ABB RELION 615 Series Engineering Manual
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ABB RELION 615 Series Engineering Manual

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RELION® PROTECTION AND CONTROL
615 series ANSI
Engineering Manual

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Summary of Contents for ABB RELION 615 Series

  • Page 1 — RELION® PROTECTION AND CONTROL 615 series ANSI Engineering Manual...
  • Page 3 Document ID: 1MAC108982-MB Issued: 2018-02-26 Revision: E 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 Safety information Dangerous voltages can occur on the connectors, even though the auxiliary voltage has been disconnected. Non-observance can result in death, personal injury or substantial property damage. Only a competent electrician is allowed to carry out the electrical installation. National and local electrical safety regulations must always be followed.

  • Page 9: 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................ 7 Functions, codes and symbols............8 Section 2 Relay engineering process..........15 Monitoring and control system structure..........18 Standard configuration concept..............
  • Page 10 Table of contents Building the plant structure..............46 Inserting an IED..................47 Inserting an IED in online mode............49 Inserting an IED in offline mode............58 Inserting an IED from the template directory........60 Inserting an IED by importing a .pcmi file.......... 62 Setting the IED IP address in a project...........64 COM600S project...................
  • Page 11 Table of contents Fault Record tool..................96 Opening and closing Fault Record tool..........97 Fault Record tool interface..............98 IED Compare..................99 Starting IED Compare..............100 IED Compare tool interface............. 100 Protection and control blocking examples..........102 Protection blocking example............103 Control blocking example..............
  • Page 12 Table of contents Function view for IEC 61850 in PCM600.........134 Station configuration description file types........134 IEC 61850 engineering process............135 Exporting SCL files from PCM600........... 136 Exporting SCD files..............136 Exporting ICD or CID files............138 Engineering vertical and horizontal communication......140 Importing SCL files to PCM600............

  • Page 13: Section 1 Introduction

    Section 1 1MAC108982-MB E Introduction Section 1 Introduction This manual The engineering manual contains instructions on how to engineer the protection relays using the different tools in PCM600. The manual provides instructions on how to set up a PCM600 project and insert relays to the project structure. The manual also recommends a sequence for engineering of protection and control functions, LHMI functions as well as communication engineering for IEC 61850 and other supported protocols.

  • Page 14: Product Documentation

    Cyber security deployment guideline GUID-12DC16B2-2DC1-48DF-8734-0C8B7116124C V2 EN Figure 1: The intended use of documents during the product life cycle 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 series version...

  • Page 15: Related Documentation

    Introduction Download the latest documents from the ABB Web site http://www.abb.com/substationautomation. 1.3.3 Related documentation Product series- and product-specific manuals can be downloaded from the ABB Web site http://www.abb.com/substationautomation. Symbols and conventions 1.4.1 Symbols The caution icon indicates important information or warning related to the concept discussed in the text.

  • Page 16: Functions, Codes And Symbols

    Section 1 1MAC108982-MB E Introduction To navigate between the options, use • Menu paths are presented in bold. Select Main menu/Settings. • LHMI messages are shown in Courier font. To save the changes in nonvolatile memory, select Yes and press •...
  • Page 17 Section 1 1MAC108982-MB E Introduction Function IEC 61850 IEC 60617 ANSI/C37.2-2008 RED615 REF615 REG615 REM615 RET615 Non-directional ground- EFIPTOC1 Io>>> (1) 50G-3 fault protection, EFIPTOC2 Io>>> (2) 50N-3 instantaneous stage Directional ground-fault DEFLPDEF1 Io> -> (1) 67/51N-1 67/51N-1 67/51N-1 67/51N 67/51N-1 (2) protection, low stage DEFLPDEF2...
  • Page 18 Section 1 1MAC108982-MB E Introduction Function IEC 61850 IEC 60617 ANSI/C37.2-2008 RED615 REF615 REG615 REM615 RET615 Three-phase thermal T2PTTR1 3Ith>T/G/C (1) 49T-1 49T-1 49T (1) overload protection, two time constants Negative-sequence MNSPTOC1 I2>M (1) 46M-1 46M-1 overcurrent protection for MNSPTOC2 I2>M (2) 46M-2 46M-2...
  • Page 19 Section 1 1MAC108982-MB E Introduction Function IEC 61850 IEC 60617 ANSI/C37.2-2008 RED615 REF615 REG615 REM615 RET615 MAPGAPC7 MAP (7) MAP-7 MAP-7 MAP-7 MAP-7 MAP-7 MAPGAPC8 MAP (8) MAP-8 MAP-8 MAP-8 MAP-8 MAP-8 MAPGAPC9 MAP (9) MAP-9 MAP-9 MAP-9 MAP-9 MAP-9 MAPGAPC10 MAP (10) MAP-10...
  • Page 20 Section 1 1MAC108982-MB E Introduction Function IEC 61850 IEC 60617 ANSI/C37.2-2008 RED615 REF615 REG615 REM615 RET615 Voltage unbalance VSQVUB1 PQUUB (1) PQVUB-1 PQVUB-1 PQVUB-1 Control Circuit-breaker control CBXCBR1 I <-> O CB (1) 52-1 52-1 52-1 52 (1) CBXCBR2 I <-> O CB (2) 52-2 52 (2) Disconnector control...
  • Page 21 Section 1 1MAC108982-MB E Introduction Function IEC 61850 IEC 60617 ANSI/C37.2-2008 RED615 REF615 REG615 REM615 RET615 Residual voltage RESVMMXU1 Uo (1) VG-1 VG-1 VG (2) measurement RESVMMXU2 Uo (2) VG-2 Sequence voltage VSMSQI1 U1, U2, U0 (1) V1, V2, V0 V1, V2, V0 V1, V2, V0 V1, V2, V0...
  • Page 22 Section 1 1MAC108982-MB E Introduction Function IEC 61850 IEC 60617 ANSI/C37.2-2008 RED615 REF615 REG615 REM615 RET615 UDFCNT2 UDCNT (2) CTR-2 CTR-2 CTR-2 CTR-2 CTR-2 UDFCNT3 UDCNT (3) CTR-3 CTR-3 CTR-3 CTR-3 CTR-3 UDFCNT4 UDCNT (4) CTR-4 CTR-4 CTR-4 CTR-4 CTR-4 615 series ANSI Engineering Manual...

