ABB RELION REC615 Engineering Manual
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ABB RELION REC615 Engineering Manual

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RELION® PRODUCT FAMILY
Grid Automation
REC615 and RER615
Engineering Guide

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Summary of Contents for ABB RELION REC615

  • Page 1 — RELION® PRODUCT FAMILY Grid Automation REC615 and RER615 Engineering Guide...
  • Page 3 Document ID: 1MRS757809 Issued: 2018-08-31 Revision: C Product version: 2.0 © Copyright 2018 ABB. All rights reserved...
  • Page 4 Copyright This document and parts thereof must not be reproduced or copied without written permission from ABB, and the contents thereof must not be imparted to a third party, nor used for any unauthorized purpose. The software or hardware described in this document is furnished under a license and may be used, copied, or disclosed only in accordance with the terms of such license.
  • Page 5 In case any errors are detected, the reader is kindly requested to notify the manufacturer. Other than under explicit contractual commitments, in no event shall ABB be responsible or liable for any loss or damage resulting from the use of this manual or the application of the equipment.
  • Page 6 (EMC Directive 2014/30/EU) and concerning electrical equipment for use within specified voltage limits (Low-voltage directive 2014/35/EU). This conformity is the result of tests conducted by ABB in accordance with the product standard EN 60255-26 for the EMC directive, and with the product standards EN 60255-1 and EN 60255-27 for the low voltage directive.
  • Page 7 Safety information Dangerous voltages can occur on the connectors, even though the auxiliary voltage has been disconnected. Non-observance can result in death, personal injury or substantial property damage. Only a competent electrician is allowed to carry out the electrical installation. National and local electrical safety regulations must always be followed.

  • Page 9: Table Of Contents

    Table of contents Table of contents Section 1 Introduction...............5 This manual..................5 Intended audience................5 Product documentation...............6 Product documentation set............6 Document revision history............. 6 Related documentation..............7 Symbols and conventions..............7 Symbols..................7 Document conventions..............7 Section 2 IEC 61850 overview............9 Section 3 PCM600 tool..............13 Connectivity packages..............14 PCM600 and IED connectivity package version.......14 Section 4 615 series data model............
  • Page 10 Table of contents Configuring GOOSE inputs with the IEC 61850 Configuration tool..............34 Configuring GOOSE with IET600............. 35 Defining devices and exporting the SCD file for IET600..... 36 Creating an empty project with IET600........38 Importing the SCD file into IET600..........39 Configuring a GOOSE publisher with IET600......
  • Page 11 Table of contents Engineering verification..............78 Section 7 Engineering of event reporting with PCM600....81 Managing IEC 61850 clients with the IEC 61850 Configuration tool 81 Adding new IEC 61850 clients for the IEC 61850 Configuration tool................ 81 IEC 61850 Configuration tool user interface........85 Creating data sets with the IEC 61850 Configuration tool....87 Defining data set entries with the IEC 61850 Configuration tool.

  • Page 13: Section 1 Introduction

    Section 1 1MRS757809 C Introduction Section 1 Introduction This manual The engineering guide provides information for IEC 61850 engineering of the protection relays with PCM600 and IET600. The guide can be used as a technical reference during the engineering phase, installation and commissioning phase, and during normal service.

  • Page 14: Product Documentation

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

  • Page 15: Related Documentation

    IEC 61850 Protocol Implementation Conformance Statement 1MRS757935 (PICS) IEC 61850 Model Implementation Conformance Statement (MICS) 1MRS757934 Product series- and product-specific manuals can be downloaded from the ABB Web site http://www.abb.com/substationautomation. Symbols and conventions 1.4.1 Symbols The caution icon indicates important information or warning related to the concept discussed in the text.
  • Page 16 Section 1 1MRS757809 C 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 17: Section 2 Iec 61850 Overview

    IEC 61850 standard for communication networks and systems in substations has been out since 2005 and used successfully in ABB products. IEC 61850 standard is updated with a new version, Edition 2. Edition 2 extends to new application areas in transmission and distribution power systems and also defines a new functionality to Edition 1 functionality.
  • Page 18 Section 2 1MRS757809 C IEC 61850 overview GUID-43179FBC-BDC7-4062-95BC-81A0F886F785 V1 EN Figure 2: Structure and parts of the IEC 61850 standard The IEC 61850 standard specifies an expandable object-oriented data model and wide set of protocol services for substation automation (standard parts 7-x). The standard does not specify any protection or control functions, but specifies how the functions expose their information to a communication network.
  • Page 19 Section 2 1MRS757809 C IEC 61850 overview Data model (objects, sevices) Client server Sampled GOOSE communication values Mapping Real-time communication Ethernet link layer Ethernet physical layer with priority tagging (100 Mbit/s) GUID-A9FD9579-37AD-4B03-935E-BF39D48B7211 V1 EN Figure 3: Communication stacks and mapping used in IEC 61850 1 Abstract communication services interface (ACSI) 2 Stack interface 3 ISO/OSI stack...

