ABB RELION 615 Series Applications Manual
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ABB RELION 615 Series Applications Manual

ABB RELION 615 Series Applications Manual

Line differential protection and control
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RELION® 615 SERIES
Line Differential Protection and
Control
RED615 ANSI
Application Manual

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Summary of Contents for ABB RELION 615 Series

  • Page 1 — RELION® 615 SERIES Line Differential Protection and Control RED615 ANSI Application Manual...
  • Page 3 Document ID: 1MAC807603-MB Issued: 2018-02-26 Revision: A Product version: 5.0 FP1 © Copyright 2018 ABB. All rights reserved...
  • Page 4 Copyright This document and parts thereof must not be reproduced or copied without written permission from ABB, and the contents thereof must not be imparted to a third party, nor used for any unauthorized purpose. The software or hardware described in this document is furnished under a license and may be used, copied, or disclosed only in accordance with the terms of such license.
  • Page 5 ABB is not liable for any such damages and/or losses.
  • Page 6 (Low-voltage directive 2006/95/EC). This conformity is the result of tests conducted by ABB in accordance with the product standards EN 50263 and EN 60255-26 for the EMC directive, and with the product standards EN 60255-1 and EN 60255-27 for the low voltage directive.

  • Page 7: Table Of Contents

    Table of contents Table of contents Section 1 Introduction................5 This manual....................5 Intended audience..................5 Product documentation................6 Product documentation set..............6 Document revision history..............6 Related documentation................7 Symbols and conventions.................7 Symbols....................7 Document conventions................ 8 Functions, codes and symbols............8 Section 2 RED615 overview..............13 Overview....................13 Product version history..............
  • Page 8 Table of contents Applications..................34 Functions................... 35 Default I/O connections..............35 Default disturbance recorder settings...........37 Functional diagrams................39 Functional diagrams for protection..........40 Functional diagrams for disturbance recorder......52 Functional diagrams for condition monitoring.......53 Functional diagrams for control and interlocking......56 Functional diagrams for measurement functions......59 Functional diagrams for IO and alarm LEDs........
  • Page 9 Table of contents Ground current................99 Phase voltages................99 Ground voltage................100 Sensor inputs................100 Auxiliary supply voltage input............100 Binary inputs..................100 RTD/mA inputs................102 Outputs....................102 Outputs for tripping and controlling..........102 Outputs for signalling...............103 IRF....................104 Protection communication options............104 Section 6 Glossary................107 RED615 ANSI Application Manual...

  • Page 11: Section 1 Introduction

    Section 1 1MAC807603-MB A Introduction Section 1 Introduction This manual The application manual contains application descriptions and setting guidelines sorted per function. The manual can be used to find out when and for what purpose a typical protection function can be used. The manual can also be used when calculating settings. Intended audience This manual addresses the protection and control engineer responsible for planning, pre- engineering and engineering.

  • Page 12: Product Documentation

    Product series- and product-specific manuals can be downloaded from the ABB Web site http://www.abb.com/relion. 1.3.2 Document revision history Document revision/date Product version History A/2018-02-26 5.0 FP1 First release Download the latest documents from the ABB Web site http://www.abb.com/substationautomation. RED615 ANSI Application Manual...

  • Page 13: Related Documentation

    Section 1 1MAC807603-MB A Introduction 1.3.3 Related documentation Name of the document Document ID Modbus Communication Protocol Manual 1MAC057386-MB DNP3 Communication Protocol Manual 1MAC052479-MB IEC 61850 Engineering Guide 1MAC053584-RG Engineering Manual 1MAC108982-MB Installation Manual 1MAC051065-MB Operation Manual 1MAC054853-MB Technical Manual 1MAC059074-MB Cyber Security Deployment Guideline 1MAC052704-HT...

  • Page 14: Document Conventions

    Section 1 1MAC807603-MB A Introduction Although warning hazards are related to personal injury, it is necessary to understand that under certain operational conditions, operation of damaged equipment may result in degraded process performance leading to personal injury or death. Therefore, comply fully with all warning and caution notices.
  • Page 15 Section 1 1MAC807603-MB A Introduction Function IEC 61850 IEC 60617 ANSI/C37.2-2008 Directional ground-fault protection, low stage DEFLPDEF1 Io> -> (1) 67/51N-1 DEFLPDEF2 Io> -> (2) 67/51N-2 Directional ground-fault protection, high DEFHPDEF1 Io>> -> (1) 67/50N-1 stage Admittance-based ground-fault protection EFPADM1 Yo>...
  • Page 16 Section 1 1MAC807603-MB A Introduction Function IEC 61850 IEC 60617 ANSI/C37.2-2008 Switch onto fault CBPSOF1 SOTF (1) SOTF-1 Master trip TRPPTRC1 Master Trip (1) 86/94-1 TRPPTRC2 Master Trip (2) 86/94-2 Multipurpose protection MAPGAPC1 MAP (1) MAP-1 MAPGAPC2 MAP (2) MAP-2 MAPGAPC3 MAP (3) MAP-3...
  • Page 17 Section 1 1MAC807603-MB A Introduction Function IEC 61850 IEC 60617 ANSI/C37.2-2008 Disconnector position indication DCSXSWI1 I <-> O DC (1) 52-TOC DCSXSWI2 I <-> O DC (2) 29DS-1 DCSXSWI3 I <-> O DC (3) 29DS-2 Grounding switch indication ESSXSWI1 I <-> O ES (1) 29GS-1 ESSXSWI2 I <->...
  • Page 18 Section 1 1MAC807603-MB A Introduction Function IEC 61850 IEC 60617 ANSI/C37.2-2008 Minimum pulse timer TPGAPC1 TP (1) 62TP-1 TPGAPC2 TP (2) 62TP-2 TPGAPC3 TP (3) 62TP-3 TPGAPC4 TP (4) 62TP-4 Minimum pulse timer (second resolution) TPSGAPC1 TPS (1) 62TPS-1 Minimum pulse timer (minute resolution) TPMGAPC1 TPM (1) 62TPM-1...

  • Page 19: Section 2 Red615 Overview

    RED615 relays communicate between substations over a fiber optic link ® or a galvanic pilot wire connection. RED615 is a member of ABB’s Relion product family and part of its 615 protection and control product series. The 615 series relays are characterized by their compactness and withdrawable-unit design.

  • Page 20: Operation Functionality

    AR Sequence Visualizer • Label Printing • IEC 61850 Configuration • IED Configuration Migration • Differential Characteristics Tool Download connectivity packages from the ABB Web site http://www.abb.com/substationautomation or directly with Update Manager in PCM600. Operation functionality 2.2.1 Optional features • Autoreclosing •...

  • Page 21: Physical Hardware

    Section 2 1MAC807603-MB A RED615 overview Physical hardware The protection relay consists of two main parts: plug-in unit and case. The content depends on the ordered functionality. Table 2: Plug-in unit and case Main unit Slot ID Content Details Plug-in Large (10 lines, 20 characters) with SLD unit X100...

  • Page 22: Local Hmi

    Section 2 1MAC807603-MB A RED615 overview See the installation manual for more information about the case and the plug-in unit. The connection diagrams of different hardware modules are presented in this manual. Table 3: Input/output overview Std. conf. Order code digit Analog channels Binary channels Combi...

  • Page 23: Display

    Section 2 1MAC807603-MB A RED615 overview A070704-ANSI V3 EN Figure 2: Example of the LHMI 2.4.1 Display The LHMI includes a graphical display that supports one character size. The character size depends on the selected language. The amount of characters and rows fitting the view depends on the character size.

  • Page 24: Leds

    Section 2 1MAC807603-MB A RED615 overview A070705-ANSI V3 EN Figure 3: Display layout 1 Header 2 Icon 3 Content 4 Scroll bar (displayed when needed) 2.4.2 LEDs The LHMI includes three protection indicators above the display: Normal, Pickup and Trip. There are 11 matrix programmable LEDs on front of the LHMI.

  • Page 25: Web Hmi

    Section 2 1MAC807603-MB A RED615 overview A071176-ANSI V1 EN Figure 4: LHMI keypad with object control, navigation and command push buttons and RJ-45 communication port Web HMI The WHMI allows secure access to the protection relay via a Web browser. The supported Web browser versions are Internet Explorer 9.0, 10.0 and 11.0.

