ABB Relion 670 series Engineering Manual
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ABB Relion 670 series Engineering Manual

Version 2.2 iec
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R E L I O N ® 670 SERIES
670 series
Version 2.2 IEC
Engineering manual

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Summary of Contents for ABB Relion 670 series

  • Page 1 — R E L I O N ® 670 SERIES 670 series Version 2.2 IEC Engineering manual...
  • Page 3 Document ID: 1MRK 511 398-UEN Issued: May 2018 Revision: C Product version: 2.2 © Copyright 2017 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 and hardware described in this document is furnished under a license and may be used or disclosed only in accordance with the terms of such license.
  • Page 5 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 2004/108/EC) and concerning electrical equipment for use within specified voltage limits (Low-voltage directive 2006/95/EC). This conformity is the result of tests conducted by ABB in accordance with the product standard EN 60255-26 for the EMC directive, and with the product standards EN 60255-1 and EN 60255-27 for the low voltage directive.

  • Page 7: Table Of Contents

    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............. 7 Related documents................8 Document symbols and conventions..........10 Symbols..................10 Document conventions..............10 IEC 61850 edition 1 / edition 2 mapping...........11 Section 2 Engineering tool set............23 Introduction..................23 IED engineering process..............
  • Page 8 Table of contents Conditional blocking functionality..........71 Function block execution parameters..........72 Configuration parameters............75 Connections and variables............75 Hardware channels..............75 Validation..................76 Setting configuration and setting parameters in PST....... 78 Graphical Parameter Setting Tool..........79 Connecting signals in SMT...............79 Section 7 Local HMI engineering........... 83 LED and function key engineering............83 Local HMI engineering process...........
  • Page 9 Table of contents Connecting to a IEC 61850 SCL data attribute from sending IED................124 Easy GOOSE engineering when GOOSE is configured via IEC 61850 configuration protocol........125 Deleting connections..............126 Cut-Paste and Copy-Paste of ACT GOOSE variables....126 GOOSE Online Monitoring ............126 Engineering of vertical and horizontal communication in IET600...126 Importing SCL files to PCM600............
  • Page 10 Table of contents Reporting and Printing..............157 Section 12 Glossary............... 159 Glossary..................159 670 series 2.2 IEC Engineering manual...

  • Page 11: Section 1 Introduction

    Section 1 1MRK 511 398-UEN C Introduction Section 1 Introduction This manual GUID-AB423A30-13C2-46AF-B7FE-A73BB425EB5F v19 The engineering manual contains instructions on how to engineer the IEDs using the various tools available within the PCM600 software. The manual provides instructions on how to set up a PCM600 project and insert IEDs to the project structure.

  • Page 12: Product Documentation

    Section 1 1MRK 511 398-UEN C Introduction Product documentation 1.3.1 Product documentation set GUID-3AA69EA6-F1D8-47C6-A8E6-562F29C67172 v16 Engineering manual Installation manual Commissioning manual Operation manual Application manual Technical manual Communication protocol manual Cyber security deployment guideline IEC07000220-4-en.vsd IEC07000220 V4 EN-US Figure 1: The intended use of manuals throughout the product lifecycle The engineering manual contains instructions on how to engineer the IEDs using the various tools available within the PCM600 software.

  • Page 13: Document Revision History

    Section 1 1MRK 511 398-UEN C Introduction describes the process of testing an IED in a substation which is not in service. The chapters are organized in the chronological order in which the IED should be commissioned. The relevant procedures may be followed also during the service and maintenance activities.

  • Page 14: Related Documents

    Section 1 1MRK 511 398-UEN C Introduction 1.3.3 Related documents GUID-94E8A5CA-BE1B-45AF-81E7-5A41D34EE112 v7 Documents related to REB670 Document numbers Application manual 1MRK 505 370-UEN Commissioning manual 1MRK 505 372-UEN Product guide 1MRK 505 373-BEN Technical manual 1MRK 505 371-UEN Type test certificate 1MRK 505 373-TEN Documents related to REC670 Document numbers...
  • Page 15 Section 1 1MRK 511 398-UEN C Introduction Documents related to RET670 Document numbers Application manual 1MRK 504 163-UEN Commissioning manual 1MRK 504 165-UEN Product guide 1MRK 504 166-BEN Technical manual 1MRK 504 164-UEN Type test certificate 1MRK 504 166-TEN Documents related to RES670 Document numbers Application manual 1MRK 511 407-UEN...

  • Page 16: Document Symbols And Conventions

    Section 1 1MRK 511 398-UEN C Introduction Document symbols and conventions 1.4.1 Symbols GUID-2945B229-DAB0-4F15-8A0E-B9CF0C2C7B15 v13 The electrical warning icon indicates the presence of a hazard which could result in electrical shock. The warning icon indicates the presence of a hazard which could result in personal injury.

