ABB Relion Series Engineering Manual
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ABB Relion Series Engineering Manual

Grid automation
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RELION® PRODUCT FAMILY
Grid Automation
REC615 and RER615
Engineering Manual

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Summary of Contents for ABB Relion Series

  • Page 1 — RELION® PRODUCT FAMILY Grid Automation REC615 and RER615 Engineering Manual...
  • Page 3 Document ID: 1MRS757810 Issued: 2018-08-31 Revision: C Product version: 2.0 © 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 In case any errors are detected, the reader is kindly requested to notify the manufacturer. Other than under explicit contractual commitments, in no event shall ABB be responsible or liable for any loss or damage resulting from the use of this manual or the application of the equipment.
  • Page 6 (EMC Directive 2014/30/EU) and concerning electrical equipment for use within specified voltage limits (Low-voltage directive 2014/35/EU). This conformity is the result of tests conducted by ABB in accordance with the product standard EN 60255-26 for the EMC directive, and with the product standards EN 60255-1 and EN 60255-27 for the low voltage directive.
  • Page 7 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...........16 Standard configuration concept............17 Workflow...................19...
  • Page 10 Table of contents Inserting an IED in offline mode..........49 Inserting an IED from the template directory....... 51 Inserting an IED by importing a .pcmi file........53 Setting the IED IP address in a project..........54 COM600S project................56 Selecting communication port for configuration......57 Importing a 615 series protection relay in a COM600S project...
  • Page 11 Table of contents Section 6 LHMI engineering............91 Single-line diagram engineering............91 Diagrams in Graphical Display Editor..........91 Display window and sequence order........92 Symbol library.................93 Supported single-line diagram symbols......... 93 HMI display raster layout and text font selection....94 Text handling................95 Adding static text..............95 Adding select buttons.............
  • Page 12 Table of contents Section 8 Configuration migration..........127 Configuration migration workflow........... 127 Preconditions for configuration migration........128 Backup creation................128 Migrating the IED configuration............128 Reengineering the migrated configuration........130 Reengineering in the Application Configuration tool....130 Example of reengineering LED connections......131 Reengineering in the Parameter Setting tool......135 Reengineering in the IEC 61850 Configuration tool....

  • Page 13: Section 1 Introduction

    Section 1 1MRS757810 C 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

    Product series version History A/2013-09-17 First release B/2015-03-06 Content updated to correspond to the product series version C/2018-08-31 Content updated to correspond to the product series version Download the latest documents from the ABB Web site http://www.abb.com/substationautomation. REC615 and RER615 Engineering Manual...

  • Page 15: Related Documentation

    Section 1 1MRS757810 C Introduction 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. It might indicate the presence of a hazard which could result in corruption of software or damage to equipment or property.

  • Page 16: Functions, Codes And Symbols

    Section 1 1MRS757810 C Introduction 1.4.3 Functions, codes and symbols All available functions are listed in the table. All of them may not be applicable to all products. Table 1: Functions included in the relays Function IEC 61850 IEC 60617 IEC-ANSI Protection Three-phase non-directional...
  • Page 17 Section 1 1MRS757810 C Introduction Function IEC 61850 IEC 60617 IEC-ANSI Directional earth-fault protection, low DEFLPDEF4 Io> -> (4) 67N-1 (4) stage, instance 4 Directional earth-fault protection, high DEFHPDEF1 Io>> -> (1) 67N-2 (1) stage, instance 1 Directional earth-fault protection, high DEFHPDEF2 Io>>...
  • Page 18 Section 1 1MRS757810 C Introduction Function IEC 61850 IEC 60617 IEC-ANSI Three-phase overvoltage protection, PHPTOV2 3U> (2) 59 (2) instance 2 Three-phase overvoltage protection, PHPTOV3 3U> (3) 59 (3) instance 3 Positive-sequence undervoltage PSPTUV1 U1< (1) 47U+ (1) protection, instance 1 Negative-sequence overvoltage NSPTOV1 U2>...
  • Page 19 Section 1 1MRS757810 C Introduction Function IEC 61850 IEC 60617 IEC-ANSI Voltage unbalance, instance 1 VSQVUB1 PQUUB (1) PQVUB (1) Control Circuit-breaker control, instance 1 CBXCBR1 I <-> O CB (1) I <-> O CB (1) Circuit-breaker control, instance 2 CBXCBR2 I <->...
  • Page 20 Section 1 1MRS757810 C Introduction Function IEC 61850 IEC 60617 IEC-ANSI Measurement Three-phase current measurement, CMMXU1 3I (1) 3I (1) instance 1 Three-phase current measurement, CMMXU2 3I (2) 3I (2) instance 2 Sequence current measurement, CSMSQI1 I1, I2, I0 (1) I1, I2, I0 (1) instance 1 Sequence current measurement,...
  • Page 21 Section 1 1MRS757810 C Introduction Function IEC 61850 IEC 60617 IEC-ANSI Time delay on (8 pcs), instance 2 TONGAPC2 TON (2) TON (2) Set-reset (8 pcs), instance 1 SRGAPC1 SR (1) SR (1) Set-reset (8 pcs), instance 2 SRGAPC2 SR (2) SR (2) Move (8 pcs), instance 1 MVGAPC1...
  • Page 22 Section 1 1MRS757810 C Introduction Function IEC 61850 IEC 60617 IEC-ANSI Logging functions Disturbance recorder RDRE1 DR (1) DFR (1) Fault record FLTRFRC1 FAULTREC (1) FAULTREC (1) REC615 and RER615 Engineering Manual...