  • Page 26: Authorization

    Section 2 1MAC807603-MB A RED615 overview A070754 V6 EN Figure 5: Example view of the WHMI The WHMI can be accessed locally and remotely. • Locally by connecting the laptop to the protection relay via the front communication port. • Remotely over LAN/WAN.

  • Page 27: Communication

    Section 2 1MAC807603-MB A RED615 overview Table 5: Predefined user categories Username User rights VIEWER Read only access OPERATOR • Selecting remote or local state with (only locally) • Changing setting groups • Controlling • Clearing indications ENGINEER • Changing settings •...

  • Page 28: Self-Healing Ethernet Ring

    Section 2 1MAC807603-MB A RED615 overview Table 6: TCP and UDP ports used for different services Service Port File Transfer Protocol (FTP and FTPS) 20, 21 IEC 61850 Web Server HTTP Web Server HTTPS Simple Network Time Protocol (SNTP) Modbus TCP DNP TCP 20000 The IEC 61850 communication implementation supports all monitoring and control...

  • Page 29: Ethernet Redundancy

    Section 2 1MAC807603-MB A RED615 overview the protection relay loop. The end links of the protection relay loop can be attached to the same external switch or to two adjacent external switches. A self-healing Ethernet ring requires a communication module with at least two Ethernet interfaces for all protection relays.
  • Page 30 Section 2 1MAC807603-MB A RED615 overview time, thus fulfilling the stringent real-time requirements for the substation automation horizontal communication and time synchronization. PRP specifies that each device is connected in parallel to two local area networks. HSR applies the PRP principle to rings and to the rings of rings to achieve cost-effective redundancy.
  • Page 31 Section 2 1MAC807603-MB A RED615 overview In case a laptop or a PC workstation is connected as a non-PRP node to one of the PRP networks, LAN A or LAN B, it is recommended to use a redundancy box device or an Ethernet switch with similar functionality between the PRP network and SAN to remove additional PRP information from the Ethernet frames.

  • Page 32: Protection Communication And Supervision

    Section 2 1MAC807603-MB A RED615 overview 2.7.3 Protection communication and supervision The communication between the relays is enabled by means of a dedicated fiber optic communication channel. 1310 nm multi-mode or single-mode fibers with LC connectors are used for line differential communication. The channel is used for transferring the phase segregated current value data between the relays.

  • Page 33: Section 3 Red615 Standard Configurations

    Section 3 1MAC807603-MB A RED615 standard configurations Section 3 RED615 standard configurations Standard configurations RED615 is available with two alternative standard configurations. The standard signal configuration can be altered by means of the signal matrix or the graphical application functionality of the Protection and Control IED Manager PCM600. Further, the application configuration functionality of PCM600 supports the creation of multi-layer logic functions utilizing various logical elements including timers and flip-flops.
  • Page 34 Section 3 1MAC807603-MB A RED615 standard configurations Function IEC 61850 ANSI Non-directional ground-fault protection, EFHPTOC high stage Directional ground-fault protection, low DEFLPDEF 67/51N stage Directional ground-fault protection, high DEFHPDEF 67/50N stage Admittance-based ground-fault EFPADM 21YN 1)2) protection Wattmetric-based ground-fault WPWDE 1)2) protection Transient/intermittent ground-fault...
  • Page 35 Section 3 1MAC807603-MB A RED615 standard configurations Function IEC 61850 ANSI Power quality Current total demand distortion CMHAI Voltage total harmonic distortion VMHAI PQVPH Voltage variation PHQVVR PQSS Voltage unbalance VSQVUB PQVUB Control Circuit-breaker control CBXCBR Disconnector control DCXSWI 29DS Grounding switch control ESXSWI 29GS...

  • Page 36: Addition Of Control Functions For Primary Devices And The Use Of Binary Inputs And Outputs

    Section 3 1MAC807603-MB A RED615 standard configurations Function IEC 61850 ANSI IEC 61850-9-2 LE sampled value SMVRECEIVER SMVRECEIVER receiving (voltage sharing) Other Minimum pulse timer (2 pcs) TPGAPC 62TP Minimum pulse timer (2 pcs, second TPSGAPC 62TPS resolution) Minimum pulse timer (2 pcs, minute TPMGAPC 62TPM resolution)
  • Page 37 Section 3 1MAC807603-MB A RED615 standard configurations The external I/O module’s binary inputs and outputs can be used for the less time-critical binary signals of the application. The integration enables releasing some initially reserved binary inputs and outputs of the protection relay’s standard configuration. The suitability of the protection relay’s binary outputs which have been selected for primary device control should be carefully verified, for example make and carry and breaking capacity.

  • Page 38: Connection Diagrams

    Section 3 1MAC807603-MB A RED615 standard configurations Connection diagrams RED615 X100 X120 BI 1 Positive Current Direction BI 2 BI 3 BI 4 1/5A 1/5A 1/5A 1/5A X130 BI 1 BI 2 TCM-1 BI 3 BI 4 TCM-2 60 - 210V U12B 60 -...
  • Page 39 Section 3 1MAC807603-MB A RED615 standard configurations Positive Current Direction RED615 X130 X100 0.2/1A X131 X132 X133 TCM-1 TCM-2 X110 X110 BI 1 BI 2 BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 1) 2) 1) 2) 1) 3) GNDC IRIG-B -...

  • Page 40: Standard Configuration D

    Section 3 1MAC807603-MB A RED615 standard configurations Standard configuration D 3.3.1 Applications The standard configuration with directional overcurrent and directional ground-fault protection, phase-voltage and frequency based protection is mainly intended for cable feeder applications in distribution networks. The standard configuration for line current differential protection includes support for in-zone transformers.

  • Page 41: Functions

    Section 3 1MAC807603-MB A RED615 standard configurations 3.3.2 Functions Υ or Δ Δ RED615 V5.0 ANSI Func Appl D 27-1 59-1 47-1 47U-1 81-1 27-2 27-3 50P-3 HIZ-1 46PD 51P-1 51P-2 50P-1 59-2 87L-1 INR-1 46-1 46-2 59-3 BF-1 81-2 59N-1 81-3 50G-1...
  • Page 42 Section 3 1MAC807603-MB A RED615 standard configurations Table 10: Default connections for binary inputs Binary input Description Connector pins X110-BI1 Lockout reset X110:1-2 X110-BI2 Binary signal transfer input X110:3-4 X110-BI3 X110:5-6 X110-BI4 X110:7-6 X110-BI5 X110:8-9 X110-BI6 X110:10-9 X110-BI7 X110:11-12 X110-BI8 X110:13-12 X120-BI1 Blocking input for general use...

  • Page 43: Default Disturbance Recorder Settings

    Section 3 1MAC807603-MB A RED615 standard configurations Table 12: Default connections for LEDs Default usage Label description Line differential protection LED_DiffProtBiasedLowStage Diff. prot. biased low stage biased stage trip Line differential protection LED_DiffProtHighStage_1 Diff. prot. high stage instantaneous stage trip Line differential protection is not LED_DiffProtNotAvailable_1 Diff.
  • Page 44 Section 3 1MAC807603-MB A RED615 standard configurations Table 14: Default disturbance recorder binary channels Channel ID text Level trigger mode LNPLDF1 - pickup Positive or Rising LNPLDF1 - trip Positive or Rising PHIPTOC1 - pickup Positive or Rising DPHHPDOC1 - pickup Positive or Rising DPHLPDOC1 - pickup Positive or Rising...

  • Page 45: Functional Diagrams

    Section 3 1MAC807603-MB A RED615 standard configurations Channel ID text Level trigger mode PHxPTOC - trip Level trigger off NSPTOC - trip Level trigger off INTRPTEF1 - trip Level trigger off EFHPTOC1 - trip Level trigger off DEFxPDEF/WPWDE/EFPADM - trip Level trigger off PDNSPTOC1 - trip Level trigger off...