  • Page 17: Iec 61850 Edition 1 / Edition 2 Mapping

    Section 1 1MRK 511 398-UEN C Introduction For example, select Main menu/Settings. • LHMI messages are shown in Courier font. For example, to save the changes in non-volatile memory, select Yes and press • Parameter names are shown in italics. For example, the function can be enabled and disabled with the Operation setting.
  • Page 18 Section 1 1MRK 511 398-UEN C Introduction Function block name Edition 1 logical nodes Edition 2 logical nodes BFPTRC_F05 BFPTRC BFPTRC BFPTRC_F06 BFPTRC BFPTRC BFPTRC_F07 BFPTRC BFPTRC BFPTRC_F08 BFPTRC BFPTRC BFPTRC_F09 BFPTRC BFPTRC BFPTRC_F10 BFPTRC BFPTRC BFPTRC_F11 BFPTRC BFPTRC BFPTRC_F12 BFPTRC BFPTRC BFPTRC_F13...
  • Page 19 Section 1 1MRK 511 398-UEN C Introduction Function block name Edition 1 logical nodes Edition 2 logical nodes BUSPTRC_B12 BUSPTRC BUSPTRC BUSPTRC_B13 BUSPTRC BUSPTRC BUSPTRC_B14 BUSPTRC BUSPTRC BUSPTRC_B15 BUSPTRC BUSPTRC BUSPTRC_B16 BUSPTRC BUSPTRC BUSPTRC_B17 BUSPTRC BUSPTRC BUSPTRC_B18 BUSPTRC BUSPTRC BUSPTRC_B19 BUSPTRC BUSPTRC BUSPTRC_B20...
  • Page 20 Section 1 1MRK 511 398-UEN C Introduction Function block name Edition 1 logical nodes Edition 2 logical nodes BZNTPDIF_B BZNTPDIF BZBTGAPC BZBTPDIF BZNTGAPC BZNTPDIF CBPGAPC CBPLLN0 CBPMMXU CBPMMXU CBPPTRC CBPPTRC HOLPTOV HOLPTOV HPH1PTOV HPH1PTOV PH3PTOC PH3PTUC PH3PTUC PH3PTOC RP3PDOP RP3PDOP CCPDSC CCRPLD CCPDSC...
  • Page 21 Section 1 1MRK 511 398-UEN C Introduction Function block name Edition 1 logical nodes Edition 2 logical nodes FDPSPDIS FDPSPDIS FDPSPDIS FMPSPDIS FMPSPDIS FMPSPDIS FRPSPDIS FPSRPDIS FPSRPDIS FTAQFVR FTAQFVR FTAQFVR FUFSPVC SDDRFUF FUFSPVC SDDSPVC GENPDIF GENPDIF GENGAPC GENPDIF GENPHAR GENPTRC GOPPDOP GOPPDOP GOPPDOP...
  • Page 22 Section 1 1MRK 511 398-UEN C Introduction Function block name Edition 1 logical nodes Edition 2 logical nodes LDRGFC STSGGIO LDRGFC LEXPDIS LEXPDIS LEXPDIS LEXPTRC LFPTTR LFPTTR LFPTTR LMBRFLO LMBRFLO LMBRFLO LOLSPTR LOLSPTR LOLSPTR LOVPTUV LOVPTUV LOVPTUV LPHD LPHD LPTTR LPTTR LPTTR LT3CPDIF...
  • Page 23 Section 1 1MRK 511 398-UEN C Introduction Function block name Edition 1 logical nodes Edition 2 logical nodes QCBAY QCBAY BAY/LLN0 QCRSV QCRSV QCRSV RCHLCCH RCHLCCH RCHLCCH REFPDIF REFPDIF REFPDIF ROTIPHIZ ROTIPHIZ ROTIPHIZ ROTIPTRC ROV2PTOV GEN2LLN0 PH1PTRC PH1PTRC ROV2PTOV ROV2PTOV SAPFRC SAPFRC SAPFRC...
  • Page 24 Section 1 1MRK 511 398-UEN C Introduction Function block name Edition 1 logical nodes Edition 2 logical nodes T3WPDIF T3WPDIF T3WGAPC T3WPDIF T3WPHAR T3WPTRC TCLYLTC TCLYLTC TCLYLTC TCSLTC TCMYLTC TCMYLTC TCMYLTC TEIGAPC TEIGGIO TEIGAPC TEIGGIO TEILGAPC TEILGGIO TEILGAPC TMAGAPC TMAGGIO TMAGAPC TPPIOC TPPIOC...
  • Page 25 Section 1 1MRK 511 398-UEN C Introduction Function block name Edition 1 logical nodes Edition 2 logical nodes ZMFCPDIS ZMFCLLN0 PSFPDIS PSFPDIS ZMFPDIS ZMFPDIS ZMFPTRC ZMFPTRC ZMMMXU ZMMMXU ZMFPDIS ZMFLLN0 PSFPDIS PSFPDIS PSFPDIS ZMFPDIS ZMFPDIS ZMFPTRC ZMFPTRC ZMMMXU ZMMMXU ZMHPDIS ZMHPDIS ZMHPDIS ZMMAPDIS...
  • Page 26 Section 1 1MRK 511 398-UEN C Introduction Function block name Edition 1 logical nodes Edition 2 logical nodes EF2PTOC EF2LLN0 EF2PTRC EF2PTRC EF2RDIR EF2RDIR GEN2PHAR GEN2PHAR PH1PTOC PH1PTOC EFPIOC EFPIOC EFPIOC ETPMMTR ETPMMTR ETPMMTR ITBGAPC IB16FCVB ITBGAPC L4UFCNT L4UFCNT L4UFCNT LPHD LPHD LPTTR...
  • Page 27 Section 1 1MRK 511 398-UEN C Introduction Function block name Edition 1 logical nodes Edition 2 logical nodes SXCBR SXCBR SXCBR SXSWI SXSWI SXSWI T1PPDIF T1PPDIF T1PPHAR T1PPTRC TEIGAPC TEIGGIO TEIGAPC TEIGGIO TEILGAPC TEILGGIO TEILGAPC TMAGAPC TMAGGIO TMAGAPC TPPIOC TPPIOC TPPIOC U2RWPTUV GEN2LLN0...

  • Page 29: Section 2 Engineering Tool Set

    Section 2 1MRK 511 398-UEN C Engineering tool set Section 2 Engineering tool set Introduction SEMOD58253-4 v11 The structure of a monitoring and control system for electrical substations has a principle structure as shown in Figure 2. It contains a number of IEDs for the various purposes.

  • Page 30: Ied Engineering Process

    Section 2 1MRK 511 398-UEN C Engineering tool set PCM600 communicates with the bay IEDs via an Ethernet connection. The connection allows to reading and writing all configuration data needed for proper operation from or to the IED. The IEDs have communication interfaces for protocols and media used for station communication.
  • Page 31 PCM600 interacts with IET600 by importing and exporting SCL files. The built in tool can be used for small projects including ABB IEDs only. To engineer communication between ABB IED's and third party devices it's recommended to use IET600.
  • Page 32 Section 2 1MRK 511 398-UEN C Engineering tool set IED Engineering Management Project Communication Management Operator Disturbance Record Management Service Management PCM600 IEC08000100-3-en.vsd IEC08000100 V3 EN-US Figure 3: Organization of PCM600 in different management tasks Additional functionality to manage the project and to organize the user rights: •...
  • Page 33 Section 2 1MRK 511 398-UEN C Engineering tool set The connection between the IED and PCM600 is established via an Ethernet link on the front or rear port on the IED. The IP addresses of the different ports on the IED are not allowed to belong to the same subnet.

  • Page 35: Section 3 Engineering Process

    Section 3 1MRK 511 398-UEN C Engineering process Section 3 Engineering process Workflow SEMOD58465-5 v13 Start Create plant structure Project Optional, can be used to add additional hardware modules Configure Ethernet ports, Routes and Merging units Save the work between the different steps ACT/ Configure IED functionality...
  • Page 36 Section 3 1MRK 511 398-UEN C Engineering process • Build the plant structure according to the substation structure. For performance reasons, do not insert more than 40 IEDs in one PCM600 project. Larger projects can be divided into several PCM600 projects. •...
  • Page 37 Section 3 1MRK 511 398-UEN C Engineering process • The engineering steps are protocol dependent. • Use the communication management tool (CMT) for DNP3 engineering. • Use the IET600 station configuration tool or the PCM600 IEC 61850 Configuration tool for IEC 61850 engineering. •...

  • Page 39: Section 4 Setting Up A Project

    Section 4 1MRK 511 398-UEN C Setting up a project Section 4 Setting up a project PCM600 projects SEMOD58401-5 v3 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 40: Setting Technical Key

    Section 4 1MRK 511 398-UEN C Setting up a project Close PCM600 before running the IED connectivity package installation. Install the IED series Connectivity package base. Select and install the IED modules as required. Install the documentation. Installing 670 2.1.5 (or lower) version of the Connectivity package on top of the 670 3.2.0.0 Connectivity package will corrupt the Connectivity package installation.
  • Page 41 Section 4 1MRK 511 398-UEN C Setting up a project PCM600 or write the PCM600 technical key to the IED. The user can also define an own technical key. The error message displayed due to mismatch between PCM600 and IED technical key is shown in Figure IEC09000378-2-en.vsd IEC09000378 V2 EN-US...
  • Page 42 Section 4 1MRK 511 398-UEN C Setting up a project IEC09000667-5-en.vsd IEC09000667 V5 EN-US Figure 6: PCM600: Set technical key menu at IED level A dialog window opens to inform about the technical key concept. Click OK in the dialog window. The technical key is read from the IED and the technical key editor window opens, see Figure...