  • Page 23: Section 2 Relay Engineering Process

    Section 2 1MRS757810 C 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: Monitoring And Control System Structure

    Section 2 1MRS757810 C Relay engineering process • Creating recording file content overview reports for fast evaluation with assistance of the Disturbance Handling tool. • Using the Fault Record tool to read fault records from the protection relay, save records to a PC and clear old records. •...

  • Page 25: Standard Configuration Concept

    Section 2 1MRS757810 C Relay engineering process NCC-GW PCM600 Station level (station-IED1) (tool set) (station-IED2) Station bus Station Communication Bay level IED 1 IED 2 IED n-1 IED n IEC08000101.vsd GUID-414609A0-5B40-453F-83D4-4551B2894023 V1 EN Figure 2: Principle structure of a monitoring and control system for a substation The monitoring and control system can be divided into three main parts.
  • Page 26 Section 2 1MRS757810 C Relay engineering process see the application manuals. The product also includes the standard configuration specific default single-line diagram. The standard configuration software consists of connections between an application's functions developed according to the needs of a particular functional application. The inputs and outputs are similarly assigned to a default set of connections such as position indication and Master trip.

  • Page 27: Workflow

    Section 2 1MRS757810 C Relay engineering process Workflow Start Create plant structure and insert IED objects Project Configure IED functionality Save the work between the Parametrization different steps Create single line diagram for local HMI DNP3 IEC 61850 IEC 60870-5-101/104 IEC 61850 Modbus Configuration tool...
  • Page 28 Section 2 1MRS757810 C Relay engineering process recommended to divide one big project into multiple smaller PCM600 projects. • To add a protection relay to a project, a suitable Connectivity package is needed. Protection relays can be added either while connected or disconnected or through other means such as an IED template.
  • Page 29 Section 2 1MRS757810 C Relay engineering process The protection relay restarts automatically when writing a relay configuration where changes have been made. It is not possible to communicate with the protection relay during restart. REC615 and RER615 Engineering Manual...

  • Page 31: Section 3 Pcm600 Tool

    Section 3 1MRS757810 C 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 32: Connectivity Packages

    Protection and Control IED Manager PCM600 Ver.2.9 or later • REC615 Connectivity Package Ver.2.0 or later • RER615 Connectivity Package Ver.2.0 or later Download connectivity packages from the ABB Web site http://www.abb.com/substationautomation or directly with Update Manager in PCM600. REC615 and RER615...

  • Page 33: Installing Connectivity Packages

    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 34: Activating Connectivity Packages

    Section 3 1MRS757810 C PCM600 tool GUID-CD8A9C2A-0CF0-451F-A820-82482C646EB3 V1 EN Figure 5: 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 35: Pcm600 Projects

    Section 3 1MRS757810 C PCM600 tool PCM600 recognizes the installed connectivity packages during start-up, and the corresponding IED types are available in PCM600 when starting a new project. PCM600 projects A typical project in PCM600 contains a plant structure including one or several IED objects, where each IED object contains the engineering data created or modified using the different PCM600 tools.

  • Page 36: Iec 61850 Naming Conventions To Identify An Ied

    Section 3 1MRS757810 C PCM600 tool protection relay does not occur if the protection relay contains the factory default technical key. The technical key property in PCM600 corresponds to the IED name attribute in SCL files. Avoid changing the IED name attribute outside PCM600, because data in PCM600 may get lost when importing the SCL files.
  • Page 37 Section 3 1MRS757810 C PCM600 tool • Technical key is used in engineering drawings and for signal identifications. This is contained in the attribute name as an identification of each object. If the value is used as a reference to an object, it is contained in an attribute name starting with a string denoting the reference target object type and ending with the string Name.

  • Page 38: Setting The Technical Key

    Section 3 1MRS757810 C PCM600 tool GUID-45BBD7D0-9094-4E43-9EA5-44B939B1196E V3 EN Figure 8: PCM600: IEC 61850 signal designation concept The created technical key for the full path name of the IED would be: AA1J1Q03A1. • AA1 = substation in the project • J1 = voltage level from 20 to 30 kV •...
  • Page 39 Section 3 1MRS757810 C PCM600 tool GUID-04793346-E7EC-4C62-9F2A-6F6E6E1C5001 V3 EN Figure 9: PCM600: Setting the technical key on the IED level A dialog box opens to inform about the technical key concept. REC615 and RER615 Engineering Manual...
  • Page 40 Section 3 1MRS757810 C PCM600 tool GUID-A7DB8816-0CB4-46FF-B778-728D64662578 V1 EN Figure 10: Technical key information Click OK. The technical key is read from the IED and the Set Technical Key dialog box opens. REC615 and RER615 Engineering Manual...

  • Page 41: Communication Between Pcm600 And The Protection Relay

    Section 3 1MRS757810 C PCM600 tool GUID-2DD837B5-6B0B-48BE-A907-A838C34908E7 V1 EN Figure 11: Setting the technical key In Set Technical Key dialog box, select the technical key to be used. There are three alternatives. • Use the existing technical key in the IED •...