  • Page 46: Functional Diagrams For Protection

    Section 3 1MAC807603-MB A RED615 standard configurations The analog channels have fixed connections to the different function blocks inside the protection relay’s standard configuration. However, the 12 analog channels available for the disturbance recorder function are freely selectable as a part of the disturbance recorder’s parameter settings.
  • Page 47 Section 3 1MAC807603-MB A RED615 standard configurations LNPLDF1 BLOCK TRIP LNPLDF1_87L-1_TRIP BLOCK_LS PICKUP CCSPVC1_CCM_FAIL LNPLDF1_87L-1_PICKUP ENA_MULT_HS STR_LS_LOC REMOTE_CCSPVC_FAIL STR_LS_REM O:26|T:2.5|I:0 OPR_LS_LOC LNPLDF1_87L-1_OPR_LS_LOC OPR_LS_REM LNPLDF1_87L-1_OPR_LS_REM OPR_HS_LOC LNPLDF1_87L-1_OPR_HS_LOC OPR_HS_REM LNPLDF1_87L-1_OPR_HS_REM BLKD2H_LOC LNPLDF1_87L-1_BLKD2H_LOC BLKD2H_REM REMOTE_FEEDER_READY LNPLDF1_87L-1_BLKD2H_REM PRO_ACTIVE REMOTE_CB_OPEN LNPLDF1_87L-1_PROT_ACTIVE O:25|T:2.5|I:2 O:38|T:2.5|I:1 LNPLDF1_87L-1_OPR_LS_LOC LNPLDF_LS_TRIP LNPLDF1_87L-1_OPR_LS_REM O:44|T:2.5|I:14 LNPLDF1_87L-1_PROT_ACTIVE...
  • Page 48 Section 3 1MAC807603-MB A RED615 standard configurations PHIPTOC1 DPHHPDOC1 BLOCK TRIP BLOCK TRIP X120_BI1_EXT_OC_BLOCKING PHIPTOC1_50P-3_TRIP DPHHPDOC1_67/50P-1_TRIP ENA_MULT PICKUP ENA_MULT PICKUP PHIPTOC1_50P-3_PICKUP DPHHPDOC1_67/50P-1_PICKUP NON_DIR O:39|T:2.5|I:1 O:40|T:5|I:1 DPHLPDOC1 BLOCK TRIP DPHLPDOC1_67/51P-1_TRIP ENA_MULT PICKUP DPHLPDOC1_67/51P-1_PICKUP NON_DIR O:62|T:5|I:1 DPHLPDOC2 BLOCK TRIP DPHLPDOC2_67/51P-2_TRIP ENA_MULT PICKUP DPHLPDOC2_67/51P-2_PICKUP NON_DIR O:45|T:5|I:2...
  • Page 49 Section 3 1MAC807603-MB A RED615 standard configurations DEFLPDEF1 BLOCK TRIP CCSPVC1_CCM_FAIL DEFLPDEF1_67/51N-1_TRIP ENA_MULT PICKUP DEFLPDEF1_67/51N-1_PICKUP RCA_CTL O:63|T:5|I:1 DEFLPDEF2 BLOCK TRIP CCSPVC1_CCM_FAIL DEFLPDEF2_67/51N-2_TRIP ENA_MULT PICKUP DEFLPDEF2_67/51N-2_PICKUP RCA_CTL O:36|T:5|I:2 DEFHPDEF1 BLOCK TRIP CCSPVC1_CCM_FAIL DEFHPDEF1_67/50N-1_TRIP ENA_MULT PICKUP DEFHPDEF1_67/50N-1_PICKUP RCA_CTL O:29|T:5|I:1 DEFHPDEF1_67/50N-1_TRIP DEFxPDEF_TRIP DEFLPDEF1_67/51N-1_TRIP DEFLPDEF2_67/51N-2_TRIP O:106|T:2.5|I:35 EFHPTOC1...
  • Page 50 Section 3 1MAC807603-MB A RED615 standard configurations WPWDE1 BLOCK TRIP WPWDE1_32N-1_TRIP RCA_CTL PICKUP WPWDE1_32N-1_PICKUP O:65|T:5|I:1 WPWDE2 BLOCK TRIP WPWDE2_32N-2_TRIP RCA_CTL PICKUP WPWDE2_32N-2_PICKUP O:37|T:5|I:2 WPWDE3 BLOCK TRIP WPWDE3_32N-3_TRIP RCA_CTL PICKUP WPWDE3_32N-3_PICKUP O:28|T:5|I:3 WPWDE1_32N-1_TRIP WPWDE_TRIP WPWDE2_32N-2_TRIP WPWDE3_32N-3_TRIP O:109|T:2.5|I:15 GUID-9A0381F2-5D21-458A-ACD2-400E34B63E0A V1 EN Figure 18: Wattmetric protection function RED615 ANSI Application Manual...
  • Page 51 Section 3 1MAC807603-MB A RED615 standard configurations EFPADM1 BLOCK TRIP EFPADM1_21YN-1_TRIP RELEASE PICKUP EFPADM1_21YN-1_PICKUP O:64|T:5|I:1 EFPADM2 BLOCK TRIP EFPADM2_21YN-2_TRIP RELEASE PICKUP EFPADM2_21YN-2_PICKUP O:35|T:5|I:2 EFPADM3 BLOCK TRIP EFPADM3_21YN-3_TRIP RELEASE PICKUP EFPADM3_21YN-3_PICKUP O:27|T:5|I:3 EFPADM1_21YN-1_TRIP EFPADM_TRIP EFPADM2_21YN-2_TRIP EFPADM3_21YN-3_TRIP O:108|T:2.5|I:27 GUID-C6B0AF21-D334-43CB-B19E-DB4A31C58882 V1 EN Figure 19: Admittance-based ground-fault protection function The output BLK2H of three-phase inrush detector INRPHAR1_INR-1 offers the possibility to either block the function or multiply the active settings for any of the...
  • Page 52 Section 3 1MAC807603-MB A RED615 standard configurations NSPTOC1 BLOCK TRIP CCSPVC1_CCM_FAIL NSPTOC1_46-1_TRIP ENA_MULT PICKUP NSPTOC1_46-1_PICKUP O:33|T:5|I:1 NSPTOC2 BLOCK TRIP CCSPVC1_CCM_FAIL NSPTOC2_46-2_TRIP ENA_MULT PICKUP NSPTOC2_46-2_PICKUP O:34|T:5|I:2 NSPTOC1_46-1_TRIP NSPTOC_TRIP NSPTOC2_46-2_TRIP O:115|T:2.5|I:12 GUID-24188DD9-CE79-4CAD-975B-BD641AA03A08 V1 EN Figure 21: Negative-sequence overcurrent protection function Phase discontinuity protection PDNSPTOC1_46PD protects for interruptions in the normal three-phase load supply, for example, in downed conductor situations.
  • Page 53 Section 3 1MAC807603-MB A RED615 standard configurations undervoltage PSPTUV1_47U-1 and negative-sequence overvoltage NSPTOV1_47-1 protection functions enable voltage-based unbalance protection. A failure in the voltage measuring circuit is detected by the fuse failure function and the activation is connected to block undervoltage protection functions and voltage based unbalance protection functions to avoid faulty tripping.
  • Page 54 Section 3 1MAC807603-MB A RED615 standard configurations NSPTOV1 BLOCK TRIP SEQSPVC1_60-1_FUSEF_U NSPTOV1_47-1_TRIP PICKUP NSPTOV1_47-1_PICKUP O:70|T:5|I:1 GUID-245C338F-2E41-49E9-AA96-1B56769CF6B0 V1 EN Figure 26: Negative-sequence overvoltage protection function PSPTUV1 BLOCK TRIP SEQSPVC1_60-1_FUSEF_U PSPTUV1_47U-1_TRIP PICKUP PSPTUV1_47U-1_PICKUP O:69|T:5|I:1 GUID-D0E60CE1-1066-46FD-9118-BA8885F1B640 V1 EN Figure 27: Positive-sequence undervoltage protection function The residual overvoltage protection ROVPTOV_59G/N provides ground-fault protection by detecting an abnormal level of residual voltage.
  • Page 55 Section 3 1MAC807603-MB A RED615 standard configurations The autoreclosing function can be inhibited with the INHIBIT_RECL input. By default, few selected protection function operations are connected to this input. A control command to the circuit breaker, either local or remote, also blocks the autoreclosing function via the CBXCBR1_52-1_SELECTED signal.
  • Page 56 Section 3 1MAC807603-MB A RED615 standard configurations PHIPTOC1_50P-3_TRIP DPHHPDOC1_67/50P-1_TRIP DPHLPDOC1_67/51P-1_TRIP LNPLDF1_87L-1_TRIP CCBRBRF1 BLOCK CB_FAULT_AL O:66|T:2.5|I:48 O:78|T:2.5|I:25 PICKUP TRBU CCBRBRF1_50BF-1_TRBU POSCLOSE TRRET X120_BI2_CB_CLOSED CCBRBRF1_50BF-1_TRRET CB_FAULT O:94|T:2.5|I:1 DEFHPDEF1_67/50N-1_TRIP DEFLPDEF2_67/51N-2_TRIP WPWDE2_32N-2_TRIP WPWDE3_32N-3_TRIP EFPADM2_21YN-2_TRIP EFPADM3_21YN-3_TRIP O:67|T:2.5|I:32 GUID-82F09B94-DDC1-4536-B182-1F3C5E21D89F V1 EN Figure 30: Circuit breaker failure protection function The trip signals from the protection functions are connected to the two trip logics TRPPTRC1_86/94-1 and TRPPTRC2_86/94-2.
  • Page 57 Section 3 1MAC807603-MB A RED615 standard configurations PHIPTOC1_50P-3_TRIP DPHLPDOC2_67/51P-2_TRIP DPHHPDOC1_67/50P-1_TRIP DPHLPDOC1_67/51P-1_TRIP NSPTOC1_46-1_TRIP TRPPTRC1 NSPTOC2_46-2_TRIP BLOCK TRIP TRPPTRC1_86/94-1_TRIP O:127|T:2.5|I:22 O:130|T:2.5|I:45 TRIP CL_LKOUT RST_LKOUT X110_BI1_RST_LOCKOUT O:47|T:2.5|I:1 DEFHPDEF1_67/50N-1_TRIP DEFLPDEF1_67/51N-1_TRIP DEFLPDEF2_67/51N-2_TRIP EFPADM1_21YN-1_TRIP EFPADM2_21YN-2_TRIP EFPADM3_21YN-3_TRIP O:128|T:2.5|I:12 INTRPTEF1_67NIEF_TRIP EFHPTOC1_50G-1_TRIP PDNSPTOC1_46PD_TRIP ROVPTOV1_59G_TRIP ROVPTOV2_59N-1_TRIP LNPLDF1_87L-1_TRIP O:125|T:2.5|I:5 WPWDE1_32N-1_TRIP WPWDE2_32N-2_TRIP WPWDE3_32N-3_TRIP PHPTUV1_27-1_TRIP PHPTUV2_27-2_TRIP...

