ABB Relion 630 Series Engineering Manual
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ABB Relion 630 Series Engineering Manual

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RELION® PROTECTION AND CONTROL
630 series
Engineering Manual
Table of Contents
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Summary of Contents for ABB Relion 630 Series

  • Page 1 — RELION® PROTECTION AND CONTROL 630 series Engineering Manual...
  • Page 3 Document ID: 1MRS756800 Issued: 2019-02-25 Revision: F Product version: 1.3 © 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 (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 standards EN 50263 and EN 60255-26 for the EMC directive, and with the product standards EN 60255-1 and EN 60255-27 for the low voltage directive.

  • Page 7: Table Of Contents

    Table of contents Table of contents Section 1 Introduction...............5 This manual..................5 Intended audience................5 Product documentation...............6 Product documentation set............6 Document revision history............. 6 Related documentation..............7 Symbols and conventions..............7 Symbols..................7 Document conventions..............7 Functions, codes and symbols............8 Section 2 Relay engineering process..........13 Monitoring and control system structure...........15 Workflow...................17 Section 3 PCM600 tool..............21...
  • Page 8 Table of contents Using the Web HMI................52 Logging in..................52 Section 5 Protection and control engineering........ 53 Application Configuration tool............53 Function blocks................54 Signals and signal management..........56 Function block execution parameters..........56 Configuration parameters............60 Connections and variables............60 Hardware channels..............61 Validation..................62 Validation when creating an application configuration...
  • Page 9 Table of contents IEC 61850 protocol references and pre-conditions....104 Sequence for engineering of IEC 61850 protocol......104 Exporting SCL files from PCM600 ..........105 Exporting SCD files..............105 Exporting ICD or CID files............106 Engineering of vertical and horizontal communication in IET600...107 Importing SCL files to PCM600............
  • Page 10 Table of contents Reengineering in the Parameter Setting tool......139 IEC 61850 reengineering............140 Updating DNP3 points in the Communication Management tool ....................141 Mapping in Graphical Display Editor ........141 Updating Signal Matrix.............. 141 Changed functions..............142 Section 11 Glossary............... 145 630 series Engineering Manual...

  • Page 11: Section 1 Introduction

    Section 1 1MRS756800 F 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 60870-5-103, IEC 61850 and DNP3.

  • Page 12: Product Documentation

    Commissioning manual GUID-C8721A2B-EEB9-4880-A812-849E1A42B02C V1 EN Figure 1: The intended use of documents during the product life cycle Product series- and product-specific manuals can be downloaded from the ABB Web site http://www.abb.com/relion. 1.3.2 Document revision history Document revision/date Product series version...

  • Page 13: Related Documentation

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

  • Page 14: Functions, Codes And Symbols

    Section 1 1MRS756800 F Introduction • LHMI messages are shown in Courier font. To save the changes in nonvolatile memory, select Yes and press • Parameter names are shown in italics. The function can be enabled and disabled with the Operation setting. •...
  • Page 15 Section 1 1MRS756800 F Introduction Description IEC 61850 IEC 60617 ANSI Transient/intermittent earth-fault INTRPTEF I0> -> IEF 67NIEF protection Admittance-based earth-fault EFPADM Yo> -> 21YN protection Multi-frequency admittance-based MFADPSDE I0> ->Y 67YN earth-fault protection Wattmetric earth-fault protection WPWDE Po> -> Stabilised restricted earth-fault protection LREFPNDF...
  • Page 16 Section 1 1MRS756800 F Introduction Description IEC 61850 IEC 60617 ANSI Negative-sequence overvoltage NSPTOV U2> 47O- protection Residual overvoltage protection ROVPTOV U0> Directional reactive power DQPTUV Q>-->,3U< 32Q,27 undervoltage protection Reverse power/directional DOPPDPR P> 32R/32O overpower protection Underpower protection DUPPDPR P<...
  • Page 17 Section 1 1MRS756800 F Introduction Description IEC 61850 IEC 60617 ANSI Single point control (8 signals) SPC8GGIO Double point indication DPGGIO Single point indication SPGGIO Generic measured value MVGGIO Logic Rotating Switch for function SLGGIO selection and LHMI presentation Selector mini switch VSGGIO Pulse counter for energy metering PCGGIO...
  • Page 18 Section 1 1MRS756800 F Introduction Description IEC 61850 IEC 60617 ANSI Analog channels 1-10 (samples) A1RADR ACH1 ACH1 Analog channels 11-20 (samples) A2RADR ACH2 ACH2 Analog channels 21-30 (calc. val.) A3RADR ACH3 ACH3 Analog channels 31-40 (calc. val.) A4RADR ACH4 ACH4 Binary channels 1-16 B1RBDR...

  • Page 19: Section 2 Relay Engineering Process

    Section 2 1MRS756800 F 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 20 Section 2 1MRS756800 F Relay engineering process • Monitoring the selected signals of a protection relay for commissioning or service purposes by using the Signal Monitoring tool. • Listing all actual existing relay internal and process events by using the Event Viewer tool.

  • Page 21: Monitoring And Control System Structure

    Section 2 1MRS756800 F Relay engineering process Once the engineering of the protection relay is finished, the results must be written to the protection relay. Conversely some parts of the engineering information can be read from the protection relay for various purposes. The connection between the physical IED and PCM600 is established via an Ethernet link on the front or rear port on the protection relay.
  • Page 22 Section 2 1MRS756800 F Relay engineering process PCM600 communicates with the bay devices via an Ethernet connection. The connection allows reading and writing all configuration data needed for proper operation from or to the device. The devices have communication interfaces for protocols and media used for station communication.