  • Page 23: Section 2 Relay Engineering Process

    Section 2 1MAC108982-MB E Relay engineering process Section 2 Relay engineering process PCM600 is used for various tasks in the protection relay engineering process. • Relay engineering management • Organizing the bay protection relays in the structure of the substation by defining voltage levels and bays below the substation.
  • Page 24 Section 2 1MAC108982-MB E Relay engineering process • Generating overviews on the available (digital fault) recordings in all connected protection relays by using the Disturbance Handling tool. • Manually reading the recording files (in the COMTRADE format) from the protection relays by using the Disturbance Handling tool or automatically by using the PCM600 Scheduler.
  • Page 25 Section 2 1MAC108982-MB E Relay engineering process GUID-AEEFCDDD-591F-4555-A6D5-78FC69BF623F V3 EN Figure 2: Organization of PCM600 in different management tasks There are also additional functions for managing projects and organizing user rights. • PCM600 user management • Organizing users regarding their rights, profiles and passwords to use different tools and functions in the tools.

  • Page 26: Monitoring And Control System Structure

    Section 2 1MAC108982-MB E Relay engineering process Monitoring and control system structure The monitoring and control system for electrical substations contains a number of devices for various purposes. The maximum size of a project is 180 devices. However, in order to maintain good performance and usability of the tool, it is recommended to divide one big project into multiple smaller PCM600 projects.

  • Page 27: Standard Configuration Concept

    Section 2 1MAC108982-MB E Relay engineering process • Project • Substation = name of the substation • Voltage level = identifies to which grid type or part the device belongs in the substation • Bay = bay within the voltage level •...
  • Page 28 Section 2 1MAC108982-MB E Relay engineering process Some of the standard configurations offers very wide functionality in means of number of different functions available as part of the product configuration. It is possible to use all of the offered functions at the same time. However, if unused function blocks are removed from the configuration with the Application Configuration, more resources in the protection relay can be used for other purposes.

  • Page 29: Workflow

    Section 2 1MAC108982-MB E Relay engineering process Workflow Start Create plant structure and insert IED objects Project Configure IED functionality Save the work between the different steps Parametrization Create single line diagram for local HMI IEC 61850 DNP 3.0 Modbus Export SCL files from Export PCM600...
  • Page 30 Section 2 1MAC108982-MB E Relay engineering process Setting up a PCM600 project • The plant structure is built according to the substation structure. The maximum size of a project is 180 IEDs. However, in order to maintain good performance and usability of the tool, it is recommended to divide one big project into multiple smaller PCM600 projects.
  • Page 31 Section 2 1MAC108982-MB E Relay engineering process • The communication engineering details are protocol-dependent. • The connectivity package creates the IEC 61850 configuration for vertical communication automatically and it is directly suitable, in most cases, for IEC 61850 client configuration. Either IEC 61850 Configuration tool or IET600 is needed for configuring horizontal and vertical communication.

  • Page 33: Section 3 Pcm600 Tool

    Section 3 1MAC108982-MB E PCM600 tool Section 3 PCM600 tool Protection and Control IED Manager PCM600 offers all the necessary functionality to work throughout all stages of the protection relay life cycle. • Planning • Engineering • Commissioning • Operation and disturbance handling •...

  • Page 34: Connectivity Packages

    Section 3 1MAC108982-MB E PCM600 tool PCM600 can be used for different purposes throughout the protection relay life cycle. A set of special tools is available for different applications. The applications can be organized into groups. • Relay engineering • Communication engineering •...

  • Page 35: Pcm600 And Relay Connectivity Package Version

    Installing connectivity packages • Install connectivity packages either by running the installer which can be downloaded on the ABB Website or by using Update Manager when a network connection is available. Download connectivity packages from the ABB Web site http://www.abb.com/substationautomation or directly with Update Manager in PCM600.

  • Page 36: Installing Connectivity Packages By Using The Connectivity Package Installer

    3.2.1.1 Installing connectivity packages by using the connectivity package installer Close PCM600. Run the ABB IED Connectivity Package RE_6xx Ver. n.msi installer. (n = version number) To install the connectivity package, follow the steps in the connectivity package installation wizard.

  • Page 37: Activating Connectivity Packages

    Section 3 1MAC108982-MB E PCM600 tool GUID-CD8A9C2A-0CF0-451F-A820-82482C646EB3 V1 EN Figure 7: Selecting the connectivity packages 3.2.2 Activating connectivity packages The relay connectivity package has to be installed before it can be activated in Update Manager. Select Manage Connectivity Packages from the menu on the left column to access the installed connectivity packages.

  • Page 38: Pcm600 Projects

    Section 3 1MAC108982-MB E PCM600 tool GUID-B3D2C177-2737-425F-B4E4-22F4D4326343-ANSI V2 EN Figure 8: Selecting the connectivity package versions PCM600 recognizes the installed connectivity packages during start-up, and the corresponding IED types are available in PCM600 when starting a new project. The 2.0, 4.0, 4.2 and 5.0 FP1 ANSI protection relay versions can be in the same PCM600 project only if the project was created with ANSI 4.2 connectivity package.

  • Page 39: Technical Key

    Section 3 1MAC108982-MB E PCM600 tool 61850 version of PCM600 is Edition 1. The protection relay's IEC 61850 version is by default Edition 2. With PCM600, it is possible to do various tasks. • Open existing projects • Import projects •...

  • Page 40: Iec 61850 Naming Conventions To Identify An Ied

    Section 3 1MAC108982-MB E PCM600 tool When writing a configuration to the protection relay, PCM600 checks for a mismatch between the IED object and the physical IED technical key. GUID-EF8A07F6-C6D1-4AA8-BDAD-A5F29F33389A V1 EN Figure 9: Reboot suggestion Ensure that the IED object in PCM600 has the same IP address as the physical IED that is intended to be connected through the technical key concept.
  • Page 41 Section 3 1MAC108982-MB E PCM600 tool PCM600 takes care of these two possibilities. The two possible signal designations are available per object in the Object Properties for all the hierarchical levels beginning with the station as the highest level. The technical key is automatically generated based on the rules and type specifications of IEC 61346 and the extended definitions assigned for substations by a technical committee.
  • Page 42 Section 3 1MAC108982-MB E PCM600 tool GUID-81D555F9-0F22-4112-BF6D-48F2A3376612-ANSI V1 EN Figure 10: PCM600: IEC 61850 signal designation concept The created technical key for the full path name of the IED would be: AA1J1Q01A1. • AA1 = substation in the project • J1 = voltage level from 20 to 30 kV •...

