comparison function. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 94 AngleRCA , which defines the position of forward and reverse areas • Relay characteristic angle in the operating characteristic. Directional comparison step, built-in within directional supervision element, will set EF4PTOC (51N/67N) function output binary signals: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 95 RNPol Complex STAGE2_DIR_Int Number XNPol STAGE3_DIR_Int STAGE4_DIR_Int BLOCK ANSI07000067-3-en.vsd ANSI07000067 V3 EN-US Figure 37: Simplified logic diagram for directional supervision element with integrated directional comparison step Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 96 SEMOD171436-1 v3 5.5.1 Identification SEMOD172025-2 v3 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Sensitive directional residual over SDEPSDE current and power protection Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 97 BOOLEAN Trip of non-directional residual overvoltage PICKUP BOOLEAN General pickup signal PUDIRIN BOOLEAN Pick up of the directional residual overcurrent function Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 98 Set level for non-directional residual overcurrent, in % of IBase tINNonDir 0.000 - 60.000 0.001 1.000 Time delay for non-directional residual overcurrent Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 99 Table 43: SDEPSDE (67N) Non group settings (basic) Name Values (Range) Unit Step Default Description GlobalBaseSel 1 - 6 Selection of one of the Global Base Value groups Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 100 RCADir is set equal to -90° in an isolated network as all currents are mainly capacitive. The function operates when 3I ·cos φ gets larger than the set value. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 102 ·cos (φ + 180°) ≥ the set value. It is also possible to tilt the characteristic to compensate for current transformer angle error with RCAComp as shown in the figure 42: a setting Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 103 ·cos (φ + 180°) ³ the set value. This variant has the possibility of choice between definite time delay and inverse time delay. The inverse time delay is defined as: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 104 For all the directional functions there are directional pickup signals PUFW: fault in the forward direction, and PUREV: Pickup in the reverse direction. Even if the directional function is set to Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 105 When the function is activated binary output signal PUVN is activated. If the activation is active after the set delay tVNNonDir TRIP and TRUN are activated. A simplified logical diagram of the total function is shown in figure 44. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 106 TimeChar = DefTime DirMode = Forw PUFW Forw DirMode = Rev PUREV en06000653_ansi.vsd ANSI06000653 V1 EN-US Figure 44: Simplified logical diagram of the sensitive ground-fault current protection Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 107 120 ms typically at 1.2 to 0.8 x U residual overvoltage Operate time, directional 260 ms typically at 0.5 to 2 x I residual over current Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 108 An alarm pickup gives early warning to allow operators to take action well before the line is tripped. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 109 LOCKOUT BOOLEAN Lockout signal TEMP REAL Calculated temperature of the device TEMPAMB REAL Ambient temperature used in the calculations TERMLOAD REAL Temperature relative to operate temperature Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 110 The sampled analog phase currents are pre-processed and for each phase current the RMS value is derived. These phase current values are fed to the thermal overload protection, one time constant function LPTTR (26). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 112 The protection has a reset input: RESET. By activating this input the calculated temperature is reset to its default initial value. This is useful during testing when secondary injected current has given a calculated “false” temperature level. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 113 < Recl Temp Calculation TTRIP of time to trip Calculation of time to TENRECL reset of lockout ANSI09000637-2-en.vsd ANSI09000637 V2 EN-US Figure 46: Functional overview of LPTTR (26) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 114 Current check with extremely short reset time is used as check criterion to achieve high security against unnecessary operation. Contact check criteria can be used where the fault current through the breaker is small. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 115 Table 53: CCRBRF (50BF) Output signals Name Type Description TRBU BOOLEAN Back-up trip by breaker failure protection function TRRET BOOLEAN Retrip by breaker failure protection function Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 116 Values (Range) Unit Description REAL Measured current in phase A REAL Measured current in phase B REAL Measured current in phase C REAL Measured residual current Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 117 Pickup_PH . magnitude larger than setting parameter Internal logical signal PU_N has logical value 1 when neutral current has magnitude larger than Pickup_N . setting parameter Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 118 The stub protection STBPTOC (50STB) covers the zone between the current transformers and the open disconnector. The three-phase instantaneous overcurrent function is released from a normally open, 89b auxiliary contact on the line disconnector. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 119 Table 62: STBPTOC (50STB) Non group settings (basic) Name Values (Range) Unit Step Default Description GlobalBaseSel 1 - 6 Selection of one of the Global Base Value groups Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 120 The function can be blocked by activation of the BLOCK input. STUB PROTECTION FUNCTION BLOCK TRIP PU_A PU_B PU_C ENABLE en05000731_ansi.vsd ANSI05000731 V1 EN-US Figure 50: Simplified logic diagram for Stub protection (50STB) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 121 The pole discrepancy function operates based on information from the circuit breaker logic with additional criteria from unsymmetrical phase currents when required. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 122 0.000 - 60.000 0.001 0.300 Time delay between trip condition and trip signal ContactSel Disabled Disabled Contact function selection PD signal from CB Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 123 52. C.B. poleDiscrepancy Signal from C.B. ANSI_en05000287.vsd ANSI05000287 V1 EN-US Figure 52: Pole discrepancy external detection logic Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 124 If one or two poles of the circuit breaker have failed to open or to close (pole discrepancy status), then the function input EXTPDIND is activated from the pole discrepancy signal in figure 52. After Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 125 Broken conductor check BRCPTOC (46) SEMOD171761-1 v3 5.10.1 Identification SEMOD172362-2 v2 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Broken conductor check BRCPTOC Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 126 Pickup_PH 5 - 100 Minimum phase current for operation of pickup_ub> in % of Ibase tOper 0.000 - 60.000 0.001 5.000 Operate time delay Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 127 The output trip signal TRIP is a three-phase trip. It can be used to command a trip to the circuit breaker or for alarm purpose only. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 128 SEMOD175421-4 v5 The directional over-/under-power protection GOPPDOP (32)/GUPPDUP (37) can be used wherever a high/low active, reactive or apparent power protection or alarming is required. The functions Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 129 GROUP Three phase group signal for voltage inputs SIGNAL BLOCK BOOLEAN Block of function BLK1 BOOLEAN Block of step 1 BLK2 BOOLEAN Block of step 2 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 130 Table 80: GOPPDOP (32) Group settings (advanced) Name Values (Range) Unit Step Default Description 0.00 - 0.99 0.01 0.00 Low pass filter coefficient for power measurement, V and I Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 131 SEMOD156693-1 v4 5.11.3.1 Identification SEMOD158941-2 v4 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Directional underpower protection GUPPDUP P < SYMBOL-LL V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 132 Active Power PPERCENT REAL Active power in % of calculated power base value REAL Reactive power QPERCENT REAL Reactive power in % of calculated power base value Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 133 1 - 6 Selection of one of the Global Base Value groups Mode A, B, C Pos Seq Mode of measurement for current and Arone voltage Pos Seq Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 134 The function will use voltage and current phasors calculated in the pre-processing blocks. The apparent complex power is calculated according to chosen formula as shown in table 89. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 135 PICKUP will be activated. At trip from any of the two stages also a common signal TRIP will be activated. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 136 Accuracy valid for 50 Hz. At 60 Hz both accuracies are ±2.0% Accuracy valid for 50 Hz. At 60 Hz the accuracy is -50/+100% Accuracy valid for 50 Hz. At 60 Hz the accuracy is ±40% Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 137 V3P* TROC1 BLOCK TROC2 BLKOC1 BFI_3P ENMLTOC1 PU_OC1 BLKOC2 PU_OC2 ENMLTOC2 DIROC1 DIROC2 CURRENT VOLTAGE VIANGLE ANSI09000125-1-en.vsd ANSI09000125 V1 EN-US Figure 59: DNSPTOC (46) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 138 1 - 90 Relay operate angle LowVolt_VM 0.0 - 5.0 Voltage level in % of Vbase below which ActLowVolt control takes over Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 139 Table 95: DNSPTOC (46) Monitored data Name Type Values (Range) Unit Description Current REAL Measured current value VOLTAGE REAL Measured voltage value VIANGLE REAL Angle between voltage and current Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 140 10 ms typically at 0 to 2 x I 2 ms typically at 0 to 10 x I Impulse margin time 15 ms typically Dynamic overreach < 10% at t = 300 ms Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 141 M13794-3 v5 UV2PTUV (27) V3P* TRIP BLOCK TRST1 BLK1 TRST2 BLK2 PICKUP PU_ST1 PU_ST1_A PU_ST1_B PU_ST1_C PU_ST2 ANSI09000285-1-en.vsd ANSI09000285 V1 EN-US Figure 60: UV2PTUV (27) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 142 Definite time delay of step 1 t1Min 0.000 - 60.000 0.001 5.000 Minimum operate time for inverse curves for step 1 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 144 The lowest voltage is always used for the inverse time delay integration. The details of the different inverse time characteristics are shown in section 19.3"Inverse time characteristics". Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 145 3 and 3 out of 3 criteria to fulfill the PICKUP condition. The design of Two step undervoltage protection UV2PTUV (27) is schematically shown in Figure Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 146 See table and high step, see table Definite time delay, step 1 (0.00 - 6000.00) s ± 0.5% ± 25 ms Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 147 M13803-3 v5 OV2PTOV (59) V3P* TRIP BLOCK TRST1 BLK1 TRST2 BLK2 PICKUP PU_ST1 PU_ST1_A PU_ST1_B PU_ST1_C PU_ST2 ANSI09000278-1-en.vsd ANSI09000278 V1 EN-US Figure 62: OV2PTOV function block (59) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 148 Voltage start value (DT & IDMT) in % of VBase for step 1 0.00 - 6000.00 0.01 5.00 Definite time delay of step 1 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 149 Step 2 is always definite time delayed. VBase , which is set The voltage related settings are made in percent of the global set base voltage in kV, phase-to-phase. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 150 C The type A curve is described as: V Vpickup − > Vpickup > (Equation 28) EQUATION1625 V2 EN-US The type B curve is described as: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 151 PICKUP output is reset. 6.2.7.3 Blocking M15330-20 v4 It is possible to block two step overvoltage protection (OV2PTOV ,59) partially or completely, by binary input signals where: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 152 1 out of 3 , 2 out of 3 or 3 out of 3 criteria to fulfill the PICKUP condition. The design of Two step overvoltage protection (OV2PTOV ,59) is schematically described in Figure Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 153 ± 0.5% of V at V > V Reset ratio >95% Inverse time characteristics for low See table and high step, see table Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 154 Function block M13812-3 v5 ROV2PTOV (59N) V3P* TRIP BLOCK TRST1 BLK1 TRST2 BLK2 PICKUP PU_ST1 PU_ST2 ANSI09000273_1_en.vsd ANSI09000273 V1 EN-US Figure 65: ROV2PTOV (59N) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 155 Minimum operate time for inverse curves for step 1 0.05 - 1.10 0.01 0.05 Time multiplier for the inverse time delay for step 1 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 156 The residual voltage is measured continuously, and compared with the set values, Pickup2 . To avoid oscillations of the output PICKUP signal, a hysteresis has been included. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 157 BLOCK: blocks all outputs BLK1: blocks all pickupand trip outputs related to step 1 BLK2: blocks all pickup and trip inputs related to step 2 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 158 4 input GRPx_N (x is equal to instance number 2 to 12) on the SMAI, VN is this signal else VN is the vectorial sum of the three inputs GRPx_A to GRPx_C. