ABB RELION REX640 Engineering Manual
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ABB RELION REX640 Engineering Manual

Protection and control
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RELION® PROTECTION AND CONTROL
REX640
Engineering Manual
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Summary of Contents for ABB RELION REX640

  • Page 1 — RELION® PROTECTION AND CONTROL REX640 Engineering Manual...
  • Page 3 Document ID: 1MRS759117 Issued: 2019-05-08 Revision: A Product version: 1 © Copyright 2019 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 Conformity This product complies with the directive of the Council of the European Communities on the approximation of the laws of the Member States relating to electromagnetic compatibility (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 the third party testing laboratory Intertek 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..............6 Symbols and conventions..............7 Symbols..................7 Document conventions..............7 Functions, codes and symbols............8 Section 2 Relay engineering process..........17 Monitoring and control system structure...........18 Default configuration.................19 Workflow...................20...
  • Page 10 Table of contents Inserting an IED in offline mode..........51 Inserting an IED from template directory........54 Inserting an IED by importing a .pcmi file........55 Setting IED's IP address in a project..........56 COM600S project................58 Selecting communication port for configuration......58 Importing a protection relay in a COM600S project ....59 Using Web HMI................
  • Page 11 Protection blocking example ............93 Control blocking example............94 Section 6 LHMI engineering............95 Graphical Display Editor..............95 Creating complete LHMI page configuration ......95 ABB built-in pages............... 96 Measurements page...............96 Phasors page................. 99 Page Organizer................. 102 Main pages and linked pages..........103 Templates................103...
  • Page 12 Table of contents Virtual programmable LEDs............129 Configuring virtual programmable LEDs......129 Section 7 IEC 61850 communication engineering....... 131 IEC 61850 protocol references and pre-conditions......131 IEC 61850 interface................131 IEC 61850 interface in the protection relay....... 132 GOOSE data exchange............132 Function view for IEC 61850 in PCM600........133 Station configuration description file types........

  • Page 13: Section 1 Introduction

    Section 1 1MRS759117 A 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

    Section 1 1MRS759117 A Introduction Product documentation 1.3.1 Product documentation set Quick installation guide Brochure Product guide Operation manual Installation manual Engineering manual Technical manual Application manual Communication protocol manual IEC 61850 engineering guide Cyber security deployment guideline Hardware modification instructions Modification sales guideline GUID-65F8531E-8455-4F6C-BEFE-86B0B518D4E6 V1 EN Figure 1:...

  • Page 15: Symbols And Conventions

    Section 1 1MRS759117 A Introduction Download the latest documents from the ABB Web site www.abb.com/relion. 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 1MRS759117 A Introduction 1.4.3 Functions, codes and symbols Table 1: Functions included in the relay Function IEC 61850 IEC 60617 ANSI Protection Distance protection DSTPDIS Z< 21P,21N Local acceleration logic DSTPLAL 21LAL Scheme communication logic DSOCPSCH 85 21SCHLGC Current reversal and weak-end CRWPSCH CLCRW...
  • Page 17 Section 1 1MRS759117 A Introduction Function IEC 61850 IEC 60617 ANSI Transient/intermittent earth-fault INTRPTEF Io> -> IEF 67NTEF/NIEF protection Harmonics-based earth-fault HAEFPTOC Io>HA 51NH protection Negative-sequence overcurrent NSPTOC I2>M protection Phase discontinuity protection PDNSPTOC I2/I1> 46PD Residual overvoltage protection ROVPTOV Uo>...
  • Page 18 Section 1 1MRS759117 A Introduction Function IEC 61850 IEC 60617 ANSI Three-phase underimpedance UZPDIS protection Three-phase underexcitation UEXPDIS X< protection Third harmonic-based stator earth- H3EFPSEF dUo>/Uo3H 64TN fault protection Rotor earth-fault protection (injection MREFPTOC Io>R method) High-impedance or flux-balance MHZPDIF 3dIHi>M 87HIM based differential protection...
  • Page 19 Section 1 1MRS759117 A Introduction Function IEC 61850 IEC 60617 ANSI Fault locator SCEFRFLO FLOC FLOC Load-shedding and restoration LSHDPFRQ UFLS/R 81LSH Multipurpose protection MAPGAPC Control Circuit-breaker control CBXCBR I <-> O CB Three-state disconnector control P3SXSWI I<->O P3S 29DS/GS Disconnector control DCXSWI I <->...
  • Page 20 Section 1 1MRS759117 A Introduction Function IEC 61850 IEC 60617 ANSI Runtime counter for machines and MDSOPT OPTS OPTM devices Three-phase remanent undervoltage MSVPR 3U
  • Page 21 Section 1 1MRS759117 A Introduction Function IEC 61850 IEC 60617 ANSI Time master supervision GNRLLTMS GNRLLTMS GNRLLTMS Serial port supervision SERLCCH SERLCCH SERLCCH IEC 61850-1 MMS MMSLPRT MMSLPRT MMSLPRT IEC 61850-1 GOOSE GSELPRT GSELPRT GSELPRT IEC 60870-5-103 protocol I3CLPRT I3CLPRT I3CLPRT DNP3 protocol DNPLPRT...
  • Page 22 Section 1 1MRS759117 A Introduction Function IEC 61850 IEC 60617 ANSI Generic control points SPCGAPC SPCG Generic up-down counter UDFCNT UDCNT UDCNT Local/Remote control CONTROL CONTROL CONTROL External HMI wake-up EIHMI EIHMI EIHMI Real addition ADDR ADDR ADDR Real subtraction SUBR SUBR SUBR...
  • Page 23 Section 1 1MRS759117 A Introduction Function IEC 61850 IEC 60617 ANSI Good signal quality QTY_GOOD QTY_GOOD QTY_GOOD GOOSE communication quality QTY_GOOSE_C QTY_GOOSE_CO QTY_GOOSE_C GOOSE data health T_HEALTH T_HEALTH T_HEALTH Fault direction evaluation T_DIR T_DIR T_DIR Enumerator to boolean conversion T_TCMD T_TCMD T_TCMD 32-bit integer to binary command...