  • Page 23: Workflow

    Section 2 1MRS756800 F Relay engineering process Workflow Start Create plant structure and Project insert IED objects Configure IED functionality Save the work between the different steps Parametrization Create single line diagram for local HMI DNP3 IEC 61850 IEC 60870-5-103 Export SCL files from Export PCM600...
  • Page 24 Section 2 1MRS756800 F Relay engineering process See PCM600 documentation for the recommended size of a project. Larger projects can be divided into several PCM600 projects. • Protection relays can be added to the plant structure by inserting the IED in online mode in which the configuration is read from the physical protection relay, by inserting an IED in offline mode, by importing a *.pcmi file or by selecting an IED template from the template library (*.pcmt).
  • Page 25 Section 2 1MRS756800 F Relay engineering process • The communication engineering details are protocol-dependent. • The Communication Management tool is used for DNP3 engineering. • The IET600 station configuration tool is used for IEC 61850 engineering. • The Application Configuration tool and Parameter Setting tool are used for IEC 60870-5-103 engineering.

  • Page 27: Section 3 Pcm600 Tool

    Section 3 1MRS756800 F PCM600 tool Section 3 PCM600 tool Protection and Control IED Manager PCM600 offers all the necessary functionality to work throughout all stages of the protection relay life cycle. • Planning • Engineering • Commissioning • Operation and disturbance handling •...

  • Page 28: Pcm600 And Ied Connectivity Package Version

    Section 3 1MRS756800 F PCM600 tool PCM600 and IED connectivity package version Download connectivity packages from the ABB Web site http://www.abb.com/substationautomation or directly with Update Manager in PCM600. 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 29 Section 3 1MRS756800 F PCM600 tool Two basic variants have to be considered for the connection between PCM600 and the protection relay. • Direct point-to-point link between PCM600 and the protection relay's front port • Indirect link via station LAN or from remote via network If needed, the IP address for the protection relay is set.

  • Page 31: Section 4 Setting Up A Project

    The Update Manager shows the IEDs that are compatible with the installed PCM600 version. Select the ABB IED Connectivity Package RE_630 Ver. n (n = version number) to use 630 series products. It is recommended to always use the lates version of the connectivity package.

  • Page 32: Setting Up Communication Between Pcm600 And The Ied

    Section 4 1MRS756800 F Setting up a project GUID-C1CC8E0C-CBBE-4C02-8E32-8F0888191BE0 V2 EN Figure 5: Activating the connectivity package PCM600 recognizes the installed Connectivity package(s) during startup and the corresponding IED types are available in PCM600 when starting a new project. Setting up communication between PCM600 and the The communication between the IED and PCM600 is independent of the used communication protocol within the substation or to the NCC.
  • Page 33 Section 4 1MRS756800 F Setting up a project If needed, set the IP address for the IEDs. Set up the PC or workstation for a direct link (point-to-point), or Connect the PC or workstation to the LAN/WAN network. Configure the IED IP addresses in the PCM600 project for each IED to match the IP addresses of the physical IEDs.

  • Page 34: Project Management In Pcm600

    Section 4 1MRS756800 F Setting up a project Setting up the PC to access the IED via a network This task depends on the used LAN/WAN network. The PC and the IED must belong to the same subnetwork. Project management in PCM600 Many project management operations are possible in PCM600.

  • Page 35: Plant Structure

    Section 4 1MRS756800 F Setting up a project IEC09000375-1-en.vsd IEC09000375 V1 EN Figure 6: PCM600: Create a new project window Name the project and include a description (optional) and click Create. PCM600 sets up a new project that is listed under Projects on my computer. Plant structure The plant structure is used to identify the location of each IED in within the substation organization.

  • Page 36: Building The Plant Structure

    Section 4 1MRS756800 F Setting up a project IEC09000359-1-en.vsd IEC09000359 V1 EN Figure 7: 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 37 Section 4 1MRS756800 F Setting up a project • A technical key is used on engineering drawings and for signal identifications. This is contained in the attribute name as identification of each object. If this value is used as reference to an object, it is contained in an attribute name starting with a string denoting the reference target object type, and ending with the string Name.

  • Page 38: Inserting Ieds

    Section 4 1MRS756800 F Setting up a project IEC09000360-1-en.vsd IEC09000360 V1 EN Figure 8: PCM600: IEC 61850 signal designation concept Figure 8 shows the IED named in the example TR_421 in the object properties with the two designations TR_421 and SB1. Inserting IEDs The context menu or the Object Types view shows the available 630 series IEDs possible to insert, on the bay level in the plant structure, according to the installed...

  • Page 39: Inserting Ieds In Online Mode

    Section 4 1MRS756800 F Setting up a project • Online mode: When the IED is already connected to PCM600 and the communication is established, PCM600 can read the configuration directly from the physical IED. This is useful when an order specific IED is used. The order configuration is written to the IED at the factory and can be accessed by PCM600.
  • Page 40 Section 4 1MRS756800 F Setting up a project IEC09000363-2-en.vsd IEC09000363 V2 EN Figure 10: PCM600: Configuration mode selection wizard In the IED protocol list, select the IED communication protocol and click Next. The Communication protocol selection page is displayed. IEC09000364-2-en.vsd IEC09000364 V2 EN Figure 11: PCM600: Communication protocol selection wizard...
  • Page 41 Section 4 1MRS756800 F Setting up a project • If the rear port is selected, type the correct IP address (of the physical IED to be configured) to the IP address box. Communication configuration is now defined. IEC09000365-2-en.vsd IEC09000365 V2 EN Figure 12: PCM600: Communication port and IP address Click Next in the Configuration Wizard.
  • Page 42 Section 4 1MRS756800 F Setting up a project IEC09000366 V3 EN Figure 13: PCM600: IED Version detection Click Scan to scan/read the order code of the IED. After a successful scan, click Next. 630 series Engineering Manual...
  • Page 43 Section 4 1MRS756800 F Setting up a project IEC09000367 V3 EN Figure 14: PCM600: IED Order code detection The Setup Complete Page dialog shows the summary of the IED Type, Product Version, IP Address of IED and Selected Order Code. It is possible to cancel the insertion or confirm the configuration and do the insertion with Finish.