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 159 LOVPTUV (27) issues a three-pole trip command to the circuit breaker, if all three phase voltages fall below the set value for a time longer than the set time and the circuit breaker remains closed. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 160 Description Operation Disabled Disabled Operation Enable/Disable Enabled 1 - 100 Operate voltage in% of base voltage Ubase tTrip 0.000 - 60.000 0.001 7.000 Operate time delay Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 161 IED itself in order to receive a block command from internal functions. LOVPTUV (27) is also blocked when the IED is in test mode and LOVPTUV (27) has been blocked from the HMI test menu Blocked = Yes ). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 162 (0–100)% of VBase ± 0.5% of V Reset ratio <105% Pulse timer (0.050–60.000) s ± 0.5% ± 25 ms Timers (0.000–60.000) s ± 0.5% ± 25 ms Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 163 PID-1969-INPUTSIGNALS v6 Table 121: SAPTUF (81) Input signals Name Type Default Description GROUP Three phase group signal for voltage inputs SIGNAL BLOCK BOOLEAN Block of function Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 164 If the voltage magnitude decreases the setting MinValFreqMeas in the SMAI preprocessing function, which is set as a percentage of a global base voltage parameter, SAPTUF Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 165 RestoreFreq , the RESTORE output is issued after the time delay tRestore . back to the setting of The design of Under frequency protection SAPTUF (81) is schematically described in figure 70. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 166 At 60 Hz: 50 ms typically at f -0.5 Hz to +0.5 Hz Operate time delay (0.000-60.000)s <250 ms Restore time delay (0.000-60.000)s <150 ms Overfrequency protection SAPTOF (81) IP15747-1 v3 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 167 Table 127: SAPTOF (81) Output signals Name Type Description TRIP BOOLEAN Common trip signal BOOLEAN General pickup signal BLKDMAGN BOOLEAN Measurement blocked due to low amplitude Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 168 If the PICKUP condition, with respect to the measured frequency ceases during the delay time, and is not fulfilled again within a defined reset time, the PICKUP output is reset. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 169 PICKUP PICKUP Definite Time Delay Frequency Comparator f > PUFrequency TimeDlyOperate TRIP TRIP ANSI09000033-1-en.vsd ANSI09000033 V1 EN-US Figure 72: Schematic design of overfrequency protection SAPTOF (81) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 170 SAPFRC (81) is provided with an undervoltage blocking. 7.3.3 Function block M14968-3 v6 SAPFRC (81) V3P* TRIP BLOCK PICKUP RESTORE BLKDMAGN ANSI09000281-1-en.vsd ANSI09000281 V1 EN-US Figure 73: SAPFRC (81) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 171 PICKUP or TRIP signal is issued. If the frequency recovers, after a frequency decrease, a restore signal is issued. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 173 ± 2.0 mHz Timers (0.000 - 60.000) s <130 ms Operate time, pickup function At 50 Hz: 100 ms typically At 60 Hz: 80 ms typically Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 175 8.1.3 Function block M12436-3 v5 CCSRDIF (87) I3P* FAIL BLOCK ALARM IREF ANSI08000055-1-en.vsd ANSI08000055 V1 EN-US Figure 75: CCSRDIF (87) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 176 Current circuit supervision CCSRDIF (87) compares the absolute value of the vectorial sum of the three phase currents |ΣIphase| and the numerical value of the residual current |Iref| from another current transformer set, see figure 76. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 177 OPERATION BLOCK en05000463_ansi.vsd ANSI05000463 V1 EN-US Figure 76: Simplified logic diagram for Current circuit supervision CCSRDIF (87) The operate characteristic is percentage restrained, see figure 77. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 178 ± 5.0% of I at I > I Fuse failure supervision SDDRFUF 8.2.1 Identification M14869-1 v2 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Fuse failure supervision SDDRFUF Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 179 Three phase group signal for current inputs SIGNAL GROUP Three phase group signal for voltage inputs SIGNAL BLOCK BOOLEAN Block of function Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 180 Pickup of phase voltage in % of VBase 1 - 100 Pickup of phase current in % of IBase SealIn Disabled Enabled Seal in functionality Disable/Enable Enabled Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 181 The function enable the internal signal FuseFailDetNegSeq if the measured negative sequence voltage is higher than the set value 3V2PU and the measured negative sequence current is below 3I2PU . the set value Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 182 • The magnitude of the phase current in the same phase is higher than the setting • The circuit breaker is closed (52a = True) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 183 If this is considering to be an important disadvantage, connect the 52a input to FALSE. In this way only the first criterion can activate the delta function. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 184 Same logic as for phase 1 a<b a>b a<b a>b a<b a>b FuseFailDetDVDI Reclosing_Reclaim_and_Inhibit_timers%3DANSI100 00257%3D1%3Den%3DOriginal[1].vsd ANSI10000034 V1 EN-US Figure 80: Simplified logic diagram for DV/DI detection part Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 185 OptimZsNs ; Optimum of negative and zero sequence (the function that has the highest • magnitude of measured negative and zero sequence current will be activated) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 187 60 sec All VP > VsealInPU 5 sec VoltZeroSeq VoltNegSeq AllCurrLow ANSI10000041-1-en.vsd ANSI10000041 V1 EN-US Figure 82: Simplified logic diagram for fuse failure supervision function, Main logic Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 188 (DT) type. The function trips after a predefined operating time and resets when the fault disappears. 8.3.3 Function block GUID-3F512745-A836-459E-99B6-DC0D0EBFB849 v4 GUID-6F85BD70-4D18-4A00-A410-313233025F3A V2 EN-US Figure 83: Function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 189 Trip circuit supervision generates a current of approximately 1.0 mA through the supervised circuit. It must be ensured that this current will not cause a latch up of the controlled object. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 190 GUID-3C50487E-47ED-4E5C-AA2E-FA0EB53376BC v1 GUID-CF26761C-55B8-41EF-B140-651F7F116003 v2 Table 150: TCSSCBR Technical data Function Range or value Accuracy Operate time delay (0.020 - 300.000) s ± 0,5% ± 110 ms Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 191 It is used for slip frequencies that are larger than those for synchronism check and lower than a set maximum level for the synchronizing function. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 192 BOOLEAN Open status for CB or disconnector connected to line LNQCLD BOOLEAN Close status for CB or disconnector connected to line Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 193 FRDIFFM BOOLEAN Frequency difference out of limit for Manual operation PHDIFFM BOOLEAN Phase angle difference out of limit for Manual Operation Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 194 0.000 - 60.000 0.001 0.100 Time delay for synchrocheck Auto tSCM 0.000 - 60.000 0.001 0.100 Time delay for synchrocheck Manual Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 195 The synchronism check function measures the conditions across the circuit breaker and compares them to set limits. The output is only given when all measured quantities are simultaneously within their set limits. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 196 A number of outputs are available as information about fulfilled checking conditions. VOKSC shows that the voltages are high, VDIFFSC, FRDIFFA, FRDIFFM, PHDIFFA, PHDIFFM shows when the voltage difference, frequency difference and phase angle difference conditions are met. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 197 This prevents that the function is, by mistake, maintained in within the set operation for a long time, waiting for conditions to be fulfilled. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 198 (FIXDSIGN) function block will mean that the setting is done from Parameter Setting tool. The active position can be read on outputs MODEAEN resp MODEMEN. The modes are 0=OFF, 1=DLLB, 2=DBLL and 3=Both. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 199 This output as well as the function can be blocked with the input signal BLOCK. The function logic diagram is shown in figure 88. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 200 ± 0.5% ± 25 ms Time delay for energizing check (0.000-60.000) s ± 0.5% ± 25 ms Closing time for the circuit breaker (0.000-60.000) s ± 0.5% ± 25 ms Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 201 THOLHOLD 3PT3 CBREADY 3PT4 3PT5 SYNC CLOSECMD WAIT WFMASTER RSTCOUNT COUNT3P1 COUNT3P2 COUNT3P3 COUNT3P4 COUNT3P5 COUNTAR ANSI08000086-1-en.vsd ANSI08000086 V1 EN-US Figure 89: SMBRREC (79) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 202 Signal to Slave issued by Master for sequential reclosing COUNT3P1 INTEGER Counting the number of three-phase reclosing shot 1 COUNT3P2 INTEGER Counting the number of three-phase reclosing shot 2 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 203 0.01 30.00 Open time for shot 3, three-phase t4 3Ph 0.00 - 6000.00 0.01 30.00 Open time for shot 4, three-phase Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 204 If the general trip is used the function must be blocked from all back-up tripping connected to INHIBIT. In both alternatives the breaker failure function must be Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 205 TRUE (set high). Another possibility is to set the output of the synchronism check function to a permanently activated state. At confirmation from the synchronism check, the signal passes on. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 206 3PT3 Shot 3 Shot 4 3PT4 Shot 5 3PT5 Blocking out tInhibit Inhibit (internal) INHIBIT ANSI08000244-1-en.vsd ANSI08000244 V1 EN-US Figure 91: Reclosing Reset and Inhibit timers Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 207 If the CB does not respond to the closing command and does not close, but tUnsucCl . remains open, the output UNSUCCL is set high after time Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 208 This starting mode is selected by a StartByCBOpen = Enabled . One needs then to block reclosing at all manual trip setting parameter Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 209 CB check time before unsuccessful (0.00-6000.00) s Wait for master release (0.00-6000.00) s Wait time after close command before proceeding to next (0.000-60.000) s shot Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 210 L_CLOSE POSITION AU_OPEN OPENPOS AU_CLOSE CLOSEPOS BL_CMD CMD_BLK RES_EXT L_CAUSE SY_INPRO POS_INTR SYNC_OK XOUT EN_OPEN EN_CLOSE XPOS* IEC09000087_1_en.vsd IEC09000087 V1 EN-US Figure 96: SCSWI function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 211 BOOLEAN Commands are blocked L_CAUSE INTEGER Latest value of the error indication during command POS_INTR BOOLEAN Stopped in intermediate position XOUT BOOLEAN Execution information to XCBR/XSWI Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 212 BL_OPEN OP_BLKD BL_CLOSE CL_BLKD BL_UPD UPD_BLKD POSOPEN POSITION POSCLOSE OPENPOS TR_OPEN CLOSEPOS TR_CLOSE TR_POS RS_CNT CNT_VAL L_CAUSE IEC09000089_1_en.vsd IEC09000089 V1 EN-US Figure 97: SXCBR function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 213 Apparatus open position CLOSEPOS BOOLEAN Apparatus closed position TR_POS INTEGER Truck position indication CNT_VAL INTEGER Operation counter value L_CAUSE INTEGER Latest value of the error indication during command Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 214 BL_OPEN OP_BLKD BL_CLOSE CL_BLKD BL_UPD UPD_BLKD POSOPEN POSITION POSCLOSE OPENPOS TR_OPEN CLOSEPOS TR_CLOSE TR_POS RS_CNT CNT_VAL L_CAUSE IEC09000092_1_en.vsd IEC09000092 V1 EN-US Figure 98: SXSWI function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 215 Apparatus open position CLOSEPOS BOOLEAN Apparatus closed position TR_POS INTEGER Truck position indication CNT_VAL INTEGER Operation counter value L_CAUSE INTEGER Latest value of the error indication during command Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 216 9.3.5.3 Function block M13469-3 v4 QCBAY LR_OFF PSTO LR_LOC UPD_BLKD LR_REM CMD_BLKD LR_VALID BL_UPD BL_CMD IEC09000080_1_en.vsd IEC09000080 V1 EN-US Figure 99: QCBAY function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 217 The signals from the local HMI or from an external local/remote switch are applied via the function blocks LOCREM and LOCREMCTRL to the Bay control (QCBAY) function block. A parameter in Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 218 Table 176: LOCREM Non group settings (basic) Name Values (Range) Unit Step Default Description ControlMode Internal LR-switch Internal LR- Control mode for internal/external LR- External LR- switch switch switch Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 219 PSTO input channel 3 PSTO4 INTEGER PSTO input channel 4 PSTO5 INTEGER PSTO input channel 5 PSTO6 INTEGER PSTO input channel 6 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 220 The function does not have any parameters available in Local HMI or Protection and Control IED Manager (PCM600). 