  • Page 42: Setting Up Ip Addresses

    Section 3 1MRS757810 C PCM600 tool Each protection relay has an Ethernet interface connector on the front and optionally on the rear side as well. The Ethernet connector can be used for communication with PCM600. When an Ethernet-based station protocol is used, the same Ethernet port and IP address can be used for PCM600 communication.

  • Page 43: Ied Update

    Section 3 1MRS757810 C PCM600 tool The protection relay's front port IP address is fixed to “192.168.0.254” and it cannot be modified. Set the IP address for the protection relay's rear port and the corresponding subnet mask via the LHMI path Configuration/Communication/Ethernet/ Rear port.

  • Page 44: Updating Firmware Or Language

    Section 3 1MRS757810 C PCM600 tool • Communication is recommended to be secured either by setting up a VPN connection or enabling secure communication in the IED via LHMI (Configuration/Authorization/Remote Update) while updating remotely. • Remote update can be enabled in the IED either via the LHMI (Configuration/ Authorization/Security/Remote Update) or by an administrator in the Parameter Setting tool in PCM600 (IED Configuration/Configuration/ Authorization/Remote Update to be able to update remotely.
  • Page 45 Section 3 1MRS757810 C PCM600 tool GUID-82D67F9A-3D54-474D-BBEE-CA9620EB663A V2 EN Figure 12: 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 OK.
  • Page 46 Section 3 1MRS757810 C PCM600 tool GUID-82BB575B-99D9-4C84-B35E-FB85D8465323 V1 EN Figure 14: Waiting for local user confirmation with remote update GUID-31FD0CB0-CFBC-48AB-BF96-D3F9436DBDEE V1 EN Figure 15: Completing the update REC615 and RER615 Engineering Manual...

  • Page 47: Section 4 Setting Up A Project

    Section 4 1MRS757810 C 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 48: Building The Plant Structure

    Section 4 1MRS757810 C Setting up a project IEC09000375 V2 EN Figure 17: 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 49: Inserting An Ied

    Section 4 1MRS757810 C 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 50: Inserting An Ied In Online Mode

    Section 4 1MRS757810 C Setting up a project manager while the .pcmi files are meant for sharing the IED instances between different PCM600 users enabling quick import/export directly from the plant structure context menu. IEC 61850 Edition 1 and Edition 2 IEDs cannot be used simultaneously in the same PCM600 project.
  • Page 51 Section 4 1MRS757810 C Setting up a project GUID-60CF9708-4953-4285-93FD-5B96D15745E7 V3 EN Figure 19: Selecting the protection relay type On the Configuration mode selection page, select Online Configuration and click Next. REC615 and RER615 Engineering Manual...
  • Page 52 Section 4 1MRS757810 C Setting up a project GUID-C4812BC7-2379-4BC8-A9B3-B0664B668BCF V3 EN Figure 20: Configuration mode selection On the Communication protocol selection page, select the communication protocol from the IED protocol list and click Next. REC615 and RER615 Engineering Manual...
  • Page 53 Section 4 1MRS757810 C Setting up a project GUID-43A069B0-B21F-4058-A6A0-E034F18BB5BE V3 EN Figure 21: 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 54 Section 4 1MRS757810 C Setting up a project GUID-CD327D94-C6E9-4864-9A24-DA5556F023D4 V2 EN Figure 22: Communication port and IP address Communication configuration is now defined. Click Next to scan/read the order code of the protection relay. On the Order code detection page, click Next. GUID-C7A331F8-1F10-4D6C-906F-FFC8578B3555 V3 EN Figure 23: Order code detection...
  • Page 55 Section 4 1MRS757810 C Setting up a project 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. Click Browse to select the .pcmi/.pcmt file that has the example configuration.
  • Page 56 Section 4 1MRS757810 C Setting up a project GUID-2EAD9C28-6C56-4CB4-8CF7-7B0621A7DCDC V2 EN Figure 25: Importing example configurations 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 57: Inserting An Ied In Offline Mode

    Section 4 1MRS757810 C Setting up a project GUID-BCFEB0FB-7CE9-43B5-AFA9-6A396078AF40 V3 EN Figure 26: 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 58 Section 4 1MRS757810 C Setting up a project Working in the offline mode has an advantage compared to online mode in that the preparation for the configuration can be started even though the protection relay is not available. In the Plant Structure view, right-click the bay, point to New, point to the IED application area such as Remote Monitoring and Control IEDs or Recloser Protection and Control IEDs.

  • Page 59: Inserting An Ied From The Template Directory

    Section 4 1MRS757810 C Setting up a project relay, PCM600 does not allow writing the configuration to the device. If other digits in the order code do not match, PCM600 informs about the mismatch with a dialog. GUID-6EB85C58-4EF4-4672-A3B2-92CB07EAC98A V3 EN Figure 28: IED order code selection On the Configuration Selection Page, select the configuration type and click...
  • Page 60 Section 4 1MRS757810 C Setting up a project It is also possible to insert an IED from the template library to create a new IED in the plant structure. After a template IED has been imported, the IP address, the Caption in IED's Object Properties and the Technical Key that corresponds to the physical IED have to be changed.