  • Page 44: Inserting Ieds In Offline Mode

    Section 4 1MRS756800 F Setting up a project IEC09000368 V3 EN Figure 15: PCM600: IED Setup completion wizard If an error is found on the Setup Complete Page, it is not possible to go back and make modifications. If an error is detected, cancel the insertion by clicking Cancel and insert the IED again.
  • Page 45 Section 4 1MRS756800 F Setting up a project Working in the offline mode has an advantage compared to online mode because the preparation for the configuration can be started even though the IED is not available. In the Plant Structure view, right-click the bay and from the list select New and the IED application area, for example, Feeder IEDs.
  • Page 46 Section 4 1MRS756800 F Setting up a project GUID-CA223390-8283-4F53-AECF-85E2E9870F3C V1 EN Figure 17: Communication protocol selection page Setting up an IED in the offline mode is similar as in the online mode; However, with the offline mode it is not necessary to type the correct IP address in the Communication port and IP address dialog box.
  • Page 47 Section 4 1MRS756800 F Setting up a project GUID-32101077-07E2-4A57-AC7B-340D68111D37 V1 EN Figure 18: IEC61850 communication protocol Select the correct product version on the Version selection page and click Next. Select correct order code on the Order code selection page. 630 series Engineering Manual...
  • Page 48 Section 4 1MRS756800 F Setting up a project GUID-42D32F57-BC5D-4942-B2DA-5F135C8FC866 V1 EN Figure 19: Order code selection page Click Next on the Setup complete page that shows the summary of the IED type, version, IP address and the selected order number. Ensure that the order code is correct.

  • Page 49: Inserting Ieds From The Template Directory

    Section 4 1MRS756800 F Setting up a project GUID-EA1A7E89-D456-4E1E-A49E-833A46452BC2 V1 EN Figure 20: Setup complete page Click Finish to confirm the configuration and conduct the insertion. 4.6.3 Inserting IEDs from the template directory An IED in the plant structure can be exported as a template (*.pcmt). A template library can be built with all the exported IED templates.
  • Page 50 Section 4 1MRS756800 F Setting up a project IEC09000371-1-en.vsd IEC09000371 V1 EN Figure 21: PCM600: Selecting IED from template library Select the IED from the list of available IEDs. Click the icon on the right column in the list of available templates. The Template Properties dialog box opens.

  • Page 51: Inserting Pre-Configurations

    Click Close when finished. 4.6.4 Inserting pre-configurations Pre-configurations can be downloaded free of charge from the ABB Website. Pre-configurations in PCM600 are available as *.pcmi files and include all information that is related to the IED object in PCM600. The pre-configuration is bound to a specific hardware configuration.
  • Page 52 Section 4 1MRS756800 F Setting up a project IEC09000644-1-en.vsd GUID-0F2CBC13-4937-4B0F-B880-A7C88E9E2D19 V1 EN Figure 23: Import an IED from the context menu Import the *.pcmi file from the bay level in the plant structure. Click OK to insert the new IED object in the plant structure. Get the order code of the ordered IED, which is available in the order confirmation E-mail.

  • Page 53: Setting Ied Ip Address In The Project

    Section 4 1MRS756800 F Setting up a project 4.6.5 Setting IED IP address in the project There are two alternatives to set IP address of the IED object in PCM600. The used alternative depends on the time at which the IP address is available. The IED object in PCM600 must have the same IP address and subnetwork mask as the front or rear port on the physical IED to which the PC is connected.

  • Page 54: Setting Technical Key

    Section 4 1MRS756800 F Setting up a project Select the IED to enter the IP address. Open the Object Properties window. Place the cursor in the IP address row and enter the IP address. Setting technical key The Technical Key Editor tool is used to synchronize technical keys in the PCM600 project and in an IED.

  • Page 55: Using 630 Ieds In Com600 Project

    Section 4 1MRS756800 F Setting up a project Select an IED in the plant structure. Right-click and select the set technical key. A dialog window opens to inform about the technical key concept. Click OK. The technical key is read from the IED and the Technical Key Editor window opens.
  • Page 56 Section 4 1MRS756800 F Setting up a project IEC09000687-1-en.vsd IEC09000687 V1 EN Figure 28: Export SCD file from PCM600 and import it to SAB600 Select the correct IEC 61850 Client identification in the IEC 61850 OPC Server properties to enable the event reporting for imported IEDs. Create new generic IED in SAB600 project.

  • Page 57: Enabling Web Server

    Section 4 1MRS756800 F Setting up a project IEC09000395-1-en.vsd IEC09000395 V1 EN Figure 30: Import exported CID file for created generic IED Using a 630 series IED as a generic 61850 device supports controlling switch gears, monitoring measured values and reading disturbance recordings. 4.8.1 Enabling Web Server The Web Server has to be separately enabled for parametrization from COM600.

  • Page 58: Using The Web Hmi

    Section 4 1MRS756800 F Setting up a project Using the Web HMI WHMI is disabled by default. To enable the WHMI, select Main menu/Configuration/HMI/Web HMI/ Operation via the LHMI. To enable writing through the WHMI, select Main menu/ Configuration/HMI/Web HMI/Write mode via the LHMI. To open the WHMI, write the IED IP address to the address bar of the browser.

  • Page 59: Section 5 Protection And Control Engineering

    Section 5 1MRS756800 F Protection and control engineering Section 5 Protection and control engineering Application Configuration tool The Application Configuration tool is used to create the application configuration for an IED. The application configuration is built up with function blocks that are dedicated for different functionality.

  • Page 60: Function Blocks

    Section 5 1MRS756800 F Protection and control engineering Signal Matrix does not support signals of integer type or group signals. If these types of signals are set as visible for Signal Matrix, they will not be shown in Signal Matrix. •...
  • Page 61 Section 5 1MRS756800 F Protection and control engineering IEC08000258.vsd GUID-186DCB92-F665-4D1B-B0E1-33F25C9C98B0 V1 EN 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 Inverted output...