  • Page 58: Functional Diagrams For Disturbance Recorder

    Section 3 1MAC807603-MB A RED615 standard configurations PHIPTOC1_50P-3_TRIP DPHLPDOC2_67/51P-2_TRIP DPHHPDOC1_67/50P-1_TRIP DPHLPDOC1_67/51P-1_TRIP NSPTOC1_46-1_TRIP TRPPTRC2 NSPTOC2_46-2_TRIP BLOCK TRIP TRPPTRC2_86/94-2_TRIP O:99|T:2.5|I:9 O:104|T:2.5|I:0 TRIP CL_LKOUT RST_LKOUT X110_BI1_RST_LOCKOUT O:48|T:2.5|I:2 DEFHPDEF1_67/50N-1_TRIP DEFLPDEF1_67/51N-1_TRIP DEFLPDEF2_67/51N-2_TRIP EFPADM1_21YN-1_TRIP EFPADM2_21YN-2_TRIP EFPADM3_21YN-3_TRIP O:103|T:2.5|I:17 INTRPTEF1_67NIEF_TRIP EFHPTOC1_50G-1_TRIP PDNSPTOC1_46PD_TRIP ROVPTOV1_59G_TRIP ROVPTOV2_59N-1_TRIP PSPTUV1_47U-1_TRIP O:100|T:2.5|I:43 NSPTOV1_47-1_TRIP CCBRBRF1_50BF-1_TRRET WPWDE1_32N-1_TRIP WPWDE2_32N-2_TRIP WPWDE3_32N-3_TRIP...

  • Page 59: Functional Diagrams For Condition Monitoring

    Section 3 1MAC807603-MB A RED615 standard configurations DEFLPDEF1_67/51N-1_PICKUP EFPADM1_21YN-1_PICKUP RDRE1 WPWDE1_32N-1_PICKUP TRIGGERED LNPLDF1_87L-1_PICKUP DISTURB_RECORD_TRIGGERED LNPLDF1_87L-1_TRIP PHIPTOC1_50P-3_PICKUP DPHHPDOC1_67/50P-1_PICKUP O:82|T:2.5|I:41 DPHLPDOC1_67/51P-1_PICKUP DPHLPDOC2_67/51P-2_PICKUP DEFLPDEF2_67/51N-2_PICKUP NSPTOC1_46-1_PICKUP EFPADM2_21YN-2_PICKUP NSPTOC2_46-2_PICKUP WPWDE2_32N-2_PICKUP INTRPTEF1_67NIEF_PICKUP EFHPTOC1_50G-1_PICKUP PHIPTOC1_50P-3_TRIP DPHHPDOC1_67/50P-1_TRIP DPHLPDOC1_67/51P-1_TRIP O:83|T:2.5|I:31 DPHLPDOC2_67/51P-2_TRIP PDNSPTOC1_46PD_PICKUP T1PTTR1_49F-1_PICKUP T2PTTR1_49T-1_PICKUP PHPTOV1_59-1_PICKUP O:81|T:2.5|I:8 PHPTOV2_59-2_PICKUP DEFHPDEF1_67/50N-1_PICKUP EFPADM3_21YN-3_PICKUP ROVPTOV1_59G_PICKUP WPWDE3_32N-3_PICKUP ROVPTOV2_59N-1_PICKUP...
  • Page 60 Section 3 1MAC807603-MB A RED615 standard configurations SEQSPVC1 BLOCK FUSEF_3PH SEQSPVC1_60-1_FUSEF_3PH CB_CLOSED FUSEF_V X120_BI2_CB_CLOSED SEQSPVC1_60-1_FUSEF_U DISCON_OPEN MINCB_OPEN O:59|T:2.5|I:1 GUID-AF0E63F8-B9D1-41FE-8A9F-59510E3D93BF V1 EN Figure 35: Fuse failure supervision function Circuit-breaker condition monitoring SSCBR1_52CM-1 supervises the switch status based on the connected binary input information and the measured current levels. SSCBR1_52CM-1 introduces various supervision methods.
  • Page 61 Section 3 1MAC807603-MB A RED615 standard configurations functions are blocked by the master trip TRPPTRC1_86/94-1 and TRPPTRC2_86/94-2 and the circuit breaker open signal. It is assumed that there is no external resistor in the circuit breaker tripping coil circuit connected in parallel with the circuit breaker normally open auxiliary contact.

  • Page 62: Functional Diagrams For Control And Interlocking

    Section 3 1MAC807603-MB A RED615 standard configurations PCSITPC1 WARNING ALARM PCSITPC1_PCS-1_ALARM COMM O:79|T:5|I:1 GUID-32ED8314-9BCA-4B0A-B329-F12C6AF0D012 V1 EN Figure 40: Protection communication supervision function The binary signal transfer function BSTGGIO is used for changing any binary information which can be used for example, in protection schemes, interlocking and alarms.
  • Page 63 Section 3 1MAC807603-MB A RED615 standard configurations If REMOTE_FEEDER_READY information is missing, for example, in case of protection communication not being connected, it disables the circuit breaker closing in the local relay. CBXCBR1 POSOPEN SELECTED X120_BI3_CB_OPEN CBXCBR1_52-1_SELECTED POSCLOSE EXE_OP X120_BI2_CB_CLOSED CBXCBR1_52-1_EXE_OP ENA_OPEN EXE_CL...
  • Page 64 Section 3 1MAC807603-MB A RED615 standard configurations The configuration includes the logic for generating circuit breaker external closing and opening command with the relay in local or remote mode. Check the logic for the external circuit breaker closing command and modify it according to the application.

  • Page 65: Functional Diagrams For Measurement Functions

    Section 3 1MAC807603-MB A RED615 standard configurations AND6 TRPPTRC1_86/94-1_TRIP LOCAL_FEEDER_READY O:134|T:2.5|I:0 O:135|T:2.5|I:0 TRPPTRC2_86/94-2_TRIP O:133|T:2.5|I:2 GUID-3291DE3C-1967-4AE8-80AE-AFA05A90AEC1 V1 EN Figure 49: Logic for local feeder ready 3.3.3.5 Functional diagrams for measurement functions The phase current inputs to the relay are measured by the three-phase current measurement function CMMXU1.
  • Page 66 Section 3 1MAC807603-MB A RED615 standard configurations CSMSQI1 O:144|T:5|I:1 GUID-B7A68333-1785-4BCC-A389-BB00EC6CB617 V1 EN Figure 51: Sequence current measurements RESCMMXU1 BLOCK HIGH_ALARM HIGH_WARN O:149|T:5|I:1 GUID-6CA1D2EE-B790-4EE0-8CE9-431C092FE9F4 V1 EN Figure 52: Ground current measurements VMMXU1 VMMXU2 BLOCK HIGH_ALARM BLOCK HIGH_ALARM HIGH_WARN HIGH_WARN LOW_WARN LOW_WARN LOW_ALARM LOW_ALARM O:9|T:5|I:1...