  • Page 43: Setting The Technical Key

    Section 3 1MAC108982-MB E PCM600 tool 3.4.2 Setting the technical key The maximum length of technical key is 28 characters for Edition 1 and 60 characters for Edition 2. In the Plant Structure view, right-click the IED and select Set Technical Key in IED.
  • Page 44 Section 3 1MAC108982-MB E PCM600 tool GUID-EE8F635B-1895-4117-A756-F80FA9027037-ANSI V1 EN Figure 11: PCM600: Setting the technical key on the IED level A dialog box opens to inform about the technical key concept. 615 series ANSI Engineering Manual...
  • Page 45 Section 3 1MAC108982-MB E PCM600 tool GUID-96ECAC44-6A11-4C1F-B50C-3E8A80051950 V1 EN Figure 12: Technical key information Click OK. The technical key is read from the IED and the Set Technical Key dialog box opens. GUID-177E6088-50E3-4A18-83E6-9777AEACB3C1 V1 EN Figure 13: Setting the technical key In Set Technical Key dialog box, select the technical key to be used.

  • Page 46: Communication Between Pcm600 And The Protection Relay

    Section 3 1MAC108982-MB E PCM600 tool Communication between PCM600 and the protection relay The communication between the protection relay and PCM600 is independent of the used communication protocol within the substation or to the NCC. All communication is done over Ethernet using either IEC 61850 or FTP/FTPS protocol. Each protection relay has an Ethernet interface connector on the front and optionally on the rear side as well.

  • Page 47: Setting Up Ip Addresses

    Section 3 1MAC108982-MB E PCM600 tool 3.5.1 Setting up IP addresses The IP address and the corresponding subnet mask can be set via LHMI for the rear Ethernet interface in the protection relay. Each Ethernet interface has a default factory IP address when the complete protection relay is delivered.

  • Page 48: Prerequisites For Local And Remote Updates

    Section 3 1MAC108982-MB E PCM600 tool 3.6.1 Prerequisites for local and remote updates Local update • Use of the front port is recommended when updating locally. Remove the IED from the network especially with redundant network topologies (HSR/PRP). Remote update •...
  • Page 49 Section 3 1MAC108982-MB E PCM600 tool GUID-DFB23CF8-9966-4A5E-B322-C9C998B4BA7C V1 EN Figure 14: Choosing the update mode and package Select the network interface controller, for example, the PC's integrated Ethernet communication card or an external Ethernet adapter, connected to the IED and click GUID-AF43F861-54EB-4F5E-B745-38994F6A423A V1 EN Figure 15: Selecting the network interface controller...
  • Page 50 Section 3 1MAC108982-MB E PCM600 tool • The local user can cancel the update via the LHMI by pressing during the 30 second window. • IED use is allowed after the update is completed successfully. GUID-82BB575B-99D9-4C84-B35E-FB85D8465323 V1 EN Figure 16: Waiting for local user confirmation with remote update 615 series ANSI Engineering Manual...
  • Page 51 Section 3 1MAC108982-MB E PCM600 tool GUID-31FD0CB0-CFBC-48AB-BF96-D3F9436DBDEE V1 EN Figure 17: Completing the update 615 series ANSI Engineering Manual...

  • Page 53: Section 4 Setting Up A Project

    Section 4 1MAC108982-MB E Setting up a project Section 4 Setting up a project Creating a new project Start PCM600. To see the projects that are currently available in the PCM databases, select File/ Open/Manage Project on the menu bar. The Open/Manage Project window is displayed.

  • Page 54: Building The Plant Structure

    Section 4 1MAC108982-MB E Setting up a project IEC09000375 V2 EN Figure 19: Creating a new project In the Project Name box, give a name for the project. The project name must be unique. Optionally, write a description of the project in the Description box. Click Create.

  • Page 55: Inserting An Ied

    Section 4 1MAC108982-MB E Setting up a project • Right-click the Plant Structure view, point to New and select Create from Template. • Right-click the Plant Structure view, point to New and select General and select the element either IED Group or Substation. On the View menu, select Object Types.
  • Page 56 Section 4 1MAC108982-MB E Setting up a project • Insert either offline or online IED • Import a template IED that is available in the template library as a .pcmt file • Import a preconfigured IED available as a .pcmi file PCM600 uses two kinds of IED files: .pcmt and .pcmi.

  • Page 57: Inserting An Ied In Online Mode

    Section 4 1MAC108982-MB E Setting up a project 4.3.1 Inserting an IED in online mode To set up an IED online, the protection relay must be connected to PCM600. When the protection relay is already connected to PCM600, PCM600 can read the order number directly from the relay.
  • Page 58 Section 4 1MAC108982-MB E Setting up a project GUID-C326AA0A-27ED-46DF-8B61-7484B8CB41F1-ANSI V1 EN Figure 23: Configuration mode selection On the Communication protocol selection page, select the communication protocol from the IED protocol list and click Next. 615 series ANSI Engineering Manual...
  • Page 59 Section 4 1MAC108982-MB E Setting up a project GUID-F8B3A98A-BD75-4E2D-B279-822A2504F1EE-ANSI V1 EN Figure 24: Communication protocol selection On the IEC61850 communication protocol page, select the port from the Port list. • If the rear port is selected, type the correct IP address (of the physical protection relay to be configured) to the IP address box.
  • Page 60 Section 4 1MAC108982-MB E Setting up a project GUID-3FD49387-3726-4483-AD54-7FBC6D441805-ANSI V1 EN Figure 25: Communication port and IP address Communication configuration is now defined. 615 series ANSI Engineering Manual...
  • Page 61 Section 4 1MAC108982-MB E Setting up a project GUID-FAC9B045-7D1C-4996-B038-F2DEEEFAD10A V1 EN Figure 26: Communication configuration defined Click Next to scan/read the order code of the protection relay. On the Order code detection page, click Next. 615 series ANSI Engineering Manual...
  • Page 62 Section 4 1MAC108982-MB E Setting up a project GUID-DAE10A3A-6821-4B06-B33A-670E22FC9834 V5 EN Figure 27: Order code detection 615 series ANSI Engineering Manual...
  • Page 63 Section 4 1MAC108982-MB E Setting up a project GUID-DAE10A3A-6821-4B06-B33A-670E22FC9834-ANSI V1 EN Figure 28: Order code detection On the Configuration selection page, select the configuration type and click Next. • Select Empty Configuration to create an empty configuration. • Select Example Configuration to import any existing example configuration.
  • Page 64 Section 4 1MAC108982-MB E Setting up a project GUID-9DF2D226-E34F-468B-BA0C-5A829948AD86 V1 EN Figure 29: Configuration selection page On the Version selection page, select the IEC 61850 version and click Next. Regardless of the protocol used in the installation for each project, the IEC 61850 version must be selected when adding the first protection relay to the plant structure.
  • Page 65 Section 4 1MAC108982-MB E Setting up a project GUID-02789F3F-DD47-4CDB-86DE-F9258E01BF50-ANSI V1 EN Figure 30: Setup complete To cancel the insertion, click Cancel. If an error is found on the Setup Complete Page, it is not possible to go back and make modifications. If an error is detected, cancel the insertion by clicking Cancel and insert the IED again.