9.3.8 Select release SELGGIO 9.3.8.1 Identification GUID-FA42CE9F-D69F-4FA3-A270-0D2F4B23E7E4 v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Select release SELGGIO Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 221 Select signal of control 15 SELECT16 BOOLEAN Select signal of control 16 PID-1198-OUTPUTSIGNALS v5 Table 180: SELGGIO Output signals Name Type Description RESERVED BOOLEAN Select signal of control 16 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 222 The blocking signals are normally coming from the bay control function (QCBAY) and via the IEC 61850 communication from the operator place. The different blocking possibilities are: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 223 SXCBR function Time diagrams M13484-51 v3 The Switch controller (SCSWI) function has timers for evaluating different time supervision conditions. These timers are explained here. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 224 SYNC_OK to become true. If SYNC_OK=true at the time the execute command signal is received, the timer "tSynchrocheck" will not start. The start signal for the synchronizing is obtained if the synchronism-check conditions are not fulfilled. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 225 SXCBR has an operation counter for closing and opening commands. The counter value can be read remotely from the operator place. The value is reset from a binary input or remotely from the Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 226 I/O board. When substitution is enabled, the position values are blocked for updating . The substituted values are stored in a non-volatile memory. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 227 Figure 109: Execute output pulse tOpenPulse or If the pulse is set to be adaptive, it is not possible for the pulse to exceed tClosePulse . Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 228 61850-8-1 standard. The list of values of the “cause” are in order of priority. The values are available over the IEC 61850. An output L_CAUSE on the function block indicates the latest value of the error during the command. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 229 The functionality of the local/remote switch is described in figure 111. Local= Operation at switch yard level From I/O switchLR Remote= Operation at IED or higher level en05000096.vsd IEC05000096 V1 EN-US Figure 111: Local/Remote switch Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 231 • the timer tStartMove has elapsed. • an error occurs due to the switch does not start moving, that is, Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 232 Table 183: Values for "cause" signal in priority order Apparatus control Description function –22 wrongCTLModel –23 blockedForCommand –24 blocked-for-open-command –25 blocked-for-close-command –30 longOperationTime –31 switch-not-start-moving Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 233 Not possible to operate 1 = Local FALSE Local Panel 1 = Local TRUE Local or Remote level without any priority Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 234 FALSE in the configuration. The outputs from the LOCREM function block control the output PSTO (Permitted Source To Operate) on Bay control (QCBAY). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 235 The interlocking conditions depend on the circuit configuration and status of the system at any given time. 9.4.2 Logical node for interlocking SCILO (3) IP14138-1 v2 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 236 The outputs are connected to the logical node Switch controller (SCSWI). One instance per switching device is needed. SCILO POSOPEN POSCLOSE EN_OPEN OPEN_EN EN_CLOSE CLOSE_EN en04000525_ansi.vsd ANSI04000525 V1 EN-US Figure 117: SCILO (3) function logic diagram Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 237 M15015-3 v6 The interlocking for busbar grounding switch (BB_ES, 3) function is used for one busbar grounding switch on any busbar parts according to figure 118. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 238 BOOLEAN Status for all disconnectors on this busbar part are valid EXDU_BB BOOLEAN No transmission error from any bay containing all disconnectors on this busbar part Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 239 WA1 (A1) WA2 (A2) 289G 189G 489G 389G A1A2_BS en04000516_ansi.vsd ANSI04000516 V1 EN-US Figure 120: Switchyard layout A1A2_BS (3) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 240 VP_BBTR 189CLTR EXDU_12 289OPTR EXDU_89G 289CLTR 152O_EX1 VPS1S2TR 152O_EX2 VP189TR 152O_EX3 VP289TR 189_EX1 189_EX2 289_EX1 289_EX2 ANSI09000066-1-en.vsd ANSI09000066 V1 EN-US Figure 121: A1A2_BS (3) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 241 VP189 152CLREL VP289 152CLITL VP152 VP389G 189REL VP489G 189ITL VPS1189G 152_OP 389G_OP 489G_OP S1189G_OP EXDU_89G 189_EX1 VP389G VPS1189G 389G_CL S1189G_CL EXDU_89G 189_EX2 en04000542_ansi.vsd ANSI04000542 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 242 S289G on bus section 2 is in open position S289G_CL BOOLEAN S289G on bus section 2 is in closed position BBTR_OP BOOLEAN No busbar transfer is in progress Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 243 Status of the apparatuses between bus section 1 and 2 are valid VP189TR BOOLEAN Switch status of 189 is valid (open or closed) VP289TR BOOLEAN Switch status of 289 is valid (open or closed) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 244 1 and 2 according to figure 122. A1A2_DC (3) function can be used for different busbars, which includes a bus-section disconnector. WA1 (A1) WA2 (A2) 289G 189G A1A2_DC en04000492_ansi.vsd ANSI04000492 V1 EN-US Figure 122: Switchyard layout A1A2_DC (3) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 245 S1189G_OP 89OPITL S2289G_OP S1DC_OP EXDU_89G EXDU_BB QBOP_EX1 VPS1189 VPS2289G VPS2_DC S1189G_OP S2289G_OP S2DC_OP EXDU_89G EXDU_BB QBOP_EX2 VPS1189G VPS2289G S1189G_CL S2289G_CL EXDU_89G QBOP_EX3 en04000544_ansi.vsd ANSI04000544 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 246 BOOLEAN External open condition for section disconnector 089 089O_EX2 BOOLEAN External open condition for section disconnector 089 089O_EX3 BOOLEAN External open condition for section disconnector 089 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 247 124. The function can also be used for a single busbar arrangement with transfer busbar or double busbar arrangement without transfer busbar. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 248 2089 189G 289G en04000514_ansi.vsd ANSI04000514 V1 EN-US Figure 124: Switchyard layout ABC_BC (3) The interlocking functionality in 650 series can not handle the transfer bus WA7(C). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 249 VP189TR 189_EX2 V22089TR 189_EX3 VP789TR 289_EX1 VP1289TR 289_EX2 VPBC12TR 289_EX3 VPBC17TR 2089_EX1 VPBC27TR 2089_EX2 789_EX1 789_EX2 ANSI09000069-1-en.vsd ANSI09000069 V1 EN-US Figure 125: ABC_BC (3) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 250 189ITL VP289G VP1189G 152_OP 289_OP 189G_OP 289G_OP 1189G_OP EXDU_89G 189_EX1 VP289 VP_BC_12 289_CL BC_12_CL EXDU_BC 189_EX2 VP189G VP1189G 189G_CL 1189G_CL EXDU_89G 189_EX3 en04000534_ansi.vsd ANSI04000534 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 251 EXDU_89G 789_EX2 VP152 VP789 2089REL VP189G 2089ITL VP289G VP2189G 152_OP 789_OP 189G_OP 289G_OP 2189G_OP EXDU_89G 2089_EX1 VP289G VP2189G 289G_CL 2189G_CL EXDU_89G 2089_EX2 en04000536_ansi.vsd ANSI04000536 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 252 189G_CL BOOLEAN 189G is in closed position 289G_OP BOOLEAN 289G is in open position 289G_CL BOOLEAN 289G is in closed position Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 253 BOOLEAN Switching of 189 is allowed 189ITL BOOLEAN Switching of 189 is not allowed 289REL BOOLEAN Switching of 289 is allowed Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 254 The function does not have any settings available in Local HMI or Protection and Control IED Manager (PCM600). 9.4.7 Interlocking for breaker-and-a-half diameter BH (3) IP14173-1 v3 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 255 BH_CONN (3) is the connection between the two lines of the diameter in the breaker-and-a-half switchyard layout. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 256 1189G_OP 1189G_CL VOLT_OFF VOLT_ON EXDU_89G 689_EX1 689_EX2 189_EX1 189_EX2 989_EX1 989_EX2 989_EX3 989_EX4 989_EX5 989_EX6 989_EX7 ANSI09000073-1-en.vsd ANSI09000073 V1 EN-US Figure 128: BH_LINE_A (3) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 257 C289G_CL 2189G_OP 2189G_CL VOLT_OFF VOLT_ON EXDU_89G 689_EX1 689_EX2 289_EX1 289_EX2 989_EX1 989_EX2 989_EX3 989_EX4 989_EX5 989_EX6 989_EX7 ANSI09000081-1-en.vsd ANSI09000081 V1 EN-US Figure 129: BH_LINE_B function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 258 6289REL VP289G 6289ITL VP2389G 152_OP 189G_OP 289G_OP 2389G_OP 6289_EX1 VP289G VP2389G 289G_CL 2389G_CL 6289_EX2 VP6189 189GREL VP6289 189GITL 6189_OP 289GREL 6289_OP 289GITL en04000560_ansi.vsd ANSI04000560 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 259 VPVOLT VP189 152CLREL VP689 152CLITL VP989 VP152 VP189G 689REL VP289G 689ITL VP389G 152_OP 189G_OP 289G_OP 389G_OP 689_EX1 VP289G VP389G 289G_CL 389G_CL 689_EX2 en04000554_ansi.vsd ANSI04000554 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 260 C289G_OP 989_EX5 989G_OP 389G_OP 989_EX6 VP989G VP389G 989G_CL 389G_CL 989_EX7 VP989 989GREL VPVOLT 989GITL 989_OP VOLT_OFF 189_OP 189OPTR 189_CL 189CLTR VP189 VP189TR en04000556_ansi.vsd ANSI04000556 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 261 VPVOLT VP289 152CLREL VP689 152CLITL VP989 VP152 VP189G 689REL VP289G 689ITL VP389G 152_OP 189G_OP 289G_OP 389G_OP 689_EX1 VP289G VP389G 289G_CL 389G_CL 689_EX2 en04000557_ansi.vsd ANSI04000557 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 262 C289G_OP 989_EX5 989G_OP 389G_OP 989_EX6 VP989G VP389G 989G_CL 389G_CL 989_EX7 989GREL VP989 VPVOLT 989GITL 989_OP VOLT_OFF 289_OP 289OPTR 289_CL 289CLTR VP289 VP289TR en04000559_ansi.vsd ANSI04000559 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 263 389G_OP BOOLEAN 389G is in open position 389G_CL BOOLEAN 389G is in closed position 989_OP BOOLEAN 989 is in open position Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 264 289_CL BOOLEAN 289 is in closed position 189G_OP BOOLEAN 189G is in open position 189G_CL BOOLEAN 189G is in closed position Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 265 External condition for apparatus 989 989_EX5 BOOLEAN External condition for apparatus 989 989_EX6 BOOLEAN External condition for apparatus 989 989_EX7 BOOLEAN External condition for apparatus 989 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 266 Switching of 989G is not allowed 189OPTR BOOLEAN 189 is in open position 189CLTR BOOLEAN 189 is in closed position VP189TR BOOLEAN Switch status of 189 is valid (open or closed) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 267 IEC 60617 ANSI/IEEE C37.2 identification identification device number Interlocking for double CB bay DB_BUS_A Interlocking for double CB bay DB_BUS_B Interlocking for double CB bay DB_LINE Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 268 289G_OP 289GREL 289G_CL 289GITL 389G_OP 189OPTR 389G_CL 189CLTR 1189G_OP VP189TR 1189G_CL EXDU_89G 6189_EX1 6189_EX2 189_EX1 189_EX2 ANSI09000077-1-en.vsd ANSI09000077 V1 EN-US Figure 131: DB_BUS_A (3) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 269 489G_CL 589G_OP 589G_CL 989_OP 989_CL 389G_OP 389G_CL 989G_OP 989G_CL VOLT_OFF VOLT_ON 989_EX1 989_EX2 989_EX3 989_EX4 989_EX5 ANSI09000082-1-en.vsd ASNI09000082 V1 EN-US Figure 133: DB_LINE (3) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 270 189G_CL 1189G_CL EXDU_89G 189_EX2 en04000547_ansi.vsd ANSI04000547 V1 EN-US 189GREL VP6189 VP189 189GITL 6189_OP 289GREL 189_OP 289GITL 189_OP 189OPTR 189_CL 189CLTR VP189TR VP189 en04000548_ansi.vsd ANSI04000548 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 271 489G_CL 2189G_CL EXDU_89G 289_EX2 en04000552_ansi.vsd ANSI04000552 V1 EN-US VP6289 489GREL VP289 489GITL 6289_OP 589GREL 289_OP 589GITL 289_OP 289OPTR 289_CL 289CLTR VP289 VP289TR en04000553_ansi.vsd ANSI04000553 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 272 VOLT_OFF VOLT_ON VPVOLT VP152 VP252 989REL VP189G 989ITL VP289G VP389G VP489G VP589G VP989G 152_OP 252_OP 189G_OP 289G_OP 389G_OP 489G_OP 589G_OP 989G_OP 989_EX1 en04000549_ansi.vsd ANSI04000549 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 273 6189_OP BOOLEAN 6189 is in open position 6189_CL BOOLEAN 6189 is in closed position 189G_OP BOOLEAN 189G is in open position Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 274 External condition for apparatus 6289 6289_EX2 BOOLEAN External condition for apparatus 6289 289_EX1 BOOLEAN External condition for apparatus 289 289_EX2 BOOLEAN External condition for apparatus 289 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 275 Closing of 152 is not allowed 6189REL BOOLEAN Switching of 6189 is allowed 6189ITL BOOLEAN Switching of 6189 is not allowed Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 276 Switching of 389G is allowed 389GITL BOOLEAN Switching of 389G is not allowed 989GREL BOOLEAN Switching of 989G is allowed 989GITL BOOLEAN Switching of 989G is not allowed Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 277 189G 289G 989G en04000478_ansi.vsd ANSI04000478 V1 EN-US Figure 134: Switchyard layout ABC_LINE (3) The interlocking functionality in 650 series can not handle the transfer bus WA7(C). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 278 VP_BC_27 EXDU_89G EXDU_BPB EXDU_BC 989_EX1 989_EX2 189_EX1 189_EX2 189_EX3 289_EX1 289_EX2 289_EX3 789_EX1 789_EX2 789_EX3 789_EX4 ANSI09000070-1-en.vsd ANSI09000070 V1 EN-US Figure 135: ABC_LINE (3) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 279 7189G_OP 7189G_CL VP7189G VOLT_OFF VOLT_ON VPVOLT VP152 VP189G 989REL VP289G 989ITL VP989G 152_OP 189G_OP 289G_OP 989G_OP 989_EX1 VP289G VP989G 289G_CL 989G_CL 989_EX2 en04000527_ansi.vsd ANSI04000527 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 280 189ITL VP289G VP1189G 152_OP 289_OP 189G_OP 289G_OP 1189G_OP EXDU_89G 189_EX1 VP289 VP_BC_12 289_CL BC_12_CL EXDU_BC 189_EX2 VP189G VP1189G 189G_CL 1189G_CL EXDU_89G 189EX3 en04000528_ansi.vsd ANSI04000528 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 281 289ITL VP289G VP2189G 152_OP 189_OP 189G_OP 289G_OP 2189G_OP EXDU_89G 289_EX1 VP189 VP_BC_12 QB1_CL BC_12_CL EXDU_BC 289_EX2 VP189G VP2189G 189G_CL 2189G_CL EXDU_89G 289_EX3 en04000529_ansi.vsd ANSI04000529 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 282 BC_17_OP BC_27_OP EXDU_BC 789_EX1 VP152 VP189 VP989G VP989 VP7189G VP_BB7_D VP_BC_17 152_CL 189_CL 989G_OP 989_CL 7189G_OP EXDU_89G BB7_D_OP EXDU_BPB BC_17_CL EXDU_BC 789_EX2 en04000530_ansi.vsd ANSI04000530 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 283 989G_CL 7189G_CL EXDU_89G 789_EX4 VP189 189GREL VP289 189GITL VP989 289GREL 189_OP 289GITL 289_OP 989_OP VP789 VP989 989GREL VPVOLT 989GITL 789_OP 989_OP VOLT_OFF en04000531_ansi.vsd ANSI04000531 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 284 Grounding switch 1189G on busbar WA1 is in closed position 2189G_OP BOOLEAN Grounding switch 2189G on busbar WA2 is in open position Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 285 External condition for apparatus 789 789_EX2 BOOLEAN External condition for apparatus 789 789_EX3 BOOLEAN External condition for apparatus 789 789_EX4 BOOLEAN External condition for apparatus 789 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 286 The function does not have any settings available in Local HMI or Protection and Control IED Manager (PCM600). 9.4.10 Interlocking for transformer bay AB_TRAFO (3) IP14149-1 v2 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 287 WA2 (B) 189G AB_TRAFO 289G 389G 252 and 489G are not used in this interlocking 489G en04000515_ansi.vsd ANSI04000515 V1 EN-US Figure 136: Switchyard layout AB_TRAFO (3) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 288 2189G_OP VP1289TR 2189G_CL BC_12_CL VP_BC_12 EXDU_89G EXDU_BC 152_EX1 152_EX2 152_EX3 189_EX1 189_EX2 189_EX3 289_EX1 289_EX2 289_EX3 ANSI09000068-1-en.vsd ANSI09000068 V1 EN-US Figure 137: AB_TRAFO (3) function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 289 389G_OP 1189G_OP EXDU_89G 189_EX1 VP289 VP389G VP_BC_12 289_CL 389G_OP BC_12_CL EXDU_BC 189_EX2 VP189G VP289G VP389G VP1189G 189G_CL 289G_CL 389G_CL 1189G_CL EXDU_89G 189_EX3 en04000539_ansi.vsd ANSI04000539 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 290 189_CL BOOLEAN 189 is in closed position 289_OP BOOLEAN 289 is in open position 289_CL BOOLEAN 289 is in closed position Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 291 Switching of 189 is not allowed 289REL BOOLEAN Switching of 289 is allowed 289ITL BOOLEAN Switching of 289 is not allowed Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 292 The output signals are used by other functions in the interlocking scheme. 9.4.11.3 Function block GUID-B5EF4A28-9C9F-4558-8CD6-453FB480314B v1 POS_EVAL POSITION OPENPOS CLOSEPOS IEC09000079_1_en.vsd IEC09000079 V1 EN-US Figure 138: POS_EVAL function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 293 This can be done by means of the communication system, reserving all HV apparatuses that might influence the interlocking Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 294 Ungrounded busbars • Busbars connected together • Other bays connected to a busbar • Received data from other bays is valid Figure illustrates the data exchange principle. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 295 To make the implementation of the interlocking function easier, a number of standardized and tested software interlocking modules containing logic for the interlocking conditions are available: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 296 Hardware switches are however sources for maintenance issues, lower system reliability and an extended purchase portfolio. The logic selector switches eliminate all these problems. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 297 Selector switch position 5 BOOLEAN Selector switch position 6 BOOLEAN Selector switch position 7 BOOLEAN Selector switch position 8 BOOLEAN Selector switch position 9 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 298 0.001 0.200 Operate pulse duration tDelay 0.000 - 0.010 0.000 Output time delay 60000.000 StopAtExtremes Disabled Disabled Stop when min or max position is reached Enabled Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 299 VSGGIO can be controlled from the menu or from a symbol on the single line diagram (SLD) on the local HMI. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 300 Pulsed Operation mode Pulsed tSelect 0.000 - 60.000 0.001 30.000 Max time between select and execute signals tPulse 0.000 - 60.000 0.001 0.200 Command pulse lenght Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 301 IEC 61850 generic communication I/O functions DPGGIO 9.7.1 Identification GUID-E16EA78F-6DF9-4B37-A92D-5C09827E2297 v2 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number IEC 61850 generic communication DPGGIO I/O functions Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 302 To be able to get the signals, PCM600 must be used to define which function block in which equipment or system should receive this information. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 303 Figure 143: SPC8GGIO function block 9.8.4 Signals PID-1865-INPUTSIGNALS v5 Table 222: SPC8GGIO Input signals Name Type Default Description BLOCK BOOLEAN Block of function PSTO INTEGER Operator place selection Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 304 0.01 - 6000.00 0.01 0.10 Output7 Pulse Time Latched8 Pulsed Pulsed Setting for pulsed/latched mode for Latched output 8 tPulse8 0.01 - 6000.00 0.01 0.10 Output8 pulse time Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 305 AutomationBits, command function AUTOBITS for DNP3 9.9.2 Functionality SEMOD158591-5 v4 The Automation bits function (AUTOBITS) is used to configure the DNP3 protocol command handling. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 306 Command out bit 2 CMDBIT3 BOOLEAN Command out bit 3 CMDBIT4 BOOLEAN Command out bit 4 CMDBIT5 BOOLEAN Command out bit 5 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 307 Automation bits function (AUTOBITS) has 32 individual outputs which each can be mapped as a Binary Output point in DNP3. The output is operated by a "Object 12" in DNP3. This object contains Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 308 Description 16-AR BOOLEAN Information number 16, block of autorecloser 17-DIFF BOOLEAN Information number 17, block of differential protection 18-PROT BOOLEAN Information number 18, block of protection Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 309 BOOLEAN Information number 24, activate setting group 2 25-GRP3 BOOLEAN Information number 25, activate setting group 3 26-GRP4 BOOLEAN Information number 26, activate setting group 4 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 310 Description OUTPUT1 BOOLEAN Command output 1 OUTPUT2 BOOLEAN Command output 2 OUTPUT3 BOOLEAN Command output 3 OUTPUT4 BOOLEAN Command output 4 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 311 CMD_OFF and CMD_ON that can be used to implement double-point command schemes. 9.13.2 Function block GUID-6EC8453E-0D00-4720-95A6-156C41CA46BB v1 I103GENCMD BLOCK ^CMD_OFF ^CMD_ON IEC10000285-1-en.vsd IEC10000285 V1 EN-US Figure 148: I103GENCMD function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 312 The BLOCK input will block only the signals in monitoring direction (the position information), not the commands via IEC 60870-5-103. The SELECT input is used to indicate that the monitored apparatus has been selected (in a select-before-operate type of control) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 313 Table 241: I103POSCMD Non group settings (basic) Name Values (Range) Unit Step Default Description FunctionType 1 - 255 Fucntion type (1-255) InfNo 160 - 196 Information number for command output (1-255) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 315 Block of function TRINP_3P BOOLEAN Trip all phases SETLKOUT BOOLEAN Input for setting the circuit breaker lockout function RSTLKOUT BOOLEAN Input for resetting the circuit breaker lockout function Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 316 ANSI05000789 V2 EN-US Figure 151: Simplified logic diagram for three pole trip In multi-breaker arrangements, one SMPPTRC (94) function block is used for each breaker. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 317 IED. TMAGGIO output signals and the physical outputs allows the user to adapt the signals to the physical tripping outputs according to the specific application needs. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 318 Binary input 9 INPUT10 BOOLEAN Binary input 10 INPUT11 BOOLEAN Binary input 11 INPUT12 BOOLEAN Binary input 12 INPUT13 BOOLEAN Binary input 13 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 319 Output pulse time OnDelay 0.000 - 60.000 0.001 0.000 Output on delay time OffDelay 0.000 - 60.000 0.001 0.000 Output off delay time Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 320 And for steady operation the of delay will start when all related inputs have reset. Detailed logical diagram is shown in figure Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 321 INVERTER function blocks that inverts the input signal. • PULSETIMER function block can be used, for example, for pulse extensions or limiting of operation of outputs. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 323 One of the outputs is inverted. Function block GUID-7E0C103D-1072-4335-BF3A-CA644C1AF854 v2 INPUT1 INPUT2 NOUT INPUT3 INPUT4 INPUT5 INPUT6 IEC09000288-1-en.vsd IEC09000288 V1 EN-US Figure 154: OR function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 324 INPUT IEC09000287-1-en.vsd IEC09000287 V1 EN-US Figure 155: INVERTER function block Signals PID-1815-INPUTSIGNALS v7 Table 252: INVERTER Input signals Name Type Default Description INPUT BOOLEAN Input signal Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 325 Output signal Settings PID-1820-SETTINGS v7 Table 256: PULSETIMER Non group settings (basic) Name Values (Range) Unit Step Default Description 0.000 - 0.001 0.010 Pulse time length 90000.000 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 326 Enabled 10.3.1.6 Exclusive OR function block XOR Identification GUID-84762172-8050-455D-8E17-D35A43430DF0 v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Exclusive OR function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 327 The Logic loop delay function block (LOOPDELAY) function is used to delay the output signal one execution cycle. Function block GUID-EE44CFDF-C8F7-4870-BD1C-98D9CD91FD97 v3 LOOPDELAY INPUT IEC09000296-1-en.vsd IEC09000296 V1 EN-US Figure 159: LOOPDELAY function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 328 The function block TIMERSET has pick-up and drop-out delayed outputs related to the input t ). signal. The timer has a settable time delay ( Input tdelay tdelay en08000289-2-en.vsd IEC08000289 V1 EN-US Figure 160: TIMERSET Status diagram Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 329 The output OUT has a default value 0 initially, which suppresses one cycle pulse if the function has been put in the wrong execution order. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 330 The memory setting controls if the flip-flop after a power interruption will return the state it had before or if it will be reset. For a Set-Reset flip-flop, SET input has higher priority over RESET input. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 331 Reset-set with memory function block RSMEMORY Identification GUID-778F02C0-F3F5-492C-9D72-1E499E01F838 v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Reset-set with memory function RSMEMORY block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 332 Settings PID-1187-SETTINGS v7 Table 276: RSMEMORY Group settings (basic) Name Values (Range) Unit Step Default Description Memory Disabled Enabled Operating mode of the memory function Enabled Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 333 Input signal 1 INPUT2 BOOLEAN Input signal 2 INPUT3 BOOLEAN Input signal 3 INPUT4 BOOLEAN Input signal 4 INPUT5 BOOLEAN Input signal 5 INPUT6 BOOLEAN Input signal 6 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 334 Type Description BOOLEAN Output signal Settings GUID-50A2CEA0-2781-4C5F-B184-F09FC666876F v1 The function does not have any parameters available in Local HMI or Protection and Control IED Manager (PCM600). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 335 Output signal Settings PID-1081-SETTINGS v7 Table 283: PULSETIMERQT Non group settings (basic) Name Values (Range) Unit Step Default Description 0.000 - 0.001 0.010 Pulse time length 90000.000 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 336 10.3.2.6 Settable timer function block TIMERSETQT Identification GUID-72D9B585-CA00-483F-87B8-3655DF7E8A87 v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Settable timer function block TIMERSETQT Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 337 Default Description INPUT BOOLEAN Input signal PID-1083-OUTPUTSIGNALS v7 Table 287: TIMERSETQT Output signals Name Type Description BOOLEAN Output signal, pick-up delayed BOOLEAN Output signal, drop-out delayed Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 338 Table 289: ANDQT Input signals Name Type Default Description INPUT1 BOOLEAN Input signal 1 INPUT2 BOOLEAN Input signal 2 INPUT3 BOOLEAN Input signal 3 INPUT4 BOOLEAN Input signal 4 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 339 Memory parameter is Enabled , the output result is stored in semi-retained memory. Function block GUID-C49281AE-3667-42C7-9168-F8DC31970FE7 v2 SRMEMORYQT RESET NOUT IEC09000301-1-en.vsd IEC09000301 V1 EN-US Figure 172: SRMEMORYQT function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 340 The memory setting controls if the flip-flop after a power interruption will return the state it had before or if it will be reset. Table 295: RSMEMORYQT functionality RESET NOUT Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 341 Operating mode of the memory function Enabled 10.3.2.10 INVALIDQT function block Identification GUID-F84B0F9A-5536-4E57-854C-9C9C5EED1FA1 v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number INVALIDQT function block INVALIDQT Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 342 BOOLEAN Indication input 13 INPUT14 BOOLEAN Indication input 14 INPUT15 BOOLEAN Indication input 15 INPUT16 BOOLEAN Indication input 16 VALID BOOLEAN Inputs are valid or invalid Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 343 SP_OUT output. State input bits are copied to the corresponding state part of SP_OUT output. If the state or value on the SP_OUT output changes, the Event bit in the state part is toggled. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 344 Functionality GUID-9B700C69-4DAE-434A-BCE6-CE2D1139680A v1 Value part of single position input is copied to SI_OUT output. Time part of single position input is copied to TIME output. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 345 Table 305: Configurable logic blocks Logic block Quantity with cycle time Range or value Accuracy 5 ms 20 ms 100 ms INVERTER Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 346 IED, either for forcing the unused inputs in other function blocks to a certain level/value, or for creating certain logic. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 347 INTONE is an integer number, fixed to integer value 1 • INTALONE is an integer value FFFF (hex) • REALZERO is a floating point real number, fixed to 0.0 value Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 348 Table 308: B16I Input signals Name Type Default Description BLOCK BOOLEAN Block of function BOOLEAN Input 1 BOOLEAN Input 2 BOOLEAN Input 3 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 349 Boolean 1, it corresponds to that integer 65535 is available on the output OUT. The B16I function is designed for receiving up to 16 booleans input locally. If the BLOCK input is activated, it will freeze the output at the last value. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 350 SEMOD175781-4 v4 Boolean 16 to integer conversion with logic node representation function (B16IFCVI) is used to transform a set of 16 binary (logical) signals into an integer. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 351 Input 10 IN11 BOOLEAN Input 11 IN12 BOOLEAN Input 12 IN13 BOOLEAN Input 13 IN14 BOOLEAN Input 14 IN15 BOOLEAN Input 15 IN16 BOOLEAN Input 16 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 352 BOOLEAN Input 3 BOOLEAN Input 4 BOOLEAN Input 5 BOOLEAN Input 6 BOOLEAN Input 7 BOOLEAN Input 8 BOOLEAN Input 9 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 353 BLOCK OUT1 OUT2 OUT3 OUT4 OUT5 OUT6 OUT7 OUT8 OUT9 OUT10 OUT11 OUT12 OUT13 OUT14 OUT15 OUT16 IEC09000036-1-en.vsd IEC09000036 V1 EN-US Figure 180: IB16A function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 354 OUTx represents a value when activated. The value of each of the OUTx is in accordance with the table IB16A_1. When not activated the OUTx has the value 0. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 355 The sum of the numbers in column “Value when activated” when all OUTx (where x = 1 to 16) are active that is=1; is 65535. 65535 is the highest integer that can be converted by the IB16A function block. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 356 Figure 181: IB16FCVB function block 10.8.4 Signals PID-1980-INPUTSIGNALS v6 Table 316: IB16FCVB Input signals Name Type Default Description BLOCK BOOLEAN Block of function PSTO INTEGER Operator place selection Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 357 IB16FCVB function block to a combination of activated outputs OUTx where 1≤x≤16. The values represented by the different OUTx are according to Table 318. When an OUTx is not activated, its value is 0. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 358 IB16FCVB can only be written to the block while the PSTO is in position “Remote”. If PSTO is in position ”Off” or ”Local”, then no changes are applied to the outputs. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 359 Block of function BOOLEAN Input status 11.1.5 Settings PID-1822-SETTINGS v3 The function does not have any parameters available in Local HMI or Protection and Control IED Manager (PCM600). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 360 BLOCK ^IN1 ^IN2 ^IN3 ^IN4 ^IN5 ^IN6 ^IN7 ^IN8 ^IN9 ^IN10 ^IN11 ^IN12 ^IN13 ^IN14 ^IN15 ^IN16 IEC09000238_en_1.vsd IEC09000238 V1 EN-US Figure 183: SP16GGIO function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 361 Output 2 status SIGNAL OUT3 GROUP Output 3 status SIGNAL OUT4 GROUP Output 4 status SIGNAL OUT5 GROUP Output 5 status SIGNAL Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 362 IEC 61850 generic communication I/O functions MVGGIO 11.3.1 Identification GUID-01F6727C-37E5-4C0F-B8C1-7CF25FD4BB09 v2 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number IEC61850 generic communication MVGGIO I/O functions Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 363 Zero point clamping in 0.001% of range MV hhLim -5000.00 - xBase 0.01 900.00 High High limit multiplied with the base 5000.00 prefix (multiplication factor) Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 364 (CTs and VTs). During normal service by periodic comparison of the measured value from the IED with other independent meters the proper operation of the IED analog measurement Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 365 V: sequence voltages (positive, zero and negative sequence, magnitude and angle). The CVMMXN function calculates three-phase power quantities by using fundamental frequency phasors (DFT values) of the measured current respectively voltage signals. The measured power Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 366 Table 326: CVMMXN Input signals Name Type Default Description GROUP Three phase group signal for current inputs SIGNAL GROUP Three phase group signal for voltage inputs SIGNAL Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 367 1.000 Magnitude factor to scale power calculations PowAngComp -180.0 - 180.0 Angle compensation for phase shift between measured I & V Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 368 Int deadband FrMin 0.000 - 100.000 0.001 0.000 Minimum value FrMax 0.000 - 100.000 0.001 70.000 Maximum value FrRepTyp Cyclic Cyclic Reporting type Dead band Int deadband Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 369 0.0 - 200.0 80.0 Low limit in % of UBase VLowLowLim 0.0 - 200.0 60.0 Low Low limit in % of UBase Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 370 -10.000 - 10.000 0.001 0.000 Angle calibration for current at 30% of In IAngComp100 -10.000 - 10.000 0.001 0.000 Angle calibration for current at 100% of In Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 371 The available function blocks of an IED are depending on the actual hardware (TRM) and the logic configuration made in PCM600. CMMXU I3P* IA_RANGE IA_ANGL IB_RANGE IB_ANGL IC_RANGE IC_ANGL ANSI08000225-1-en.vsd ANSI08000225 V1 EN-US Figure 185: CMMXU function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 372 Dead band Reporting type Dead band Int deadband ILAngDbRepInt 1 - 300 Type Cycl: Report interval (s), Db: In % of range, Int Db: In %s Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 373 Phase-phase voltage measurement VMMXU 11.4.4.1 Identification GUID-726E0058-033D-4E90-870A-A870ADAD33B0 v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Phase-phase voltage measurement VMMXU SYMBOL-UU V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 374 V_BC REAL V_BC Amplitude VBC_RANG INTEGER VBC Magnitude range VBC_ANGL REAL VBC Angle V_CA REAL V_CA Amplitude VCA_RANG INTEGER VCA Amplitude range VCA_ANGL REAL VCA Angle Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 375 Unit Description V_AB REAL V_AB Amplitude VAB_ANGL REAL VAB Angle V_BC REAL V_BC Amplitude VBC_ANGL REAL VBC Angle V_CA REAL V_CA Amplitude VCA_ANGL REAL VCA Angle Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 376 3I0 Amplitude 3I0RANG INTEGER 3I0 Magnitude range 3I0ANGL REAL 3I0 Angle REAL I1 Amplitude I1RANG INTEGER I1Amplitude range I1ANGL REAL I1 Angle Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 377 Hysteresis value in % of range and is common for all limits I2AngDbRepInt 1 - 300 Type Cycl: Report interval (s), Db: In % of range, Int Db: In %s Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 378 11.4.6.1 Identification GUID-861F85E4-ED53-4DC3-8BD4-2783FB6B89AD v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Voltage sequence measurement VMSQI U1, U2, U0 SYMBOL-TT V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 379 3U0 Angle REAL U1 Amplitude V1RANG INTEGER V1 Magnitude range V1ANGL REAL U1 Angle REAL U2 Amplitude V2RANG INTEGER V2 Magnitude range V2ANGL REAL U2 Angle Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 380 High limit (physical value) 3V0LowLim 0 - 2000000 213000 Low limit (physical value) 3V0LowLowLim 0 - 2000000 198000 Low Low limit (physical value) Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 381 11.4.7.2 Function block GUID-440B43E6-39FF-43A9-8E11-B45ACBCAC5CF v2 The available function blocks of an IED are depending on the actual hardware (TRM) and the logic configuration made in PCM600. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 382 Type Cycl: Report interval (s), Db: In % of range, Int Db: In %s VMax 0 - 2000000 106000 Maximum value Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 383 IED and built-in options. The information on measured quantities is available for the user at different locations: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 384 Low limit and 4: below Low-low limit). The output may be connected to a measurement expander block (XP (RANGE_XP)) to get measurement supervision as binary signals. The logical value of the functional output signals changes according to figure 190. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 385 The picture is simplified: the process is not continuous but the values are evaluated with a time interval of one execution cycle from each other. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 386 Even if integral dead-band reporting is selected, there will be a 30 s "back-ground" cyclic reporting as well. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 387 × three phase power shall be PosSeq PosSeq PosSeq measured (Equation 36) EQUATION1565 V1 EN-US PosSeq (Equation 37) EQUATION1566 V1 EN-US Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 388 P, Q, S, & PF are calculated in accordance with the following formulas: Re( ) (Equation 50) EQUATION1403 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 389 This is achieved by magnitude and angle compensation at 5, 30 and 100% of rated current and voltage. The compensation below 5% and above 100% is constant and linear in between, see example in figure 194. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 391 Practically, it means that active and reactive power will have positive values when they flow from the busbar towards the protected object and they will have negative values when they flow from the protected object towards the busbar. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 392 Each magnitude output has a corresponding supervision level output (X_RANGE). The output signal is an integer in the interval 0-4, see section "Measurement supervision". Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 393 M13412-3 v4 CNTGGIO BLOCK VALUE1 COUNTER1 VALUE2 COUNTER2 VALUE3 COUNTER3 VALUE4 COUNTER4 VALUE5 COUNTER5 VALUE6 COUNTER6 RESET IEC09000090_1_en.vsd IEC09000090 V1 EN-US Figure 196: CNTGGIO function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 394 Values (Range) Unit Description VALUE1 INTEGER Output of counter 1 VALUE2 INTEGER Output of counter 2 VALUE3 INTEGER Output of counter 3 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 395 HMI graphical display. 