  • Page 25: Section 2 Relay Engineering Process

    Section 2 1MRS759117 A 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 26: Monitoring And Control System Structure

    Section 2 1MRS759117 A Relay engineering process • Creating overview reports for fast evaluation of the recording file content by using Disturbance Handling • Reading fault records from the protection relay, saving records to a PC and clearing old records with Fault Record •...

  • Page 27: Default Configuration

    Section 2 1MRS759117 A 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-B875A490-0527-43CA-86E1-31DC8C2F9E23 V1 EN Figure 2: Principle structure of a monitoring and control system for a substation A plant structure is used to identify each device in its location within the substation organization.

  • Page 28: Workflow

    Section 2 1MRS759117 A Relay engineering process Workflow Start Create plant structure and insert IED objects Project Configure IED functionality Save the work between the Parametrization different steps Configure pages for local HMI DNP3 IEC 61850 IEC 60870-5 IEC 61850 Modbus Configuration tool Export SCL files...
  • Page 29 Section 2 1MRS759117 A Relay engineering process Application configuration in the Application Configuration tool • Protection and control functions can be configured as needed. • The configuration made in Application Configuration is saved to make the interfaces and signals available for other engineering tools within PCM600, for example, for Parameter Setting.

  • Page 31: Section 3 Pcm600

    Section 3 1MRS759117 A PCM600 Section 3 PCM600 Protection and Control IED Manager PCM600 offers all the necessary functionality to work throughout all stages of the protection relay's life cycle. • Planning • Engineering • Commissioning • Operation and disturbance handling •...

  • Page 32: Connectivity Packages

    Update Manager in PCM600. 3.2.1 Installing connectivity packages • Install connectivity packages either by running the installer which can be downloaded on the ABB Web site or by using Update Manager when a network connection is available. REX640 Engineering Manual...

  • Page 33: Installing Connectivity Packages By Using The Connectivity Package Installer

    Section 3 1MRS759117 A PCM600 Download connectivity packages from the ABB Web site www.abb.com/relion or directly with Update Manager in PCM600. 3.2.1.1 Installing connectivity packages by using the connectivity package installer Close PCM600. Run the connectivity package installer. • ABB IED Connectivity Package REX640 Ver. n.msi •...

  • Page 34: Activating Connectivity Packages

    Section 3 1MRS759117 A PCM600 GUID-7569A218-A8B3-4550-9B0A-7D7B7689D586 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 1MRS759117 A PCM600 GUID-A65CAC7E-24C3-4521-9930-0B281FC3377D V1 EN Figure 6: Selecting the connectivity package versions PCM600 recognizes the installed connectivity packages during start-up, and the corresponding IED types are available in PCM600 when starting a new project. 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: Technical Key

    Section 3 1MRS759117 A PCM600 The extension of the exported project file is .pcmp. The files are only used for exporting and importing projects between PCM600s. Technical key Both a physical IED and an IED object in PCM600 have a technical key. The technical key in the protection relay and PCM600 must be the same, otherwise it is not possible to download a configuration.

  • Page 37: Iec 61850 Naming Conventions For An Ied

    Section 3 1MRS759117 A PCM600 Change the technical key for an IED object in the Object Properties dialog box in PCM600. 3.4.1 IEC 61850 naming conventions for an IED The IEC 61850 naming conventions to identify an IED are valid only when the IEC 61850 standard is used for station bus communication.

  • Page 38: Setting Technical Key

    Section 3 1MRS759117 A PCM600 GUID-26F0CB0C-A30A-445C-BE73-33A43C6D7353 V1 EN Figure 8: IEC 61850 signal designation concept in PCM600 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 1MRS759117 A PCM600 GUID-949CDA29-FD02-44D6-A586-79A8480971C1 V1 EN Figure 9: PCM600: Setting the technical key on the IED level A dialog box opens to inform about the technical key concept. GUID-5E1C6373-8E94-4898-9177-D8519281963B V1 EN Figure 10: Technical key information Click OK. REX640 Engineering Manual...

  • Page 40: Communication Between Pcm600 And Protection Relay

    Section 3 1MRS759117 A PCM600 The technical key is read from the IED and the Set Technical Key dialog box opens. GUID-428178E7-6C38-4601-8927-DA045E961496 V1 EN Figure 11: Setting the technical key In the Set Technical Key dialog box, select the technical key to be used. There are three alternatives.

  • Page 41: Setting Up Ip Addresses

    Section 3 1MRS759117 A PCM600 • Direct point-to-point link between PCM600 and service port X1.2 on the protection relay's LHMI or, if an LHMI is not used, the HMI port X0 of the communication module • Indirect link via station LAN or remotely via network If needed, the IP address for the protection relay is set.

  • Page 42: Ied Update

    Section 3 1MRS759117 A PCM600 When using redundant Ethernet (HSR or PRP), configure all devices in the network before connecting cables to ports LAN A and LAN B. Avoid using the LAN A or LAN B ports on redundant communication modules while changing the Switch mode parameter.