  • Page 62: Signals And Signal Management

    Section 5 1MRS756800 F Protection and control engineering 5.1.2 Signals and signal management The function block has a set of input and output signals. The placement of function block signals is from left to right. Input signals are placed on the left and output signals on the right.
  • Page 63 Section 5 1MRS756800 F Protection and control engineering mode best suitable instance is selected automatically. Depending on the function block type not all three parameters are selectable. The cycle time may be predefined to one value. The instance number is a counter for the total possible number of function blocks of that type used within an application configuration.
  • Page 64 The task is started periodically by the clock and the end trigger of the 20 ms task 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 65 Section 5 1MRS756800 F Protection and control engineering IEC09000688-1-en.vsd IEC09000688 V1 EN Figure 37: Cycle time and execution order A function block type can be defined to be a member of one or several cycle times. A function block instance can be set only to one cycle time. See examples for 630 series: In order to have full advantage of the fast 5 ms and 3 ms cycle times all function blocks in the signal chain need to have the same cycle time.

  • Page 66: Configuration Parameters

    Section 5 1MRS756800 F Protection and control engineering Execution Flow Execution order Execution order Execution order group 1 group 2 group 3 IEC08000271.vsd IEC08000271 V1 EN Figure 38: ACT: Concept of Execution order sequence In the conceptual MainApplication example in Figure 38, the execution order of the main function block in the execution order group 2 defines the execution orders...

  • Page 67: Hardware Channels

    Section 5 1MRS756800 F Protection and control engineering IEC08000304.vsd GUID-535DA644-BAAA-4282-9965-64AD44FA7588 V1 EN Figure 39: ACT: Warning message by signal mismatch for a connection 5.1.6 Hardware channels Hardware channels can only be connected to a function block input or output. A hardware connection can be established with the Application Configuration tool or Signal Matrix tool.

  • Page 68: Validation

    Section 5 1MRS756800 F Protection and control engineering IEC09000613-2-en.vsd IEC09000613 V2 EN Figure 40: ACT: HW signal channels 5.1.7 Validation Validation checks the application configuration for errors based on the rules that govern the creation of the application at three different times. •...

  • Page 69: Validation On Demand

    Section 5 1MRS756800 F Protection and control engineering 5.1.7.2 Validation on demand The validity of an application configuration can be checked by clicking Validate Configuration in the toolbar. The Application Configuration tool checks the application configuration for formal correctness. The found problems are divided into warnings and errors.

  • Page 70: Validation When Writing To The Protection Relay

    Section 5 1MRS756800 F Protection and control engineering 5.1.7.3 Validation when writing to the protection relay When writing the application configuration to the protection relay, an automatic validation is performed. The validation is the same as the manually demanded validation. Errors abort the writing. Parameter Setting tool Configuration and setting parameters can be changed either from LHMI or from the Parameter Setting tool in PCM600.

  • Page 71: Signal Matrix Tool

    Section 5 1MRS756800 F Protection and control engineering Setting group Nearly all settings used by the IED for the protection application functions are organized in a group of settings. Up to four setting groups can be configured with different values. The IED supports the selection of a setting group at runtime. IED parameters organization The organization of the parameters in a tree structure is visible in the plant structure by expanding the setting tree.
  • Page 72 Section 5 1MRS756800 F Protection and control engineering A binary input channel can be connected to one or more function block inputs. If a binary input channel is connected to several different function blocks in the Application Configuration tool, the connection appears as glue logic in Signal Matrix. A binary output channel can only be activated from one function block output.

  • Page 73: Engineering Control Functions

    Section 5 1MRS756800 F Protection and control engineering • Binary inputs • Binary outputs • Analog inputs • Analog outputs • GOOSE Engineering control functions 5.4.1 Introduction The apparatus control function continuously supervises and controls circuit breakers, disconnectors and earth-switches within a bay. Permission to operate an apparatus is given after evaluation of conditions from other functions, such as interlocking, synchrocheck, operator place selection and external or internal blockings.
  • Page 74 Section 5 1MRS756800 F Protection and control engineering • Operation of primary apparatuses • Overriding of synchrocheck • Select-Execute principle to give high reliability • Selection and reservation function to prevent simultaneous operation • Selection and supervision of operator place •...

  • Page 75: Remote/Local Switch

    Section 5 1MRS756800 F Protection and control engineering IEC 61850 -QB1 -QA1 QCCBAY DAXCBR GNRLCSWI SCILO -QB9 DAXSWI SCILO GNRLCSWI IEC09000601-1-en.vsd IEC09000601 V1 EN Figure 45: Signal flow between apparatus control function blocks 5.4.2 Remote/Local switch The IED has Remote/Local (R/L) switch available on the LHMI. However, if it is required to use R/L switch externally, that is, to use switch other than available on LHMI, it is necessary to use Local remote (LOCREM) function in the configurations.

  • Page 76: Bay Control

    Section 5 1MRS756800 F Protection and control engineering Connecting External R/L Binary to LOCREM Switch Inputs Card function LOCREM CTRLOFF Local LOCCTRL REMCTRL Remote IEC09000600-1-en.vsd IEC09000600 V1 EN Figure 46: LOCREM Engineering LOCREM function acts in OFF position, in case if more than one binary input is at logical TRUE, or if all are at logical FALSE due to some error in connection, or due to faulty external switch.
  • Page 77 Section 5 1MRS756800 F Protection and control engineering tried to perform with blocking of command connected to TRUE is as shown in Figure IEC09000604-1-en.vsd IEC09000604 V1 EN Figure 47: Message displayed when controlling any power apparatus with BLK_CMD of QCCBAY connected to logical TRUE Logical node for interlocking Logical node for interlocking (SCILO) provides the information to the switching controller GNRLCSWI whether it is permitted to operate due to the switchyard...
  • Page 78 Section 5 1MRS756800 F Protection and control engineering The interlocking logic for earth switch for the topology is shown in Figure IEC09000606-1-en.vsd IEC09000606 V1 EN Figure 49: Interlocking condition for earth switch for power system topology The output of this interlocking condition ES_EN, is connected to functional input of SCILO at OPEN_EN and CLOSE_EN as shown in Figure IEC09000607-1-en.vsd...
  • Page 79 Section 5 1MRS756800 F Protection and control engineering IEC09000608-1-en.vsd IEC09000608 V1 EN Figure 51: Possibilities for connecting position indications to SCILO The outputs enable open and close from SCILO: EN_OPEN and SCILO: EN_CLOSE are connected directly to input enable open and close of GNRLCSWI: EN_OPEN and GNRLCSWI: EN_CLOSE, as shown in Figure IEC09000609-1-en.vsd...