  • Page 67: Functional Diagrams For Io And Alarm Leds

    Section 3 1MAC807603-MB A RED615 standard configurations FLTRFRC1 BLOCK CB_CLRD O:7|T:2.5|I:1 LDPRLRC1 RSTMEM MEM_WARN MEM_ALARM O:153|T:5|I:1 GUID-69B0C681-D802-4E40-8B95-B161A75C2941 V1 EN Figure 58: Data monitoring and load profile record 3.3.3.6 Functional diagrams for IO and alarm LEDs X110_BI1_RST_LOCKOUT X110 (BIO)_110.X110-Input 1 X110_BI2_BINARY_TRANSFER X110 (BIO)_110.X110-Input 2 GUID-91E3CAD5-0429-4111-B579-37735DA5FA60 V1 EN Figure 59:...
  • Page 68 Section 3 1MAC807603-MB A RED615 standard configurations CB_CLOSE_COMMAND X100 (PSM)_100.X100-PO1 CCBRBRF1_50BF-1_TRBU X100 (PSM)_100.X100-PO2 DIFFERENTIAL_TRIP_PULSE X100 (PSM)_100.X100-SO1 LNPLDF_NOT_ACTIVE_OR_PCSRTPC_ALARM X100 (PSM)_100.X100-SO2 CB_OPEN_COMMAND X100 (PSM)_100.X100-PO3 TRPPTRC2_86/94-2_TRIP X100 (PSM)_100.X100-PO4 GUID-C7D5768B-67DA-4D4A-B39C-604286B9A979 V1 EN Figure 61: Default binary outputs - X100 X120_BI1_EXT_OC_BLOCKING X120 (AIM)_120.X120-Input 1 X120_BI2_CB_CLOSED X120 (AIM)_120.X120-Input 2 X120_BI3_CB_OPEN X120 (AIM)_120.X120-Input 3...
  • Page 69 Section 3 1MAC807603-MB A RED615 standard configurations LED1 LED6 ALARM ALARM LNPLDF_LS_TRIP T1PTTR1_49F-1_ALARM RESET RESET T2PTTR1_49T-1_ALARM BACKUP_PROT_TRIP O:131|T:2.5|I:1 O:118|T:2.5|I:6 LED2 LED7 O:117|T:2.5|I:14 ALARM ALARM LNPLDF_HS_TRIP CCBRBRF1_50BF-1_TRBU RESET RESET O:132|T:2.5|I:2 O:105|T:2.5|I:7 LED3 LED8 ALARM ALARM LNPLDF1_87L-1_PROT_NOT_ACTIVE DISTURB_RECORD_TRIGGERED RESET RESET O:124|T:2.5|I:3 O:97|T:2.5|I:8 LED4 LED9 ALARM...

  • Page 70: Functional Diagrams For Other Functions

    Section 3 1MAC807603-MB A RED615 standard configurations 3.3.3.7 Functional diagrams for other functions Protection BI_SG_2 SG_LOGIC_SEL TRUE BI_SG_3 SG_1_ACT O:11|T:2.5|I:6 BI_SG_4 SG_2_ACT BI_SG_5 SG_3_ACT BI_SG_6 SG_4_ACT SG_5_ACT SG_6_ACT BEH_TEST TRUE FALSE BEH_BLK O:12|T:2.5|I:5 O:141|T:2.5|I:0 Control CTRL_OFF CTRL_LOC LOCAL CONTROL_LOCAL CTRL_STA STATION CTRL_REM REMOTE...
  • Page 71 Section 3 1MAC807603-MB A RED615 standard configurations TPGAPC2 OUT1 BACKUP_PROT_TRIP BACKUP_PROT_TRIP_PULSE OUT2 O:123|T:2.5|I:2 ROVPTOV_TRIP BACKUP_PROT_TRIP NSPTOC_TRIP PDNSPTOC1_46PD_TRIP PHIPTOC1_50P-3_TRIP O:116|T:2.5|I:20 DPHxPDOC_TRIP DEFxPDEF_TRIP INTRPTEF1_67NIEF_TRIP EFPADM_TRIP WPWDE_TRIP EFHPTOC1_50G-1_TRIP O:112|T:2.5|I:6 PHPTUV_TRIP PSPTUV1_47U-1_TRIP NSPTOV1_47-1_TRIP PHPTOV_TRIP O:113|T:2.5|I:26 GUID-BEE06267-5F18-4B56-899A-5B2F07E33278 V1 EN Figure 66: Timer logic for backup protection trip pulse TONGAPC1 TOFGAPC1 O:154|T:2.5|I:1...

  • Page 72: Functional Diagrams For Communication

    Section 3 1MAC807603-MB A RED615 standard configurations 3.3.3.9 Functional diagrams for communication MBSLPRT1 DNPLPRT1 Status Status O:168|T:2.5|I:1 O:8|T:2.5|I:1 SCHLCCH1 SCHLCCH2 SCHLCCH3 CH1LIV CH2LIV CH3LIV LNK1LIV LNK2LIV LNK3LIV O:4|T:2.5|I:1 O:10|T:2.5|I:2 O:165|T:2.5|I:3 RCHLCCH1 CHLIV_A SERLCCH1 SERLCCH2 REDCHLIV_B CH1LIV CH2LIV LNKLIV_A LNK1LIV LNK2LIV REDLNKLIV_B O:159|T:2.5|I:1 O:142|T:2.5|I:2...

  • Page 73: Functions

    Section 3 1MAC807603-MB A RED615 standard configurations 3.4.2 Functions Va, Vb, Vc 10010010 0100101010 RED615 V5.0 ANSI Func Appl E 1000011 IEC 61850-9-2LE 27-1 59-1 47-1 47U-1 81-1 27-2 50P-3 HIZ-1 46PD 51P-1 51P-2 50P-1 27-3 87L-1 INR-1 46-1 46-2 59N-1 59-2 59N-2...
  • Page 74 Section 3 1MAC807603-MB A RED615 standard configurations Table 16: Default connections for binary inputs Binary input Description Connector pins X110-BI1 X110:1-2 X110-BI2 X110:3-4 X110-BI3 Circuit breaker open position indication X110:5-6 X110-BI4 Circuit breaker closed position indication X110:7-6 X110-BI5 X110:8-9 X110-BI6 X110:10-9 X110-BI7 X110:11-12...

  • Page 75: Default Disturbance Recorder Settings

    Section 3 1MAC807603-MB A RED615 standard configurations Default usage Label description Protection communication LED_ProtectionCommFailure_ Protection comm. failure supervision alarm Supervision alarm LED_Supervision_1 Supervision Circuit breaker monitoring LED_CBConditionMonitoring_ CB condition monitoring alarm 3.4.2.2 Default disturbance recorder settings Table 19: Default disturbance recorder analog channels Channel Description Table 20:...
  • Page 76 Section 3 1MAC807603-MB A RED615 standard configurations Channel ID text Level trigger mode DEFLPDEF1/WPWDE1/EFPADM1 - pickup Positive or Rising DEFLPDEF2/WPWDE2/EFPADM2 - pickup Positive or Rising DEFHPDEF1/WPWDE3/EFPADM3 - pickup Positive or Rising PDNSPTOC1 - pickup Positive or Rising T1PTTR1 - pickup Positive or Rising T2PTTR1 - pickup Positive or Rising...

  • Page 77: Functional Diagrams

    Section 3 1MAC807603-MB A RED615 standard configurations Channel ID text Level trigger mode PHPTUV - trip Level trigger off INRPHAR1 - blk2h Level trigger off PCSITPC1 - alarm Level trigger off CCSPVC1 - alarm Level trigger off X110BI3 - CB open Level trigger off X110BI4 - CB closed Level trigger off...