  • Page 21: Section 3 Pcm600 Tool

    Section 3 1MRS757809 C PCM600 tool Section 3 PCM600 tool Protection and Control IED Manager PCM600 offers all the necessary functionality to work throughout all stages of the protection relay life cycle. • Planning • Engineering • Commissioning • Operation and disturbance handling •...

  • Page 22: Connectivity Packages

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

  • Page 23: Section 4 615 Series Data Model

    Section 4 1MRS757809 C 615 series data model Section 4 615 series data model Product series implementation The protection relays have been fully designed according to IEC 61850. This means that the functionality of the protection relay is represented in a data model in accordance with the standard and the protection relays support a wide range of the services provided by the standard.
  • Page 24 Section 4 1MRS757809 C 615 series data model • Control logical device, CTRL • Disturbance recorder logical device, DR • Protection logical device, LD0 • Generic logical device, LD0 All generic functionality, such as modelling of physical inputs and outputs as well as the alarming LED functionality, resides under logical device LD0.
  • Page 25 Section 4 1MRS757809 C 615 series data model GUID-04D0EA25-BAFD-49E1-AF8A-6C0A69F221F0 V1 EN Figure 4: Example of an IEC 61850 data model of a protection relay In the IEC 61850 standard, communication services are configured through a number of data structures including data sets, report control blocks, GOOSE control blocks and setting group control blocks.

  • Page 26: Vertical And Horizontal Communication

    IEC 61850-8-1 and IEC 61850-9-2 LE. IEC 61850 standard Edition 2 increased several identification string lengths which affect communication engineering and interoperability. The table lists identification length values to be considered especially with third party tools. ABB tools generally check the length values. Table 1:...

  • Page 27: Predefined Vertical Communication Data Sets

    Section 4 1MRS757809 C 615 series data model Table 2: Number of control block data sets and size of data sets Control Block Maximum data sets Maximum length Description GoCB 80 data attributes The protection relays allow a maximum of four GOOSE control...

  • Page 28: Predefined Horizontal Communication Data Set

    Section 4 1MRS757809 C 615 series data model IED data model. If all data does not fit into one data set, two data sets with suffixes "A" and "B" are created. The protection relays support both buffered and unbuffered event reporting. In the predefined configuration all report control blocks are configured to use buffered reporting.

  • Page 29: Vertical Communication Diagnostic Counters

    Section 4 1MRS757809 C 615 series data model It is not allowed to engineer or modify the predefined 9-2 LE data set. Together with the 9-2 LE data sets the connectivity package also creates a default sampled measurement value control block. The SVCB configuration needs to be finalized in the tool before connecting the sent 9-2 data to the receiver IEDs.
  • Page 30 Section 4 1MRS757809 C 615 series data model The disturbance recorder and load profile files in COMTRADE format are retrieved from the \COMTRADE\ and \LPD\COMTRADE\ directories by using PCM600 or any other client supporting IEC 61850 file transfer service or FTP. When setting the parameter Configuration/Communication/MMSLPRT1/Unit mode to “Primary”, the values sent over IEC 61850 are scaled according to the CT and VT settings.Restart the protection relay after changing the parameter.

  • Page 31: Section 5 Goose

    Section 5 1MRS757809 C GOOSE Section 5 GOOSE Horizontal communication GOOSE is used in substation automation for fast horizontal communication between the protection relays. GOOSE can be used for direct data exchange, for example, of interlocking and blocking information between protection relays. According to the IEC 61850-8-1 standard, GOOSE uses a publisher/subscriber profile in which information is shared from one device to one or several devices by using Ethernet multicast messages.

  • Page 32: Configuring Goose With The Iec 61850 Configuration Tool

    Section 5 1MRS757809 C GOOSE an increased frequency to ensure the timeliness of its reception. The transmission then gradually tapers off to the original frequency with the new data. In GOOSE, data sending is based on data sets and GOOSE control blocks. The data set defines what device data is used in GOOSE service and sent to local Ethernet subnetwork in a GOOSE message.

  • Page 33: Defining Ieds And Starting The Iec 61850 Configuration Tool

    Section 5 1MRS757809 C GOOSE 2.1. Define the published GOOSE data and control blocks. 2.2. Define the subscribing IEDs for the GOOSE data. Engineer the IED applications with GOOSE inputs. 5.3.1 Defining IEDs and starting the IEC 61850 Configuration tool Use PCM600 to define the substation and the IEDs.