  • Page 61: Inserting An Ied By Importing A .Pcmi File

    Section 4 1MRS757810 C Setting up a project GUID-9230A349-8DCF-4495-A79F-500124D74E71 V3 EN Figure 30: 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 62: Setting The Ied Ip Address In A Project

    Section 4 1MRS757810 C Setting up a project A .pcmi file can be imported only when the bay is selected in the plant structure. GUID-E4F6149B-A672-4128-901E-995B70BB4F30 V3 EN Figure 31: Importing IED configuration In the Import dialog box, select the .pcmi file to be imported and click Open. After importing, the IED object is created in the plant structure.
  • Page 63 Section 4 1MRS757810 C Setting up a project GUID-BAB14777-F3F3-4112-921F-9F22D5A66DFC V2 EN Figure 32: Alternative 1: Setting the IP address on the first wizard page REC615 and RER615 Engineering Manual...

  • Page 64: Com600S Project

    Section 4 1MRS757810 C Setting up a project GUID-6BE9DC1E-86E5-464F-B9AD-4B782F3D360C V4 EN Figure 33: Alternative 2: Setting the IP address in IED's Object Properties dialog 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 65: Selecting Communication Port For Configuration

    Section 4 1MRS757810 C Setting up a project 4.5.1 Selecting communication port for configuration When a relay is configured to a PCM600 project, the connection between the relay and the tool can be established using a point-to-point link between the relay front port and the computer or by connecting the computer to the relay rear port over an Ethernet station bus.
  • Page 66 Section 4 1MRS757810 C Setting up a project GUID-4E814E6D-55D5-4612-88A8-115EF4F61BEB V3 EN Figure 35: 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. REC615 and RER615 Engineering Manual...
  • Page 67 Section 4 1MRS757810 C Setting up a project GUID-7B828D99-0BDE-4949-A94A-97DF751D0E3E V2 EN Figure 36: 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 68 Section 4 1MRS757810 C Setting up a project GUID-70E8B187-FADA-4657-9BC7-223FDA7374ED V2 EN Figure 37: Importing the SCD configuration into the SAB600 project In the SCL Import view, click Select File to select the SCD file exported from PCM600. GUID-6F47B4AD-B956-4F77-A6A2-DE6F4A71D607 V2 EN Figure 38: Creating a new IED into SAB600 project REC615 and RER615...

  • Page 69: Using The Web Hmi

    Section 4 1MRS757810 C Setting up a 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 70 LHMI or WHMI or with PCM600. If the IED-specific Administrator password is forgotten, ABB can provide a onetime reliable key to access the IED. For support, contact ABB. The recovery of the Administrator password takes a few days.
  • Page 71 Section 4 1MRS757810 C Setting up a project GUID-9F776089-8442-49CF-9153-A142BC48862E V1 EN Figure 40: 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 72: Pcm600 Project's Iec 61850 Version Identification

    Section 4 1MRS757810 C Setting up a project PCM600 project's IEC 61850 version identification The IEC 61850 version of a PCM600 project can be identified from the Object Properties pane of the project. To change the IEC 61850 version Edition 1 of an IED to Edition 2, the configuration has to be written to the IED from a PCM600 project that has the IEC 61850 version Edition 2.

  • Page 73: Section 5 Protection And Control Engineering

    Section 5 1MRS757810 C 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 74: Function Blocks

    Section 5 1MRS757810 C Protection and control engineering • Document the application configuration: such as, make printouts • Save application configurations as templates in an application library to reuse them in other protection relays (Function blocks and related logic can be fully or partially reused depending on the functionality available in the other protection relay) •...

  • Page 75: Signals And Signal Management

    Section 5 1MRS757810 C Protection and control engineering GUID-74FFF952-C539-422D-BC40-EF4AA5C279FB V2 EN Figure 43: 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 76: Function Block Execution Parameters

    Section 5 1MRS757810 C 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 77: Execution Order And Feedback Loops

    Section 5 1MRS757810 C Protection and control engineering GUID-4129D712-CD43-4729-8FE4-27FFE758D151 V1 EN Figure 44: Application Configuration tool: an example of function block organization parameters The Cycle Time is automatically set and it cannot be modified. To automatically calculate the execution order, click Calculate Execution Order on the tool bar.

  • Page 78: Configuration Parameters

    Section 5 1MRS757810 C Protection and control engineering 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 45: Feedback loop situation with automatically calculated execution orders By setting a smaller execution number than in the AND port to where the NOT port...

  • Page 79: Connections And Variables

    Section 5 1MRS757810 C Protection and control engineering 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. • Drag a line between two signals •...

  • Page 80: Online Monitoring

    Section 5 1MRS757810 C Protection and control engineering When a hardware channel is connected, a graphical symbol appears in the Application Configuration tool. The connection is also displayed in the Signal Matrix tool with a cross mark. Hardware channels are always visible in the Signal Matrix tool. GUID-40339889-3049-4C50-BA8F-8C3EB9A54C4D V1 EN Figure 48: Application Configuration tool: HW signal channels...

  • Page 81: Validation

    Section 5 1MRS757810 C Protection and control engineering In some cases when the function block input is directly mapped to the function block output, the input is internally forced to the correct value depending of the function block's settings. This kind of function block design is present in control blocks, setting group handling and tap changer.