  • Page 80: Switch Control

    Section 5 1MRS756800 F Protection and control engineering 5.4.4 Switch control The Switch controller, GNRLCSWI, initializes all operations for one apparatus and performs the actual switching and is more or less the interface to the drive of one apparatus. It includes the position handling as well as, the control of the position. GNRLCSWI initializes and supervises all functions to properly select and operate primary switching devices.
  • Page 81 Section 5 1MRS756800 F Protection and control engineering overrides the synchrocheck, the evaluation of the synchrocheck state is omitted. When there is a positive confirmation from the synchrocheck function, the switch controller sends a close signal EXE_CL to the switch breaker function DAXCBR. When there is no positive confirmation from the synchrocheck function, the switch controller sends a start signal START_SYN to the synchronizing function.

  • Page 82: Circuit Breaker/Circuit Switch

    Section 5 1MRS756800 F Protection and control engineering IEC09000610-1-en.vsd IEC09000610 V1 EN Figure 54: Example of interaction between GNRLCSWI, SYNCRSYN (synchrocheck and synchronizing function) and DAXCBR functions The present status information of the apparatus, that is, open or closed or intermediate stage is available to GNRLCSWI function from the switch function DAXCBR/ DAXSWI via XPOS input.
  • Page 83 Section 5 1MRS756800 F Protection and control engineering of DAXCBR the truck position information is available at TRUCK_POS output in integer form. Binary input signal LR_SWI is included in this function to indicate local or remote switch position from the switchyard provided via I/O board. If the signal is set to TRUE, changes of position are only allowed from switchyard level.

  • Page 85: Section 6 Local Hmi Engineering

    Section 6 1MRS756800 F Local HMI engineering Section 6 Local HMI engineering LED and function key engineering 6.1.1 Local HMI engineering process The LHMI engineering process involves several steps. Figure 56 presents the pre- engineering step, the main steps in the engineering process and the required sequences.
  • Page 86 Section 6 1MRS756800 F Local HMI engineering • To use the function keys and LEDs on LHMI it is needed 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 87 Section 6 1MRS756800 F Local HMI engineering GUID-50252C85-F6EA-4B18-BFCC-97C19F5B746F V1 EN Figure 57: Local HMI: Placement of local HMI operation elements Function block LEDGEN • Handles an external acknowledge signal as source to acknowledge the LEDs. • Generates an additional pulse for general purposes whenever the LEDs are acknowledged by the operator.
  • Page 88 Section 6 1MRS756800 F Local HMI engineering key [a] to toggle between the three groups or the 'Clear' key [b] to acknowledge or reset the LEDs. • Only the programming of the signals is needed for the LEDs. • The operation mode of the LEDs is defined in Parameter Setting tool. Function block FNKEYMD1 to 5 •...
  • Page 89 Section 6 1MRS756800 F Local HMI engineering IEC09000656-1-en.vsd GUID-679D02FA-E695-4E66-AE3E-042E25BFE98D V1 EN Figure 58: 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 90: Led Operation Modes

    Section 6 1MRS756800 F 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 91 Section 6 1MRS756800 F Local HMI engineering LED operation mode Follow-S Illumination => = Steady = Flash IEC08000395.vsd IEC08000395 V1 EN Figure 60: LHMI: LED operation mode Follow-S Monitoring a signal with a LED is a simple mode, where the LED follows the signal state.
  • Page 92 Section 6 1MRS756800 F Local HMI engineering LED operation mode LatchedAck-F-S Illumination => = Steady = Flash IEC08000397.vsd IEC08000397 V1 EN Figure 62: LHMI: LED operation mode LatchedAck-F-S / Base The classical mode to indicate incoming alarms or warnings, which the operator has not seen since the last acknowledgement, is presented in Figure 62 as a basic operation...
  • Page 93 Section 6 1MRS756800 F Local HMI engineering • All colors (signals) are acknowledged and they will illuminate in steady state. • Incoming additional signals with lower priority will illuminate when they become the highest priority in steady mode. • One or more signals with higher priority are changing to ON after an acknowledgement.
  • Page 94 Section 6 1MRS756800 F Local HMI engineering This mode catches a signal change to ON and the LED stays ON until the operator resets the LEDs for this group. If the signal is still ON when a reset LED is done, the LED will illuminate again. This occurs when the application configuration accesses the signal again in the next cycle after reset.

  • Page 95: Single-Line Diagram Engineering

    Section 6 1MRS756800 F Local HMI engineering tMax tRestart Auto- Reset Man- Reset S1LED S2LED S3LED S4LED Illumination => = Steady = Flash IEC08000401.vsd IEC08000401 V1 EN Figure 67: LHMI LED operation mode LatchedReset-S / 2 Single-line diagram engineering Phase angles are shown as radians in the single line diagram (GDE measurand) symbols but in degrees in other views on the LHMI.
  • Page 96 Section 6 1MRS756800 F Local HMI engineering HMI display Regard the window pages squence of pages Symbol library IED HMI window display window IEC08000123.vsd GUID-B6194955-8FFC-4945-96B3-0E824C12DA88 V1 EN Figure 68: GDE: Screen image with active GDE Procedure Start GDE to open a presentation of the tool. GDE has a fixed symbol library window on the left side of the display.
  • Page 97 Section 6 1MRS756800 F Local HMI engineering Symbol library The symbol library 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 library shows the symbols either in ANSI standard or in IEC standard.
  • Page 98 Section 6 1MRS756800 F 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 99: Supported Single-Line Diagram Symbols

    Section 6 1MRS756800 F Local HMI engineering Line draw icon start point end point en05000598.vsd GUID-05BDFA24-3EF9-4EC4-8039-763B70C50C1E V1 EN Figure 70: GDE: Drawing a line 6.2.2 Supported single-line diagram symbols Table 3: Supported symbols IEC symbol name Node type IEC symbol ANSI Y32.2/ Category definitions...
  • Page 100 Section 6 1MRS756800 F Local HMI engineering IEC symbol name Node type IEC symbol ANSI Y32.2/ Category definitions IEEE 315 symbol definitions Reactor Others Motor Others Coil Others Transformer 2 winding Power transformers Transformer 3 winding Power transformers Autotransformer Power transformers Isolator, 00 = middle position Switchgear Isolator, 01 = Open...
  • Page 101 Section 6 1MRS756800 F Local HMI engineering IEC symbol name Node type IEC symbol ANSI Y32.2/ Category definitions IEEE 315 symbol definitions Isolator indication only, 11 = Switchgear Undefined Breaker indication only, 00 = Switchgear Middle position Breaker indication only, 01 = Switchgear Open Breaker indication only, 10 =...