  • Page 34: Configuring A Goose Publisher With The Iec 61850 Configuration Tool

    Section 5 1MRS757809 C GOOSE 5.3.2 Configuring a GOOSE publisher with the IEC 61850 Configuration tool To control the GOOSE data publishing, such as addressing, every publisher IED must have at least one data set for GOOSE data and one GOOSE control block. Group the data to a data set sent to IEC 61850 station bus.
  • Page 35 Section 5 1MRS757809 C GOOSE GUID-C2A0D4A0-5F0C-40E5-A84C-13AF35BA09C6 V1 EN Figure 7: Creating a new data set Define the LN where the data set is to be placed (accept preselected “LD0/ LLN0”) and give the data set a unique name. REC615 and RER615 Engineering Guide...
  • Page 36 Section 5 1MRS757809 C GOOSE GUID-1EC590D1-2587-441C-8A1F-2934C10BB823 V1 EN Figure 8: Naming the data set A maximum of 80 data attributes can be added to IED's GOOSE data sets. Recommendation is to divide attribute amount to 20 per GOOSE data set, for maximum performance in sender/receiver.
  • Page 37 Section 5 1MRS757809 C GOOSE GUID-E8418EA9-A61D-4656-A31E-2192FAF5400A V1 EN Figure 9: Opening Details In the Data Set Entry window, select the data attribute or data object present in the data set. • Click Append selected to add the data to the end of the data set. To add a data object level entry, select it from the FC section.

  • Page 38: Configuring A Goose Control Block With The Iec 61850 Configuration Tool

    Section 5 1MRS757809 C GOOSE 5.3.2.2 Configuring a GOOSE control block with the IEC 61850 Configuration tool Select the IED in the Plant Structure view. Select the GOOSE Controls tab in the tool pane. To add a new GOOSE control block, right-click the area containing the existing GOOSE control blocks and select New.
  • Page 39 Section 5 1MRS757809 C GOOSE GUID-9C901C53-92EF-46FF-A0C0-A60A2617731F V1 EN Figure 11: Naming a GOOSE control block In the Data set drop-down list, select the previously created data set to link with the GCB. GUID-DC485CA5-04BE-4047-8047-67D38F72D956 V1 EN Figure 12: Data set drop-down list REC615 and RER615 Engineering Guide...
  • Page 40 Section 5 1MRS757809 C GOOSE Data set entries in a data set linked to the GCB can be modified from the GOOSE control block tab by selecting Data Set details in the shortcut menu. Edit the properties and addresses of the created GOOSE control block. Edit at least MAC Address and APP ID.
  • Page 41 Section 5 1MRS757809 C GOOSE Table 5: GOOSE control block properties GoCB property Description GoCB name GOOSE control block name. The maximum length is 28 characters. Application (AppID) A unique GOOSE Identification string for each GoCB in the system. Recommendation is to define a device-specific value and not to use the default empty value.

  • Page 42: Configuring A Goose Subscriber With The Iec 61850 Configuration Tool

    Section 5 1MRS757809 C GOOSE 5.3.3 Configuring a GOOSE subscriber with the IEC 61850 Configuration tool The IED application can receive and use single binary, double binary, integer and floating point values with attached quality information. A quality attribute is received and processed automatically.

  • Page 43: Configuring Goose With Iet600

    Section 5 1MRS757809 C GOOSE In the Data Sets tab and the GOOSE Controls tab, the Clients column shows all the configured IEDs. For the IED without data sets and GCBs, however, there is no check box in the grid matrix since the IED publishes the GOOSE control block to the network.

  • Page 44: Defining Devices And Exporting The Scd File For Iet600

    Section 5 1MRS757809 C GOOSE PCM600 Export Import Create file IET600 devices Configure GOOSE publisher and Third party subscriber device Export file Import Export SCD file Import Third party PCM600 device Configure Configure GOOSE inputs GUID-69164641-F2BE-4FC3-BEFC-EA6F4BC9AAF1 V2 EN Figure 15: Horizontal communication configuration process 5.4.1 Defining devices and exporting the SCD file for IET600...
  • Page 45 Exporting an SCD file from PCM600 Define the export options. A dialog box with several options opens. Unlike other ABB tools such as COM600S or MicroSCADA product configuration tools, IET600 does not use the private sections. Select all the check boxes but clear Export As SCL Template.

  • Page 46: Creating An Empty Project With Iet600

    Section 5 1MRS757809 C GOOSE GUID-014EC1F7-B65A-462E-9785-448AB640CB6A V1 EN Figure 17: Export options for an SCL file Click Export. 5.4.2 Creating an empty project with IET600 Open IET600. To create an empty project, click the round button on the upper-left corner of the IET600 tool.