  • Page 82: Validation When Writing To The Protection Relay

    Section 5 1MRS757810 C Protection and control engineering These problems are listed in the Output view under the Application Configuration tab. Double-clicking the error or warning row navigates to the MainApplication/ Page/Area, where the problem was identified. GUID-5779E523-6B82-4447-85E8-CAAA87141B6F V1 EN Figure 49: Application Configuration tool: validation on demand 5.1.9.3...

  • Page 83: Parameter Setting Tool

    Section 5 1MRS757810 C Protection and control engineering functionality to the configuration. The configuration is written to the IED if the result is inside or below the warning range. Some inaccuracy exists between the calculated load estimate and the actual load of an IED when considering all parameters.

  • Page 84: Configuration Parameter

    Section 5 1MRS757810 C Protection and control engineering 5.2.1 Configuration parameter Configuration parameter specifies the operation mode of an application function or of the protection relay. These are basic configurations that are normally configured only once and then not modified again. The protection relay configures itself during start- up according to the given configuration parameter values.

  • Page 85: Parameter Organization

    Section 5 1MRS757810 C Protection and control engineering GUID-4A63FE0D-7846-4387-A5D3-BD7B4F519A76 V2 EN Figure 51: Parameter import/export 5.2.5 Parameter organization The organization of parameters into a tree structure becomes visible in the Plant Structure by expanding the setting tree. Signal Matrix tool The Signal Matrix tool is used to make cross-references between the physical I/O signals and function blocks and for the GOOSE signal input engineering.
  • Page 86 Section 5 1MRS757810 C 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 52: 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 87: Load Profile Tool

    Section 5 1MRS757810 C Protection and control engineering Connections made with the Signal Matrix tool are automatically also shown in the Application Configuration tool. GUID-6788DE03-BB9A-4A02-9DF6-D1645A8F4C4B V1 EN Figure 53: Signal Matrix: a connection between binary input channels to binary input signals The Signal Matrix tool has a separate sheet for each possible combination.
  • Page 88 Section 5 1MRS757810 C Protection and control engineering GUID-F8120497-31C8-4F8B-BBE8-D1338CF4E4E6 V1 EN Figure 54: 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.
  • Page 89 Section 5 1MRS757810 C Protection and control engineering GUID-4B275369-045F-4407-89A2-44071839699D V1 EN Figure 55: Load Profile tool By default, the Load Profile tool uses the \PCMDataBases\LPR directory as a saving target directory. REC615 and RER615 Engineering Manual...

  • Page 90: Load Profile Tool User Interface

    Section 5 1MRS757810 C Protection and control engineering 5.4.2 Load Profile tool user interface GUID-4B275369-045F-4407-89A2-44071839699D V1 EN Figure 56: 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 91: Information Fields

    Section 5 1MRS757810 C Protection and control engineering Action Description Sort To sort the record rows by any column click a column header. Close Clicking the Close button closes this instance of the tool. Any open instance is finally closed when the whole PCM600 is closed. File All the actions are also available on the tool through File drop-down menu.
  • Page 92 Section 5 1MRS757810 C Protection and control engineering GUID-ABADC35C-7326-48FC-97A0-91BF4D3F78F0 V2 EN Figure 58: Opening the Fault Record tool • To close the Fault Record tool, click the Close button in the tool. The Fault Record tool runs in the same process as PCM600 but in a separate window.

  • Page 93: Fault Record Tool Interface

    Section 5 1MRS757810 C Protection and control engineering 5.5.2 Fault Record tool interface GUID-F27BFF9C-DB85-430C-8B80-5ECE3A4E3D35 V1 EN Figure 59: Fault record tool 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.

  • Page 94: Ied Compare

    Section 5 1MRS757810 C Protection and control engineering IED Compare IED Compare is used to compare the IED configuration of two same type of IEDs. It generates a text report which lists the differences in the IED configuration. IED Compare provides an option to compare an IED configuration stored in PCM600, IED or .pcmi file.
  • Page 95 Section 5 1MRS757810 C Protection and control engineering GUID-EE5D5DED-7160-49DE-BEA6-76A74E3BAD4A V1 EN Figure 60: 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. REC615 and RER615 Engineering Manual...
  • Page 96 Section 5 1MRS757810 C Protection and control engineering GUID-86DCA146-0A7F-4E7B-A0BD-3248C1140EF3 V1 EN Figure 61: Compare report Table 7: Acronyms used in a report Acronym Description Data attribute Data object Intelligent electronic device Logical node Signal 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 97: Control Blocking Example

    Section 5 1MRS757810 C 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 98 Section 5 1MRS757810 C Protection and control engineering Control CTRL_OFF CTRL_LOC LOCAL CONTROL_LOCAL CTRL_STA STATION CTRL_REM REMOTE CONTROL_REMOTE CTRL_ALL BEH_TEST BEH_BLK CBXCBR1_EXE_OP CBXCBR1 POSOPEN SELECTED X120_BI3_CB_OPENED POSCLOSE EXE_OP X120_BI2_CB_CLOSED ENA_OPEN EXE_CL TRUE ENA_CLOSE OP_REQ CBXCBR1_ENA_CLOSE BLK_OPEN CL_REQ FALSE CBXCBR1_OPENPOS BLK_CLOSE OPENPOS AU_OPEN CLOSEPOS...