  • Page 43: Updating Firmware Or Language

    Section 3 1MRS759117 A PCM600 Remote Update. If the IED is in local control mode, remote update proceeds only after a confirmation is received from the user. • Remote update can be disabled manually after the update. • Remote update only works when the IED is connected from the Ethernet interface connector of the communication module with a custom IP address.
  • Page 44 Section 3 1MRS759117 A PCM600 GUID-5A6254CB-A569-4ACB-BE96-59F10E8CECED V1 EN Figure 13: Choosing the relay for the update If required, clear the life cycle handling indication by selecting the Clear Lifecycle Handling indication on Local HMI after update check box. REX640 Engineering Manual...
  • Page 45 Section 3 1MRS759117 A PCM600 GUID-571F280A-E18F-4E85-9486-71D7D120B053 V1 EN Figure 14: Clearing lifecycle handling indication When updating remotely, wait for 30 seconds for the local user confirmation before proceeding with the update. • The local user can cancel the update via the LHMI by pressing Cancel Update during the 30-second window.
  • Page 46 Section 3 1MRS759117 A PCM600 GUID-A7AB825F-2D3D-4C96-9821-48F29FAC1B75 V1 EN Figure 15: Waiting for local user confirmation with remote update REX640 Engineering Manual...
  • Page 47 Section 3 1MRS759117 A PCM600 GUID-93FD9533-8D6C-4844-9740-DF73C8B9FE52 V1 EN Figure 16: Completing the update REX640 Engineering Manual...

  • Page 49: Section 4 Setting Up A Project

    Section 4 1MRS759117 A Setting up a project Section 4 Setting up a project Creating a new project Start PCM600. To see the projects that are available in the PCM databases, click File and select Open/Manage Project on the menu bar. In the Open/Manage Project window, click Projects on my computer.

  • Page 50: Building The Plant Structure

    Section 4 1MRS759117 A Setting up a project GUID-28AC1EEF-7D07-458B-A994-FF7669E1A5BF V1 EN Figure 18: Creating a new project Click Create. PCM600 sets up a new project that is listed under Projects on my computer. Building the plant structure Building a plant structure is useful when a complete grid with the necessary IEDs has to be built.

  • Page 51: Ied Insertion

    Section 4 1MRS759117 A Setting up a project GUID-5224B564-270E-4210-BB57-99F71019EF2D V1 EN Figure 19: Project with IEDs placed but not renamed Rename each level in the structure by the names or identifications used in the grid. Use one of the alternative ways. •...

  • Page 52: Inserting An Ied In Online Mode

    Section 4 1MRS759117 A Setting up a project PCM600 uses two kinds of IED files: .pcmt and .pcmi. Both files include the complete IED configuration but their usage differs. The .pcmt files are always accessed through the PCM600 template manager while the .pcmi files are meant for sharing the IED instances between different PCM600 users enabling quick import and export from the plant structure context menu.
  • Page 53 Section 4 1MRS759117 A Setting up a project GUID-0DAE2685-9D97-4121-9213-6917C5355C0E V1 EN Figure 21: Selecting the configuration mode On the Communication protocol page, select the communication protocol from the IED Protocol list and click Next. REX640 Engineering Manual...
  • Page 54 Section 4 1MRS759117 A Setting up a project GUID-6906F0CA-B9D6-4289-A973-A4C7B04015AF V1 EN Figure 22: Selecting the communication protocol On the IEC 61850 communication settings page, select the port from the Port list. • If the LAN port is selected, type the correct IP address (of the physical protection relay to be configured) to the IP address box.
  • Page 55 Section 4 1MRS759117 A Setting up a project GUID-940DECC6-00CE-4C82-A396-AA4465B19D2C V1 EN Figure 23: Selecting the communication port and IP address Communication configuration is now defined. Click Next to scan/read the composition code of the protection relay. On the Composition code detection page, click Next. REX640 Engineering Manual...
  • Page 56 Section 4 1MRS759117 A Setting up a project GUID-80F718F9-EFC3-401A-954C-B821A0F80D5D V1 EN Figure 24: Detecting the composition code On the Configuration selection page, select the configuration type and click Next. • Select Empty Configuration to create an empty configuration. • Select Import configuration from file (PCMI/PCMT) to import any existing example configuration.
  • Page 57 Section 4 1MRS759117 A Setting up a project GUID-C58585CB-6AA1-4331-824F-D0104BF73E5F V1 EN Figure 25: Selecting the configuration type If a default configuration is selected, the next page is skipped as default configuration is only supported for the IEC 61850 Edition 2 IEDs. To configure an IEC 61850 Edition 1 IED, select empty or example configuration and make the proper selections on the next page.
  • Page 58 Section 4 1MRS759117 A Setting up a project GUID-762000DC-9BE7-4D9B-8C7D-B17DED20434A V1 EN Figure 26: Selecting the IEC 61850 version Regardless of the protocol used in the installation for each project, it is possible to have Edition1 and Edition2 relays configured in the same PCM600 project. The PCM600 project's SCL edition is the highest SCL edition relay in the project.

  • Page 59: Inserting An Ied In Offline Mode

    Section 4 1MRS759117 A Setting up a project GUID-8B1B5A56-C47C-4237-ADFA-3CB5427E3798 V1 EN Figure 27: Confirming the configuration If an error is shown on the Summary 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 60 Section 4 1MRS759117 A Setting up a project In the Plant Structure view, right-click the bay, point to New, point to the relay application area such as Multiapplication IEDs and select the protection relay type to be inserted. Alternatively, drag an IED from the Object Types view to the bay level.
  • Page 61 Section 4 1MRS759117 A Setting up a project do not match, PCM600 informs about the mismatch with a dialog box. GUID-B0A82B47-680D-4CB7-AED4-668AD5C2FD6F V1 EN Figure 29: Selecting the composition code On the Configuration selection page, select the configuration type and click Next.

  • Page 62: Inserting An Ied From Template Directory

    Section 4 1MRS759117 A Setting up a project empty or example configuration and make the proper selection on the next page. On the Version Selection page, select the IEC 61850 version and click Next to generate the functions. The Summary page shows the summary of the IED type, IP address and the selected composition code.

  • Page 63: Inserting An Ied By Importing A .Pcmi File

    Section 4 1MRS759117 A Setting up a project GUID-1161E3DB-09B2-4AB0-907A-A71B8594CCF6 V1 EN Figure 31: PCM600: Template information In the Create New Object from Template dialog box, delete, import or create a template by clicking the corresponding button. • To delete the selected template, click Delete Template. •...