  • Page 47: Importing The Scd File Into Iet600

    Section 5 1MRS757809 C GOOSE After creating an empty project, import the SCD file from PCM600 to the project. 5.4.3 Importing the SCD file into IET600 Import the SCD file from PCM600 to the empty project. • Click Import SCL File on the shortcut menu of the project object •...

  • Page 48: Configuring A Goose Publisher With Iet600

    Section 5 1MRS757809 C GOOSE The third-party devices have separate tools for creating the ICD/CID/ SCD file. SCD files can be imported to a project only once. If a new device needs to be later added to the configuration, it must be first created using the Create New IED function after which the Update IED function can be used to import the related CID or ICD file.
  • Page 49 Section 5 1MRS757809 C GOOSE GUID-A25A2575-C368-4FA0-B3A3-A0119F7B4194 V1 EN Figure 20: Creating a data set in IET600 To add a new data set, right-click the area containing the data set names and select Insert new row the shortcut menu. Define the LN where the data set is to be placed (accept preselected “LD0/ LLN0”) and give the data set a unique name.
  • Page 50 Section 5 1MRS757809 C GOOSE The received GOOSE data set can contain signals on the data attribute or data object level. Data object level GOOSE entries can only be received of the following CDC types: SPS, SPC, ACD, ACT, DPS, DPC, INC, INS, ENC and ENS. Other CDC types can be connected to application only when dataset is defined in attribute level.

  • Page 51: Configuring A Goose Control Block With Iet600

    Section 5 1MRS757809 C GOOSE If a data set has quality attributes, the attributes must be located after the status value of the same data object. 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.
  • Page 52 Section 5 1MRS757809 C GOOSE GUID-CA85B312-AD8E-4BF0-9AFB-95171B1A4962 V1 EN Figure 24: Naming a GOOSE control block Browse to LLN0 under LD0 to define where the GOOSE control block is to be placed. Give a unique name to the GOOSE control block. In the Attached Dataset drop-down list, select the previously created data set.
  • Page 53 Section 5 1MRS757809 C GOOSE GUID-03B82AE4-9034-4ABE-8C70-895540390802 V1 EN Figure 26: Field Chooser dialog Table 6: Selected GOOSE control block properties GoCB property Description GOOSE control block name Application (appID) A unique GoID for each GoCB in the system. Recommendation is to define a device-specific value and not to use the default empty value.

  • Page 54: Configuring A Goose Subscriber With Iet600

    Section 5 1MRS757809 C GOOSE GoCB property Description APP-ID Unique HEX value application identifier for sending the GoCB within the system. It identifies the purpose of this particular data set. The value range is 0000...3FFF. VLAN-ID Used if the Ethernet switches in a station bus support VLAN. If static VLAN identifiers are defined, it also affects the switch port configuration.

  • Page 55: Finalizing Goose Configuration With Iet600

    Section 5 1MRS757809 C GOOSE GUID-7D77C426-F847-4C7B-A8A4-852F6C9A8284 V1 EN Figure 27: GCB client editor To add or to delete clients, double-click the cell. Upon adding or removing clients, the corresponding input sections are updated. GUID-E55A0037-FDF2-4660-BE14-908D4AD1AAEA V1 EN Figure 28: GOOSE inputs 5.4.6 Finalizing GOOSE configuration with IET600 5.4.6.1...

  • Page 56: Importing The Scl File

    Section 5 1MRS757809 C GOOSE GUID-B79CE7B6-A074-491C-B34A-BC9F404F0016 V1 EN Figure 29: Exporting an SCD file Select the file destination and click Save. It is recommended to leave the SCD file exported from PCM600 as a backup. 5.4.6.2 Importing the SCL file Open PCM600 and ensure the original project is open.
  • Page 57 Section 5 1MRS757809 C GOOSE GUID-653B6F22-8ACA-43D5-B227-2044A8BDD637 V1 EN Figure 30: Switching off the engineering mode Go to the Project Explorer view and select the Plant Structure tab. Right-click the project and select Import. GUID-18929C30-EF49-4342-9B99-A6D1DBEF7A7D V1 EN Figure 31: Importing an SCD file to PCM600 REC615 and RER615 Engineering Guide...