  • Page 78: Functional Diagrams For Protection

    Section 3 1MAC807603-MB A RED615 standard configurations The signal marked with VA, VB and VC represents the three phase voltages. The protection relay offers six different setting groups which can be set based on individual needs. Each group can be activated or deactivated using the setting group settings available in the protection relay.
  • Page 79 Section 3 1MAC807603-MB A RED615 standard configurations LNPLDF1 BLOCK TRIP LNPLDF1_87L-1_TRIP BLOCK_LS PICKUP CCSPVC1_CCM_FAIL LNPLDF1_87L-1_PICKUP ENA_MULT_HS STR_LS_LOC REMOTE_CCSPVC_FAIL STR_LS_REM O:22|T:2.5|I:5 OPR_LS_LOC LNPLDF1_87L-1_OPR_LS_LOC OPR_LS_REM LNPLDF1_87L-1_OPR_LS_REM OPR_HS_LOC LNPLDF1_87L-1_OPR_HS_LOC OPR_HS_REM LNPLDF1_87L-1_OPR_HS_REM BLKD2H_LOC LNPLDF1_87L-1_BLKD2H_LOC BLKD2H_REM REMOTE_FEEDER_READY LNPLDF1_87L-1_BLKD2H_REM PRO_ACTIVE REMOTE_CB_OPEN LNPLDF1_87L-1_PROT_ACTIVE O:115|T:2.5|I:18 O:44|T:2.5|I:1 LNPLDF1_87L-1_OPR_LS_LOC LNPLDF_LS_TRIP LNPLDF1_87L-1_OPR_LS_REM O:64|T:2.5|I:0 LNPLDF1_87L-1_PROT_ACTIVE...
  • Page 80 Section 3 1MAC807603-MB A RED615 standard configurations PHIPTOC1 DPHHPDOC1 BLOCK TRIP BLOCK TRIP LNPLDF1_87L-1_PROT_ACTIVE PHIPTOC1_50P-3_TRIP DPHHPDOC1_67/50P-1_TRIP ENA_MULT PICKUP ENA_MULT PICKUP INRPHAR1_INR-1_BLK2H PHIPTOC1_50P-3_PICKUP DPHHPDOC1_67/50P-1_PICKUP NON_DIR O:49|T:2.5|I:1 O:50|T:5|I:1 DPHLPDOC1 BLOCK TRIP DPHLPDOC1_67/51P-1_TRIP ENA_MULT PICKUP DPHLPDOC1_67/51P-1_PICKUP NON_DIR O:51|T:5|I:1 DPHLPDOC2 BLOCK TRIP DPHLPDOC2_67/51P-2_TRIP ENA_MULT PICKUP DPHLPDOC2_67/51P-2_PICKUP NON_DIR...
  • Page 81 Section 3 1MAC807603-MB A RED615 standard configurations DEFLPDEF1 BLOCK TRIP CCSPVC1_CCM_FAIL DEFLPDEF1_67/51N-1_TRIP ENA_MULT PICKUP DEFLPDEF1_67/51N-1_PICKUP RCA_CTL O:30|T:5|I:1 DEFLPDEF2 BLOCK TRIP CCSPVC1_CCM_FAIL DEFLPDEF2_67/51N-2_TRIP ENA_MULT PICKUP DEFLPDEF2_67/51N-2_PICKUP RCA_CTL O:32|T:5|I:2 DEFHPDEF1 BLOCK TRIP CCSPVC1_CCM_FAIL DEFHPDEF1_67/50N-1_TRIP ENA_MULT PICKUP DEFHPDEF1_67/50N-1_PICKUP RCA_CTL O:29|T:5|I:1 DEFHPDEF1_67/50N-1_TRIP DEFxPDEF_TRIP DEFLPDEF1_67/51N-1_TRIP DEFLPDEF2_67/51N-2_TRIP O:125|T:2.5|I:26 EFHPTOC1...
  • Page 82 Section 3 1MAC807603-MB A RED615 standard configurations WPWDE1 BLOCK TRIP WPWDE1_32N-1_TRIP RCA_CTL PICKUP WPWDE1_32N-1_PICKUP O:35|T:5|I:1 WPWDE2 BLOCK TRIP WPWDE2_32N-2_TRIP RCA_CTL PICKUP WPWDE2_32N-2_PICKUP O:37|T:5|I:2 WPWDE3 BLOCK TRIP WPWDE3_32N-3_TRIP RCA_CTL PICKUP WPWDE3_32N-3_PICKUP O:33|T:5|I:3 WPWDE1_32N-1_TRIP WPWDE_TRIP WPWDE2_32N-2_TRIP WPWDE3_32N-3_TRIP O:124|T:2.5|I:32 GUID-9A2E03EA-93C2-4336-8747-CB18755A2835 V1 EN Figure 74: Wattmetric protection function RED615 ANSI Application Manual...
  • Page 83 Section 3 1MAC807603-MB A RED615 standard configurations EFPADM1 BLOCK TRIP EFPADM1_21YN-1_TRIP RELEASE PICKUP EFPADM1_21YN-1_PICKUP O:31|T:5|I:1 EFPADM2 BLOCK TRIP EFPADM2_21YN-2_TRIP RELEASE PICKUP EFPADM2_21YN-2_PICKUP O:27|T:5|I:2 EFPADM3 BLOCK TRIP EFPADM3_21YN-3_TRIP RELEASE PICKUP EFPADM3_21YN-3_PICKUP O:28|T:5|I:3 EFPADM1_21YN-1_TRIP EFPADM_TRIP EFPADM2_21YN-2_TRIP EFPADM3_21YN-3_TRIP O:123|T:2.5|I:52 GUID-3069433B-79BD-42C3-907E-5EDA3C0C7C29 V1 EN Figure 75: Admittance-based ground-fault protection function The output BLK2H of three-phase inrush detector INRPHAR1_INR-1 offers the possibility to either block the function or multiply the active settings for any of the...
  • Page 84 Section 3 1MAC807603-MB A RED615 standard configurations NSPTOC1 BLOCK TRIP CCSPVC1_CCM_FAIL NSPTOC1_46-1_TRIP ENA_MULT PICKUP NSPTOC1_46-1_PICKUP O:53|T:5|I:1 NSPTOC2 BLOCK TRIP CCSPVC1_CCM_FAIL NSPTOC2_46-2_TRIP ENA_MULT PICKUP NSPTOC2_46-2_PICKUP O:54|T:5|I:2 NSPTOC1_46-1_TRIP NSPTOC_TRIP NSPTOC2_46-2_TRIP O:129|T:2.5|I:1 GUID-96893425-50DA-4678-B161-09AAB959914D V1 EN Figure 77: Negative-sequence overcurrent protection function Phase discontinuity protection PDNSPTOC1_46PD protects for interruptions in the normal three-phase load supply, for example, in downed conductor situations.
  • Page 85 Section 3 1MAC807603-MB A RED615 standard configurations undervoltage PSPTUV1_47U-1 and negative-sequence overvoltage NSPTOV1_47-1 protection functions enable voltage-based unbalance protection. A failure in the voltage measuring circuit is detected by the fuse failure function and the activation is connected to block undervoltage protection functions and voltage based unbalance protection functions to avoid faulty tripping.
  • Page 86 Section 3 1MAC807603-MB A RED615 standard configurations ROVPTOV1 BLOCK TRIP ROVPTOV1_59G_TRIP PICKUP ROVPTOV1_59G_PICKUP O:48|T:5|I:1 ROVPTOV2 BLOCK TRIP SEQSPVC1_60-1_FUSEF_U ROVPTOV2_59N-1_TRIP PICKUP ROVPTOV2_59N-1_PICKUP O:45|T:5|I:2 GUID-18B864F6-C8C8-462E-B980-63AC349B8D31 V1 EN Figure 84: Residual voltage protection function The overcurrent protection, negative-sequence overcurrent protection, phase discontinuity, ground-fault protection, residual overvoltage protection, phase overvoltage and undervoltage protection are all used as backup protection against line differential protection.
  • Page 87 Section 3 1MAC807603-MB A RED615 standard configurations DARREC1 INIT_1 OPEN_CB LNPLDF_LS_TRIP DARREC1_79_OPEN_CB INIT_2 CLOSE_CB PHIPTOC1_50P-3_TRIP DARREC1_79_CLOSE_CB INIT_3 CMD_WAIT DPHHPDOC1_67/50P-1_TRIP INIT_4 INPRO DPHLPDOC2_67/51P-2_TRIP DARREC1_79_INPRO INIT_5 LOCKED OUT DEFLPDEF2_67/51N-2_TRIP INIT_6 PROT_CRD EFPADM2_21YN-2_TRIP DEL_INIT_2 UNSUC_RECL WPWDE2_32N-2_TRIP DARREC1_79_UNSUC_RECL DEL_INIT_3 AR_ON DEL_INIT_4 READY BLK_RECL_T ACTIVE BLK_RCLM_T O:61|T:2.5|I:35 BLK_THERM...
  • Page 88 Section 3 1MAC807603-MB A RED615 standard configurations General pickup and trip from all the functions are connected to minimum pulse timer TPGAPC1 for setting the minimum pulse length for the outputs. The output from TPGAPC1 is connected to binary outputs. TPGAPC4 OUT1 PHIPTOC1_50P-3_PICKUP...