  • Page 64: Setting Ied's Ip Address In A Project

    Section 4 1MRS759117 A Setting up a project GUID-FEFED558-831D-4882-B4B0-9596B3535B16 V1 EN Figure 32: 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. After the .pcmi file has been imported, the IP address, the name and the technical key of the physical IED have to be changed.
  • Page 65 Section 4 1MRS759117 A Setting up a project Choosing between the two ways depends on when the IP address is set. Typing the IP address via the IED's Object Properties pane is possible at any time while entering it via the configuration wizard can only be done when inserting the IED in online or offline mode.

  • Page 66: Com600S Project

    Section 4 1MRS759117 A Setting up a project COM600S project The relay connectivity package supports SAB600. An REX640 protection relay is imported as an REX640 device. It is also possible to import a full PCM600 project including several protection relays to SAB600. In this case, PCM600 project information is imported to SAB600 using a SCD file.

  • Page 67: Importing A Protection Relay In A Com600S Project

    Section 4 1MRS759117 A Setting up a project 4.5.2 Importing a protection relay in a COM600S project Create a PCM600 project including several IEDs. GUID-47B5C1BB-0701-44FE-9819-B49060F6DD6C V1 EN Figure 36: 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.
  • Page 68 Section 4 1MRS759117 A Setting up a project GUID-9C77508D-E031-4D83-9ABD-44F54042339F V1 EN Figure 37: Exporting a SCD file from PCM600 Import the SCD configuration into the SAB600 project. In the Project Explorer view, right-click the IEC61850 OPC Server object and select SCL Import. REX640 Engineering Manual...
  • Page 69 Section 4 1MRS759117 A Setting up a project GUID-A3AE6BDF-0A7A-4CF0-AFC3-AFA9A1DE37B7 V1 EN Figure 38: 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-3411E34A-1452-4F87-AADD-784444457355 V1 EN Figure 39: Creating a new IED in the SAB600 project REX640...

  • Page 70: Using Web Hmi

    Section 4 1MRS759117 A Setting up a project Check the default settings in the SCL Import view and change them if needed. The default settings in the SCL Import dialog should be correct in most cases. Click Import to import the SCD file. Check the IP address on the IEC 61850 subnetwork and change it if needed.

  • Page 71: Relay User Management

    Section 4 1MRS759117 A Setting up a project Relay user management The user account management and role-based access control in the protection relay have been handled as specified in IEC 62351-8. The relay supports both local user account and central account management. For information on how to set up user account management, see user management in the cyber security deployment guideline.

  • Page 73: Section 5 Protection And Control Engineering

    Section 5 1MRS759117 A Protection and control engineering Section 5 Protection and control engineering Application Configuration Application Configuration 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 1MRS759117 A Protection and control engineering • Documenting the application configuration, for example, by making printouts • Saving application configurations as templates in an application library to reuse them in other protection relays. Function blocks and the 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 1MRS759117 A Protection and control engineering GUID-334BA317-4E58-4F64-A76E-2D015812DF39 V1 EN Figure 42: Application Configuration: function block overview Connections 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 1MRS759117 A 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 1MRS759117 A Protection and control engineering GUID-273FFC7A-EE7E-41D7-BD73-958F45446B3E V1 EN Figure 43: Application Configuration tool: an example of function block organization parameters 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 1MRS759117 A Protection and control engineering Figure 44 shows a simple situation where the execution order causes one cycle time delay if the NOT gate is executed in the order determined by the automatic calculation. Slot B (BIO).X1-1;4_BI1 Slot B (BIO).X1-2;4_BI2 [ O:83|T:2,5|I:4 ] Slot G (PSM).X1-15;16_PO1...

  • Page 79: Hardware Channels

    Section 5 1MRS759117 A Protection and control engineering It is possible to search and replace variable names in Application Configuration tool. Connect the variables to a destination, for example to a function block or a hardware output channel. The connectivity package automatically removes the orphan variables which are not connected to any destination.

  • Page 80: User-Customized I/O Channel Configuration

    Section 5 1MRS759117 A Protection and control engineering When a hardware channel is connected, a graphical symbol appears in the Application Configuration tool. The connection is also indicated in the Signal Matrix tool with a cross mark. Hardware channels are always visible in the Signal Matrix tool. Slot B (BIO).X1-1;4_BI1 Slot B (BIO).X1-2;4_BI2 Slot B (BIO).X1-3;4_BI3...
  • Page 81 Section 5 1MRS759117 A Protection and control engineering Slot F (SIM).X1-Sensor_I ILTCTR1 ALARM WARNING Slot F (SIM).X2-Sensor_I ILTCTR1[1]_I3P IRES_CLC IRES_CLC_DR Slot F (SIM).X3-Sensor_I IL1_DR IL2_DR IL3_DR NPS_DR PPS_DR O:11|T:2,5|I:1 GUID-A3BF6463-0373-4A86-BA2B-4E6DC339596C V1 EN Figure 49: All required input connections configured for output Figure 48, the output connection requires more input channels to be connected.
  • Page 82 Section 5 1MRS759117 A Protection and control engineering UTVTR ULx inputs can be used as one-, two- or three-phase connection. The ACT blocks connected to U3P may further demand two- or three-phase connection. URES input must be connected if URES_MEAS output is used. Figure 50 illustrates the use case of only residual voltage being used in UTVTR1.
  • Page 83 Section 5 1MRS759117 A Protection and control engineering TVTR and TCTR function blocks accept analog channels connected only either from local or remote, that is, local and remote channels cannot be mixed within a TVTR/TCTR function block. It is not possible to forward the received remote analog channels. An analog input can only be connected to one function block.