  • Page 43: Setting Up Communication Between Pcm600 And The Ied

    Section 4 1MRK 511 398-UEN C Setting up a project Using the Technical Key Editor the following selections are possible. • use the existing technical key in the IED • use the existing technical key defined for the IED object in PCM600 or •...
  • Page 44 Section 4 1MRK 511 398-UEN C Setting up a project Setting up IP addresses Communication between the IED and PCM600 is enabled from the LHMI. The IP address and the corresponding communication subnetwork mask must be set via the Ethernet configuration tool (ECT) for each available Ethernet interface in the IED.
  • Page 45 Section 4 1MRK 511 398-UEN C Setting up a project IEC13000057-1-en.vsd IEC13000057 V1 EN-US Figure 8: Select: Search programs and files Type View network connections and click on the View network connections icon. 670 series 2.2 IEC Engineering manual...
  • Page 46 Section 4 1MRK 511 398-UEN C Setting up a project IEC13000058-1-en.vsd IEC13000058 V1 EN-US Figure 9: Click View network connections Right-click and select Properties. IEC13000059-1-en.vsd IEC13000059 V1 EN-US Figure 10: Right-click Local Area Connection and select Properties Select the TCP/IPv4 protocol from the list of configured components using this connection and click Properties.
  • Page 47 Section 4 1MRK 511 398-UEN C Setting up a project IEC13000060-1-en.vsd IEC13000060 V1 EN-US Figure 11: Select the TCP/IPv4 protocol and open Properties Select Use the following IP address and define IP address and Subnet mask if the front port is used and if the IP address is not set to be obtained automatically by the IED,see Figure 12.

  • Page 48: Project Managing In Pcm600

    Section 4 1MRK 511 398-UEN C Setting up a project IEC13000062-1-en.vsd IEC13000062 V1 EN-US Figure 12: Select: Use the following IP address Use the ping command to verify connectivity with the IED. Close all open windows and start PCM600. The PC and IED must belong to the same subnetwork for this set- up to work.
  • Page 49 Section 4 1MRK 511 398-UEN C Setting up a project • Delete projects • Rename projects • Copy and paste projects • Back up projects • Migrate projects from one product version to another It is possible to open projects created in previous versions of PCM600 to the current version, but the opposite is not possible.

  • Page 50: Building A Plant Structure

    Section 4 1MRK 511 398-UEN C Setting up a project IEC05000609-2-en.vsdx IEC05000609 V2 EN-US Figure 13: PCM600: Create a new project window Name the project and include a description (optional) and click Create. PCM600 sets up a new project that will be listed under Projects on my computer.

  • Page 51: Iec 61850 Naming Conventions To Identify An Ied

    Section 4 1MRK 511 398-UEN C Setting up a project IEC09000710-3-en.vsd IEC09000710 V3 EN-US Figure 14: PCM600: Set up a plant structure Once a plant structure is built, the name of each level in the structure should be renamed by the names/identifications used in the grid. Use the right mouse button to build the plant structure by selecting the elements from the context menu.
  • Page 52 Section 4 1MRK 511 398-UEN C Setting up a project • A technical key is used on engineering drawings and for signal identifications. The technical key is used within SCL for referencing other objects. Observe that name is a relative identification within a hierarchy of objects. The maximum number of characters allowed for a technical key is 25 for Edition 1 and 55 for Edition 2.

  • Page 53: Changing The Scl Version Of An Ied

    Section 4 1MRK 511 398-UEN C Setting up a project IEC13000277-1-en.vsd GUID-BDE605BB-5ACA-456A-9334-65B3CE3C46F5 V1 EN-US Figure 15: PCM600: IEC 61850 signal designation concept 4.6.2 Changing the SCL version of an IED GUID-3188FA18-D04E-4BAC-9224-10F43F30F049 v3 You can change the SCL version of an IED in PCM600 from Edition 1 of IEC 61850 to Edition 2 or the other way around.

  • Page 54: Inserting An Ied

    Section 4 1MRK 511 398-UEN C Setting up a project 1.1. Select Tools/Options..1.2. In Options/IEC 61850 Configuration, open the Miscellaneous tab. 1.3. Check Allow changing SCL version of an IED configuration. IEC17000133-1-en.vsdx 1.4. Click OK to exit. In a project that has no IEDs, right-click the bay and select Import... to insert the IED from a .pcmi file.
  • Page 55 Section 4 1MRK 511 398-UEN C Setting up a project version for local HMI and the IO boards included in the IED will be read from the IED directly. • Offline mode: when the physical IED is not available or not connected to PCM600, the engineering steps are done without any synchronization with the IED.
  • Page 56 Section 4 1MRK 511 398-UEN C Setting up a project IEC15000329-1-en.vsdx IEC15000329 V2 EN-US Figure 17: IED insertion in online mode Right-click the Bay and select New and application type of IED. Select the IED type to insert. It is also possible to drag an IED from the Object Types window to the Bay level.
  • Page 57 Section 4 1MRK 511 398-UEN C Setting up a project IEC15000332-1-en.vsdx IEC15000332 V1 EN-US Figure 19: PCM600: Communication protocol selection wizard Select the port and insert the IP address of the physical IED to configure, see Figure IEC09000713-2-en.vsd IEC09000713 V2 EN-US Figure 20: PCM600: Communication port and IP address Cross-check that the IED whose IP address has been inserted, has been...
  • Page 58 Section 4 1MRK 511 398-UEN C Setting up a project IEC09000714-4-en.vsd IEC09000714 V4 EN-US Figure 21: PCM600: IED Version detection The IEC 61850 protocal edition can be changed later in the Plant Structure view by right-clicking on the IED and selecting Change SCL Version if it is the only IED in the plant structure.
  • Page 59 Section 4 1MRK 511 398-UEN C Setting up a project IEC09000715-5-en.vdsx IEC09000715 V5 EN-US Figure 23: PCM600: IED Setup completion wizard It is not possible to go back and do any modifications in the setup complete page. If an error is detected, the insertion has to be canceled and the IED has to be inserted again.
  • Page 60 Section 4 1MRK 511 398-UEN C Setting up a project IEC17000043-1-en.vsdx IEC17000043 V1 EN-US Figure 24: Insert an IED from the template library Select New and Create from Template ... to open the Create New Object from Template window, see Figure 670 series 2.2 IEC Engineering manual...
  • Page 61 Section 4 1MRK 511 398-UEN C Setting up a project IEC15000268-3-en.vsdx IEC15000268 V3 EN-US Figure 25: PCM600: Selecting an IED from the template library Select the IED from the list of available IEDs. Click the icon in the right column of the list of available templates to open the Template Properties.
  • Page 62 Section 4 1MRK 511 398-UEN C Setting up a project It is possible to insert more than one IED from the Create New Object from Template window and the selection window remains open until the user clicks Close. Importing a pre-configuration to template library Pre-configurations in PCM600 are available as *.pcmt files and include all information that is related to the IED object in PCM600.

  • Page 63: Setting Ied Ip Address In The Project

    Section 4 1MRK 511 398-UEN C Setting up a project Because IEC 61850 edition 1 and IEC 61850 edition 2 templates are incompatible, convert an IEC 61850 edition 1 template to IEC 61850 edition 2 before you insert it. It is possible to give the inserted IED in the plant structure a user- defined name.
  • Page 64 Section 4 1MRK 511 398-UEN C Setting up a project IEC08000121-4-en.vsdx IEC08000121 V4 EN-US Figure 28: Alternative 2: IP address via the IED Object Properties window Procedure Select the IED to enter the IP address. Open the Object Properties window. Place the cursor on the IP address row and enter the IP address.