  • Page 99: Section 6 Lhmi Engineering

    Section 6 1MRS757810 C 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 100: Display Window And Sequence Order

    Section 6 1MRS757810 C LHMI engineering GUID-4286BBCC-F0E2-4779-9C03-6AAEB2F69143 V2 EN Figure 64: Graphical Display Editor: active view 1 HMI display page 2 Object types 3 Protection relay's HMI display window The Graphical Display Editor has a stationary symbol library window on the left side of the view.

  • Page 101: Symbol Library

    Section 6 1MRS757810 C 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 102: Hmi Display Raster Layout And Text Font Selection

    Section 6 1MRS757810 C LHMI engineering Description IEC representation ANSI representation Disconnector – Intermediate position Disconnector – Open position Disconnector – Closed position Disconnector – Bad (faulty) position Truck – Intermediate position Truck – Open position Truck – Closed position Truck –...

  • Page 103: Text Handling

    Section 6 1MRS757810 C LHMI engineering The text can be presented in UniCode characters (6 x 12 pixels). The total size of the presented white area (page) represents the visible part of the LHMI display without the header line. The visible display for a single-line diagram is organized in a raster of 9 x 7 (columns x rows).

  • Page 104: Adding Select Buttons

    Section 6 1MRS757810 C LHMI engineering 6.1.1.7 Adding select buttons Drag a Select Button object into a raster box. GUID-3EA8E776-CF57-464F-AE99-168AB9084369 V1 EN Figure 66: Select button Right-click the select button symbol, point to Select Input Signal and select the input signal from the list. REC615 and RER615 Engineering Manual...

  • Page 105: Adding Measurands

    Section 6 1MRS757810 C LHMI engineering GUID-F5E3E3AE-88EA-471D-B5A4-C3547D916745 V2 EN Figure 67: Selecting input signal 6.1.1.8 Adding measurands Drag a Measurand object into a raster box. GUID-7598C96A-EDAA-4275-834C-9966FBEE5BA0 V1 EN Figure 68: 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.

  • Page 106: Adding A Busbar

    Section 6 1MRS757810 C LHMI engineering 6.1.1.9 Adding a busbar Add at least two Busbar Junction elements from the Symbol Library to the display page. Select the Busbar Junction and use the rotate command from the toolbar to ensure that the busbar ends to the margin. Add links between the busbar junctions.

  • Page 107: Drawing Lines To Create Links

    Section 6 1MRS757810 C LHMI engineering GUID-E6B87FCF-9DE1-452F-8F61-AD4CCB33EEEC V2 EN Figure 70: Graphical Display Editor: adding single-line diagram symbols into a display page 1 X and Y coordinates 6.1.1.11 Drawing lines to create links After the apparatus symbols are placed, lines can be drawn to create links. To draw a line, point to the center of the connection point which is visible in two circles at the end points of a line.

  • Page 108: Bay Configuration Engineering

    Section 6 1MRS757810 C LHMI engineering GUID-3CA305F5-BDC0-4434-BB30-F9E0C2D0ECCA V1 EN Figure 71: Graphical Display Editor: drawing a line between symbols 6.1.2 Bay configuration engineering A view with a single-line diagram and measurements contains active living objects. The object values are updated by the protection relay periodically (measurement) or in case of an event.
  • Page 109 Section 6 1MRS757810 C LHMI engineering The needed information is delivered with switch controller (of type CSWI) for an apparatus and all the configured function blocks with measurements (of type MMXU) for the measurements Right-click the apparatus symbol and select Select Input Signal. A list of engineered switch control application function blocks opens.

  • Page 110: Creating A Complete Hmi Display Page

    Section 6 1MRS757810 C LHMI engineering GUID-9EB5FAC2-9094-47E6-BA9F-3334C56D1F40 V1 EN Figure 73: 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 111: Template Export And Import

    Section 6 1MRS757810 C LHMI engineering Place measurements when needed. Edit the name, unit and the number of the measurements' decimals. Select each object that has a dynamic link and make the link to the corresponding process object. Check that the correct function block is selected. Function blocks of the same type can have different instance numbers.

  • Page 112: Importing A Template

    Section 6 1MRS757810 C LHMI engineering The default file name is the bay name+date. By default, single-line diagram templates are saved in the drive where PCM600 is installed <Drive:> \PCMDataBases\GDE\Templates \<IED type folder>. 6.2.2 Importing a template On the menu bar, point to Graphical Display Editor and select Import Display Pages from Template or on the File menu, point to Display Editor Template and click Import.

  • Page 113: Searching Events

    Section 6 1MRS757810 C LHMI engineering Event nodes in the tree have more detailed description in the tool tip. Select or clear the check box next to the event name to specify it's visibility. • When the check box is cleared, the event is not visible on either LHMI or WHMI.