  • Page 84: Online Monitoring

    Section 5 1MRS759117 A Protection and control engineering SlotC-mA1 AO_VAL AI_VAL HIGH_ALARM HIGH_WARN LOW_WARN LOW_ALARM O:2|T:2,5|I:2 SlotC-RTD2 AI_VAL HIGH_ALARM SlotC-mA2 HIGH_WARN LOW_WARN AO_VAL AI_VAL LOW_ALARM HIGH_ALARM SENSOR_FLT HIGH_WARN LOW_WARN O:2|T:2,5|I:5 LOW_ALARM O:2|T:2,5|I:3 GUID-ABAC8734-060D-49C1-B055-8426F2985565 V1 EN Figure 56: RTD input shared by function blocks GOOSE, RTD and binary inputs can be shared by multiple function blocks.

  • Page 85: Validation When Creating Application Configuration

    Section 5 1MRS759117 A Protection and control engineering 5.1.9.1 Validation when creating application configuration Certain conditions require the validation to be made when creating the application configuration. • A connection between two input or two output signals is not possible •...

  • Page 86: Validation When Writing To Protection Relay

    Section 5 1MRS759117 A Protection and control engineering GUID-0172E722-C571-47B7-880F-E7500397BC59 V1 EN Figure 57: Application Configuration tool: validation on demand 5.1.9.3 Validation when writing to protection relay When writing the application configuration to the protection relay, an automatic validation is performed. Errors abort the writing. 5.1.10 Configuration load calculation The connectivity package calculates an estimated application configuration load...

  • Page 87: Parameter Setting

    Section 5 1MRS759117 A Protection and control engineering The calculation result is visible only in PCM600 output window on the Logging tab. GUID-7D8A8338-CCB4-4812-BC72-723D6D948CEF V1 EN Figure 58: Configuration load result: an example of different messages shown in PCM600 Parameter Setting Configuration and setting parameters can be changed with LHMI, WHMI or with the Parameter Setting tool in PCM600.

  • Page 88: Setting Group

    Section 5 1MRS759117 A Protection and control engineering 5.2.3 Setting group Nearly all settings used by the protection relay for protection application functions are organized into a group of settings. Up to six setting groups can be configured with different values. The protection relay supports the selection of a setting group at runtime.

  • Page 89: Parameter Organization

    Section 5 1MRS759117 A Protection and control engineering 5.2.5 Parameter organization The organization of parameters into a tree structure can be seen in the Plant Structure by expanding the setting tree. Signal Matrix Signal Matrix is used to make cross-references between the physical I/O signals, function blocks and SMV and for the GOOSE signal input engineering.
  • Page 90 Section 5 1MRS759117 A Protection and control engineering Binary Inputs Binary Outputs RTD/ mA Inputs Analog Inputs/ Outputs mA Outputs GOOSERCV GOOSE IEC 61850 (input side) GOOSERCV/ SMVRCV (input side) SMVRCV IEC 61850 9-2 LE (input side) GUID-800BDCFA-E6A2-42A3-9370-0EEF76156E70 V1 EN Figure 60: Signal Matrix: operation principles A binary input channel can be connected to one or more function block inputs.

  • Page 91: Load Profile Tool

    Section 5 1MRS759117 A Protection and control engineering Connections made with Signal Matrix are automatically shown in Application Configuration. GUID-BFACA61B-3AA4-4095-897C-BD6A2DEAE3CF V1 EN Figure 61: Signal Matrix: a connection between binary input channels to binary input signals Each SMVRCV block used in Application Configuration needs to be connected to the desired SMV stream in Signal Matrix.

  • Page 92: Opening And Closing Load Profile Tool

    Section 5 1MRS759117 A Protection and control engineering 5.4.1 Opening and closing Load Profile tool • To open the Load Profile tool, right-click an IED in the PCM600 project tree and select Load Profile Tool. GUID-6826AE4B-3491-46CA-B487-5C948712ACC4 V1 EN Figure 62: Opening the Load Profile tool •...
  • Page 93 Section 5 1MRS759117 A Protection and control engineering GUID-0722B23B-1B33-4107-B364-D7815DD78F47 V1 EN Figure 63: Load Profile tool By default, the Load Profile tool uses the \PCMDataBases\LPR directory as a saving target directory. REX640 Engineering Manual...

  • Page 94: Load Profile Tool User Interface

    Section 5 1MRS759117 A Protection and control engineering 5.4.2 Load Profile tool user interface GUID-0722B23B-1B33-4107-B364-D7815DD78F47 V1 EN Figure 64: Load Profile tool interface Table 4: 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 95: Information Fields

    Section 5 1MRS759117 A Protection and control engineering Action Description Sort Record rows can be sorted by any column by clicking the column header. Close Clicking Close closes the tool instance. All open tool instances are closed when PCM600 is closed. File All the actions are also available on the File menu.
  • Page 96 Section 5 1MRS759117 A Protection and control engineering GUID-6A730CD0-A390-4B3A-AF97-E69E323D75F4 V1 EN Figure 66: 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 97: Fault Record Tool Interface

    Section 5 1MRS759117 A Protection and control engineering 5.5.2 Fault Record tool interface GUID-00DA6113-CEA0-450B-811B-25849B5DEEDF V1 EN Figure 67: Fault record tool Table 5: Available actions on the user interface Action Description Read Clicking Read reads all available fault records from the protection relay into the tool. One fault record, 20 fault records or all fault records can be read.

  • Page 98: Ied Compare

    Section 5 1MRS759117 A Protection and control engineering Action Description Close Clicking Close closes this instance of the Fault Record tool. All open instances are closed when PCM600 is closed. File File menu for Save and Exit actions Edit Copy All in the Edit menu allows to copy all the fault records which can then be pasted to a word processor and saved on the local machine without having to save the records as a .txt file.

  • Page 99: Ied Compare Interface

    Section 5 1MRS759117 A Protection and control engineering Select Substation, Voltage level, Bay or IED in the PCM600 plant structure. On the PCM600 menu bar, point to Tools and select IED Compare. 5.6.2 IED Compare interface The comparison report shows differences in the configuration of two IEDs. Hardware, application, display, GOOSE and parameter configuration differences are grouped and listed under the corresponding headings.