  • Page 58: Connecting Goose Inputs To A Relay Application

    Section 5 1MRS757809 C GOOSE Open the SCL file exported from IET600. In the SCL Import Options dialog box under IED Types, select Don't import IEDs of unknown type if the GOOSE configuration does not include third- party devices. GUID-1EDEA175-63B8-4681-A067-66A797AD204C V1 EN Figure 32: SCL import options in PCM600 Click Import.
  • Page 59 Section 5 1MRS757809 C GOOSE PHIPTOC_BLK PHIPTOC1 GOOSERCV_BIN BLOCK OPERATE PHIPTOC1_OPERATE VALID ENA_MULT START PHIPTOC1_START GUID-E9DCA896-69D8-4CAB-9E0A-766E26D4584D V1 EN Figure 33: Adding the GOOSERCV function block Create the connection into the application. 3.1. Create the connection. 3.2. Click Calculate execution order. 3.3.

  • Page 60: Received Goose Message Handling

    Section 5 1MRS757809 C GOOSE During the protection relay start-up phase, the protection relay keeps the value of the output VALID as “1” until the communication is activated. After the communication is activated, the value of the output VALID is updated by the value received via the communication.

  • Page 61: Goose Supervision

    Section 5 1MRS757809 C GOOSE The GOOSE frame is also not accepted if ConfRev deviates from the one in the configuration. These error situations can be observed in the GSELPRT1 diagnostic counters. The default GOOSE input value is “0” for all the data types. The functionality is analogous to physically wired galvanic Normally Open (NO) contacts where the disconnected signal gives value “0”...

  • Page 62: Alarm Supervision In Application

    Section 5 1MRS757809 C GOOSE The default value of the GOOSE receiver blocks output (OUT) is FALSE (0) in case there is a communication error. This handling is applicable for all signal types (binary, integer, enum and floating point). In addition to the default value handling, value output signal automatically carries validity information to the application function blocks.
  • Page 63 Section 5 1MRS757809 C GOOSE It is possible to reset the GOOSE communication diagnostics counters via Monitoring/I/O Status/Communication/GSELPRT1/Monitoring/Reset counters and via the IEC 61850 communication by writing TRUE to the RsCnt.Oper.ctlVal attribute under GSELPRT1. Table 7: Diagnostics data objects Data object Description Diagnostics information FrRxCnt...
  • Page 64 Section 5 1MRS757809 C GOOSE GOOSE Message Received Wait for GOOSE Message No Frames Received During 2xTAL FALSE FALSE TRUE Amount of data GOOSE Multicast MAC entries same as in Address and APPID Match? previous msg? GOOSE Receiver Timeout TRUE Dataset Error Reset Receiver Counter +1...

  • Page 65: Forcing Of Goose Signals

    Section 5 1MRS757809 C GOOSE Target data value is Proceed to next data entry updated. Status or measurand value has been received. FALSE Value is followed by quality attribute? TRUE FALSE FALSE TRUE IEC 61850 Edition 2? Receiver in test mode? Test bit enabled? TRUE FALSE...

  • Page 66: Testing Of Many Devices In A System

    Section 5 1MRS757809 C GOOSE Force value GOOSERCV_BIN Device under test GUID-DCF6F60C-42CC-42A1-AFEE-511CF4C61E73 V1 EN Figure 37: Testing of one device The device must be in test mode. 5.8.2 Testing of many devices in a system Any status data can be sent through GOOSE communication. Horizontal communication can be tested by forcing the outputs of the sender device and observing the results in the receiving device.
  • Page 67 Section 5 1MRS757809 C GOOSE Tests Function tests Current protection PHPTUC1 [3I<(1),37(1)] Reset Activate START Deactive START Activate OPERATE Deactive OPERATE Protection function GOOSERCV_BIN System under test GUID-237BC2F7-FB5A-4306-9B49-6EDD6679DD30 V1 EN Figure 38: Testing of many devices Both devices must be in test mode. REC615 and RER615 Engineering Guide...

  • Page 69: Section 6 Process Bus And Ieee 1588 Time Synchronization

    Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization Section 6 Process bus and IEEE 1588 time synchronization Sampled measured values and IEEE 1588 v2 time synchronization The IED supports IEC 61850 process bus with sampled values of analog neutral and phase voltages.
  • Page 70 Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization Each connected node in the HSR ring must support HSR protocol to ensure smooth redundancy. Otherwise Ethernet communication is disturbed and might not work. Single attached nodes can be connected to a HSR ring with a separate redundancy box (RedBox).

  • Page 71: Parallel Redundancy Protocol Prp

    Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization 6.2.2 Parallel redundancy protocol PRP PRP topology presented here is a reference system for process bus usage with proper switches supporting IEEE 1588 v2. This topology includes duplicated star networks which are in PRP called LAN A and LAN B.

  • Page 72: Performance Optimization

    Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization Secondary Primary IEEE 1588 v2 IEEE 1588 v2 master clock master clock (optional) IEC 61850 Managed Managed Ethernet switch Ethernet switch Backup IEEE 1588 v2 master clock GUID-424C4FFA-A4A6-463D-BFFE-3117E5AE55C8 V3 EN Figure 40: Recommended PRP reference topology with SMV and IEEE 1588 v2 6.2.3...