  • Page 66: Inserting An Ied In Offline Mode

    Section 4 1MAC108982-MB E Setting up a project Data cannot be scanned from the protection relay and proceeding is prevented if the IED is not online or if the IP address is not correct. 4.3.2 Inserting an IED in offline mode When the protection relay is not available or is not connected to PCM600, engineering can be done offline.
  • Page 67 Section 4 1MAC108982-MB E Setting up a project GUID-2A8CE4A6-1AA7-4129-A1B5-A739D4BCA4B7 V3 EN Figure 31: Configuration mode selection wizard On the Order Code selection page, select the correct order codes and click Next. Ensure that the order code is correct. PCM600 verifies later that the order code matches with the relay.

  • Page 68: Inserting An Ied From The Template Directory

    Section 4 1MAC108982-MB E Setting up a project • Select Empty configuration to create an empty configuration. • Select Example configuration to import any existing example configuration. Click Browse to select the .pcmi/.pcmt file that has the example configuration. • Select Standard configuration to generate a default configuration.
  • Page 69 Section 4 1MAC108982-MB E Setting up a project GUID-176DF09D-AF72-483A-B1FD-519D69345121 V2 EN Figure 33: PCM600: Selecting an IED from the template library Select the IED from the list of available IEDs. Click the icon on the right column in the list of available templates. The Template Properties dialog box opens.

  • Page 70: Inserting An Ied By Importing A .Pcmi File

    Section 4 1MAC108982-MB E Setting up a project GUID-62DCC284-90D6-498A-A79A-25E884C61CC8-ANSI V1 EN Figure 34: PCM600: Template information Check and verify the template information and click Close to close the dialog box. The Create New Object from Template dialog box is displayed. Delete, import or create a template by clicking the corresponding button.
  • Page 71 Section 4 1MAC108982-MB E Setting up a project In the Plant Structure view, right-click the bay and select Import. A .pcmi file can be imported only when the bay is selected in the plant structure. GUID-187F89B8-CF8B-457B-A6C2-09E3FF34E929-ANSI V1 EN Figure 35: Importing IED configuration In the Import dialog box, select the .pcmi file to be imported and click Open.

  • Page 72: Setting The Ied Ip Address In A Project

    Section 4 1MAC108982-MB E Setting up a project Setting the IED IP address in a project The IP address and subnet mask of the IED object in PCM600 must match the front and rear port of the protection relay (physical IED) to which the PC is connected. The IP address of the protection relay can only be set via the LHMI or Parameter Setting tool in PCM600.

  • Page 73: Com600S Project

    Section 4 1MAC108982-MB E Setting up a project GUID-B4B71E12-25CB-4B8B-8F9A-90131BD68E4D V3 EN Figure 37: Alternative 2: Setting the IP address in IED's Object Properties dialog box Choosing between the two ways depends on when the IP address is set. Typing the IP address via the IED's Object Properties dialog box is possible at any time while entering it via the configuration wizard can only be done when adding the IED object.

  • Page 74: Importing A 615 Series Protection Relay In A Com600S Project

    Section 4 1MAC108982-MB E Setting up a project In PCM600, the front or rear communication port can be selected from the project structure. When using the front port, DHCP server functionality must be activated in the computer network adapter settings to get the IP address from the relay. Alternatively, the computer network adapter IP address can be set manually to the same subnet range as the front port.
  • Page 75 Section 4 1MAC108982-MB E Setting up a project GUID-01F6FEB6-B57B-4A56-939B-46750205D914 V2 EN Figure 39: Creating a PCM600 project including several IEDs Export the SCD file from PCM600. In the Plant structure view, select the substation, right-click and select Export. 615 series ANSI Engineering Manual...
  • Page 76 Section 4 1MAC108982-MB E Setting up a project IEC09000687 V2 EN Figure 40: Exporting SCD file from PCM600 and importing it to SAB600 Import the SCD configuration into the SAB600 project. In the Project Explorer view, right-click the IEC61850 OPC Server object and select SCL Import.
  • Page 77 Section 4 1MAC108982-MB E Setting up a project GUID-70E8B187-FADA-4657-9BC7-223FDA7374ED V2 EN Figure 41: Importing the SCD configuration into the SAB600 project In the SCL Import view, click Select File to select the SCD file exported from PCM600. 615 series ANSI Engineering Manual...

  • Page 78: Using The Web Hmi

    Section 4 1MAC108982-MB E Setting up a project GUID-6F47B4AD-B956-4F77-A6A2-DE6F4A71D607 V2 EN Figure 42: Creating a new IED into SAB600 project Check the default settings in the SCL Import view and change the settings if they are not suitable. The default settings in the SCL Import dialog should be correct in most cases. Click Import to import the SCD file.

  • Page 79: Managing Ied Users

    Section 4 1MAC108982-MB E Setting up a project To establish a remote WHMI connection to the protection relay, contact the network administrator to check the company rules for IP and remote connections. Disable the Web browser proxy settings or make an exception to the proxy rules to allow the protection relay's WHMI connection, for example, by including the relay's IP address in Internet Options/Connections/LAN Settings/Advanced/Exceptions.
  • Page 80 Section 4 1MAC108982-MB E Setting up a project GUID-FC9D4AB3-C472-4BDB-B64B-DEE4FEACC4FA V1 EN Figure 43: Changing the password using the IED User Management tool Set the object property values in PCM600 to make the communication between the IED and PCM600 work, if the remote authentication has been enabled. Table 4: Object properties to change Object Properties field...
  • Page 81 Section 4 1MAC108982-MB E Setting up a project GUID-D0853D4E-D594-454A-9299-997ADF3E0896 V1 EN Figure 44: Object properties When communicating with the protection relay with PCM600 tools and with the relay authentication enabled, the relay username and password must be given when prompted. When setting the technical key, the username and password must be given twice.

  • Page 82: Pcm600 Project's Iec 61850 Version Identification

    Section 4 1MAC108982-MB E Setting up a project If the PCM600 authentication has been enabled in PCM600 System Settings, a merging unit user can be linked to the current PCM600 user by selecting the Remember me check box in the Login dialog. After that, the user credentials are no longer asked at tool communication as logging in PCM600 also provides the authentication credentials to the merging unit.
  • Page 83 Section 4 1MAC108982-MB E Setting up a project GUID-76919861-F55B-489A-B031-A78229ADDDB2 V1 EN Figure 47: IEC 61850 version change 615 series ANSI Engineering Manual...

  • Page 85: Section 5 Protection And Control Engineering

    Section 5 1MAC108982-MB E Protection and control engineering Section 5 Protection and control engineering Application Configuration tool Application Configuration tool is used to modify an application configuration for a protection relay and is based on IEC 61131-3 Function Block Diagrams. The function blocks are dedicated to different functions.