  • Page 100: Protection And Control Blocking Examples

    Section 5 1MRS759117 A Protection and control engineering GUID-D765D028-CDAB-44DA-AD6C-AEF8BC84C182 V1 EN Figure 69: Compare report Table 6: Acronyms used in a report Acronym Description Data attribute Data object Intelligent electronic device Logical node Signal Protection and control blocking examples All 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 101: Protection Blocking Example

    Section 5 1MRS759117 A Protection and control engineering The mode of all logical nodes located under the CTRL logical device is 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 102: Control Blocking Example

    Section 5 1MRS759117 A Protection and control engineering 5.7.2 Control blocking example The physical outputs to process can be blocked with “Blocked” mode. If physical outputs need to be blocked, the application configuration must block the signals or the function blocks that affect primary apparatuses. The blocking scheme needs to use BEH_BLK output of Control function block.

  • Page 103: Section 6 Lhmi Engineering

    Add 10 SLD pages at the maximum. Use Page Organizer to configure the main screen of HMI and to create main pages and linked pages by using the predefined ABB built-in pages and template pages. Set also the page visibility to Basic or Advanced access rights and define unique page names.

  • Page 104: Abb Built-In Pages

    6.1.2 ABB built-in pages The ABB built-in pages contain information and functionality which are common to most of the applications. Widget properties are usually fixed on these pages but some, such as measurement page and phasors page contents, can be modified.
  • Page 105 Section 6 1MRS759117 A LHMI engineering Adding and removing measurements In Page Editor, select the Measurements page and then select a measurement list by clicking it. In the Object Properties pane, click … on the listId row to browse the available signals.
  • Page 106 Section 6 1MRS759117 A LHMI engineering GUID-2D1593E7-C928-45FC-88C8-C9D20CA78C59 V1 EN Figure 74: Selecting signals Click OK. Configuring measurement items The measurement limits, scaling and order can be independently configured in the Object Properties pane. Click a measurement to select the measurement item. Then click the same item again to select the measurement list.

  • Page 107: Phasors Page

    Section 6 1MRS759117 A LHMI engineering GUID-E2BA2640-AAB4-402E-8940-F952CAD458DD V1 EN Figure 75: Configuring measurement items • Apply custom scaling, if needed. In the scaling box, define the correct value which is a coefficient applied to the measurement value. The supported scaling is linear: new_value = read_measurement_value ×...
  • Page 108 Section 6 1MRS759117 A LHMI engineering GUID-27DF55C3-7214-4463-8161-8BD073302A70 V1 EN Figure 76: Opening Signal Grouping Editor The Signal Grouping Editor dialog opens. Adding and removing signal groups • Add a new signal group. In Signal Grouping Editor dialog, click Add. In Enter Group Name dialog, type the signal group name. Click OK.
  • Page 109 Section 6 1MRS759117 A LHMI engineering In Signal Grouping Editor dialog, select a group from the Signal Group drop-down list. Click Remove. GUID-3A045F5E-96D8-485B-ADC4-20D8F530AB8C V1 EN Figure 78: Removing a signal group Adding and removing signals • Add new signals. In Signal Grouping Editor dialog, select a group from the Signal Group drop-down list.

  • Page 110: Page Organizer

    "Basic" or "Advanced". These access rights are mapped to user roles with User Management in PCM600 and the pages are filtered based on the mapping. ABB built-in pages are marked with a padlock symbol. They are locked and cannot be modified. REX640...

  • Page 111: Main Pages And Linked Pages

    Templates also contain empty pages. In Page Organizer, the ABB built-in pages are seen as page templates. Both ABB built-in pages and template pages require unique names.
  • Page 112 GUID-08562E29-5991-413C-B699-933C2A3FEB36 V1 EN Figure 81: Adding pages In the Add Page dialog, select a predefined ABB built-in page or a template page and click Add. Define unique names for all main and linked pages regardless of their type.

  • Page 113: Changing Page Order

    Section 6 1MRS759117 A LHMI engineering 6.1.3.4 Changing page order • In Page Organizer, change the order of the pages by dragging a page to the required place. • Pages can also be dragged from Main Pages to Linked Pages and vice versa. 6.1.3.5 Creating templates When a template is created out of an existing page, it becomes available under the...

  • Page 114: Adding Widgets

    Section 6 1MRS759117 A LHMI engineering GUID-D9792AC5-BC1C-4863-99C0-E065E62C1A97 V1 EN Figure 84: Page with phasors 6.1.4.1 Adding widgets • Add a widget to the page by dragging it from the Object Types pane. • Set the widget properties. Adding SLDViewPort The SLDViewPort widget displays the single-line diagram configured in SLD Editor. Drag the SLDViewPort widget from the Object Types pane to the page.

  • Page 115: Configuring Pages

    Section 6 1MRS759117 A LHMI engineering Adding ViewPort The ViewPort widget displays the contents of a page. Drag the ViewPort widget from the Object Types pane to the page. In Object Properties, select the required page from the page drop-down list. 6.1.4.2 Configuring pages •...

  • Page 116: Symbol Editor

    Section 6 1MRS759117 A LHMI engineering When a group is created, all the individual widget properties such as the widget name followed by the dot and the property name, are shown in the Object Properties pane. Only properties x and y are common for all the widgets in the group.