  • Page 65: Section 5 Ethernet Configuration Tool

    Section 5 1MRK 511 398-UEN C Ethernet configuration tool Section 5 Ethernet configuration tool Introduction GUID-27895183-D8EC-48B1-8B42-6C3B469AE67B v2 The Ethernet configuration tool (ECT) is a configuration tool that provides the possibility to configure Access points, Merging units and Routes in a single place. The tool increases security and easy of use as it offers an overview of all configurations related to Ethernet communication, such as operation, IP addresses, redundant communications and which protocols allowed to run on the individual...
  • Page 66 Section 5 1MRK 511 398-UEN C Ethernet configuration tool This tab allows configuration of the access points, model access points in SCL, filter the protocols to be sent over each access point, and configure time synchronization for each access points. Each row in this tab corresponds to an access point.
  • Page 67 Section 5 1MRK 511 398-UEN C Ethernet configuration tool Column Description Read only Subnetwork Shows the SCL subnetwork to which the access point is connected, can be changed. This column shows the SCL subnetworks available in the PCM600 project. SCL subnetworks can be created/deleted in Subnetworks tab of IEC 61850 Configuration tool in PCM600.
  • Page 68 Section 5 1MRK 511 398-UEN C Ethernet configuration tool Changing an IED’s IEC 61850 configuration from IEC 61850 edition 2 to IEC 61850 edition 1 will remove the Access points that are modelled in SCL except the default Access point and also if the redundancy is modelled then it will also be removed.
  • Page 69 Section 5 1MRK 511 398-UEN C Ethernet configuration tool Table 4: Merging units tab Column Description Read only Merging unit instance. Name Name of the merging unit. AP connection Associates Merging unit with the access point. This column shows the access points that are available. Changing this setting may have impact on Application Configuration.
  • Page 70 Section 5 1MRK 511 398-UEN C Ethernet configuration tool IEC16000191-1-en.vsdx IEC16000191 V1 EN-US Figure 31: Example of invalid configuration Routes IEC16000091-1-en.vsdx IEC16000091 V1 EN-US Figure 32: Routes tab 670 series 2.2 IEC Engineering manual...

  • Page 71: Starting The Ethernet Configuration Tool

    Section 5 1MRK 511 398-UEN C Ethernet configuration tool This tab allows configuration of the routing of data packets. Each row in this tab corresponds to a Route. Changing settings in this tab will not have any impact on the SCL model. Table 5: Routes tab Column...
  • Page 72 Section 5 1MRK 511 398-UEN C Ethernet configuration tool IEC16000094-1-en.vsdx IEC16000094 V1 EN-US 670 series 2.2 IEC Engineering manual...

  • Page 73: Section 6 Protection And Control Engineering

    Section 6 1MRK 511 398-UEN C Protection and control engineering Section 6 Protection and control engineering Creating an application configuration with ACT 6.1.1 Overview GUID-E9990B51-52BA-434C-8BC4-2418EA56B31B v10 ACT is used to create the application configuration for an IED. The application configuration is built up with function blocks. Function blocks are dedicated for different functionality, for example: •...
  • Page 74 Section 6 1MRK 511 398-UEN C Protection and control engineering Application function Application function Application function GUID-CF053FE9-0BA6-448A-A1D9-9697027ECCBC V2 EN-US Figure 33: Examples of function blocks with and without monitoring and commands Function blocks without communication Function blocks with communication only Function blocks with monitoring and commands LN The logical node of the function block The basic general features of the Application configuration tool ACT:...

  • Page 75: Function Blocks

    Section 6 1MRK 511 398-UEN C Protection and control engineering SMT is not supporting signals of integer type or group signals. So, even if these types of signals are set as visible for SMT, they will not be shown in SMT. •...

  • Page 76: Signals And Signal Management

    Section 6 1MRK 511 398-UEN C Protection and control engineering IEC08000258.vsd IEC08000258 V1 EN-US Figure 34: ACT: Function block overview Connection(s) User defined function block name Function block, selected (red) Mandatory signal (indicated by a red triangle if not connected) Function block name Function block, locked (red) ANSI symbol...

  • Page 77: Series 2.2 Iec Engineering Manual

    Section 6 1MRK 511 398-UEN C Protection and control engineering Boolean input and output signals may need to be inverted to fulfill the logic. ACT supports to add the inversion logic to a binary signal. The input signal on glue logic function blocks can only be inverted if a glue logic function block with lower execution order in the same cycle time is available.

  • Page 78: Function Block Execution Parameters

    Section 6 1MRK 511 398-UEN C Protection and control engineering SMAI1 SMAI2 SMAI3 Lost data Blocked function IEC16000049-2-en.vsdx IEC16000049 V2 EN-US Figure 35: An example of function blocking 6.1.5 Function block execution parameters GUID-ADA51480-0DE7-4D18-9B23-99EB3B5E8813 v8 Three function block execution parameters have influence on the runtime execution of the function block within the application configuration.
  • Page 79 The Cycle Time can be selected to different values for certain functions. Depending on the function block and IED type, one or more possibilities may be available. The combination Execution Order, Instance Number is predefined by ABB. Mainly for basic logic function blocks like for example AND, OR, a set of combinations spread over the full range of execution orders is available.
  • Page 80 Section 6 1MRK 511 398-UEN C Protection and control engineering For the same time point, faster cycle times are executed first. A function block that is placed after a function block in the execution flow must have the same or a higher cycle time and/or execution order.

  • Page 81: Configuration Parameters

    Section 6 1MRK 511 398-UEN C Protection and control engineering blocks in group 3 must have a higher execution order than the main function block in group 2. 6.1.6 Configuration parameters GUID-52044790-0A7C-4D83-8634-887593A903BC v4 6.1.7 Connections and variables GUID-1564FB6D-2682-49AE-A1D5-8B7F03E4204B v4 A connection is the link or "wire" between function block outputs and inputs. Rules and methods to do connections: •...

  • Page 82: Validation

    Section 6 1MRK 511 398-UEN C Protection and control engineering also represented in SMT with a cross mark. Hardware channels are always visible in SMT. Supported hardware channels are: • Binary input channels • Binary output channels A hardware input channel can be used as often as it is needed. A hardware binary output channel is taken from the list of available channels when a new channel is requested.
  • Page 83 Section 6 1MRK 511 398-UEN C Protection and control engineering • A connection between two input signals or two output signals is not possible. • A connection between two different data types is not possible, for example a binary output to an analog input. Validation on demand To check the validity of an application configuration, click the 'Validate Configuration' icon in the toolbar.

  • Page 84: Setting Configuration And Setting Parameters In Pst

    Section 6 1MRK 511 398-UEN C Protection and control engineering Setting configuration and setting parameters in PST SEMOD58493-4 v9 Configuration parameters and settings parameters are changeable either from LHMI or from PST in PCM600. Note that the some parameters are only visible in PST and some are only visible on LHMI.

  • Page 85: Graphical Parameter Setting Tool

    Section 6 1MRK 511 398-UEN C Protection and control engineering During a write both the basic and advanced settings are written to the IED. 6.2.1 Graphical Parameter Setting Tool GUID-C726930D-D55E-4426-A14F-F4E6C7F6131C v2 The Graphical Parameter Setting tool (GPST) is a tool in PCM600 that is used to present parameter settings in a graphical user interface.
  • Page 86 Section 6 1MRK 511 398-UEN C Protection and control engineering • between physical IO signals and function blocks. • for the GOOSE engineering. Figure 43: SMT: Operation principles A binary input channel can be connected to one or several function block inputs, Figure 44.
  • Page 87 Section 6 1MRK 511 398-UEN C Protection and control engineering IEC17000046-1-en.vsdx IEC17000046 V1 EN-US Figure 46: Binary output channel connection Connections made in SMT are automatically shown in ACT and vice versa. It is possible to group and collapse hardware channels in SMT to get a better overview.