  • Page 73: Smv System Configuration

    Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization • Support for the IEEE 1588 v2 time synchronization • Preferably IEEE 1588 v2 according to the Power Profile and implementation according to the one-step mode • All network devices between the IEEE 1588 v2 clock master and the IED must support IEEE 1588 v2 Ethernet switch requirements •...

  • Page 74: Configuring Smv With The Iec 61850 Configuration Tool

    Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization Some network routers can block 1588 traffic. Check that all devices using 1588 time synchronization utilize the same master clock. SMV data set and SVCB should not be manually added or removed with other tools. 6.3.1 Configuring SMV with the IEC 61850 Configuration tool The connection between SMV sender and receiver is handled using the IEC 61850...

  • Page 75: Configuring Smv With Iet600

    Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization 6.3.2 Configuring SMV with IET600 After the common configuration items have been completed, the SCD file has been exported from PCM600 and the SCD file has been imported to IET600, the SMV sender and receiver connections can be handled using the IET600 tool Ver.5.3.21 or later.
  • Page 76 Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization GUID-5D55765D-E23A-4376-869E-331F4293422B V1 EN Figure 43: Editing the IED capabilities Edit the properties and addresses of the sampled value control block. GUID-F5503ED3-E477-43A5-96D5-5DE1FAE6415E V1 EN Figure 44: Sampled value control block Some switches do not support multicast filtering with VLAN value “0”...

  • Page 77: Bay Level Configuration

    Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization GUID-4B27A48C-345A-44A8-A6FB-2FF498AB7307 V1 EN Figure 45: Connecting the SMV sender and receivers in IET600 Save and export the SCD file and import it to PCM600. In PCM600, select Write to IED. If the configuration is updated in a manner that affects the Conf.Rev value of SVCB, configurations of both SMV sender and all receivers must be rewritten from PCM600.
  • Page 78 Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization SMVRCV ULTVTR1 ALARM ULTVTR1_ALARM WARNING ULTVTR1_WARNING MINCB_OPEN O:146|T:2,5|I:1 O:147|T:2,5|I:1 RESTVTR1 ALARM RESTVTR1_ALARM WARNING RESTVTR1_WARNING O:148|T:2,5|I:1 GUID-B526E64B-2782-48C5-98EA-5F00375D01D9 V1 EN Figure 46: Receiving all phase voltages and residual voltage using SMV Synchrocheck function requires and uses only single analog phase voltage (UL1) connected to ULTVTR2.
  • Page 79 Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization Voltage protection blocked in case SMV voltages unavailable/unreliable Directional protection changed to non-directional scheme in case: - SMV voltages unavailable/unreliable. OR - SMV angle information inaccurate GUID-2E245F6E-18DB-4F43-9615-82C368DC97DD V3 EN Figure 48: Application Configuration tool logic example for the SMV applications The receiver activates the TxTR WARNING and ALARM outputs if any of the quality...

  • Page 80: Smv Control Block

    Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization 6.4.2 SMV control block Table 8: Sampled value control block attributes SVCB attribute Description SvID A sampled value control block specific string. The default value is <IedName>MU01. Multicast address A multicast addressing scheme is used when sending sampled values messages.

  • Page 81: Angle And Amplitude Corrections

    Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization SVCB attribute Description NoAsdu Number of ASDUs, which are concatenated into one APDU. IncludeRefreshTime If selected SV buffer contains the attribute “RefrTm”. IncludeSampleRate If selected SV buffer contains the attribute “SmpRate”.

  • Page 82: Ieee 1588 V2 Parameters And Status Information

    Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization Number of Internal Internal Store and Queue Additional Theoretical Recommen hops in application switch forward latency tolerance max delay ded max network delay (µs) delay (µs) latency (µs) (µs) delay (µs) (µs)
  • Page 83 Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization Best master clock algorithm The best master clock algorithm compares data describing two clocks to determine which data describes the better clock. This algorithm is used to determine which of the described clocks in several announce messages received by the local clock port is the best clock.
  • Page 84 Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization Table 13: Synch accuracy values and corresponding accuracies Bits Accuracy 0.5 µs 1 µs 2 µs 4 µs 8 µs 0.5 ms 1 ms 2 ms 4 ms 8 ms 0.5 s The time synchronization accuracy is rounded to the next worse accuracy, for example, if the accuracy is 2..3 ms, it is shown as 8 bits...