  • Page 115: Section 7 Iec 61850 Communication Engineering

    Section 7 1MRS757810 C 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 116 Section 7 1MRS757810 C IEC 61850 communication engineering Function IEC 61850 Logical device Logical nodes in Logical nodes in Ver.5.0 FP1 Ver.5.0 or older Three-phase directional overcurrent protection, high stage DPHHPDOC DPHHPTOC DPHHPTOC DPHHRDIR DPHHRDIR Non-directional earth-fault protection, low stage EFLPTOC EFLPTOC EFLPTOC...
  • Page 117 Section 7 1MRS757810 C IEC 61850 communication engineering Function IEC 61850 Logical device Logical nodes in Logical nodes in Ver.5.0 FP1 Ver.5.0 or older Fault locator SCEFRFLO SCEFRFLO SCEFRFLO SCEFZLIN FLOMSTA SCEF2ZLIN SCEF3ZLIN FLORFRC Phase power directional function DPSRDIR DPSRDIR Power quality Current total demand distortion CMHAI...
  • Page 118 Section 7 1MRS757810 C IEC 61850 communication engineering Function IEC 61850 Logical device Logical nodes in Logical nodes in Ver.5.0 FP1 Ver.5.0 or older Disturbance recorder RDRE DR_LLN0 DR_LLN0 RDRE_type RDRE_type RADR_type RADR_type RBDR_type RBDR_type LPHD_M LPHD_M Load profile record LDPRLRC LDPRLRC LDPMSTA...
  • Page 119 Section 7 1MRS757810 C IEC 61850 communication engineering Function IEC 61850 Logical device Logical nodes in Logical nodes in Ver.5.0 FP1 Ver.5.0 or older IEC 61850-9-2 LE sampled value sending SMVSENDER MU01 LLN0 LLN0 LPHD1 LPHD1 I01ATCTR1 I01ATCTR1 I01BTCTR2 I01BTCTR2 I01CTCTR3 I01CTCTR3 I01NTCTR4...
  • Page 120 Section 7 1MRS757810 C IEC 61850 communication engineering Function IEC 61850 Logical device Logical nodes in Logical nodes in Ver.5.0 FP1 Ver.5.0 or older PSM (X100) card X100 (PSM) XGGIO100 XGGIO100 BIO (X110) card X110 (BIO) XGGIO110 XGGIO110 AIM (X120) 4CT with Io X120 (AIM) XGGIO120 XGGIO120...

  • Page 121: Iec 61850 Interface In The Protection Relay

    Section 7 1MRS757810 C IEC 61850 communication engineering 7.2.1 IEC 61850 interface in the protection relay GOOSE Receive Receive Monitoring SMVSENDER Send GOOSE GOOSE GOOSE Receive Receive Receive GOOSE GOOSE GOOSE Send Send Send with monitoring only part Commands with part Event monitoring...

  • Page 122: Function View For Iec 61850 In Pcm600

    Section 7 1MRS757810 C IEC 61850 communication engineering IEC 61850 Subnetwork Data-set Data-set Data-set IED 1 IED 2 IED 3 en05000830.vsd GUID-8368FB2E-406D-4C05-B34B-9BAF4D655340 V1 EN Figure 76: IEC 61850: Horizontal communication principle, an example of three IEDs where each IED communicates with all others When a GOOSE message is to be sent, it is defined by configuring the data set with the defined trigger option and GoCB.

  • Page 123: Station Configuration Description File Types

    • 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. • SCD = Station configuration description •...
  • Page 124 Section 7 1MRS757810 C IEC 61850 communication engineering When exporting an SCL file from PCM600, the tool builds a default substation structure and creates default data sets and control blocks for vertical communication between the substation client and IEDs. For more information, see the IEC 61850 standards.

  • Page 125: Exporting Scl Files From Pcm600

    Section 7 1MRS757810 C IEC 61850 communication engineering CCT600 (2) è create project è import SCD file SCD file SCD file è configure data sets è configure Report CBs è configure GOOSE CBs è export SCD file PCM600 (1) PCM600 (3) import SCD file è...
  • Page 126 Section 7 1MRS757810 C IEC 61850 communication engineering Station IEC08000415.vsd GUID-8D2548BF-9081-45CE-83C3-9AE23B26D958 V1 EN Figure 79: 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.

  • Page 127: Exporting Icd Or Cid Files

    Section 7 1MRS757810 C IEC 61850 communication engineering GUID-FD84C31F-93F5-4F2A-BC40-646CE604F8D7 V1 EN Figure 81: 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 128: Engineering Vertical And Horizontal Communication

    Section 7 1MRS757810 C IEC 61850 communication engineering GUID-F58BB3D3-745B-4997-8CBD-023244CD840B V1 EN Figure 83: 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 84: SCL export options Click Export.
  • Page 129 Section 7 1MRS757810 C IEC 61850 communication engineering later the recommended tool for smaller projects is the IEC 61850 Configuration tool. For larger projects it is recommended to use IET600, which is available as a standalone tool. Create a project in IET600. Import the SCD file created by PCM600.

  • Page 130: Importing Scl Files To Pcm600

    Section 7 1MRS757810 C IEC 61850 communication engineering 7.3.3 Importing SCL files to PCM600 The IED engineering tool must be able to receive an SCD file or an ICD file as an import to receive the engineered communication extensions, for example, for the different IEDs.

  • Page 131: Importing Scd Files

    SCD file matches the 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 132 Section 7 1MRS757810 C IEC 61850 communication engineering GUID-4945DF0A-A9AD-4270-9E5E-6B8433BC9876 V2 EN Figure 88: Common write menu The engineered data is written to the IED when executing a common Write to IED operation. REC615 and RER615 Engineering Manual...