  • Page 89: Section 7 Local Hmi Engineering

    Section 7 1MRK 511 398-UEN C Local HMI engineering Section 7 Local HMI engineering LED and function key engineering 7.1.1 Local HMI engineering process GUID-35126910-CF1C-4411-ACA9-72E1DB9BC68F v9 Figure 47 shows the different steps of the engineering process of the local HMI (LHMI) and their relative order.
  • Page 90 Section 7 1MRK 511 398-UEN C Local HMI engineering • To use the function keys and LEDs on LHMI it is necessary to insert the corresponding special function blocks for these operation element groups. • The function blocks for the LEDs are organized as single function block per LED but indexed to the group identification, for example GRP1_LED3 (indication LED 3 in virtual LED group 1).
  • Page 91 Section 7 1MRK 511 398-UEN C Local HMI engineering Basic key area IEC13000289-2-en.vsd GUID-A374CBAE-CFB8-47CE-A2AD-514F8B6F20CA V2 EN-US Figure 48: Local HMI: Placement of local HMI operation elements Function block LEDGEN • Handles an external acknowledge signal as source to acknowledge the LEDs. •...
  • Page 92 Section 7 1MRK 511 398-UEN C Local HMI engineering • The organization of flashing, acknowledgment and group selection is done directly between the function blocks and the basic LHMI keys, the 'Multifunction' key [a] to toggle between the three groups or the 'Clear' key [b] to acknowledge or reset the LEDs.
  • Page 93 Section 7 1MRK 511 398-UEN C Local HMI engineering IEC09000656-1-en.vsd IEC09000656 V1 EN-US Figure 49: LHMI: Function key operation mode The LEDs have a number of different operation modes, see Figure • General definitions • Each LED can illuminate in one of three colors: RED, YELLOW, GREEN.

  • Page 94: Led Operation Modes

    Section 7 1MRK 511 398-UEN C Local HMI engineering • The same as LatchedAck-F-S but the LED starts with steady state and flashes after acknowledgment. • LatchedColl-S • The LED illuminates in all cases in steady mode only • The LED latches a signal change from OFF-ON until it is acknowledged by the operator.
  • Page 95 Section 7 1MRK 511 398-UEN C Local HMI engineering LED operation mode Follow-S Illumination => = Steady = Flash IEC08000395.vsd IEC08000395 V1 EN-US Figure 51: LHMI: LED operation mode Follow-S In the Follow-S mode, the LED adopts a steady behavior. It is lit on a binary On signal and switched off on a binary Off signal.
  • Page 96 Section 7 1MRK 511 398-UEN C Local HMI engineering LED operation mode LatchedAck-F-S Illumination => = Steady = Flash IEC08000397.vsd IEC08000397 V1 EN-US Figure 53: LHMI: LED operation mode LatchedAck-F-S / Base The LatchedAck-F-S mode is used to indicate unconfirmed alarms or warnings. On a binary On signal (steady or pulse), the LED enters a flashing state.
  • Page 97 Section 7 1MRK 511 398-UEN C Local HMI engineering Illumination => = Steady = Flash IEC08000399.vsd IEC08000399 V1 EN-US Figure 55: LHMI LED operation mode LatchedAck-F-S Prio / 2 LED operation mode LatchedAck-S-F The LatchedAck-S-F mode operates in a similar manner as the LatchedAck-F-S mode.
  • Page 98 Section 7 1MRK 511 398-UEN C Local HMI engineering LED operation mode LatchedReset-S tMax tRestart Auto- Reset Man- Reset S1LED S2LED S3LED S4LED Illumination => = Steady = Flash IEC08000400.vsd IEC08000400 V1 EN-US Figure 57: LHMI: LED operation mode LatchedReset-S The LatchedReset-S mode is designed for multi-signal disturbance monitoring.

  • Page 99: Single-Line Diagram Engineering

    Section 7 1MRK 511 398-UEN C Local HMI engineering tMax tRestart Auto- Reset Man- Reset S1LED S2LED S3LED S4LED Illumination => = Steady = Flash IEC08000401.vsd IEC08000401 V1 EN-US Figure 58: LHMI LED operation mode LatchedReset-S / 2 Single-line diagram engineering GUID-4EF97104-327A-443F-AA00-7C4BF143D46D v3 Phase angles are shown in radians in the single line diagram view, but in degrees in other views on the LHMI.
  • Page 100 Section 7 1MRK 511 398-UEN C Local HMI engineering IEC08000123-3-en.vsd IEC08000123 V3 EN-US Figure 59: GDE: Screen image with active GDE Object type library window HMI display window pages IED HMI display window Procedure Start GDE to open a presentation of the tool. GDE has a object type library window on the left side of the display.
  • Page 101 Section 7 1MRK 511 398-UEN C Local HMI engineering Object types The Graphical Display Editor window contains some panes that include drawing symbols or elements to create a single line diagram, measurements and texts on a page. Click on the name bar of the selected element to open the pane. The object types shows the symbols either in ANSI standard or in IEC standard.
  • Page 102 Section 7 1MRK 511 398-UEN C Local HMI engineering HMI display raster layout and text font selection The raster in the page changes from symbol presentation to text presentation when a text object is selected and vice versa. The text can be presented in two different font sizes: •...

  • Page 103: Supported Single-Line Diagram Symbols

    Section 7 1MRK 511 398-UEN C Local HMI engineering IEC05000598-4-en.vsdx IEC05000598 V4 EN-US Figure 61: GDE: Drawing a line 7.2.2 Supported single-line diagram symbols GUID-AA86E5A0-4060-436A-93A9-D5901F91BD09 v6 Table 6: Supported symbols Category IEC Symbol Name IEC Symbol ANSI Y32.2/ Function Block Definitions IEEE 315 Type...
  • Page 104 Section 7 1MRK 511 398-UEN C Local HMI engineering Category IEC Symbol Name IEC Symbol ANSI Y32.2/ Function Block Definitions IEEE 315 Type Symbol Definitions Measurands Measurand CMMXU SMBRREC TRPTTR VMMXU CMSQI VMSQI VNMMXU TCMYLTC PCFCNT SSCBR SSIML SSIMG HZPDIF GENPDIF T2WPDIF T3WPDIF...
  • Page 105 Section 7 1MRK 511 398-UEN C Local HMI engineering Category IEC Symbol Name IEC Symbol ANSI Y32.2/ Function Block Definitions IEEE 315 Type Symbol Definitions Others Resistor Others Fieldwinding Others Rectifier Others Earthing transformer Power Transformer 2 windings transformers Power Transformer 3 windings transformers Power...
  • Page 106 Section 7 1MRK 511 398-UEN C Local HMI engineering Category IEC Symbol Name IEC Symbol ANSI Y32.2/ Function Block Definitions IEEE 315 Type Symbol Definitions Switchgear Breaker, 00 = Middle position SCSWI, VSGAPC Breaker, 01 = Open Breaker, 10 = Closed Breaker, 11 = Undefined Switchgear Breaker indication only, 00 =...
  • Page 107 Section 7 1MRK 511 398-UEN C Local HMI engineering Category IEC Symbol Name IEC Symbol ANSI Y32.2/ Function Block Definitions IEEE 315 Type Symbol Definitions Switchgear Isolator2 indication only, 00 = SCSWI, Middle position SXSWI, DPGAPC, VSGAPC Isolator2 indication only, 01 = Open Isolator2 indication only, 10 = Closed Isolator2 indication only, 11 =...