  • Page 86: Function Blocks

    Section 5 1MAC108982-MB E Protection and control engineering • Insert function blocks, make connections and create variables • Include the hardware I/O channels directly to the application configuration • Calculate the execution order automatically by clicking Calculate execution order on the toolbar. •...

  • Page 87: Signals And Signal Management

    Section 5 1MAC108982-MB E Protection and control engineering GUID-74FFF952-C539-422D-BC40-EF4AA5C279FB V2 EN Figure 48: Application Configuration tool: function block overview Connection(s) User-defined function block name Function block, selected (red) Function block name Function block, locked Hardware, binary output channel Hardware, programmable LED Hardware, binary input channel Hardware, analog input channel 10 User-defined signal name...

  • Page 88: Function Block Execution Parameters

    Section 5 1MAC108982-MB E Protection and control engineering Boolean input and output signals may need to be inverted to fulfil the logic. The Application Configuration tool supports the adding of inversion logic to a binary signal. All input signals have a default value that is used when the signals are not connected in the configuration.

  • Page 89: Execution Order And Feedback Loops

    Section 5 1MAC108982-MB E Protection and control engineering GUID-4129D712-CD43-4729-8FE4-27FFE758D151-ANSI V1 EN Figure 49: Application Configuration tool: an example of function block organization parameters The Cycle Time is automatically set to 2.5 ms (50 Hz) or to 2.083 ms (60 Hz) and it cannot be modified.
  • Page 90 Section 5 1MAC108982-MB E Protection and control engineering be accurate if additional logic is used to connect priority signals to function blocks. Example shows a simple situation where the execution order causes one cycle time delay if the NOT port is executed in the order determined by the automatic calculation. GUID-F8162182-FF21-467A-AEB9-23284CB3FABD V1 EN Figure 50: Feedback loop situation with automatically calculated execution orders...

  • Page 91: Configuration Parameters

    Section 5 1MAC108982-MB E Protection and control engineering 5.1.5 Configuration parameters Configuration parameters can be viewed and set with the Parameter Setting tool. 5.1.6 Connections and variables A connection is the link or "wire" between function block outputs and inputs. There are rules and methods for making connections.

  • Page 92: Hardware Channels

    Section 5 1MAC108982-MB E Protection and control engineering 5.1.7 Hardware channels Hardware channels can only be connected to a function block input or output. A hardware connection can be established with the Application Configuration tool or Signal Matrix tool. When a hardware channel is connected, a graphical symbol appears in the Application Configuration tool.

  • Page 93: Validation

    Section 5 1MAC108982-MB E Protection and control engineering Online monitoring can be started by clicking the Work online button in the toolbar. If the application configurations in the IED and PCM600 are the same, the online monitoring starts. The online monitoring ends and the tool returns to the configuration mode if the Work Offline button is clicked.

  • Page 94: Validation When Writing To The Protection Relay

    Section 5 1MAC108982-MB E Protection and control engineering • Example: a variable connected to an output signal that is not connected • Example: if an output from a higher execution order function is connected to inputs of lower execution order function •...

  • Page 95: Configuration Load Calculation

    Section 5 1MAC108982-MB E Protection and control engineering 5.1.10 Configuration load calculation Connectivity package calculates an estimated application configuration load every time it is saved in the Application Configuration tool or written to IED. This functionality prevents too complex configurations from being used and possibly risking IED protection functionality.

  • Page 96: Configuration Parameter

    Section 5 1MAC108982-MB E Protection and control engineering A common writing from PCM600 to the protection relay, where parameters are changed in the Parameter Setting tool, overwrites any parameter changes made locally with LHMI. All parameters listed and displayed in the parameter list can be sorted into two groups. •...

  • Page 97: Parameter Organization

    Section 5 1MAC108982-MB E Protection and control engineering settings, for example, in a substation with several protection relays, ensure that the names of the export files identify the protection relay to which the file should be imported. The parameter import/export functionality is available via the File menu when the Parameter Setting tool is open.
  • Page 98 Section 5 1MAC108982-MB E Protection and control engineering Binary Inputs Binary Outputs Analog Inputs GOOSERSV GOOSE IEC 61850 (input side) Hardware Signal Matrix IO interfaces Functions GOOSERSV (output side) GUID-50BC48B0-574F-4DD8-9678-67A0954D1C13 V1 EN Figure 57: Signal Matrix: operation principles A binary input channel can be connected to one or more function block inputs. If a binary input channel is connected to several different function blocks in the Application Configuration tool, the connection appears as glue logic in Signal Matrix.
  • Page 99 Section 5 1MAC108982-MB E Protection and control engineering Glue logic means inserting a logical gate (OR and AND blocks) between the binary input and the function blocks or between the function blocks and the binary output channel. This can be engineered with the Signal Matrix tool. Connections made with the Signal Matrix tool are automatically also shown in the Application Configuration tool.

  • Page 100: Load Profile Tool

    Section 5 1MAC108982-MB E Protection and control engineering Load Profile tool Load Profile tool is used for reading load profile records of COMTRADE format from a protection relay, clearing old records and viewing records via an external COMTRADE viewer. The default viewer included with PCM600 is Wavewin, but a third party viewer can be used.
  • Page 101 Section 5 1MAC108982-MB E Protection and control engineering GUID-F8120497-31C8-4F8B-BBE8-D1338CF4E4E6 V1 EN Figure 59: Opening the Load Profile tool • To close the Load Profile tool, click the Close button in the tool. The Load Profile tool runs in the same process as PCM600 but in a separate window. Multiple instances of the tool can be run at the same time.
  • Page 102 Section 5 1MAC108982-MB E Protection and control engineering GUID-4B275369-045F-4407-89A2-44071839699D V1 EN Figure 60: Load Profile tool By default, the Load Profile tool uses the \PCMDataBases\LPR directory as a saving target directory. 615 series ANSI Engineering Manual...

  • Page 103: Load Profile Tool User Interface

    Section 5 1MAC108982-MB E Protection and control engineering 5.4.2 Load Profile tool user interface GUID-4B275369-045F-4407-89A2-44071839699D V1 EN Figure 61: Load Profile tool interface Table 5: Available actions on the user interface Action Description Local Path Default local path (C:\PCMDataBases\LPR) is the location from which the records are shown on the Load Profile tool.

  • Page 104: Information Fields

    Section 5 1MAC108982-MB E Protection and control engineering Action Description Open Select any record and click Open to view the record in Wavewin, provided that this external software is installed. Additionally, any record row can be double-clicked to view that record. Sort To sort the record rows by any column click a column header.