11.5.8 Technical data M13416-1 v4 Table 361: CNTGGIO technical data Function Range or value Accuracy Counter value 0-10000 Max. count up speed 10 pulses/s Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 396 11.6.2 Disturbance report DRPRDRE GUID-D24C5F43-6EC0-4B12-BB57-6C7B2C7B84B8 v2 11.6.2.1 Identification M16055-1 v4 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Disturbance report DRPRDRE Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 397 10 - 100 Maximum number of stored disturbances ZeroAngleRef 1 - 30 Trip value recorder, phasor reference channel OpModeTest Disabled Disabled Operation mode during test mode Enabled Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 398 OvTrigStatCh10 BOOLEAN Over level trig for analog channel 10 activated UnTrigStatCh11 BOOLEAN Under level trig for analog channel 11 activated Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 399 OvTrigStatCh22 BOOLEAN Over level trig for analog channel 22 activated UnTrigStatCh23 BOOLEAN Under level trig for analog channel 23 activated Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 400 OvTrigStatCh34 BOOLEAN Over level trig for analog channel 34 activated UnTrigStatCh35 BOOLEAN Under level trig for analog channel 35 activated Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 401 GUID-99A9E7DA-0CE9-40A2-9B07-A3D613C0957D v2 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Analog input signals A1RADR Analog input signals A2RADR Analog input signals A3RADR Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 402 Group signal for input 7 SIGNAL GRPINPUT8 GROUP Group signal for input 8 SIGNAL GRPINPUT9 GROUP Group signal for input 9 SIGNAL GRPINPUT10 GROUP Group signal for input 10 SIGNAL Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 403 0 - 255 Information number for analog channel 4 (IEC-60870-5-103) FunType5 0 - 255 Function type for analog channel 5 (IEC-60870-5-103) Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 404 Nominal value for analog channel 3 UnderTrigOp03 Disabled Disabled Use under level trigger for analog channel Enabled 3 (on) or not (off) Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 405 Enabled 8 (on) or not (off) UnderTrigLe08 0 - 200 Under trigger level for analog channel 8 in % of signal Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 406 Function block GUID-A65D9F65-E013-4E56-B208-73A168634147 v2 A4RADR ^INPUT31 ^INPUT32 ^INPUT33 ^INPUT34 ^INPUT35 ^INPUT36 ^INPUT37 ^INPUT38 ^INPUT39 ^INPUT40 IEC09000350-1-en.vsd IEC09000350 V1 EN-US Figure 199: A4RADR function block, derived analog inputs Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 407 Operation On/off Enabled Operation38 Disabled Disabled Operation On/off Enabled Operation39 Disabled Disabled Operation On/off Enabled Operation40 Disabled Disabled Operation On/off Enabled Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 408 Information number for analog channel 39 (IEC-60870-5-103) FunType40 0 - 255 Function type for analog channel 40 (IEC-60870-5-103) InfNo40 0 - 255 Information number for analog channel40 (IEC-60870-5-103) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 409 Over trigger level for analog channel 35 in % of signal NomValue36 0.0 - 999999.9 Nominal value for analog channel 36 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 410 Use over level trigger for analog channel Enabled 40 (on) or not (off) OverTrigLe40 0 - 5000 Over trigger level for analog channel 40 in % of signal Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 411 B1RBDR, INPUT1 - INPUT16 • B2RBDR, INPUT17 - INPUT32 • B3RBDR, INPUT33 - INPUT48 • B4RBDR, INPUT49 - INPUT64 • B5RBDR, INPUT65 - INPUT80 • B6RBDR, INPUT81 - INPUT96 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 412 Set LED on HMI for binary channel 1 Start Trip Pick up and trip TrigDR02 Disabled Disabled Trigger operation On/Off Enabled Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 413 Trigger operation On/Off Enabled SetLED10 Disabled Disabled Set LED on HMI for binary channel 10 Start Trip Pick up and trip Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 414 0 - 255 Information number for binary channel 3 (IEC -60870-5-103) FunType4 0 - 255 Function type for binary channel 4 (IEC -60870-5-103) Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 415 (IEC -60870-5-103) FunType16 0 - 255 Function type for binary channel 16 (IEC -60870-5-103) InfNo16 0 - 255 Information number for binary channel 16 (IEC -60870-5-103) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 416 Trig on 0 Trig on 1 Trigger on positive (1) or negative (0) slope Trig on 1 for binary input 12 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 417 (BxRBDR). Trip value recorder uses analog information from the analog input function blocks (AxRADR). Disturbance recorder DRPRDRE acquires information from both AxRADR and BxRBDR. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 418 3.4 seconds. The memory limit does not affect the rest of the disturbance report (Sequential of events, Event recorder, Indications and Trip value recorder). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 419 11.6.6.7 Time tagging M12155-194 v1 The IED has a built-in real-time calendar and clock. This function is used for all time tagging within the disturbance report Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 420 (3PHSUM). The last 10 channels may be connected to internally calculated analog signals available as function block output signals (phase differential currents, bias currents and so on). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 421 Operation = Enabled , waveform (samples) will also be recorded and reported in graph. The analog signals are presented only in the disturbance recording, but they affect the entire disturbance report when being used as triggers. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 422 If the average value is below the set threshold level for an undervoltage or undercurrent trigger, this trigger is indicated with a less than (<) sign with its name. The procedure is separately performed for each channel. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 423 Maximum number of events in the Event recording per recording Maximum number of events in the Sequence of events 1000, first in - first out Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 424 The LED indications display this information: Green LED: Steady light In Service Flashing light Internal fail Dark No power supply Yellow LED: SetLEDn setting in Disturbance report function. Function controlled by Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 425 The event recorder information is available for the disturbances locally in the IED. The event recording information is an integrated part of the disturbance record (Comtrade file). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 426 Table 377: DRPRDRE technical data Function Value Buffer capacity Maximum number of events in disturbance report Maximum number of disturbance reports Resolution 1 ms Accuracy Depending on time synchronizing Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 427 M12700-1 v4 Table 378: DRPRDRE technical data Function Value Buffer capacity Maximum number of events in the list 1000 Resolution 1 ms Accuracy Depending on time synchronizing Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 428 The name of the analog input signal that appears in the Trip value recorder function is the user- defined name assigned when the IED is configured. The same name is used in the Disturbance recorder function . Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 429 The Disturbance recorder has no function block of it’s own. 11.11.3 Signals M12649-12 v4 See Disturbance report for input and output signals. 11.11.4 Settings M12648-9 v5 See Disturbance report for settings. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 430 The recording files comply with the Comtrade standard IEC 60255-24 and are divided into three files; a header file (HDR), a configuration file (CFG) and a data file (DAT). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 431 Maximum total recording time (3.4 s recording time and maximum 340 seconds (100 recordings) at 50 Hz number of channels, typical value) 280 seconds (80 recordings) at 60 Hz Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 432 IEC09000215 V1 EN-US Figure 205: MVEXP function block 11.12.4 Signals GUID-8AFC0AEF-A8D9-4F31-873C-51FF237D540C v1 PID-1824-INPUTSIGNALS v9 Table 381: MVEXP Input signals Name Type Default Description RANGE INTEGER Measured value range Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 433 Station battery supervision SPVNZBAT 11.13.1 Identification GUID-2CE1CBF4-527A-4B42-B486-BA40FB3E2926 v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Station battery supervision function SPVNZBAT U<> Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 434 Alarm when voltage has exceeded high limit for a set time PU_VLOW BOOLEAN Pick up signal when battery voltage drops below lower limit PU_VHI BOOLEAN Pick up signal when battery voltage exceeds upper limit Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 435 The operation of the station battery supervision function can be described by using a module diagram. All the modules in the diagram are explained in the next sections. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 436 Upper limit for the battery terminal (60-140) % of Vbat ± 1.0% of set battery voltage voltage Reset ratio, upper limit >95 % Timers (0.000-60.000) s ± 0.5% ± 110 ms Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 437 Pressure input from CB TEMP REAL Temperature of the insulation medium from CB PRES_ALM BOOLEAN Pressure alarm signal PRES_LO BOOLEAN Pressure lockout signal Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 438 Two binary output signals are used from the circuit breaker to initiate alarm signals, pressure below alarm level and pressure below lockout level. If the input signal PRES_ALM is high, Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 439 Binary information based on the oil level in the circuit breaker is used as input signals to the function. In addition, the function generates alarms based on received information. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 440 Level below alarm level LVL_LO BOOLEAN Level below lockout level TEMP REAL Temperature of the insulation medium TEMP_ALM BOOLEAN Temperature above alarm level TEMP_LO BOOLEAN Temperature above lockout level Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 441 LVL_LO, level below lockout level alarm will be obtained. The input signal BLK_ALM is used to block the two alarms and the input signal BLOCK to block both alarms and the function. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 442 2 t values. Alarms are generated when the calculated values exceed the threshold settings. The function contains a blocking functionality. It is possible to block the function outputs, if desired. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 443 CB close travel time exceeded set value SPRCHRAL BOOLEAN Spring charging time has crossed the set value OPRALM BOOLEAN Number of CB operations exceeds alarm limit Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 444 OpenTimeCorr 0 - 100 Correction factor for open travel time CloseTimeCorr 0 - 100 Correction factor for CB close travel time Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 445 The functions can be enabled and disabled with the corresponding parameter values are Enable and Disable. The operation counters are cleared when Operation is set to Disabled . Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 446 The operation of the breaker status monitoring can be described by using a module diagram. All the modules in the diagram are explained in the next sections. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 447 The inactive days NOOPRDAY is available through the Monitored data view. It is also possible to set the initial inactive days by using the InactDayInit parameter. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 448 Therefore, in order to incorporate the time t , a correction factor needs to be added with 10 to get the actual opening Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 449 OpNumLO setting, the OPRLOALM output is activated. exceeds the limit value set with the The binary outputs OPRLOALM and OPRALM are deactivated when the BLOCK input is activated. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 450 LHMI or through tools via communications. The values can be reset by setting the Clear accum. breaking curr setting to true in the clear menu from LHMI. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 451 CBLIFE_A (_B, _C). The values can be cleared by setting the parameter CB wear values in the clear menu from LHMI. CB wear values also resets the operation counter. Clearing Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 452 The gas pressure supervision subfunction monitors the gas pressure inside the arc chamber. The operation of the subfunction can be described by using a module diagram. All the modules in the diagram are explained in the next sections. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 453 ± 0.5% ± 25 ms 11.17 Measurands for IEC 60870-5-103 I103MEAS 11.17.1 Functionality GUID-557FB587-9127-4D99-B2C6-16445E06F220 v1 103MEAS is a function block that reports all valid measuring types depending on connected signals. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 454 MMXU function, to outputs on the fixed signal function block. 11.17.2 Function block GUID-EC5F1C83-0F47-4548-86E3-FFE056571241 v1 I103MEAS BLOCK V_AB ANSI10000287-1-en.vsd ANSI10000287 V1 EN-US Figure 222: I103MEAS function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 455 1200.00 Maximum value for active power MaxQ 0.00 - 2000.00 0.05 1200.00 Maximum value for reactive power MaxF 50.0 - 60.0 10.0 50.0 Maximum system frequency Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 456 REAL Service value for measurement on input 7 INPUT8 REAL Service value for measurement on input 8 INPUT9 REAL Service value for measurement on input 9 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 457 This block includes the defined for each output signal. 11.19.2 Function block GUID-FAC5A3DF-73CB-4A39-A213-5C21ACA05756 v1 I103AR BLOCK 16_ARACT 128_CBON 130_UNSU IEC10000289-1-en.vsd IEC10000289 V1 EN-US Figure 224: I103AR function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 458 Table 409: I103EF Input signals Name Type Default Description BLOCK BOOLEAN Block of status reporting 51_EFFW BOOLEAN Information number 51, ground-fault forward 52_EFREV BOOLEAN Information number 52, ground-fault reverse Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 459 78_ZONE1 79_ZONE2 80_ZONE3 81_ZONE4 82_ZONE5 84_STGEN 85_BFP 86_MTR_A 87_MTR_B 88_MTR_C 89_MTRN 90_IOC 91_IOC 92_IEF 93_IEF ARINPROG FLTLOC ANSI10000291-1-en.vsd ANSI10000291 V1 EN-US Figure 226: I103FLTPROT function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 460 Information number 92, ground-fault trip, stage low 93_IEF BOOLEAN Information number 93, ground-fault trip, stage high ARINPROG BOOLEAN Autorecloser in progress (SMBRREC- INPROGR) FLTLOC BOOLEAN Faultlocator faultlocation valid (LMBRFLO-CALCMADE) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 461 Information number 24, setting group 2 is active 25_GRP3 BOOLEAN Information number 25, setting group 3 is active 26_GRP4 BOOLEAN Information number 26, setting group 4 is active Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 462 Information number 37, I high-high back-up protection 38_VTFF BOOLEAN Information number 38, fuse failure VT 46_GRWA BOOLEAN Information number 46, group warning 47_GRAL BOOLEAN Information number 47, group alarm Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 463 Figure 229: IEC 60870-5-103I103USRDEF:1 11.24.2 Function block GUID-B8312E77-514D-4117-BB31-B9907755580C v1 I103USRDEF BLOCK ^INPUT1 ^INPUT2 ^INPUT3 ^INPUT4 ^INPUT5 ^INPUT6 ^INPUT7 ^INPUT8 IEC10000294-1-en.vsd IEC10000294 V1 EN-US Figure 230: I103USRDEF function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 464 Information number for binary input 6 (1-255) InfNo_7 1 - 255 Information number for binary input 7 (1-255) InfNo_8 1 - 255 Information number for binary input 8 (1-255) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 465 BOOLEAN Block of function READ_VAL BOOLEAN Initiates an additional pulse counter reading BI_PULSE BOOLEAN Connect binary input channel for metering RS_CNT BOOLEAN Resets pulse counter value Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 466 Table 422: PCGGIO Monitored data Name Type Values (Range) Unit Description CNT_VAL INTEGER Actual pulse counter value SCAL_VAL REAL Scaled value with time and status information Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 467 • The BLOCK input is set, or • The binary input module, where the counter input is situated, is inoperative. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 468 Active as well as reactive values are calculated in import and export direction. Values can be read or generated as pulses. Maximum demand power values are also calculated by the function. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 469 Alarm for reactive reverse energy exceed limit in set interval EAFACC REAL Accumulated forward active energy value EARACC REAL Accumulated reverse active energy value Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 470 Enable of zero point clamping detection Enabled function LevZeroClampP 0.001 - 10000.000 0.001 10.000 Zero point clamping level at active Power Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 471 MAXPAFD, MAXPARD, MAXPRFD, MAXPRRD for the active and reactive power forward and reverse direction until reset with input signal RSTDMD or from the local HMI reset menu. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 472 SEMOD153707-2 v4 Table 429: ETPMMTR technical data Function Range or value Accuracy Energy metering MWh Export/Import, MVArh Input from MMXU. No extra error at steady Export/Import load Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 473 All communication connectors, except for the front port connector, are placed on integrated communication modules. The IED is connected to Ethernet-based communication systems via the fibre-optic multimode LC connector (100BASE-FX). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 474 Horizontal communication via GOOSE for interlocking 13.3.1 Identification GUID-88FF25EF-7B29-4DF1-A832-8AB41474B69C v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Horizontal communication via GOOSEINTLKR GOOSE for interlocking Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 475 IEC09000099 V1 EN-US Figure 234: GOOSEINTLKRCV function block 13.3.3 Signals PID-1437-INPUTSIGNALS v7 Table 433: GOOSEINTLKRCV Input signals Name Type Default Description BLOCK BOOLEAN Block of output signals Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 476 APP11VAL BOOLEAN Apparatus 11 position is valid APP12_OP BOOLEAN Apparatus 12 position is open APP12_CL BOOLEAN Apparatus 12 position is closed Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 477 Enabled 13.4 Goose binary receive GOOSEBINRCV 13.4.1 Identification GUID-54434BF4-C8DC-4F7B-99B5-519EB15F2A47 v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Goose binary receive GOOSEBINRCV Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 478 OUT2VAL BOOLEAN Valid data on binary output 2 OUT3 BOOLEAN Binary output 3 OUT3VAL BOOLEAN Valid data on binary output 3 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 479 Valid data on binary output 16 13.4.4 Settings PID-1436-SETTINGS v7 Table 438: GOOSEBINRCV Non group settings (basic) Name Values (Range) Unit Step Default Description Operation Disabled Disabled Operation Disabled/Enabled Enabled Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 480 Description DPOUT INTEGER Double point output DATAVALID BOOLEAN Data valid for double point output COMMVALID BOOLEAN Communication valid for double point output TEST BOOLEAN Test output Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 481 GOOSE function block to receive an GOOSEINTRCV integer value 13.6.2 Functionality GUID-27B1ED7A-C8E8-499E-89C1-C656FB0337F8 v1 GOOSEINTRCV is used to receive an integer value from the sender using IEC61850 protocol over GOOSE. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 482 The TEST output will go HIGH if the sending IED is in test mode. The input of this GOOSE block must be crossed in the SMT to receive the integer values. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 483 IEC10000251 V1 EN-US Figure 238: GOOSEMVRCV function block 13.7.4 Signals PID-2530-INPUTSIGNALS v6 Table 445: GOOSEMVRCV Input signals Name Type Default Description BLOCK BOOLEAN Block of function Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 484 13.8.1 Identification GUID-F2B30A70-842E-435E-8FAB-B1E58B9C0164 v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number GOOSE function block to receive a GOOSESPRCV single point value Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 485 The COMMVALID output will become LOW when the sending IED is under total failure condition and the GOOSE transmission from the sending IED does not happen. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 486 Enabled Invert polarity Enabled CycMeasRepTime 1.0 - 1800.0 Cyclic reporting time of measurments MasterTimeDomain Master time domain Local Local with DST Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 487 Description TimeSyncMode IEDTime IEDTime Time synchronization mode LinMastTime IEDTimeSkew EvalTimeAccuracy Evaluate time accuracy for invalid time 10ms 20ms 40ms EventRepMode SeqOfEvent SeqOfEvent Event reporting mode HiPriSpont Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 489 1 DebounceTime1 0.000 - 0.100 0.001 0.005 Debounce time for input 1 OscillationCount1 0 - 255 Oscillation count for input 1 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 490 0.005 Debounce time for input 9 OscillationCount9 0 - 255 Oscillation count for input 9 OscillationTime9 0.000 - 600.000 0.001 0.000 Oscillation time for input 9 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 491 DISABLE BOOLEAN Application Disable 14.2.2.4 Settings PID-1308-SETTINGS v3 The function does not have any settings available in Local HMI or Protection and Control IED Manager (PCM600). Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 492 (fault) by the Internal Fail signal, see Figure 241. Also the software watchdog timeout and the undervoltage detection of the PSM will deactivate the relay. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 493 ReBoot I/O INTERNAL FAIL Fault Internal Fail (CPU) I/O nodes = BIO xxxx = Inverted signal IEC09000390-1-en.vsd IEC09000390 V1 EN-US Figure 241: Hardware self-supervision, potential-free contact Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 494 As they provide information about the internal status of the IED, they are also called internal signals. The internal signals can be divided into two groups. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 495 IEC 61850 Error, DNP3 Error Real Time Clock Error This signal will be active if there is a hardware error with the real time clock. Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 496 Figure 243. Adx_Low Controller Adx_High en05000296-2-en.vsd IEC05000296 V2 EN-US Figure 243: Simplified drawing of A/D converter for the IED. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 497 Micro SCADA OPC server should not be used as a time synchronization source. 14.3.2 Time synchronization TIMESYNCHGEN 14.3.2.1 Identification GUID-68BC32C7-88FB-4101-A245-A9DCCB6E70EF v2 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Time synchronization TIMESYNCHGE Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 498 Time system, summer time begin DSTBEGIN 14.3.4.1 Identification GUID-78DA3FFB-315B-4B4A-9C75-E20D03C6AFFE v2 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Time system, summer time begins DSTBEGIN Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 499 Time system, summer time ends DSTEND 14.3.5.1 Identification GUID-755A8B4F-6452-44F6-9544-DC25C5650B01 v2 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Time system, summer time ends DSTEND Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 500 Settings PID-1843-SETTINGS v7 Table 463: TIMEZONE Non group settings (basic) Name Values (Range) Unit Step Default Description NoHalfHourUTC -24 - 24 Number of half-hours from UTC Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 501 Events and control Disabled - nication functions SNTP Time- IRIG-B regulator SW- time IEC60870-5-103 ANSI09000210-1-en.vsd ANSI09000210 V1 EN-US Figure 244: Design of time system (clock synchronization) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 502 IED. The IED is brought into a safe state and the time is set to the correct value. After the initial setting of the clock, one of three things happens with each of the coming synchronization messages, configured as “fine”: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 503 IRIG-B is a protocol used only for time synchronization. A clock can provide local time of the year in this format. The “B” in IRIG-B states that 100 bits per second are transmitted, and the message is Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 504 Creating and switching between fine-tuned setting sets, either from the local HMI or configurable binary inputs, results in a highly adaptable IED that can cope with a variety of system scenarios. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 505 Parameter setting groups ACTVGRP 14.4.3.2 Function block GUID-FDEE7E61-236D-4E2E-A182-7CCD3D8EFEC6 v2 ACTVGRP ACTGRP1 GRP1 ACTGRP2 GRP2 ACTGRP3 GRP3 ACTGRP4 GRP4 GRP_CHGD ANSI09000064-1-en.vsd ANSI09000064 V1 EN-US Figure 246: ACTVGRP function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 506 This means that if for example both group four and group two are set to activate, group two will be the one activated. Every time the active group is changed, the output signal GRP_CHGD is sending a pulse. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 507 All testing will be done with actually set and configured values within the IED. No settings will be changed, thus mistakes are avoided. Forcing of binary output signals is only possible when the IED is in test mode. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 508 14.5.6 Operation principle IP12116-1 v3 M12015-4 v7 Put the IED into test mode to test functions in the IED. Set the IED in test mode by Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 509 SCADA databases with test events, for example during a maintenance test. 14.6 Change lock function CHNGLCK 14.6.1 Identification GUID-6039E749-18CB-46C4-A4AD-3A8F09378522 v2 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Change lock function CHNGLCK Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 510 CHNGLCK input, that logic must be designed so that it cannot permanently issue a logical one on the CHNGLCK input. If such a situation would occur in spite of these precautions, then please contact the local ABB representative for remedial action. 14.6.3...
Page 512 They are very helpful in case of support process (such as repair or maintenance). 14.8.3 Settings GUID-168CD792-8811-43B5-8760-74ED82DE17F7 v3 The function does not have any parameters available in the local HMI or PCM600. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 513 Signal matrix for analog inputs SMAI_20_1 GUID-893B456E-18C3-43B8-84A6-9E53D803C66C v1 14.10.2.1 Identification GUID-A13C0C27-1238-4C63-AA9F-6789F2A5C4C9 v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Signal matrix for analog inputs SMAI_20_1 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 514 Quantity connected to the third analog input GROUP SIGNAL Quantity connected to the fourth analog input GROUP SIGNAL Calculated residual quantity if inputs 1-3 are connected Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 515 Name Values (Range) Unit Step Default Description Negation Disabled Disabled Negation NegateN Negate3Ph Negate3Ph+N MinValFreqMeas 5 - 200 Limit for frequency calculation in % of VBase Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 516 Second analog input used for phase B or BC quantity GRP2_C STRING Third analog input used for phase C or CA quantity GRP2_N STRING Fourth analog input used for residual or neutral quantity Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 517 Name Values (Range) Unit Step Default Description Negation Disabled Disabled Negation NegateN Negate3Ph Negate3Ph+N MinValFreqMeas 5 - 200 Limit for frequency calculation in % of VBase Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 518 Summation block 3 phase function 3PHSUM is used to get the sum of two sets of three-phase analog signals (of the same type) for those IED functions that might need it. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 519 Linear combination of input 2 signals from both SMAI blocks GROUP SIGNAL Linear combination of input 3 signals from both SMAI blocks GROUP SIGNAL Linear combination of input 4 signals from both SMAI blocks Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 520 This is an advantage since all applicable functions in the IED use a single source of base values. This facilitates consistency throughout the IED and also facilitates a single point for updating values when necessary. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 521 There are different levels (or types) of users that can access or operate different areas of the IED and tools functionality. The pre-defined user types are given in table Table 489. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 522 “✳✳✳✳✳✳✳✳”. The user must scroll for every letter in the password. After all the letters are introduced (passwords are case sensitive) choose OK and press the key again. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 523 At least one user is logged on 14.14.5 Settings GUID-ECE18AA9-15CC-4522-AA31-78C4F0F052E4 v1 The function does not have any parameters available in Local HMI or Protection and Control IED Manager (PCM600) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 524 Denial of service, frame rate control DOSFRNT for front port 14.15.2.2 Function block GUID-F5C2ECFE-460C-4916-8441-3D778672F8B5 v1 DOSFRNT LINKUP WARNING ALARM IEC09000133-1-en.vsd IEC09000133 V1 EN-US Figure 254: DOSFRNT function block Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 525 14.15.3.1 Identification GUID-C8EAE89C-6916-435E-B343-41289CB10213 v1 Function description IEC 61850 IEC 60617 ANSI/IEEE C37.2 identification identification device number Denial of service, frame rate control DOSLAN1 for LAN1 port Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 526 Number of non IP packets received in normal mode NonIPPackRecPoll INTEGER Number of non IP packets received in polled mode NonIPPackDisc INTEGER Number of non IP packets discarded Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 527 • LINKUP indicates the Ethernet link status • WARNING indicates that communication (frame rate) is higher than normal • ALARM indicates that the IED limits communication Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 529 The IED shall be grounded with a 6 Gauge flat copper cable. The ground lead should be as short as possible, less than 59.06 inches (1500 mm). Additional length is required for door mounting. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 530 1MRK 511 247-UUS B IED physical connections GUID-C75F6FD4-485D-464D-B7B0-55FD1AA608E9 V1 EN-US Figure 256: Protective ground pin is located below connector X102 on the 6U half 19” case Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 531 Table 497: Auxiliary voltage supply of 48-125 V DC Case Terminal Description 6U half 19” X410-1 - Input X410–2 + Input The two LEDs indicate the following conditions: Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 532 - for input 1 BIO_3 X324-2 Binary input 1 + BIO_3 X324-3 X324-4 Common - for inputs 2-3 X324-5 Binary input 2 + BIO_3 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 533 BIO_4 X329-14 Binary input 7 + BIO_4 X329-15 X329-16 Common - for inputs 8-9 X329-17 Binary input 8 + BIO_4 X329-18 Binary input 9 + BIO_4 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 534 Binary input 5 + BIO_6 X339-11 X339-12 Common - for inputs 6-7 X339-13 Binary input 6 + BIO_6 X339-14 Binary input 7 + BIO_6 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 535 Power output 4, normally open PSM_102 BO4_PO X307-8 X307-9 Power output 5, normally open PSM_102 BO5_PO X307-10 X307-11 Power output 6, normally open PSM_102 BO6_PO X307-12 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 536 Hardware module Hardware channel instance X336-1 Power output 1, normally open BIO_6 BO1_PO X336-2 X336-3 Power output 2, normally open BIO_6 BO2_PO Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 537 X321-15 Signal outputs 4 and 5, common X321-16 Signal output 6, normally closed BIO_3 BO9_SO X321-17 Signal output 6, normally open X321-18 Signal output 6, common Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 538 X336-7 Signal output 1, normally open BIO_6 BO4_SO X336-8 Signal output 1 X336-9 Signal output 2, normally open BIO_6 BO5_SO Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 539 IP address automatically if the DHCPServer is enabled in LHMI. There is a DHCP server inside IED for the front interface only. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 540 ● = Supported 15.4.5 Recommended industrial Ethernet switches GUID-41F05A0B-D39C-4BF7-829A-EB37C5D37CF4 v4 ABB recommends three third-party industrial Ethernet switches. • RuggedCom RS900 • RuggedCom RS1600 • RuggedCom RSG2100 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 541 Connection diagram, REC650 1.1, (3Ph/1CBA) A00A 1MRK006502-VB Connection diagram, REC650 1.1, (3Ph/1CBA) A01A 1MRK006502-DB Connection diagram, REC650 1.1, (3Ph/1CBAB) A02A 1MRK006502-CB Connection diagram, REC650 1.1, (BCAB) A07A 1MRK006502-BB Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 543 Transformer input module, rated currents and voltages Optional, customer specific information Order number, dc supply voltage and rated frequency Product type, description and serial number Product type Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 544 Caution label Warning label Class 1 laser product label It is used when an optical SFP or an MR/LR LDCM is configured in the product. Earthing Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 545 Max 15% of the DC value (at frequency of 100 Hz) Maximum interruption time in the 50 ms at V auxiliary DC voltage without resetting the IED Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 546 24...250 V DC Current drain 1.6...1.8 mA Power consumption/input <0.3 W Threshold voltage 15...221 V DC (parametrizable in the range in steps of 1% of the rated voltage) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 547 L/R<40 ms, at V< 48/110/220 V DC Control voltage range 20...250 V DC Current drain through the monitoring circuit ~1.0 mA Minimum voltage over the TCS contact 20 V DC Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 548 Table 526: Degree of protection of flush-mounted IED Description Value Front side IP 40 Table 527: Degree of protection of the LHMI Description Value Front and side IP40 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 549 96 h at +85ºC Damp heat steady state 240 h at +40ºC IEC 60068-2-78 tests humidity 93% cyclic 6 cycles at +25 to +55ºC IEC 60068-2-30 humidity 93...95% Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 551 IEC 61000-4-8, level 5 field • 1000 A/m • Continuous 100 A/m Power frequency immunity test IEC 60255-22-7, class A IEC 61000-4-16 Table continues on next page Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 552 Insulation resistance measurements IEC 60255-5 ANSI C37.90-2005 • Isolation resistance >100 MΏ, 500 V DC Protective bonding resistance IEC 60255-27 • Resistance <0.1 Ώ (60 s) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 553 2006/95/EC Standard EN 60255-27 (2005) 18.5 EMC compliance GUID-9B1F0C9F-664E-41C8-ADA3-4376E096A9C9 v4 Table 534: EMC compliance Description Reference EMC directive 2004/108/EC Standard EN 50263 (2000) EN 60255-26 (2007) Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 555 Stage 3 Time Stage 2 Stage 2 Stage 1 Stage 1 Stage 1 Fault point position en05000130.vsd IEC05000130 V1 EN-US Figure 259: Definite time overcurrent characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 556 Figure 261: Selectivity steps for a fault on feeder B1 where: is The fault occurs is Protection B1 trips is Breaker at B1 opens is Protection A1 resets Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 557 (pickup value minus the hysteresis) and the reset time has elapsed. The general expression for inverse time curves is according to equation 55. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 558 A td ç ÷ è ø Pickupn è ø (Equation 57) EQUATION1643 V1 EN-US For the numerical protection the sum below must fulfil the equation for trip. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 559 In order to fully comply with IEC curves definition setting parameter tMin shall be set to the value which is equal to the operating time of the selected IEC inverse time curve for measured current of Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 560 Thus, if only the inverse time delay is required, it is of utmost importance to set the definite time delay for that stage to zero. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 561 IEC Very inverse A=13.5, P=1.0 IEC Inverse A=0.14, P=0.02 IEC Extremely inverse A=80.0, P=2.0 IEC Short time inverse A=0.05, P=0.04 IEC Long time inverse A=120, P=1.0 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 562 Type C curve: td = (0.05-1.10) in steps of 0.01 unless otherwise stated × æ ö VPickup ç × ÷ 0.035 è ø VPickup EQUATION1663 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 563 EQUATION1662 V1 EN-US Type C curve: td = (0.05-1.10) in steps of 0.01 × æ ö VPickup ç × ÷ 0.035 è ø VPickup EQUATION1663 V1 EN-US Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 564 Section 19 1MRK 511 247-UUS B Time inverse characteristics SEMOD118114-4 v4 A070750 V2 EN-US Figure 263: ANSI Extremely inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 565 1MRK 511 247-UUS B Section 19 Time inverse characteristics A070751 V2 EN-US Figure 264: ANSI Very inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 566 Section 19 1MRK 511 247-UUS B Time inverse characteristics A070752 V2 EN-US Figure 265: ANSI Normal inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 567 1MRK 511 247-UUS B Section 19 Time inverse characteristics A070753 V2 EN-US Figure 266: ANSI Moderately inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 568 Section 19 1MRK 511 247-UUS B Time inverse characteristics A070817 V2 EN-US Figure 267: ANSI Long time extremely inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 569 1MRK 511 247-UUS B Section 19 Time inverse characteristics A070818 V2 EN-US Figure 268: ANSI Long time very inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 570 Section 19 1MRK 511 247-UUS B Time inverse characteristics A070819 V2 EN-US Figure 269: ANSI Long time inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 571 1MRK 511 247-UUS B Section 19 Time inverse characteristics A070820 V2 EN-US Figure 270: IEC Normal inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 572 Section 19 1MRK 511 247-UUS B Time inverse characteristics A070821 V2 EN-US Figure 271: IEC Very inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 573 1MRK 511 247-UUS B Section 19 Time inverse characteristics A070822 V2 EN-US Figure 272: IEC Inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 574 Section 19 1MRK 511 247-UUS B Time inverse characteristics A070823 V2 EN-US Figure 273: IEC Extremely inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 575 1MRK 511 247-UUS B Section 19 Time inverse characteristics A070824 V2 EN-US Figure 274: IEC Short time inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 576 Section 19 1MRK 511 247-UUS B Time inverse characteristics A070825 V2 EN-US Figure 275: IEC Long time inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 577 1MRK 511 247-UUS B Section 19 Time inverse characteristics A070826 V2 EN-US Figure 276: RI-type inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 578 Section 19 1MRK 511 247-UUS B Time inverse characteristics A070827 V2 EN-US Figure 277: RD-type inverse time characteristics Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 579 1MRK 511 247-UUS B Section 19 Time inverse characteristics GUID-ACF4044C-052E-4CBD-8247-C6ABE3796FA6 V1 EN-US Figure 278: Inverse curve A characteristic of overvoltage protection Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 580 Section 19 1MRK 511 247-UUS B Time inverse characteristics GUID-F5E0E1C2-48C8-4DC7-A84B-174544C09142 V1 EN-US Figure 279: Inverse curve B characteristic of overvoltage protection Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 581 1MRK 511 247-UUS B Section 19 Time inverse characteristics GUID-A9898DB7-90A3-47F2-AEF9-45FF148CB679 V1 EN-US Figure 280: Inverse curve C characteristic of overvoltage protection Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 582 Section 19 1MRK 511 247-UUS B Time inverse characteristics GUID-35F40C3B-B483-40E6-9767-69C1536E3CBC V1 EN-US Figure 281: Inverse curve A characteristic of undervoltage protection Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 583 1MRK 511 247-UUS B Section 19 Time inverse characteristics GUID-B55D0F5F-9265-4D9A-A7C0-E274AA3A6BB1 V1 EN-US Figure 282: Inverse curve B characteristic of undervoltage protection Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 585 Central processor unit Carrier receive Cyclic redundancy check CROB Control relay output block Carrier send Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 586 Electrical and functional description for digital lines used by local telephone companies. Can be transported over balanced and unbalanced lines Communication interface module with carrier of GPS receiver module Graphical display editor within PCM600 Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 587 Ingression protection, according to IEC standard, level IP40-Protected against solid foreign objects of 1mm diameter and greater. IP 54 Ingression protection, according to IEC standard, level IP54-Dust-protected,protected againstsplashing water. Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 588 Parameter setting tool within PCM600 PT ratio Potential transformer or voltage transformer ratio PUTT Permissive underreach transfer trip RASC Synchrocheck relay, COMBIFLEX Relay characteristic angle RFPP Resistance for phase-to-phase faults Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 589 TNC connector Threaded Neill-Concelman, a threaded constant impedance version of a BNC connector TPZ, TPY, TPX, TPS Current transformer class according to IEC User management tool Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 590 Three times zero-sequence current. Often referred to as the residual or the -fault current Three times the zero sequence voltage. Often referred to as the residual voltage or the neutral point voltage Bay control REC650 Technical manual © Copyright 2011 ABB Power Grids. All rights reserved...
Page 592 ABB Power Grids Sweden AB Grid Automation Products SE-721 59 Västerås, Sweden Phone +46 (0) 10 738 00 00 Scan this QR code to visit our website https://www.abb.com/protection-control © Copyright 2011 ABB Power Grids. All rights reserved.

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