  • Page 108: Bay Configuration Engineering

    Section 7 1MRK 511 398-UEN C Local HMI engineering Category IEC Symbol Name IEC Symbol ANSI Y32.2/ Function Block Definitions IEEE 315 Type Symbol Definitions Switchgear Disconnector circuit breaker SCSWI, indication only, 00 = Middle position SXCBR, VSGAPC Disconnector circuit breaker indication only, 01 = Open Disconnector circuit breaker indication only, 10 = Closed...
  • Page 109 Section 7 1MRK 511 398-UEN C Local HMI engineering Creating a complete HMI display page Procedure: Make a sketch 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. Add connection points where needed.
  • Page 110 Section 7 1MRK 511 398-UEN C Local HMI engineering • Switch controller (of type CSWI) for an apparatus. • All configured function blocks with measurements (of type MMXU) for the measurements. • VSGAPC for two bit indications for the dynamic text symbols. •...
  • Page 111 Section 7 1MRK 511 398-UEN C Local HMI engineering IEC05000611-2-en.vsdx IEC05000611 V2 EN-US Figure 64: GDE: Object properties windows for text insertion The single line diagram screen can display different values, with the help of the dynamic text fields. Please remember that these values are displayed by default in SI units (for example - active power is displayed in W).

  • Page 112: Events And Indications

    Section 7 1MRK 511 398-UEN C Local HMI engineering Events and indications GUID-B895D621-07EF-4788-863D-19C361C66917 v3 To get IED events to the LHMI event list and indications for Ready, Start and Trip indication LEDs, disturbance report needs to be engineered. Detailed information about disturbance report subfunctions is found in the technical manual.

  • Page 113: Section 8 Iec 61850 Communication Engineering

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering Section 8 IEC 61850 communication engineering IEC 61850 interface in the IED and tools SEMOD120868-5 v3 For more information on the implementation of IEC 61850 standards in IEDs, see the IEC 61850 communication protocol manual.

  • Page 114: Iec 61850 Interface In Ied

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering The merging units (MU) are called so because they can gather analog values from one or more measuring transformers, sample the data and send the data over process bus to other clients (or subscribers) in the system. Some merging units are able to get data from classical measuring transformers, others from non- conventional measuring transducers and yet others can pick up data from both types.

  • Page 115: Goose Data Exchange

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering IEC 61850 has as a concept for the identification of all signals for communication that belong to a function by a logical node as a placeholder. All signal information in command and monitoring direction, which belongs to a function, is available within the logical node.

  • Page 116: Station Configuration Description File Types

    • An IED is already extended by default data sets. They are predefined by ABB. Changes or additional data sets, for example, have to be done with the IET600 station configuration tool. SCD = Station Configuration Description...

  • Page 117: Sequence For Engineering Of Iec 61850 Protocol

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering • Knowledge of the IEC 61850 engineering process as described in the IEC 61850 standard. • The IEC 61850 conformance documents for the IED to be engineered. • The Technical reference manual describes function blocks defined as logical nodes.

  • Page 118: Exporting Scl Files From Pcm600

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering IET600  create project  import SCD file SCD file SCD file  configure data sets  configure Report CBs  configure GOOSE CBs  export SCD file PCM600 PCM600 ...

  • Page 119: Exporting Icd Or Cid Files

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering IEC08000415-2-en.vsd IEC08000415 V2 EN-US Figure 70: IEC 61850: Export SCD step 1 Right-click on the sub-station, and select Export ..Select a location to store the SCD file with a chosen name. The SCL Export Options window opens (see Figure 71).

  • Page 120: Easy Goose Engineering In The Application Configuration Tool

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering IEC08000416-3-en.vsdx IEC08000416 V3 EN-US Figure 72: IEC 61850: Export IED file type selection The SCL Export Options window opens (see Figure 73). Select Export Private Sections, Export As SCL Template or Include Goose Sending IEDs, and click Export.

  • Page 121: User Interface

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering 8.4.1 User interface GUID-407AAE50-53E1-4112-91FE-FCC5B33A38E9 v1 Connect to GOOSE dialog window IEC16000171-1-en.vsd IEC16000171 V1 EN-US Figure 74: ACT: Connect to GOOSE dialog window 1. Select Sender IEDs 2. Recently Used IEDs 3.
  • Page 122 Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering The Sender IEDs list displays all selected sender IEDs compatible data attributes that can be received for the selected receiving signal. • Application Configuration: Application configuration tab displays all selected sender IEDs data attributes for signals that are visible in Application Configuration.
  • Page 123 Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering IEC16000173-1-en.vsd IEC16000173 V1 EN-US Figure 76: ACT: SCL Configuration tab in Connect to GOOSE dialog window Search In the Application Configuration tab, the Main Application, function block, signal, data attribute and IED name is considered in the filtering. In the SCL Configuration tab, the logical device, logical node, data object and data attribute is considered in the filtering.
  • Page 124 Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering IEC16000168-1-en.vsdx IEC16000168 V1 EN-US Figure 77: ACT: Select GOOSE Block and Signal GOOSE Receive Blocks In Configuration The GOOSE Receive Blocks In Configuration displays list of compatible GOOSE Receive function blocks which are already in the configuration. New GOOSE Receive Blocks The New GOOSE Receive Blocks displays list of compatible GOOSE Receive function blocks and corresponding GOOSE input signals which can be added to the...

  • Page 125: Enable Easy Goose Engineering In Pcm600

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering IEC16000190-1-en.vsdx IEC16000190 V1 EN-US Figure 78: ACT: Connect to GOOSE dialog window with Extended Mode Receiver IED Receiver IED list displays the Receiver IED Main Application, function block and signal data. Connection can be made at signal level and one connection per signal. Search Main Application name, function block name and signal name are considered as filtering.

  • Page 126: Making Goose Connections In The Application Configuration Tool

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering IEC16000099-1-en.vsdx IEC16000099 V1 EN-US Figure 79: PCM600: Options dialog window The “IEC 61850 configuration engineering mode enabled” option under Tools/Options/IEC 61850 Configuration/Enginneering tab has to be checked to get the option above enabled. 8.4.3 Making GOOSE connections in the application configuration tool...
  • Page 127 Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering IEC16000170-1-en.vsd IEC16000170 V1 EN-US Figure 80: PCM600: GOOSE option in ACT The “Connect to GOOSE dialog” window opens, for detailed information on the “Connect to GOOSE dialog” window refer to Section "User interface".

  • Page 128: Create Goose Connections Via Normal Function Blocks

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering For more information on SCL configuration data attributes, see Section "User interface". In this case, the GOOSE connection will be added as shown in Figure below. IEC16000175-1-en.vsdx IEC16000175 V1 EN-US Figure 82: ACT: GOOSE configuration on Receiver IED side (left) and Sender IED (right) side...
  • Page 129 Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering In the “Select GOOSE Block and Signal” dialog window, select needed GOOSE Input signal from either “GOOSE Receive Blocks In Configuration” or “New GOOSE Receive Blocks” section. For more information on the GOOSE Receive blocks, see Section "User interface"...

  • Page 130: Connect To Goose Dialog Window User Interface - Extended Mode

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering IEC16000178-1-en.vsd IEC16000178 V1 EN-US Figure 85: ACT: GOOSE configuration on Receiver IED (left) and Sender IED (right) side Creation of GOOSE connections via normal function blocks is not supported for the GOOSEINTLKRCV function.

  • Page 131: Easy Goose Engineering When Goose Is Configured Via Iec 61850 Configuration Protocol

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering IEC16000169-1-en.vsdx IEC16000169 V1 EN-US Figure 86: ACT: GOOSESenderApp GOOSE datasets and GOOSE control blocks are created automatically when the GOOSE configuration is done in ACT. If the sender IED and receiver IEDs do not belong to same subnetworks, GOOSE receiving is not possible.