  • Page 117: Creating Custom Symbols

    Section 6 1MRS759117 A LHMI engineering • ANSI • • Custom Symbor Editor can be used to create dynamic symbols that have different states corresponding to the different signal values supported by the symbol. For example, the symbol states of a breaker (open, close, intermediate and faulty) can be illustrated in Symbol Editor with the help of drawing tools such as line, rectangle, ellipse, curve or polyline.
  • Page 118 Section 6 1MRS759117 A LHMI engineering Create a new symbol in one of the alternative ways. • On the menu bar, point to Graphical Display Editor, point to Symbol Editor and select Create Symbol. • Right-click the symbol library and click Create Symbol. •...
  • Page 119 Section 6 1MRS759117 A LHMI engineering The new symbol becomes available in Symbol Editor with the states selected for drawing. Different drawing tools such as line, rectangle and ellipse can be used to draw the graphics for the different states. Select the symbol state to be used as the default and set is default to True in the Object Properties pane.
  • Page 120 Section 6 1MRS759117 A LHMI engineering GUID-B59397FD-212D-4F58-9401-DD6B3B4A7673 V1 EN Figure 91: Selecting the signals for a symbol 4.4. If the symbol is of control type, select the correct value in the control dialog drop-down list. GUID-1345124A-1824-443D-A90C-0A3DB67BEE0B V1 EN Figure 92: Selecting the control dialog type Save the symbol to make it available in SLD Editor.

  • Page 121: Creating Categories

    Section 6 1MRS759117 A LHMI engineering 6.1.5.3 Creating categories Create a new category in one of the alternative ways. • On the menu bar, point to Graphical Display Editor, point to Symbol Editor and select Create Category. • Right-click the symbol library and click Create Category. •...

  • Page 122: Sld Editor

    Section 6 1MRS759117 A LHMI engineering GUID-1253B0CE-98D9-48BB-91B6-ADF29EC2CD7E V1 EN Figure 94: Creating a state 6.1.6 SLD Editor SLD Editor is used to create single-line diagrams. In SLD Editor, bus bars, symbols and text can be added from the object type window and links can be created between symbols.

  • Page 123: Adding Bus Bars

    Section 6 1MRS759117 A LHMI engineering GUID-E9119D3C-D5DF-42EF-A4D7-3769CD70E97D V1 EN Figure 95: SLD Editor All SLD pages are shown at the bottom of SLD Editor. When a page is clicked, it opens in SLD Editor. New SLD pages can be added by clicking the Add Page button. To remove an SLD page, right-click the SLD page and select the Remove Page option in the context menu.

  • Page 124: Managing Bus Bar Coloring

    Section 6 1MRS759117 A LHMI engineering GUID-9E5EB0D4-75BF-48E1-8D75-033A62F42A5B V1 EN Figure 96: Adding a bus bar Select the left or right connection point and drag it to increase the size of the bus bar. 6.1.6.2 Managing bus bar coloring Bus bar coloring is used to assign a color to a bus bar or links. New bus bar color groups can be created and each color group can have one or more logic conditions;...

  • Page 125: Adding Symbols To An Sld Page

    Section 6 1MRS759117 A LHMI engineering GUID-E04050C6-23AF-42BD-9EFA-1E06B0735B13 V1 EN Figure 97: Managing bus bar coloring • Remove the bus bar coloring. Right-click anywhere on the page and select Show Bus Bar Coloring. Select any color group and click the bus bar to remove the bus bar coloring. Bus bar coloring example based on the CBXCBR position value If the CBXCBR position is open, all the bus bars and links associated with the “Color Group1”...
  • Page 126 Section 6 1MRS759117 A LHMI engineering Place the junction points. Connect the symbols where necessary by drawing lines between the symbols' source and destination ports. GUID-543D7A1C-7DC8-493B-BFE6-1803505A2F26 V1 EN Figure 98: Adding symbols to an SLD page In the Object Properties pane, set the symbol properties. •...

  • Page 127: Creating Sld Pages

    Section 6 1MRS759117 A LHMI engineering GUID-F32A9920-F1AC-475F-9291-DA41F75FF285 V1 EN Figure 99: Setting colors for the different symbol states If custom symbols have been used in the SLD configuration and then deleted, the symbol graphics show an error and all the related connections are removed from the configuration.

  • Page 128: Language Translation

    Section 6 1MRS759117 A LHMI engineering The connection ports of all symbols are activated. 5.2. Drag the connection from the source connection port and drop it in the target connection port. A connection line between the source and target connection ports is drawn. Alternatively, click on the source port and then click once at the target port to create the connection.

  • Page 129: Saving, Reading And Writing Configuration To Ied

    Section 6 1MRS759117 A LHMI engineering GUID-4D5D7613-C775-4EC3-9A95-76DCC1746AEA V1 EN Figure 100: Language selection New languages can be added by clicking the Add Language button, selecting any available language and clicking the OK button. The options Language 1...10 can be used to specify a custom language. PCM600 shows all the languages supported by the IED.

  • Page 130: Previewing Configuration

    Section 6 1MRS759117 A LHMI engineering This action must be confirmed before it is carried out, because it overwrites the IED's existing display configuration. The writing operation can take a few seconds or minutes to complete. To read the configuration from the IED, click the Read from IED button on the toolbar.

  • Page 131: Importing Gde Configuration

    Section 6 1MRS759117 A LHMI engineering GUID-D95E238E-004D-41CD-A9C2-3AB740E32625 V1 EN Figure 102: Selecting objects for export Click Export. The selected items are exported in .pgdep format. If the configuration contains custom symbols that are not selected, a warning dialog is displayed. Select the location to save the template and click Save.
  • Page 132 Section 6 1MRS759117 A LHMI engineering GUID-5F1C9281-5FDC-4878-AF1F-BEC1C60432B1 V1 EN Figure 103: Selecting objects for import Click Import. All page names must be unique. If a page is imported with a name that is used by an existing page, a confirmation dialog is displayed. The options are to overwrite the existing page, to create a new page with a different name or to cancel the import.

  • Page 133: Hmi Event Filtering

    Section 6 1MRS759117 A LHMI engineering HMI Event Filtering HMI Event Filtering is a tool that helps in configuring the visibility of the events shown on the IED's LHMI and WHMI. This tool does not modify the actual events on the protocol level.