  • Page 133: Importing Icd Or Cid Files

    Section 7 1MRS757810 C 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 134 Section 7 1MRS757810 C IEC 61850 communication engineering When a changed configuration is written to the protection relay, the horizontal communication configuration needs to be updated. GUID-B0BAFCF2-2396-4DC1-883D-1E9FB1EC22CF V1 EN Figure 90: Updating the communication configuration in the IED with the configuration made in PCM600 Select which configuration part to include in writing.

  • Page 135: Section 8 Configuration Migration

    Section 8 1MRS757810 C Configuration migration Section 8 Configuration migration Configuration migration workflow IED Configuration Migration (ICM) migrates the configuration from an old relay product version into the latest product version with the corresponding functionality. The configuration migration is done by the Migrate Configuration functionality in PCM600.

  • Page 136: Preconditions For Configuration Migration

    Section 8 1MRS757810 C Configuration migration Preconditions for configuration migration The source IED configuration can be migrated to the target version using the latest versions of PCM600 and the connectivity package. Manual reengineering may also be required as some interface changes can exist between the functions in different product versions.
  • Page 137 Section 8 1MRS757810 C Configuration migration GUID-B1E6FA9E-194A-4290-A25E-C2E49BE6BE8A V1 EN Figure 92: Selecting the IED to be migrated Select the target version in the dialog box and click Continue. The Configuration Migration Details dialog box is displayed giving the summary of the migration process. Click Next to start the migration process.

  • Page 138: Reengineering The Migrated Configuration

    Section 8 1MRS757810 C Configuration migration GUID-40362D00-DD9C-4A5B-B694-71CCF5D2A9B2 V1 EN Figure 93: IED Configuration Migration window While open, the migration report can be saved or printed from the PCM600 tool bar. GUID-C91869C3-2D6C-4499-9DD9-D6E63BC9F456 V1 EN Figure 94: Saving and printing from the tool bar Save the IED configuration migration report for later use as PCM600 does not save it automatically.

  • Page 139: Example Of Reengineering Led Connections

    Section 8 1MRS757810 C Configuration migration • If a function has been removed, it has been replaced by another function or the migration has not been possible for other reasons. • If a signal has been removed, it has a new functional meaning. See the technical manual to ensure how the functions are used correctly.
  • Page 140 Section 8 1MRS757810 C Configuration migration GUID-7DF14E9C-B311-41DC-A4B8-DD0C7CD8432B V1 EN Figure 95: LED connection blocks after migration Delete old output blocks shown in red. Drag new LED blocks from the Object Types pane on the left to the Application Configuration pane. LED function blocks can be found under Local HMI.
  • Page 141 Section 8 1MRS757810 C Configuration migration GUID-59C6C5BF-9874-4C47-966F-39711569880F V1 EN Figure 96: Locating LED blocks in the Object Types pane In the Function Block Instance dialog, change the names and execution orders of the function blocks and click Assign. The names and execution orders can be edited later by right-clicking the desired function block.
  • Page 142 Section 8 1MRS757810 C Configuration migration GUID-78AC7B5D-1F29-4242-9E6C-8F14F94951A7 V1 EN Figure 98: Connecting LED inputs to correct LED blocks REC615 and RER615 Engineering Manual...

  • Page 143: Reengineering In The Parameter Setting Tool

    Section 8 1MRS757810 C Configuration migration GUID-EE5D5400-8D26-43CA-AED9-5CBF176EB21E V1 EN Figure 99: Every LED input is connected to the corresponding LED block Save the configuration and click the Validate configuration button from the PCM600 toolbar. GUID-1FA0981B-9E5B-4021-8DDE-ADAED8636930 V2 EN Figure 100: Validating configuration 8.5.2 Reengineering in the Parameter Setting tool Parameter values remain unchanged for all the functions listed in Versioned Functions...

  • Page 144: Reengineering In The Iec 61850 Configuration Tool

    Section 8 1MRS757810 C Configuration migration • All functions listed in Obsolete Functions and Hardwares. • All parameters for which the migration failed. See the migration report for failed parameters. • Parameters of the DNP3 related functions that are reset to default values in migration.

  • Page 145: Checking And Updating Iec 60870-5-103 Points

    Section 8 1MRS757810 C Configuration migration Check the point list and verify that all the point types correspond to the old configuration and Modbus master. • 0X – Readable coils • 1X – Discrete inputs • 3X – Input registers •...

  • Page 147: Section 9 Glossary

    Section 9 1MRS757810 C Glossary Section 9 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 148 Section 9 1MRS757810 C Glossary FTPS FTP Secure Graphical Display Editor in PCM600 GoCB GOOSE control block GOOSE Generic Object-Oriented Substation Event Human-machine interface High-availability seamless redundancy HTTPS Hypertext Transfer Protocol Secure Hardware Input/output IED capability description IED configuration migration International Electrotechnical Commission IEC 61850 International standard for substation communication...
  • Page 149 Section 9 1MRS757810 C 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 SAB600 Substation automation builder tool Substation configuration description XML-based substation description configuration language defined by IEC 61850 Signal Matrix tool in PCM600 SNTP...
  • Page 152 — ABB Distribution Solutions Distribution Automation P.O. Box 699 FI-65101 VAASA, Finland Phone +358 10 22 11 www.abb.com/mediumvoltage www.abb.com/substationautomation © Copyright 2018 ABB. All rights reserved.

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