  • Page 132: Deleting Connections

    IET600 GUID-04ED1306-BAE6-49D2-8C84-11849EACC711 v9 For IEC 61850 engineering, a separate system configuration tool may be needed with PCM600 (for example, when using other than ABB IEDs). Procedure for vertical engineering using IET600: Create a project in IET600. Import the SCD file exported from PCM600.
  • Page 133 Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering the maximum number of data sets, number of entries in a data set and the number of report control blocks that can be used. Add and/or reconfigure data sets. The configured IED includes a number of predefined data sets, but it is possible to add additional data sets and/or reconfigure default data sets according to the requirements.

  • Page 134: Importing Scd Files

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering The data set for GOOSE contains signals on the data attribute or FCDA levels. The latter is also known as structured GOOSE. Data for one signal can only be included in one GOOSE data set.

  • Page 135: Importing Icd Or Cid Files

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering IEC09000631 V3 EN-US Figure 87: IEC 61850: Import SCD file 4.1. Select Ignore Substation Section to ignore the sub-station section in the SCD file during import. 4.2. Select Don't import IEDs ... to disable the import of unknown IED types (for example third-party IEDs).

  • Page 136: Writing Iec 61850 Communication Configuration To An Ied

    Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering Select an IED in the plant structure. Right-click on the IED and select Import ... Select the file to be imported. An SCL Import Options window opens to enable you to configure import handling (see Figure 88):...
  • Page 137 Section 8 1MRK 511 398-UEN C IEC 61850 communication engineering Click Yes in the Update Communication window to update the communication configuration in the IED. Click No in the Update Communication window to keep the existing communication configuration in the IED. IEC09000729-2-en.vsd IEC09000729 V2 EN-US Figure 89:...

  • Page 139: Section 9 Iec 60870-5-103 Communication Engineering

    Section 9 1MRK 511 398-UEN C IEC 60870-5-103 communication engineering Section 9 IEC 60870-5-103 communication engineering Engineering in PCM600 GUID-284EB0BA-BC79-4B90-8B78-878BA225479E v7 The Application Configuration tool (ACT) and the Parameter Setting tool (PST) in PCM600 are used to configure the communication for IEC 60870-5-103 protocol. Add the desired IEC 60870-5-103 function blocks to the application configuration in the Application Configuration tool.
  • Page 140 Section 9 1MRK 511 398-UEN C IEC 60870-5-103 communication engineering • EvalTimeAccuracy • EventRepMode • CmdMode • RepIntermediatePos <config-selector> is: • “OPTICAL103:1” for the optical serial channel on the SLM • “RS485103:1” for the RS485 port The protocol to activate on a physical port is selected under: Main menu/Configuration/Communication/Station Communication/Port configuration/ •...
  • Page 141 Section 9 1MRK 511 398-UEN C IEC 60870-5-103 communication engineering the pending GI event is modified to contain the same value as the spontaneous event. As a result, the GI dataset is not time-correlated. 670 series 2.2 IEC Engineering manual...

  • Page 143: Section 10 Dnp3 Communication Engineering

    Section 10 1MRK 511 398-UEN C DNP3 communication engineering Section 10 DNP3 communication engineering 10.1 Signal configuration user information GUID-AC54A350-D43E-4C0C-995C-012D7533ECC1 v4 Basic knowledge about DNP3 and the used definitions are required to use CMT. See the DNP3 communication protocol manual for information on the DNP3 implementation in the IED.

  • Page 144: Adding Setting Groups

    Section 10 1MRK 511 398-UEN C DNP3 communication engineering 10.2 Adding setting groups GUID-9C636C53-898E-4A60-9DDA-1DB13A65EE30 v3 In order to show for a DNP master which setting group is used, the procedure outlines here can be performed. In this example, only setting groups one and two are used. The DNP master will get two binary inputs: the first is set if setting group one is used, the second is set if setting group two is used.

  • Page 145: Configuring Dnp3 Protocol Signals

    Section 10 1MRK 511 398-UEN C DNP3 communication engineering IEC11000424-2-en.vsd IEC11000424 V2 EN-US Figure 92: Communication Management tool Select the signals and move them into the DNP signal list of the master. DNP point zero and one of the Binary Input Objects are used for indicating the active setting group in this case.
  • Page 146 Section 10 1MRK 511 398-UEN C DNP3 communication engineering IEC10000172.vsd IEC10000172 V1 EN-US Figure 94: Configuring hardware channels directly to the function blocks IEC10000173.vsd IEC10000173 V1 EN-US Figure 95: CMT: Hardware channels appearing in the Communication Management Tool Right-click the IED in the plant structure and select Communication Management to start the Communication management tool.
  • Page 147 Section 10 1MRK 511 398-UEN C DNP3 communication engineering IEC09000722-2-en.vsd IEC09000722 V2 EN-US Figure 96: CMT: Container window design when selecting DNP3 protocol Procedure to move signals: Select one or several signals. • Click in the list of signals to select one signal. •...

  • Page 148: Setting Dnp3 Signal Parameters

    Section 10 1MRK 511 398-UEN C DNP3 communication engineering 10.4 Setting DNP3 signal parameters GUID-F762121A-41E5-49F1-9359-205CF9E15304 v1 Two parameters per signal can be set for all signal types: • The index of the signal • The class configuration Procedure to set the index of the signal: Click the two inner arrows to sort signals to another index sequence, or select Set Index ...

  • Page 149: Configuring Dnp3 Class

    Section 10 1MRK 511 398-UEN C DNP3 communication engineering IEC08000338-2-en.vsd IEC08000338 V2 EN-US Figure 101: CMT: Select Class window 10.4.1 Configuring DNP3 class GUID-B46924F8-B960-4B79-8EB8-4DFADABDFB10 v1 In DNP3 the user classifies the signals and defines those signals that are not member of any class. CMT has a default predefined organization of classes per signal type.

  • Page 151: Section 11 Flexible Product Naming

    Section 11 1MRK 511 398-UEN C Flexible product naming Section 11 Flexible product naming 11.1 IEC 61850 Structure Mapping Tool GUID-079F55A1-84A7-4920-87DF-0251A08D2BD4 v2 IEC 61850 Structure Mapping Tool is used to manage the data model of IED, where one can change the IEDs IEC 61850 data model as per the requirement. This can be done by mapping the data model with customer specific data model.

  • Page 152: Ied And Signal Naming Convention

    Section 11 1MRK 511 398-UEN C Flexible product naming The IEC 61850 structure mapping list displays the FPN objects based on the current selection in the plant structure. The list may display either IEDs or data attributes. The FPN object’s name is displayed in the column on the left and the mapped PCM600 internal object name is displayed in the column on the right.
  • Page 153 Section 11 1MRK 511 398-UEN C Flexible product naming IEC17000022-1-en.vsdx IEC17000022 V1 EN-US Figure 104: Importing SCD file Browse and select the SCD file. Click Open to open the file. The imported SCD file will replace the Internal IED from original substation structure and push it to unassigned IEDs folder.

  • Page 154: Starting The Iec 61850 Structure Mapping Tool

    Section 11 1MRK 511 398-UEN C Flexible product naming FPN projects does not support Easy Goose Engineering. 11.3 Starting the IEC 61850 Structure Mapping Tool GUID-3216206E-D6FF-4BCE-9A85-CD4DBE4B5F51 v2 The tool can be started from any node from Substation to IED level. Right click on one of the nodes.