  • Page 102: Bay Configuration Engineering

    Section 6 1MRS756800 F Local HMI engineering IEC symbol name Node type IEC symbol ANSI Y32.2/ Category definitions IEEE 315 symbol definitions Breaker2 indication only, 00 = Switchgear Middle position Breaker2 indication only, 01 = Switchgear Open Breaker2 indication only, 10 = Switchgear Closed Breaker2 indication only, 11 =...

  • Page 103: Linking Process Objects

    Section 6 1MRS756800 F Local HMI engineering Link the apparatus symbols with line elements. Adjust the text symbols while writing to north, east, south or west. Use the object property window to do it. Place measurements when needed. Edit the name, unit and number of decimals of the measurements. Select each object that has a dynamic link and create the link to the corresponding process object.
  • Page 104 Section 6 1MRS756800 F Local HMI engineering • ACT to program the application function block for apparatus and/or measurements. • PST to adapt the settings and/or configuration parameter of the application function block. • GDE to establish the link for updating the selected data attribute in the HMI of the application function block.
  • Page 105 Section 6 1MRS756800 F Local HMI engineering IEC08000125.vsd GUID-62A21B8F-41CA-4E0F-B9ED-A9C3DA43DBE1 V1 EN Figure 72: GDE: Input signal selection The order number in the selection window of the process objects corresponds to the number given in the PST tree and to the application function block in ACT. Only those apparatus and measurements are shown that are configured in the application configuration program.

  • Page 106: Events And Indications

    Section 6 1MRS756800 F Local HMI engineering 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 107: Section 7 Iec 61850 Communication Engineering

    Section 7 1MRS756800 F IEC 61850 communication engineering Section 7 IEC 61850 communication engineering IEC 61850 interface in the protection relay and tools For more information on the implementation of IEC 61850 in protection relays, see IEC 61850 engineering guide and conformance documents.

  • Page 108: Iec 61850 Interface In The Protection Relay

    Section 7 1MRS756800 F IEC 61850 communication engineering 7.1.2 IEC 61850 interface in the protection relay GOOSE GOOSE GOOSE Receive Receive Receive GOOSE GOOSE GOOSE Send Send Send with monitoring only part Commands with part Event monitoring handler commands Event queue part IEC08000364.vsd...

  • Page 109: Station Configuration Description File Types

    Section 7 1MRS756800 F IEC 61850 communication engineering IEC 61850 Subnetwork Data-set Data-set Data-set IED 1 IED 2 IED 3 en05000830.vsd IEC05000830 V1 EN Figure 76: IEC 61850: Horizontal communication principle Figure 76 shows an example with three IEDs where each one communicates with all the others.

  • Page 110: Iec 61850 Engineering Procedure

    • An IED is already extended by default data sets and report control blocks. They are predefined by ABB. • SCD = Station configuration description • A complete configuration description of all IEDs in a station and the full engineering of process signals and communication structure is included.

  • Page 111: Exporting Scl Files From Pcm600

    Section 7 1MRS756800 F IEC 61850 communication engineering SCL files are exported from PCM600. In this case, a SCD file. It is also possible to export other SCL file types. Horizontal and vertical communication is configured using the station configuration tool, for example, IET600. SCL files are imported to a PCM600 project.

  • Page 112: Exporting Icd Or Cid Files

    Section 7 1MRS756800 F IEC 61850 communication engineering Station IEC08000415.vsd GUID-466A9F09-C384-48A7-B38C-B5BF221F416E V1 EN Figure 78: IEC 61850: Export SCD step 1 Right-click the station and select Export. Select a location from the open standard Windows menu to store the file and name it.
  • Page 113 Section 7 1MRS756800 F IEC 61850 communication engineering IEC08000416.vsd GUID-41A96291-035E-475D-8B3D-2AF21C0EBE4D V1 EN Figure 80: IEC 61850: export IED file type selection Click Save. The SCL Export Options dialog box opens. Select the export options. • Export Private Sections • Export As SCL Template •...

  • Page 114: Engineering Of Vertical And Horizontal Communication In Iet600

    Section 7 1MRS756800 F IEC 61850 communication engineering Create a project in IET600. Import the SCD file created by PCM600. Do vertical communication engineering (monitoring direction). 3.1. Check the default data sets. 3.2. Configure and/or re-configure the default data sets. Note that reporting data sets shall only contain data intended to be used by clients, for example for event handling.

  • Page 115: Importing Scd Files

    SCD file matches the IED object(s) in PCM600. This option can be used, for example, when third party IEDs are included in the system and the SCD file sends GOOSE messages to ABB IEDs included in the project. • Click Ignore Substation Section to not import the SSD file part of the SCD file.
  • Page 116 Section 7 1MRS756800 F IEC 61850 communication engineering If a client is defined for GOOSE receive, at least one cross in Sigmal Matrix is required to be able to write the configuration to the IED. To enable GOOSE communication, set Operation to “On” in Parameter Setting for all included GOOSE receiving function blocks in the application configuration.

  • Page 117: Importing Icd Or Cid Files

    Section 7 1MRS756800 F IEC 61850 communication engineering 7.5.2 Importing ICD or CID files Select an existing IED to import IEC 61850 files. From the Files of type list, select the file type of IEC 61850 to be imported (ICD or CID).