  • Page 89: Functional Diagrams For Disturbance Recorder

    Section 3 1MAC807603-MB A RED615 standard configurations TRPPTRC1 BLOCK TRIP TRPPTRC1_86/94-1_TRIP TRIP CL_LKOUT PHIPTOC1_50P-3_TRIP RST_LKOUT DPHLPDOC2_67/51P-2_TRIP DPHHPDOC1_67/50P-1_TRIP O:67|T:2.5|I:1 DPHLPDOC1_67/51P-1_TRIP NSPTOC1_46-1_TRIP NSPTOC2_46-2_TRIP O:60|T:2.5|I:0 O:65|T:2.5|I:41 DEFHPDEF1_67/50N-1_TRIP DEFLPDEF1_67/51N-1_TRIP DEFLPDEF2_67/51N-2_TRIP EFPADM1_21YN-1_TRIP EFPADM2_21YN-2_TRIP EFPADM3_21YN-3_TRIP O:56|T:2.5|I:50 INTRPTEF1_67NIEF_TRIP EFHPTOC1_50G-1_TRIP PDNSPTOC1_46PD_TRIP ROVPTOV1_59G_TRIP ROVPTOV2_59N-1_TRIP LNPLDF1_87L-1_TRIP O:59|T:2.5|I:10 WPWDE1_32N-1_TRIP WPWDE2_32N-2_TRIP WPWDE3_32N-3_TRIP PHPTUV1_27-1_TRIP PHPTUV2_27-2_TRIP CCBRBRF1_50BF-1_TRRET...

  • Page 90: Functional Diagrams For Condition Monitoring

    Section 3 1MAC807603-MB A RED615 standard configurations DEFLPDEF1_67/51N-1_PICKUP EFPADM1_21YN-1_PICKUP RDRE1 WPWDE1_32N-1_PICKUP TRIGGERED LNPLDF1_87L-1_PICKUP LNPLDF1_87L-1_TRIP PHIPTOC1_50P-3_PICKUP DPHHPDOC1_67/50P-1_PICKUP O:103|T:2.5|I:39 DPHLPDOC1_67/51P-1_PICKUP PHIPTOC1_50P-3_TRIP DPHLPDOC2_67/51P-2_PICKUP DPHHPDOC1_67/50P-1_TRIP NSPTOC1_46-1_PICKUP DPHLPDOC1_67/51P-1_TRIP NSPTOC2_46-2_PICKUP DPHLPDOC2_67/51P-2_TRIP INTRPTEF1_67NIEF_PICKUP DEFLPDEF2_67/51N-2_PICKUP EFHPTOC1_50G-1_PICKUP EFPADM2_21YN-2_PICKUP WPWDE2_32N-2_PICKUP O:104|T:2.5|I:25 PDNSPTOC1_46PD_PICKUP T1PTTR1_49F-1_PICKUP T2PTTR1_49T-1_PICKUP O:105|T:2.5|I:15 PHPTOV1_59-1_PICKUP NSPTOC1_46-1_TRIP PHPTOV2_59-2_PICKUP NSPTOC2_46-2_TRIP ROVPTOV1_59G_PICKUP O:106|T:2.5|I:8 ROVPTOV2_59N-1_PICKUP DEFHPDEF1_67/50N-1_PICKUP...
  • Page 91 Section 3 1MAC807603-MB A RED615 standard configurations SEQSPVC1 BLOCK FUSEF_3PH SEQSPVC1_60-1_FUSEF_3PH CB_CLOSED FUSEF_V X110_BI4_CB_CLOSED SEQSPVC1_60-1_FUSEF_U DISCON_OPEN MINCB_OPEN O:21|T:2.5|I:1 GUID-8C224307-6F7A-4782-B6F6-F6E8693D8DD2 V1 EN Figure 91: Fuse failure supervision function Circuit-breaker condition monitoring SSCBR1_52CM-1 supervises the switch status based on the connected binary input information and the measured current levels. SSCBR1_52CM-1 introduces various supervision methods.
  • Page 92 Section 3 1MAC807603-MB A RED615 standard configurations functions are blocked by the master trip TRPPTRC1_86/94-1 and TRPPTRC2_86/94-2 and the circuit breaker open signal. It is assumed that there is no external resistor in the circuit breaker tripping coil circuit connected in parallel with the circuit breaker normally open auxiliary contact.

  • Page 93: Functional Diagrams For Control And Interlocking

    Section 3 1MAC807603-MB A RED615 standard configurations The binary signal transfer function BSTGGIO is used for changing any binary information which can be used for example, in protection schemes, interlocking and alarms. There are eight separate inputs and corresponding outputs available. In this configuration, one physical input X110:BI2 is connected to the binary signal transfer channel one.
  • Page 94 Section 3 1MAC807603-MB A RED615 standard configurations CBXCBR1 POSOPEN SELECTED X110_BI3_CB_OPEN CBXCBR1_52-1_SELECTED POSCLOSE EXE_OP X110_BI4_CB_CLOSED CBXCBR1_52-1_EXE_OP ENA_OPEN EXE_CL TRUE CBXCBR1_52-1_EXE_CL ENA_CLOSE OP_REQ CBXCBR1_52-1_ENA_CLOSE BLK_OPEN CL_REQ FALSE BLK_CLOSE OPENPOS CBXCBR1_52-1_BLK_CLOSE CBXCBR1_52-1_OPENPOS AU_OPEN CLOSEPOS CBXCBR1_52-1_AU_OPEN AU_CLOSE OKPOS CBXCBR1_52-1_AU_CLOSE TRIP OPEN_ENAD SYNC_OK CLOSE_ENAD CBXCBR1_52-1_CLOSE_ENAD SYNC_ITL_BYP O:55|T:5|I:1...

  • Page 95: Functional Diagrams For Measurement Functions

    Section 3 1MAC807603-MB A RED615 standard configurations CONTROL_LOCAL FALSE O:20|T:2.5|I:3 CBXCBR1_52-1_AU_CLOSE O:26|T:2.5|I:11 CONTROL_REMOTE FALSE O:19|T:2.5|I:4 GUID-5572B8B6-1A0B-44A0-90D1-3F1206447B65 V1 EN Figure 101: External closing command for circuit breaker CONTROL_LOCAL FALSE O:18|T:2.5|I:0 CBXCBR1_52-1_AU_OPEN O:25|T:2.5|I:3 CONTROL_REMOTE FALSE O:17|T:2.5|I:1 GUID-C637AED6-8700-4B50-B40D-7FD03A167B22 V1 EN Figure 102: External opening command for circuit breaker T1PTTR1_49F-1_BLK_CLOSE CBXCBR1_52-1_BLK_CLOSE T2PTTR1_49T-1_BLK_CLOSE...
  • Page 96 Section 3 1MAC807603-MB A RED615 standard configurations The three-phase bus side phase voltage inputs to the relay are measured by three-phase voltage measurement VMMXU1. The voltage input is connected to the X130 card in the back panel. The sequence voltage measurement VSMSQI1 measures the sequence voltage and the residual voltage measurement RESVMMXU1 measures the residual voltage.