  • Page 155: Ied Mapping In Pcm600 Plant Structure

    Section 11 1MRK 511 398-UEN C Flexible product naming 11.4.1.1 IED mapping in PCM600 Plant Structure GUID-AD017D10-E128-44E0-A758-E3CD95FA5975 v2 IED mapping IED mapping is done in plant structure by dragging and dropping a PCM600 IED from the Unassigned IEDs group on an FPN IED in the Substation. IED mapping status is indicated visually in the plant structure.
  • Page 156 Section 11 1MRK 511 398-UEN C Flexible product naming Removing the IED mapping Removing IED mapping is done in the IEC 61850 Structure Mapping Tool by right-clicking the mapping and selecting the context menu option or pressing the Delete key. The tool indicates the mapping status visually. Click save button of the IEC 61850 structure mapping tool to remove the mapping.

  • Page 157: Data Attribute Mapping

    Section 11 1MRK 511 398-UEN C Flexible product naming IEC17000026-1-en.vsdx IEC17000026 V1 EN-US Figure 110: Data Attribute List view Filters Displayed objects can be filtered using the filtering options in the quick access Toolbar. IEC17000027-1-en.vsdx IEC17000027 V1 EN-US Figure 111: Filters Free text filter The objects are filtered by free text, showing all the objects with a certain name in...

  • Page 158: Data Attribute Level Mapping

    Section 11 1MRK 511 398-UEN C Flexible product naming The mapping status is indicated visually. It can be seen what FPN data attribute is mapped to what PCM600 internal data attribute and how many FPN data attributes are mapped to a PCM600 internal data attribute. Data attribute mapping is complete when all data attributes of the FPN IED, which are not excluded from the mappings, are mapped with a PCM600 internal data attribute.

  • Page 159: Data Object Level Mapping

    Section 11 1MRK 511 398-UEN C Flexible product naming 11.4.2.2 Data Object Level Mapping GUID-8CEB9EC3-78C5-427A-8E64-9B826493E108 v2 Data attribute mapping can be created on the data object level in one of the alternative ways. • Drag a data object from the customer data structure onto a data object in the internal data structure •...

  • Page 160: Setting The Data Attribute Value

    Section 11 1MRK 511 398-UEN C Flexible product naming exclude all unmapped data attributes from the mapping at once by right-clicking and selecting the exclude all option. IEC17000033-1-en.vsdx IEC17000033 V1 EN-US Figure 115: Excluding data attributes from mapping The data attributes that are excluded from the mapping will not be excluded from the model.

  • Page 161: Validation

    Section 11 1MRK 511 398-UEN C Flexible product naming Value cannot be set for all types of data attributes, for example, quality and timestamp values cannot be edited. 11.6 Validation GUID-32B7AFB1-D7EC-4B92-95DC-07CA933B762B v1 Once the FPN mapping is complete, all mapping can be validated in three ways using the validate option available in quick access menu Validate All Validate Current...

  • Page 162: Creating A Mapping Template

    Section 11 1MRK 511 398-UEN C Flexible product naming • A single or multiple template files can be imported. • If a template being imported already exists in the library, user will be prompted whether to override the existing one. •...

  • Page 163: Exporting Fpn Templates

    Section 11 1MRK 511 398-UEN C Flexible product naming 11.7.3 Exporting FPN templates GUID-348026ED-B9B3-432C-8125-6A9C2242BEE4 v1 Right click on the PCM600 plant structure. Select Manage Mapping Templates under Flexible Product Naming in the menu. Select the templates to export and click Export. IEC15000501-2-en.vsdx IEC15000501 V2 EN-US Select the folder where to export the templates and click OK.
  • Page 164 Section 11 1MRK 511 398-UEN C Flexible product naming Table 8: Data Attribute Mappings Customer Data Attribute Internal Data Attribute Signal Name Application/ CTRULLN0.Beh.stVal [ST] LLN0.Mod.origin.orCat [ST] CB111.LN0.Mod.stVal [ST] CTRULLN0.Beh.stVal [ST] CB 111.LN0.Mod . t [ST] CTRULLN0.Beh.t [ST] 670 series 2.2 IEC Engineering manual...

  • Page 165: Section 12 Glossary

    Section 12 1MRK 511 398-UEN C Glossary Section 12 Glossary 12.1 Glossary M14893-1 v18 Alternating current Actual channel Application configuration tool within PCM600 A/D converter Analog-to-digital converter ADBS Amplitude deadband supervision Analog digital conversion module, with time synchronization Analog input ANSI American National Standards Institute Autoreclosing...
  • Page 166 Section 12 1MRK 511 398-UEN C Glossary Circuit breaker Combined backplane module CCITT Consultative Committee for International Telegraph and Telephony. A United Nations-sponsored standards body within the International Telecommunications Union. CAN carrier module CCVT Capacitive Coupled Voltage Transformer Class C Protection Current Transformer class as per IEEE/ ANSI CMPPS Combined megapulses per second...
  • Page 167 Section 12 1MRK 511 398-UEN C Glossary Data flow control Discrete Fourier transform DHCP Dynamic Host Configuration Protocol DIP-switch Small switch mounted on a printed circuit board Digital input DLLB Dead line live bus Distributed Network Protocol as per IEEE Std 1815-2012 Disturbance recorder DRAM Dynamic random access memory...
  • Page 168 Section 12 1MRK 511 398-UEN C Glossary Communication interface module with carrier of GPS receiver module Graphical display editor within PCM600 General interrogation command Gas-insulated switchgear GOOSE Generic object-oriented substation event Global positioning system GSAL Generic security application Generic substation event GPS time synchronization module GPS Time Module HDLC protocol...
  • Page 169 Section 12 1MRK 511 398-UEN C Glossary as Common Mezzanine Card) standard for the mechanics and the PCI specifications from the PCI SIG (Special Interest Group) for the electrical EMF (Electromotive force). IEEE 1686 Standard for Substation Intelligent Electronic Devices (IEDs) Cyber Security Capabilities Intelligent electronic device IET600...
  • Page 170 Section 12 1MRK 511 398-UEN C Glossary Miniature circuit breaker Mezzanine carrier module Milli-ampere module Main processing module MVAL Value of measurement Multifunction vehicle bus. Standardized serial bus originally developed for use in trains. National Control Centre Number of grid faults Numerical module OCO cycle Open-close-open cycle...
  • Page 171 Section 12 1MRK 511 398-UEN C Glossary Precision time protocol PT ratio Potential transformer or voltage transformer ratio PUTT Permissive underreach transfer trip RASC Synchrocheck relay, COMBIFLEX Relay characteristic angle RISC Reduced instruction set computer RMS value Root mean square value RS422 A balanced serial interface for the transmission of digital data in point-to-point connections...
  • Page 172 Section 12 1MRK 511 398-UEN C Glossary Strömberg Protection Acquisition (SPA), a serial master/ slave protocol for point-to-point and ring communication. Switch for CB ready condition Switch or push button to trip Starpoint Neutral point of transformer or generator Static VAr compensation Trip coil Trip circuit supervision Transmission control protocol.
  • Page 173 Section 12 1MRK 511 398-UEN C Glossary dissemination of standard frequencies and time signals. UTC is derived from International Atomic Time (TAI) by the addition of a whole number of "leap seconds" to synchronize it with Universal Time 1 (UT1), thus allowing for the eccentricity of the Earth's orbit, the rotational axis tilt (23.5 degrees), but still showing the Earth's irregular rotation, on which UT1 is based.
  • Page 176 — ABB AB Grid Automation Products 721 59 Västerås, Sweden Phone: +46 (0) 21 32 50 00 abb.com/protection-control © Copyright 2017 ABB. All rights reserved. Specifications subject to change without notice.

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