  • Page 118: Iet600 Engineering

    Section 7 1MRS756800 F IEC 61850 communication engineering tool configuration is changed, but no changes are done for the instantiation or deletion of functions that represent a logical node. When a changed configuration is written to the IED, the user is asked to update the communication configuration.
  • Page 119 Section 7 1MRS756800 F IEC 61850 communication engineering Click the round button on the top of the left corner of the IET600 window. Select Manage Projects. Click New button in the Projects dialog box. Type the name of the project. GUID-59477F79-C256-4A8B-BB72-D8CF0621B4F4 V1 EN Figure 86: Creating a new project in IET600...

  • Page 120: Adding New Iec 61850 Clients For Iet600

    Section 7 1MRS756800 F IEC 61850 communication engineering An SCD file can be imported to a project only once. If another IED needs to be later added to the configuration, it must be first created with the Create New IED function. Import the related CID or ICD file with the Update IED function.

  • Page 121: Attaching Iec 61850 Clients To A Bus With Iet600

    Section 7 1MRS756800 F IEC 61850 communication engineering The procedure used in configuring IEC 61850 clients can be used to create or update any IED, also several IEDs at the same time. 7.7.3 Attaching IEC 61850 clients to a bus with IET600 All IEDs and report clients must be connected to a subnetwork to enable proper configuration.
  • Page 122 Section 7 1MRS756800 F IEC 61850 communication engineering GUID-24A13EC0-532C-4853-A1D6-5CAC2BD10229 V1 EN Figure 88: IET600 user interface 1 Menu on the top of the user interface 2 Navigation pane for context-oriented navigation and filtering the various editors 3 Properties pane for detailed properties of the selected element in the navigation pane 4 Editors for detailed design and engineering of the substation, IEDs and IEC 61850 communication 5 Logging and messaging (output) pane The navigation pane provides context-oriented navigation of the editors.

  • Page 123: Setting Visibility Of Columns In Grid Editors

    Section 7 1MRS756800 F IEC 61850 communication engineering • GCB editor • GCB clients • Inputs Available editor tabs depend on the selected node type, not on the selected navigation tab. Choose any available context view to do the needed engineering tasks. Choose upper or lower level in the structure to see the data of single, many or all IEDs at the same time in the editor pane.

  • Page 124: Filling Down Multiple Cells

    Section 7 1MRS756800 F IEC 61850 communication engineering 7.7.4.2 Filling down multiple cells The fill down feature in a grid editor allows filling multiple cells in a sequence automatically. Click the first column in the selection. Press and hold, then click the last column in the selection. Right-click and choose Fill Down from the shortcut menu.

  • Page 125: Mapping Logical Nodes

    Section 7 1MRS756800 F IEC 61850 communication engineering GUID-E31AF865-B7FE-49EE-A6FD-310F1C297D34 V1 EN Figure 91: SLD editor 7.7.5.2 Mapping logical nodes In addition to the substation topology configuration, LNs (logical nodes) of the IEDs need to be mapped to proper objects, for example to support automatic bay configuration via SCL files in a SCADA system.

  • Page 126: Creating Data Sets With Iet600

    Section 7 1MRS756800 F IEC 61850 communication engineering To select the LN mapping target, either type in the target, select it from a shortcut menu, or use the Fill Down function to fill multiple rows automatically. GUID-47E32E91-E922-4882-8C28-16AD18A29DEB V1 EN Figure 92: LN mapping editor 7.7.6 Creating data sets with IET600...
  • Page 127 Section 7 1MRS756800 F IEC 61850 communication engineering GUID-D2E0B8C9-6D5E-4032-9C38-805C2A19389B V1 EN Figure 93: Data set editor 1 Grid 2 Selection lists 3 List of data entries Select an IED node in the IEDs navigation pane. Click the Datasets tab in the editor pane. Right-click the area containing data set names and select Insert new row.

  • Page 128: Creating Report Control Blocks With Iet600

    Section 7 1MRS756800 F IEC 61850 communication engineering Data set entries for vertical reporting are selected using the data object level, and entries for GOOSE using the data attribute or data object level. 7.7.7 Creating report control blocks with IET600 Configuration properties, such as the attached data set and the buffering and triggering options of the RCBs are are defined in the RCB editor.

  • Page 129: Rcb Client Configuration With Iet600

    Section 7 1MRS756800 F IEC 61850 communication engineering 7.7.8 RCB client configuration with IET600 To succeed with an RCB client configuration, the potential clients and their communication configuration should be known. Therefore, the IEDs must be added and configured to the subnetwork before configuring the RCB client. The rows of the RCB client editor show IEDs and RCBs and the columns show the available client IEDs.
  • Page 130 Section 7 1MRS756800 F IEC 61850 communication engineering GUID-EB4EE24C-111F-45E7-BFC4-FF6A1DB93F3F V1 EN Figure 96: Semi-automatic configuring of RCB clients Configure the default clients which are used by the rule-based RCB generation to automatically configure RCB clients. Use buttons on the RCB client editor. •...

  • Page 131: Horizontal Communication Engineering

    Section 7 1MRS756800 F IEC 61850 communication engineering 7.7.9 Horizontal communication engineering Creating and handling data sets and GOOSE control blocks (GCBs) is similar to data set and RCB handling for vertical communication. GCBs are created and configured in the GCB editor. One data may be included in a GOOSE data set only once.
  • Page 132 Section 7 1MRS756800 F IEC 61850 communication engineering GUID-2DC9FFE2-8C7E-4A9E-AEBD-2983F5D174D2 V1 EN Figure 98: GCB client editor The rows of the GCB client editor show GCBs, that is, senders and the columns show the IEDs available as GOOSE clients, that is, receivers. If the client IED is not on the same subnetwork as the GCB sender, it cannot be configured as a client.