  • Page 97: Functional Diagrams For Io And Alarm Leds

    Section 3 1MAC807603-MB A RED615 standard configurations VSMSQI1 O:137|T:5|I:1 GUID-7245E0F7-8618-4075-AA69-EF878712B945 V1 EN Figure 109: Sequence voltage measurements FMMXU1 O:153|T:5|I:1 GUID-163EFA2A-2947-4148-94DF-D3CDABFA3F5B V1 EN Figure 110: Frequency measurement PEMMXU1 RSTACM O:145|T:5|I:1 GUID-0808D8D7-45E2-49D7-AC53-6E4DE46D3137 V1 EN Figure 111: Three-phase power and energy measurement FLTRFRC1 BLOCK CB_CLRD O:7|T:2.5|I:1...
  • Page 98 Section 3 1MAC807603-MB A RED615 standard configurations CBXCBR1_52-1_CLOSE_ENAD X100 (PSM)_100.X100-PO1 CCBRBRF1_50BF-1_TRBU X100 (PSM)_100.X100-PO2 CB_OPEN_COMMAND X100 (PSM)_100.X100-PO3 CB_CLOSE_COMMAND X100 (PSM)_100.X100-PO4 GUID-65C722B3-2B37-4F75-95FD-D5331074DA96 V1 EN Figure 114: Default binary outputs - X100 LED1 LED6 ALARM ALARM T1PTTR1_49F-1_ALARM CBXCBR1_52-1_ENA_CLOSE RESET RESET T2PTTR1_49T-1_ALARM O:84|T:2.5|I:1 O:132|T:2.5|I:9 O:133|T:2.5|I:6 LED2 LED7...

  • Page 99: Functional Diagrams For Other Functions

    Section 3 1MAC807603-MB A RED615 standard configurations 3.4.3.7 Functional diagrams for other functions Protection BI_SG_2 SG_LOGIC_SEL TRUE BI_SG_3 SG_1_ACT O:11|T:2.5|I:1 BI_SG_4 SG_2_ACT BI_SG_5 SG_3_ACT BI_SG_6 SG_4_ACT SG_5_ACT SG_6_ACT BEH_TEST TRUE FALSE BEH_BLK O:12|T:2.5|I:0 O:135|T:2.5|I:0 Control CTRL_OFF CTRL_LOC LOCAL CONTROL_LOCAL CTRL_STA STATION CTRL_REM REMOTE...

  • Page 100: Functional Diagrams For Communication

    Section 3 1MAC807603-MB A RED615 standard configurations 3.4.3.9 Functional diagrams for communication MBSLPRT1 DNPLPRT1 Status Status O:159|T:2.5|I:1 O:8|T:2.5|I:1 SCHLCCH1 SCHLCCH2 SCHLCCH3 CH1LIV CH2LIV CH3LIV LNK1LIV LNK2LIV LNK3LIV O:4|T:2.5|I:1 O:10|T:2.5|I:2 O:155|T:2.5|I:3 SERLCCH1 SERLCCH2 RCHLCCH1 CH1LIV CH2LIV CHLIV_A LNK1LIV LNK2LIV REDCHLIV_B LNKLIV_A O:149|T:2.5|I:1 O:136|T:2.5|I:2 REDLNKLIV_B...

  • Page 101: Section 4 Requirements For Measurement Transformers

    Section 4 1MAC807603-MB A Requirements for measurement transformers Section 4 Requirements for measurement transformers Current transformers 4.1.1 Current transformer requirements for overcurrent protection For reliable and correct operation of the overcurrent protection, the CT has to be chosen carefully. The distortion of the secondary current of a saturated CT may endanger the operation, selectivity, and co-ordination of protection.

  • Page 102: Non-Directional Overcurrent Protection

    Section 4 1MAC807603-MB A Requirements for measurement transformers The CT accuracy primary limit current describes the highest fault current magnitude at which the CT fulfils the specified accuracy. Beyond this level, the secondary current of the CT is distorted and it might have severe effects on the performance of the protection relay. In practise, the actual accuracy limit factor (F ) differs from the rated accuracy limit factor ) and is proportional to the ratio of the rated CT burden and the actual CT burden.

  • Page 103: Example For Non-Directional Overcurrent Protection

    Section 4 1MAC807603-MB A Requirements for measurement transformers is the nominal primary current of the CT. The factor 0.7 takes into account the protection relay inaccuracy, current transformer errors, and imperfections of the short circuit calculations. The adequate performance of the CT should be checked when the setting of the high set stage overcurrent protection is defined.
  • Page 104 Section 4 1MAC807603-MB A Requirements for measurement transformers A071142-ANSI V2 EN Figure 119: Example of three-stage overcurrent protection The maximum three-phase fault current is 41.7 kA and the minimum three-phase short circuit current is 22.8 kA. The actual accuracy limit factor of the CT is calculated to be 59. The pickup current setting for low-set stage (51P) is selected to be about twice the nominal current of the cable.

  • Page 105: Section 5 Protection Relay's Physical Connections

    Section 5 1MAC807603-MB A Protection relay's physical connections Section 5 Protection relay's physical connections Inputs 5.1.1 Energizing inputs 5.1.1.1 Phase currents The protection relay can also be used in single or two-phase applications by leaving one or two energizing inputs unoccupied. However, at least terminals X120:7-8 must be connected.

  • Page 106: Ground Voltage

    Section 5 1MAC807603-MB A Protection relay's physical connections 5.1.1.4 Ground voltage Table 25: Additional residual voltage input included in configuration D Terminal Description X130:17-18 5.1.1.5 Sensor inputs Table 26: Combi sensor inputs included in configuration E Terminal Description X131 X132 X133 5.1.2 Auxiliary supply voltage input...
  • Page 107 Section 5 1MAC807603-MB A Protection relay's physical connections Table 28: Binary input terminals X110:1-13 with BIO0005 module Terminal Description X110:1 BI1, + X110:2 BI1, - X110:3 BI2, + X110:4 BI2, - X110:5 BI3, + X110:6 BI3, - X110:6 BI4, - X110:7 BI4, + X110:8...

  • Page 108: Rtd/Ma Inputs

    Section 5 1MAC807603-MB A Protection relay's physical connections Table 30: Binary input terminals X130:1-8 with AIM0006 module Terminal Description X130:1 BI1, + X130:2 BI1, - X130:3 BI2, + X130:4 BI2, - X130:5 BI3, + X130:6 BI3, - X130:7 BI4, + X130:8 BI4, - 5.1.4...

  • Page 109: Outputs For Signalling

    Section 5 1MAC807603-MB A Protection relay's physical connections Table 32: Output contacts Terminal Description X100:6 PO1, NO X100:7 PO1, NO X100:8 PO2, NO X100:9 PO2, NO X100:15 PO3, NO (TCM resistor) X100:16 PO3, NO X100:17 PO3, NO X100:18 PO3 (TCM1 input), NO X100:19 PO3 (TCM1 input), NO X100:20...

  • Page 110: Irf

    Section 5 1MAC807603-MB A Protection relay's physical connections Terminal Description X110:17 SO2, common X110:18 SO2, NO X110:19 SO2, NC X110:20 SO3, common X110:21 SO3, NO X110:22 SO3, NC X110:23 SO4, common X110:24 SO4, NO 5.2.3 The IRF contact functions as an output contact for the self-supervision system of the protection relay.
  • Page 111 Section 5 1MAC807603-MB A Protection relay's physical connections single-mode version of protection relay is required if the pilot wire link is used. The fiber optic cable is connected to the X16/LD connector in the protection relay and in Ethernet FX connector in the pilot wire modem. Setting or configuration is not needed with either of the pilot wire modem variants or with the protection relay.

  • Page 113: Section 6 Glossary

    Section 6 1MAC807603-MB A Glossary Section 6 Glossary Analog input ANSI American National Standards Institute ASCII American Standard Code for Information Interchange Binary input Binary input and output Binary output Circuit breaker Current transformer Doubly attached node 1. Direct current 2.
  • Page 114 Section 6 1MAC807603-MB A Glossary IEC 61850-9-2 A communication protocol based on the IEC 61850 standard series IEC 61850-9-2 LE Lite Edition of IEC 61850-9-2 offering process bus interface Intelligent electronic device IEEE 1588 v2 Standard for a Precision Clock Synchronization Protocol for networked measurement and control systems Internet protocol IP address...
  • Page 115 Section 6 1MAC807603-MB A Glossary Single-line diagram SNTP Simple Network Time Protocol Signal output Single-line diagram Simplified notation for representing a three-phase power system. Instead of representing each of three phases with a separate line or terminal, only one conductor is represented.
  • Page 120 — ABB Inc. 4300 Coral Ridge Drive Coral Springs, Florida 33065, USA Phone +1 954 752 6700 +1 954 345 5329 Phone +1 800 222 1946 (Customer Service 24/7) www.abb.com/mediumvoltage www.abb.com/substationautomation © Copyright 2018 ABB. All rights reserved.

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