  • Page 105: Opening And Closing Fault Record Tool

    Section 5 1MAC108982-MB E Protection and control engineering 5.5.1 Opening and closing Fault Record tool • To open the Fault Record tool, right-click an IED node in the PCM600 project tree and select Fault Record Tool. GUID-06441245-E6DA-4C9F-9363-26CE8D521CB2 V1 EN Figure 63: Opening the Fault Record tool •...

  • Page 106: Fault Record Tool Interface

    Section 5 1MAC108982-MB E Protection and control engineering The Fault Record tool is a connectivity package tool. The main functionality is divided into three parts: reading the fault record parameters from the protection relay, displaying their names, values and units on the user interface and saving them to a text file. It is also possible to clear all the fault records from both the tool and the protection relay and copy the fault records either individually or all at once to a word processor.

  • Page 107: Ied Compare

    Section 5 1MAC108982-MB E Protection and control engineering Table 6: Available actions on the user interface Action Description Read Clicking the Read button reads all available fault records from the protection relay into the tool. User has the option to read 1 fault record, 20 fault records or all fault records. The Read button opens up a progress bar to indicate an ongoing read operation.

  • Page 108: Starting Ied Compare

    Section 5 1MAC108982-MB E Protection and control engineering Detailed instructions are shown in PCM600 documentation. 5.6.1 Starting IED Compare • Start IED Compare in the context menu in plant structure. In the PCM600 plant structure, right-click Substation, Voltage level, Bay or IED.
  • Page 109 Section 5 1MAC108982-MB E Protection and control engineering GUID-DF0FE82F-7465-4D01-BB32-A591EF3115B9 V1 EN Figure 65: Compare options Each configuration group can be expanded or collapsed by clicking the plus (+) or minus (-) button next to it in the result grid. The reports must be read from left to right row-wise. 615 series ANSI Engineering Manual...

  • Page 110: Protection And Control Blocking Examples

    Section 5 1MAC108982-MB E Protection and control engineering GUID-54429A22-126B-4256-94DF-37F921A833AD V1 EN Figure 66: Compare report Table 7: Acronyms used in a report Acronym Description Data attribute Data object Intelligent electronic device Logical node Signal Protection and control blocking examples All of the relay’s logical nodes are set with Test mode. Test mode is selected through one common parameter via the HMI path Tests/IED test.

  • Page 111: Protection Blocking Example

    Section 5 1MAC108982-MB E Protection and control engineering The mode of all logical nodes located under CTRL logical device are set with Control mode. Control mode is selected via the HMI or PCM600 path Configuration/Control/ General. By default, Control mode can only be set locally through LHMI.Control mode inherits its value from Test mode but Control mode ”On”, “Blocked”...

  • Page 112: Control Blocking Example

    Section 5 1MAC108982-MB E Protection and control engineering 5.7.2 Control blocking example The physical outputs to process can be blocked with “Blocked” mode. If physical outputs need to be blocked, the application configuration must block signals or function blocks that affect primary apparatuses. Blocking scheme needs to use BEH_BLK output of CONTROL function block.

  • Page 113: Section 6 Lhmi Engineering

    Section 6 1MAC108982-MB E LHMI engineering Section 6 LHMI engineering For information on LED operation modes supported by the protection relay, see the technical manual. Single-line diagram engineering A single-line diagram of the protection relay can be designed by using the Graphical Display Editor tool of PCM600.

  • Page 114: Display Window And Sequence Order

    Section 6 1MAC108982-MB E LHMI engineering HMI display page Symbol library IED HMI display window window GUID-8843160D-28CC-46D5-8045-445FAAB335B9-ANSI V1 EN Figure 69: Graphical Display Editor: active view The Graphical Display Editor has a stationary symbol library window on the left side of the view.

  • Page 115: Symbol Library

    Section 6 1MAC108982-MB E LHMI engineering • The protection relay supports one bay with up to ten single-line diagram HMI pages. • Measurements and the single-line diagram can be displayed on the page in any possible order and placement. • All symbol objects, for example apparatus and measurement, on the HMI page must be linked to the correct function block in the application configuration to present the correct process values.
  • Page 116 Section 6 1MAC108982-MB E LHMI engineering Description IEC representation ANSI representation Circuit breaker – Bad (faulty) position Disconnector – Intermediate position Disconnector – Open position Disconnector – Closed position Disconnector – Bad (faulty) position Truck – Intermediate position Truck – Open position Truck –...

  • Page 117: Hmi Display Raster Layout And Text Font Selection

    Section 6 1MAC108982-MB E LHMI engineering Description IEC representation ANSI representation Resistor Grounding transformer Petersen coil Power factor controller 6.1.1.4 HMI display raster layout and text font selection The raster on the page changes from symbol presentation to text presentation when a text object is selected and vice versa.

  • Page 118: Adding Static Text

    Section 6 1MAC108982-MB E LHMI engineering 6.1.1.6 Adding static text Place a Static Text object into a raster box by dragging-and-dropping. GUID-4D3D2FE7-B26C-4177-BE09-CE3CEBAF71B8 V1 EN Figure 70: Adding a static text field into a LHMI view Edit the text in the Name field in the Object Properties view, or alternatively double-click the text to edit it.
  • Page 119 Section 6 1MAC108982-MB E LHMI engineering GUID-04FCDF78-2E81-417A-8F2E-035AAD3A976D V1 EN Figure 71: Select button Right-click the select button symbol, point to Select Input Signal and select the input signal from the list. 615 series ANSI Engineering Manual...

  • Page 120: Adding Measurands

    Section 6 1MAC108982-MB E LHMI engineering GUID-E252A3F2-D93F-42E0-8129-8D19EA161AFA V1 EN Figure 72: Selecting input signal 6.1.1.8 Adding measurands Drag a Measurand object into a raster box. 615 series ANSI Engineering Manual...

  • Page 121: Adding A Busbar

    Section 6 1MAC108982-MB E LHMI engineering GUID-4606198B-521D-4804-BBC8-8E041E144026 V1 EN Figure 73: Adding a measurand object to an LHMI view In the Objects Properties view, edit the name, unit and the number of decimals. Unit text specifies the default text used for the measurement's unit. If the Unit text is empty in the Graphical Display Editor, no unit is shown.

  • Page 122: Adding Symbols Into A Display Page

    Section 6 1MAC108982-MB E LHMI engineering GUID-A58439A5-575C-4EED-A5A9-77FDECAA9D21 V2 EN Figure 74: Graphical Display Editor: drawing a busbar and placing busbar junctions 1 Busbar junction 2 Rotate command Add a link between one busbar junction point and the corresponding symbol or junction point.