  • Page 133: Section 8 Iec 60870-5-103 Communication Engineering

    Section 8 1MRS756800 F IEC 60870-5-103 communication engineering Section 8 IEC 60870-5-103 communication engineering Engineering in PCM600 Application Configuration and Parameter Setting 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 135: Section 9 Dnp3 Communication Engineering

    Section 9 1MRS756800 F DNP3 communication engineering Section 9 DNP3 communication engineering Signal configuration user information 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. CMT allows to configure the signals that are used to communicate with clients or master units for DNP3 protocols.

  • Page 136: Adding Setting Groups

    Section 9 1MRS756800 F DNP3 communication engineering Adding setting groups In order to show for a DNP master which setting group is used, the following procedure can be performed. In this example, only setting groups one and two are used. The DNP3 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 137 Section 9 1MRS756800 F DNP3 communication engineering GUID-C9C0B03F-37BB-4419-879E-A5E4B3B07FA7 V1 EN Figure 100: Communication Management tool Select the signals and move them to 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 138: Configuring Dnp3 Protocol Signals

    Section 9 1MRS756800 F DNP3 communication engineering Configuring DNP3 protocol signals Save the actual project configuration in PCM600 to make all signals visible for Configuration Management tool. Direct configured hardware channels in the application configuration appear in CMT. Do not configure these hardware channels to be sent by DNP3 as they are not event-handled.
  • Page 139 Section 9 1MRS756800 F DNP3 communication engineering • The right window shows tabs for possible communication channels. • The left window has a drop down menu for signal selection and buttons for signal movement. IEC09000689-1-en.vsd IEC09000689 V1 EN Figure 104: CMT: Container window design when selecting DNP3 protocol To move signals, select one or several signals.

  • Page 140: Setting Dpn3 Signal Parameters

    Section 9 1MRS756800 F DNP3 communication engineering IEC08000339-2-en.vsd IEC08000339 V2 EN Figure 106: CMT: Marker to indicate changes in the container Setting DPN3 signal parameters Two parameters per signal can be set for all signal types: • The index of the signal •...

  • Page 141: Configuring Dnp3 Class

    Section 9 1MRS756800 F DNP3 communication engineering 2.1. Click in the class field of the signal to change the class configuration. The Select Class window opens. 2.2. Make the selection according to the definitions in the project and click OK to close the window and get the new configuration.

  • Page 143: Section 10 Configuration Migration

    Section 10 1MRS756800 F Configuration migration Section 10 Configuration migration 10.1 Migrating the configuration to a later version PCM600 Ver.2.5 or later and 630 series Connectivity Package Ver.1.3 support migration from 630 series Ver.1.0 to Ver.1.1, Ver.1.1 to Ver.1.2 and Ver.1.2 to Ver. 1.3.

  • Page 144: Migrating The Ied Configuration

    Section 10 1MRS756800 F Configuration migration 10.1.3 Migrating the IED configuration Select the IED to be migrated and right-click Migrate Configuration. Select the version to migrate to, for example 1.1, in the dialog and click Continue. A summary of the migration is displayed. Obsolete Functions All the functions that cannot be migrated.

  • Page 145: Reengineering

    Section 10 1MRS756800 F Configuration migration Collect the order code information for the migrated configurations before starting the license update. Save and close Application Configuration tool when the configuration migration is completed. Run License Update tool from the IED context menu. Optionally, create a backup of the IED before starting the license.

  • Page 146: Iec 61850 Reengineering

    Section 10 1MRS756800 F Configuration migration the migration report, that is, the functions that have the same version in both the product versions. • Set the parameter values again for all the needed functions. All functions listed in Obsolete Functions and Hardwares. All parameters for which the migration failed.

  • Page 147: Updating Dnp3 Points In The Communication Management Tool

    Section 10 1MRS756800 F Configuration migration Other IEDs also need update of incoming GOOSE signals from the migrated IEDs in the Signal Matrix tool. 10.2.4 Updating DNP3 points in the Communication Management tool If DNP3 is used, the configured DNP3 points must be updated. All DNP3 points from the migrated functions are removed from the configuration.

  • Page 148: Changed Functions

    Section 10 1MRS756800 F Configuration migration 10.2.7 Changed functions Table 4: Functions changed in the configuration after the migration from 630 series Ver. 1.0 to 630 series Ver. 1.1 Function Implication SCILO All instances are removed from ACT. SPGGIO All instances are removed from ACT. DPGGIO All instances are removed from ACT.
  • Page 149 Section 10 1MRS756800 F Configuration migration Function Implication MPDIF IEC and ANSI symbols updated. Frequency adaptivity for the DC bias algorithm. DOPPDPR IEC and ANSI symbols updated. OLATCC New setting added: Base select phase. T2PTTR IEC and ANSI symbols updated. DARREC IEC61850 mapping added for output AR_ON.

  • Page 151: Section 11 Glossary

    Section 11 1MRS756800 F Glossary Section 11 Glossary 1. Application Configuration tool in PCM600 2. Trip status in IEC 61850 ANSI American National Standards Institute Attribute Named element of data and of a specific type Circuit breaker Configured IED description Communication Management tool in PCM600 COMTRADE Common format for transient data exchange for...
  • Page 152 Section 11 1MRS756800 F Glossary FTPS FTP Secure 1. GOOSE control block 2. Generator circuit breaker Graphical Display Editor in PCM600 GoCB GOOSE control block GOOSE Generic Object-Oriented Substation Event Human-machine interface Horizontal Peer-to-peer communication communication Hardware Input/output IED capability description International Electrotechnical Commission IEC 60870-5-103 1.
  • Page 153 Section 11 1MRS756800 F Glossary 2. Polycarbonate PCM600 Protection and Control IED Manager Power supply module Parameter Setting tool in PCM600 Remote/Local Report control block REF630 Feeder protection and control relay REG630 Generator protection and control relay REM630 Motor protection and control IED RET630 Transformer protection and control IED RS-485...
  • Page 156 — ABB Distribution Solutions Distribution Automation P.O. Box 699 FI-65101 VAASA, Finland Phone +358 10 22 11 www.abb.com/mediumvoltage www.abb.com/relion © Copyright 2019 ABB. All rights reserved.

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