  • Page 134: Setting Visibility Of Hmi Events

    Section 6 1MRS759117 A LHMI engineering 6.2.2 Setting visibility of HMI events The event tree view is used to modify the visibility of the events shown on the LHMI and WHMI. Events in the tree view are structured similarly to the functions in the PCM600 plant structure.

  • Page 135: Saving Event Filter Configuration

    Section 6 1MRS759117 A LHMI engineering GUID-32B7373E-6895-4799-BA38-0F7898322C27 V1 EN Figure 107: Read-only events are dimmed 6.2.3 Saving event filter configuration • Save the event filter configuration in one of the alternative ways. • On the File menu, select Save. • Click Save on the toolbar.
  • Page 136 Section 6 1MRS759117 A LHMI engineering Events can be grouped into a fault (group of selected events) on the LHMI and WHMI event list. Grouping of events as a fault starts when any of the events selected in the Fault column is activated and ends when all the events selected in the Fault column are deactivated.

  • Page 137: Searching For Events And Alarms

    Section 6 1MRS759117 A LHMI engineering Select the check box in the column header of a column in the data grid view to modify the alarm configuration, priority or fault selection of all events. 6.3.1.2 Searching for events and alarms •...

  • Page 139: Section 7 Iec 61850 Communication Engineering

    Section 7 1MRS759117 A 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 140: Iec 61850 Interface In The Protection Relay

    Section 7 1MRS759117 A 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 141: Function View For Iec 61850 In Pcm600

    Section 7 1MRS759117 A IEC 61850 communication engineering The concept is based on sending a multicast over Ethernet. The receiver detects the telegram by its multicast destination address and application identifier, and decodes the telegram for further processing by the application. IEC 61850 Subnetwork Data-set Data-set...

  • Page 142: 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, are handled with IEC 61850 Configuration tool or IET600. • SCD = Station configuration description •...

  • Page 143: Exporting Scl Files From Pcm600

    Section 7 1MRS759117 A IEC 61850 communication engineering In the following example, it is assumed that PCM600 and IET600 are used as the system configuration tools. Another option is to use IEC 61850 Configuration tool or Application Configuration in PCM600. In that case, the SCL file export and import (steps 1 and 3) are not needed.
  • Page 144 Section 7 1MRS759117 A IEC 61850 communication engineering Station IEC08000415.vsd GUID-DFE7EE1B-DEB7-4DAE-8181-0479289275B4 V1 EN Figure 112: IEC 61850: selecting the station Right-click the station and select Export. In the open standard Windows dialog box, select the location to store the file and name it.

  • Page 145: Exporting Icd Or Cid Files

    Section 7 1MRS759117 A IEC 61850 communication engineering GUID-FC5EA780-2535-49EC-9321-AA37CB41DEFB V1 EN Figure 114: Selecting the SCL file version 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 146: Engineering Vertical And Horizontal Communication

    Section 7 1MRS759117 A IEC 61850 communication engineering GUID-91ACA017-A600-4C4F-A87D-4137608CC92E V1 EN Figure 116: IEC 61850: Selecting the export options Click Advanced to change the SCL file version if required by the receiving configuration tool. GUID-4D59B854-3D0A-43E2-B945-80E89710C3B8 V1 EN Figure 117: Selecting the SCL file version Click Export.
  • Page 147 Section 7 1MRS759117 A IEC 61850 communication engineering 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. Conduct vertical communication engineering (monitoring direction). 3.1.

  • Page 148: Importing Scl Files To Pcm600

    Section 7 1MRS759117 A 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 149: Importing Scd Files

    IED objects 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 150: Importing Icd Or Cid Files

    Section 7 1MRS759117 A IEC 61850 communication engineering GUID-E8E7EC44-898C-43F3-B8BC-04DC7AD7A0F3 V1 EN Figure 121: Common write menu The engineered data is written to the IED when executing a common Write to IED operation. 7.3.3.2 Importing ICD or CID files Select an existing IED. From the Files of type list, select the IEC 61850 file type to be imported (ICD or CID).

  • Page 151: Writing Communication Configuration To Ied

    Section 7 1MRS759117 A IEC 61850 communication engineering GUID-5FC218CD-845E-4F12-8369-A0351234D5A4 V1 EN Figure 122: SCL Import Options • Don't import protects the existing IEDs if the SCD file does not match the original configuration in PCM600. • Replace unknown can be used when the file includes additional IEDs that are needed.
  • Page 152 Section 7 1MRS759117 A IEC 61850 communication engineering GUID-15ADD86B-0C1F-43A4-92C5-E1642B1BF1E5 V1 EN Figure 123: Updating the communication configuration in the IED with the configuration made in PCM600 Select which configuration part to include in writing. • Select GOOSE to update the GOOSE configuration part in the IED. •...

  • Page 153: Section 8 Glossary

    Section 8 1MRS759117 A Glossary Section 8 Glossary 1. Application Configuration tool in PCM600 2. Trip status in IEC 61850 Analog input module ANSI American National Standards Institute Address Resolution Protocol Central activity logging Configured IED description Communication Management tool in PCM600 COM600S Substation Management Unit.
  • Page 154 Section 8 1MRS759117 A Glossary High-availability seamless redundancy HTTPS Hypertext Transfer Protocol Secure Hardware Input/output IED capability description International Electrotechnical Commission IEC 61850 International standard for substation communication and modeling IEC 61850-9-2 A communication protocol based on the IEC 61850 standard series Intelligent electronic device IET600...
  • Page 155 Section 8 1MRS759117 A Glossary Resistance temperature detector SAB600 Substation automation builder tool Substation configuration description XML-based substation description configuration language defined by IEC 61850 Single-line diagram Signal Matrix tool in PCM600 Sampled measured values SNTP Simple Network Time Protocol Subnet mask A set of four numbers used to create IP address numbers that are used only within a particular network,...
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