  • Page 85: Power Profile Parameters

    Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization Grandmaster time src indicates the source of time used by the grandmaster clock. Grandmaster accuracy indicates the accuracy of the grandmaster clock. SMV accuracy monitoring values The SMV accuracy monitoring values are found via menu path Monitoring/IED status/SMV accuracy.

  • Page 86: Quality Bits In Smv Frames

    Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization 6.4.7 Quality bits in SMV frames Table 17: Explanation of quality bits Quality bit Description smpSynch Synchronization accuracy for all channels in the SMV frame. 0: less than 4 µs synchronization accuracy 1: within 4 µs synchronization accuracy test bit The sender IED is in test mode.
  • Page 87 Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization • Monitoring/I/O status/Analog inputs • Monitoring/IED status/SMV traffic • Monitoring/IED status/SMV accuracy Table 19: SMV receiver Item Description Checked WARNING (Monitoring/I/O status/Analog inputs/ WARNING Voltage(3U,VT)) works as specified in the Application Configuration tool.
  • Page 88 Section 6 1MRS757809 C Process bus and IEEE 1588 time synchronization Table 21: Network Item Description Checked Max HSR loop size Maximum supported HSR loop size is 30. Consider applying different topology in case a larger system is needed. Interlink port IEEE 1588 v2 slave devices are not allowed in the interlink port.

  • Page 89: Section 7 Engineering Of Event Reporting With Pcm600

    Section 7 1MRS757809 C Engineering of event reporting with PCM600 Section 7 Engineering of event reporting with PCM600 Managing IEC 61850 clients with the IEC 61850 Configuration tool The default IED SCL contains five default client definitions, “Client1”...”Client5”, which are used by all the RCBs. PCM600 does not show these clients in the plant structure, but the IEC 61850 Configuration tool shows the clients in the client-server communication.
  • Page 90 Section 7 1MRS757809 C Engineering of event reporting with PCM600 GUID-1191B786-944A-42A2-9C16-A6DA83DC8EED V1 EN Figure 49: Creating a generic IEC 61850 IED Rename the IED object as “Client_G”. Right-click the IED and then select Import. REC615 and RER615 Engineering Guide...
  • Page 91 Section 7 1MRS757809 C Engineering of event reporting with PCM600 GUID-81C82DBA-330B-4000-A206-0C4FFBDB333F V1 EN Figure 50: Selecting Import on the shortcut menu Select a valid Client SCL file (ICD or CID) and click Open in the file selection dialog box. Select Ignore PCM Object Type and then click Import in the SCL Import Options dialog box.
  • Page 92 Section 7 1MRS757809 C Engineering of event reporting with PCM600 GUID-D6C8D4FB-0E38-499D-95D8-2D21099F974F V1 EN Figure 51: Defining SCL import options Start the IEC61850 Configuration tool and select Client-Server communication as engineering mode. The newly added client should be present in the Clients column along with other clients in both the Data Set tab and the Report Controls tab.

  • Page 93: Iec 61850 Configuration Tool User Interface

    Section 7 1MRS757809 C Engineering of event reporting with PCM600 IEC 61850 Configuration tool user interface GUID-611AEE28-1D17-4400-80BD-8E5054C35752 V1 EN Figure 52: IEC 61850 Configuration tool user interface Engineering mode selection Switch engineering mode on and off Switch IEC 61850 IED naming on and off Create new object Selection details Receiving access points...
  • Page 94 Section 7 1MRS757809 C Engineering of event reporting with PCM600 GUID-3D82B39F-D86C-4E99-9AB7-DC3105E6DFE6 V1 EN Figure 53: Engineering mode selection button When the engineering mode is enabled, SCD files from external IEC 61850 engineering tools cannot be imported into PCM600. Switching IEC 61850 IED naming on and off The button switches between IEC 61850 and PCM600 IED naming.

  • Page 95: Creating Data Sets With The Iec 61850 Configuration Tool

    Section 7 1MRS757809 C Engineering of event reporting with PCM600 Creating data sets with the IEC 61850 Configuration tool Select Plant Structure in the Project Explorer window. Right-click the IED node. Select Client-Server Communication in the drop-down box on the toolbar. GUID-FF5A846C-7D78-4D14-940D-39D1EFF4B724 V1 EN Figure 54: Selecting Client-Server Communication...

  • Page 96: Defining Data Set Entries With The Iec 61850 Configuration Tool

    Section 7 1MRS757809 C Engineering of event reporting with PCM600 GUID-A87A216E-73AA-4872-8E4D-CA5A8180C92E V1 EN Figure 56: Naming the data set After creating the GOOSE data sets, define the data set entries (data attributes or data objects) for the data sets. 7.3.1 Defining data set entries with the IEC 61850 Configuration tool Select the Data Sets tab.
  • Page 97 Section 7 1MRS757809 C Engineering of event reporting with PCM600 GUID-BAFE3D00-238E-4187-8B89-3CBF9F1A91D4 V1 EN Figure 57: Adding data attributes In the data set entry window, select the data attribute to be contained in the data set. • Click Append selected to add the data attribute to the end of the data set. •...