  • Page 123: Drawing Lines To Create Links

    Section 6 1MAC108982-MB E LHMI engineering Use X and Y cordinates from the Object Properties window for every symbol to adjust the singleline diagram. GUID-BB90E914-7B02-4D1E-A385-FB6D6305869C-ANSI V1 EN Figure 75: Graphical Display Editor: adding single-line diagram symbols into a display page 6.1.1.11 Drawing lines to create links After the apparatus symbols are placed, lines can be drawn to create links.

  • Page 124: Bay Configuration Engineering

    Section 6 1MAC108982-MB E LHMI engineering Select Line draw icon from toolbar to draw lines between symbols GUID-795A6797-D4D9-4705-A496-C3FBD771C211-ANSI V1 EN Figure 76: Graphical Display Editor: drawing a line between symbols To finish the line drawing, click Select on the menu bar. 6.1.2 Bay configuration engineering A view with a single-line diagram and measurements contains active living objects.

  • Page 125: Linking Process Objects

    Section 6 1MAC108982-MB E LHMI engineering 6.1.2.1 Linking process objects To describe a process object within an IED, it needs to be established in the application configuration, configured when given the parameters by the Parameter Setting tool and linked to be displayed in the HMI. Three tools are involved in the described steps.
  • Page 126 Section 6 1MAC108982-MB E LHMI engineering GUID-28A8463E-7A11-47FA-938F-17436CBFB0BD-ANSI V1 EN Figure 77: Graphical Display Editor: input signal selection The ordering number in the selection window of the process objects corresponds to the number given in the Parameter Setting tool tree and to the application function block in the Application Configuration tool.

  • Page 127: Creating A Complete Hmi Display Page

    Section 6 1MAC108982-MB E LHMI engineering GUID-1DB1A930-A312-4B55-8F68-3D8327A873FB V1 EN Figure 78: Graphical Display Editor: object properties view for text insertion 6.1.2.2 Creating a complete HMI display page Make a sketch of how to present the single-line diagram. Place the apparatus, transformer and other symbols that are needed for the single- line diagram into the raster boxes.

  • Page 128: Template Export And Import

    Section 6 1MAC108982-MB E LHMI engineering Check that the correct function block is selected. Function blocks of the same type can have different instance numbers. GUID-F21E4F43-442D-4868-BAA3-EBA903E9C62E-ANSI V1 EN Figure 79: Graphical Display Editor: establishing a dynamic object link 10. Ensure that all links are done. 11.

  • Page 129: Exporting A Template

    Section 6 1MAC108982-MB E LHMI engineering 6.2.1 Exporting a template Create a single-line diagram in the Graphical Display Editor tool. On the menu bar, point to Graphical Display Editor and select Export Display Pages as a Template, or on the File menu, point to Display Editor Template and click Export.

  • Page 130: Starting Hmi Event Filtering

    Section 6 1MAC108982-MB E LHMI engineering The event tree view is used to modify the visibility of the events shown on the LHMI and WHMI. Events in the tree view are structured in the same way as functions in the PCM600 plant structure.

  • Page 131: Searching Events

    Section 6 1MAC108982-MB E LHMI engineering • When the check box is cleared, the event is not visible on either LHMI or WHMI. • When the check box is selected, the event is visible on both LHMI and WHMI. The HMI visibility can also be modified for multiple events by selecting the check box of the parent node in the event tree view.

  • Page 132: Saving Event Filter Configuration

    Section 6 1MAC108982-MB E LHMI engineering 6.3.4 Saving event filter configuration Save the event filter configuration in one of the alternative ways. • In the event tree view, select File/Save. • Click the Save button on the toolbar. 615 series ANSI Engineering Manual...

  • Page 133: Section 7 Iec 61850 Communication Engineering

    Section 7 1MAC108982-MB E IEC 61850 communication engineering Section 7 IEC 61850 communication engineering IEC 61850 protocol references and pre-conditions To engineer the IEC 61850 protocol interface for the protection relay, the following additional manuals or knowledge of their contents is required. •...
  • Page 134 Section 7 1MAC108982-MB E IEC 61850 communication engineering Function IEC 61850 Logical device Logical nodes in Logical nodes in Ver.5.0 FP1 Ver.4.2 or older Three-phase directional overcurrent protection, high stage DPHHPDOC DPHHPTOC DPHHPTOC DPHHRDIR DPHHRDIR Three-phase voltage-dependent overcurrent protection PHPVOC PHPVOC Non-directional ground-fault protection, low stage EFLPTOC...
  • Page 135 Section 7 1MAC108982-MB E IEC 61850 communication engineering Function IEC 61850 Logical device Logical nodes in Logical nodes in Ver.5.0 FP1 Ver.4.2 or older Motor start-up supervision STTPMSU STTPMSS STTPMSS STTPMRI STTPMRI Phase reversal protection PREVPTOC PREVPTOC PREVPTOC Thermal overload protection for motors MPTTR MPTTR MPTTR...
  • Page 136 Section 7 1MAC108982-MB E IEC 61850 communication engineering Function IEC 61850 Logical device Logical nodes in Logical nodes in Ver.5.0 FP1 Ver.4.2 or older Line differential protection with in-zone power transformer LNPLDF LNLPDIF LNLPDIF LNPHAR LNPHAR LNRMXU LNMDIF LNHPDIF LNHPDIF LNLPTRC LNLPTRC Protection communication supervision...
  • Page 137 Section 7 1MAC108982-MB E IEC 61850 communication engineering Function IEC 61850 Logical device Logical nodes in Logical nodes in Ver.5.0 FP1 Ver.4.2 or older Disconnector control DCXSWI CTRL DCCSWI DCCSWI DCCILO DCCILO DCXSWI DCXSWI Grounding switch control ESXSWI CTRL ESCSWI ESCSWI ESCILO ESCILO...
  • Page 138 Section 7 1MAC108982-MB E IEC 61850 communication engineering Function IEC 61850 Logical device Logical nodes in Logical nodes in Ver.5.0 FP1 Ver.4.2 or older Phase sequence current measurement CSMSQI CSMSQI CSMSQI Residual current measurement RESCMMXU RESCMMXU RESCMMXU RCAVMMXU RESCMSTA RCMAMMXU RCMIMMXU Three-phase voltage measurement VMMXU...
  • Page 139 Section 7 1MAC108982-MB E IEC 61850 communication engineering Function IEC 61850 Logical device Logical nodes in Logical nodes in Ver.5.0 FP1 Ver.4.2 or older General security application GSAL GSAL GSAL Binary signal transfer BSTGGIO BSTGGIO BSTGGIO Time synchronization and local time GNRLLTMS GNRLLTMS GNRLLTMS...

  • Page 140: Iec 61850 Interface In The Protection Relay

    Section 7 1MAC108982-MB E IEC 61850 communication engineering Function IEC 61850 Logical device Logical nodes in Logical nodes in Ver.5.0 FP1 Ver.4.2 or older RTD (X130) 6RTD and 2mA X130 (RTD) XRGGIO130 XRGGIO130 BIO (X130) card X130 (BIO) XGGIO130 XGGIO130 COM (X000) LDM card XGGIO90 XGGIO90...

  • Page 141: Goose Data Exchange

    Section 7 1MAC108982-MB E IEC 61850 communication engineering IEC 61850 provides a method for identifying all signals that belong to a function. These signals are identified through the logical nodes representing the functions. All signal information for commands and monitoring are available in logical nodes. Whenever a function block is instantiated in the Application Configuration tool, PCM600 automatically generates the corresponding logical node data.

  • Page 142: Function View For Iec 61850 In Pcm600

    • An IED is already extended by default data sets and report control blocks. They are predefined by ABB. Changes or additional data sets, for example, have to be done with IEC 61850 Configuration tool or IET600. •...

  • Page 143: Iec 61850 Engineering Process

    Section 7 1MAC108982-MB E IEC 61850 communication engineering The uploading of IEC 61850 communication configuration is not supported when reading a configuration from an online IED. The PCM600 project works as a repository for the IEC 61850 configuration. IEC 61850 engineering process The IEC 61850 standard defines how information is communicated in a substation.

  • Page 144: Exporting Scl Files From Pcm600

    Section 7 1MAC108982-MB E IEC 61850 communication engineering CCT600 (2) è create project import SCD file è SCD file SCD file è configure data sets è configure Report CBs è configure GOOSE CBs è export SCD file PCM600 (1) PCM600 (3) è...
  • Page 145 Section 7 1MAC108982-MB E IEC 61850 communication engineering IEC08000415-ANSI V1 EN Figure 85: IEC 61850: selecting the station Right-click the station and select Export. From the open standard Windows dialog box, select the location to store the file and name it. Click Save.

  • Page 146: Exporting Icd Or Cid Files

    Section 7 1MAC108982-MB E IEC 61850 communication engineering GUID-FD84C31F-93F5-4F2A-BC40-646CE604F8D7 V1 EN Figure 87: Export options of SCL Click Export to generate the SCD file. A progress window shows the ongoing export of the station. 7.3.1.2 Exporting ICD or CID files Select the IED in the Plant Structure view.
  • Page 147 Section 7 1MAC108982-MB E IEC 61850 communication engineering GUID-F58BB3D3-745B-4997-8CBD-023244CD840B V1 EN Figure 89: IEC 61850: export options for ICD files Change the SCL file version by clicking the Advanced button, if required by the receiving configuration tool. GUID-DA9E7D95-2EA6-4861-9D40-4A2CDFA33F58 V1 EN Figure 90: SCL export options Click Export.

  • Page 148: Engineering Vertical And Horizontal Communication

    Section 7 1MAC108982-MB E IEC 61850 communication engineering 7.3.2 Engineering vertical and horizontal communication For IEC 61850 engineering a separate system configuration tool is needed to be used with PCM600. In PCM600 Ver.2.3 or earlier the recommended tool is CCT600. In PCM600 Ver.2.4 or later the recommended tool is IET600, which is also included in the PCM600 Engineering Pro installation package.In PCM600 Ver.2.5 or later the recommended tool for smaller projects is the IEC 61850 Configuration tool.

  • Page 149: Importing Scl Files To Pcm600

    Section 7 1MAC108982-MB E IEC 61850 communication engineering One data can be included in the GOOSE data set only once. 4.2. Define the client IEDs for each GOOSE control block. 4.3. Link the IEDs to the GOOSE control block that is to receive the GOOSE control block.

  • Page 150: Importing Scd Files

    Section 7 1MAC108982-MB E IEC 61850 communication engineering If the IED 61850 configuration engineering mode is enabled, SCD files cannot be imported and an error message is shown. GUID-68D1D489-27AC-4729-A887-DCE496CB48E0 V1 EN Figure 92: Error message when SCD files cannot be imported 7.3.3.1 Importing SCD files To be able to import an SCD file at station level, the option IED 61850 configuration...
  • Page 151 IED object(s) in PCM600. This option can be used, for example, when third party IEDs are included in the system and the SCD file sends GOOSE messages to ABB IEDs included in the project. • Click Ignore Substation Section to not import the SSD file part of the SCD file.
  • Page 152 Section 7 1MAC108982-MB E IEC 61850 communication engineering IEC09000616-ANSI V1 EN Figure 94: Common write menu The engineered data is written to the IED when executing a common Write to IED operation. 615 series ANSI Engineering Manual...

  • Page 153: Importing Icd Or Cid Files

    Section 7 1MAC108982-MB E IEC 61850 communication engineering 7.3.3.2 Importing ICD or CID files Select an existing IED to import IEC 61850 files. From the Files of type list, select the file type of IEC 61850 to be imported (ICD or CID).
  • Page 154 Section 7 1MAC108982-MB E IEC 61850 communication engineering When a changed configuration is written to the protection relay, the horizontal communication configuration needs to be updated. GUID-EEB7D9BD-5D8C-4A18-9A94-848B2821658D V2 EN Figure 96: Updating the communication configuration in the IED with the configuration made in PCM600 Select which configuration part to include in writing.

  • Page 155: Section 8 Glossary

    Section 8 1MAC108982-MB E Glossary Section 8 Glossary 615 series Series of numerical protection and control relays for protection and supervision applications of utility substations, and industrial switchgear and equipment 1. Application Configuration tool in PCM600 2. Trip status in IEC 61850 Analog input module ANSI American National Standards Institute...
  • Page 156 Section 8 1MAC108982-MB E Glossary Graphical Display Editor in PCM600 GOOSE Generic Object-Oriented Substation Event GoCB GOOSE control block Human-machine interface High-availability seamless redundancy HTTPS Hypertext Transfer Protocol Secure Hardware Input/output IED capability description International Electrotechnical Commission IEC 61850 International standard for substation communication and modeling IEC 61850-9-2 LE Lite Edition of IEC 61850-9-2 offering process bus interface Intelligent electronic device...
  • Page 157 Section 8 1MAC108982-MB E Glossary Network control center 1. Personal computer 2. Polycarbonate PCM600 Protection and Control IED Manager Parallel redundancy protocol Power supply module Parameter Setting tool in PCM600 Resistance temperature detector SAB600 Substation automation builder tool Substation configuration description XML-based substation description configuration language defined by IEC 61850 Signal Matrix tool in PCM600...
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