  • Page 98: Creating Report Control Blocks With The Iec 61850 Configuration Tool

    Section 7 1MRS757809 C Engineering of event reporting with PCM600 Creating report control blocks with the IEC 61850 Configuration tool Select the IED node in Plant Structure in Project Explorer. Click the Report Controls tab. Right-click the area containing the existing report control blocks and select New to add a new report control block.
  • Page 99 Section 7 1MRS757809 C Engineering of event reporting with PCM600 GUID-1A63962B-21A7-48DE-9A09-4BE1F7C25813 V1 EN Figure 59: Data set drop-down list Edit the properties and options of the created report control block. REC615 and RER615 Engineering Guide...
  • Page 100 Section 7 1MRS757809 C Engineering of event reporting with PCM600 GUID-116AC0C2-FAF8-4569-B34F-4F03863156BD V1 EN Figure 60: Report control block properties Data set entries in a data set linked to the GCB can be modified from the GCB Control Block tab by selecting the Data Set Details in the shortcut menu.

  • Page 101: Configuring Rcb Clients With The Iec 61850 Configuration Tool

    Section 7 1MRS757809 C Engineering of event reporting with PCM600 Configuring RCB clients with the IEC 61850 Configuration tool Add and configure the IEDs before configuring the RCB client. The potential clients and their communication configuration should be known for a successful RCB client configuration.

  • Page 102: Substation Section Configuration In The Iec 61850 Configuration Tool

    Section 7 1MRS757809 C Engineering of event reporting with PCM600 GUID-354976C3-2B17-4C71-B271-FDBDDABB61F4 V1 EN Figure 61: RCB clients 1 RCBs configured for the IED 2 RCB clients The clients are added or removed automatically to the corresponding data sets in the Data Sets tab. Date sets are based on the configuration done in the Reports Controls tab and vice-versa.
  • Page 103 Section 7 1MRS757809 C Engineering of event reporting with PCM600 the IEDs are mapped to proper objects, for example, to support the automatic bay configuration via SCL files in the SCADA system. At the moment, the IEC 61850 Configuration tool does not support engineering of the substation section.

  • Page 105: Section 8 Engineering Of Event Reporting With Iet600

    Section 8 1MRS757809 C Engineering of event reporting with IET600 Section 8 Engineering of event reporting with IET600 Managing IEC 61850 clients with IET600 When the relay configurations are changed using IET600, some preparations are required when a project is started and the protection relay's data model is imported to the tool for the first time.
  • Page 106 Section 8 1MRS757809 C Engineering of event reporting with IET600 GUID-083FEE42-5F0A-4923-9B7B-BF1BBC942DF8 V1 EN Figure 62: Creating a new IED Type the name of the client IED as it is in the file to be imported. Click OK. GUID-52A26016-FC38-4667-B166-611041FBD3BE V1 EN Figure 63: Naming the new IED Right-click the created IED and click Update IED.
  • Page 107 Section 8 1MRS757809 C Engineering of event reporting with IET600 GUID-25139ACD-D2B3-4DBC-AA7D-283E7CCA4AF5 V1 EN Figure 64: Choosing an SCD file for updating the IED Select any valid SCL file that is SCD, ICD, CID or IID, and click Open from the file selection dialog box.

  • Page 108: Attaching Iec 61850 Clients To A Bus With Iet600

    Section 8 1MRS757809 C Engineering of event reporting with IET600 8.1.2 Attaching IEC 61850 clients to a bus with IET600 Click the Communication tab in the navigation pane. Click the Subnetworks tab in the editor pane. In the Subnetworks grid, select the bus from the Subnetwork list to attach the IEC 61850 client to the bus.
  • Page 109 Section 8 1MRS757809 C Engineering of event reporting with IET600 GUID-BF4EEBB5-E579-4097-9EAB-8D1652C838A4 V1 EN Figure 67: 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 110: Setting Visibility Of Columns In Grid Editors

    Section 8 1MRS757809 C Engineering of event reporting with IET600 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. 8.2.1 Setting visibility of columns in grid editors Most editors are implemented as tables.
  • Page 111 Section 8 1MRS757809 C Engineering of event reporting with IET600 GUID-E36C02C9-E01B-4575-98AB-ED7B180DE17D V1 EN Figure 69: SLD Editor SLD in the protection relay is configured using the Graphical Display Editor of PCM600, not in IET600 In addition to the substation topology configuration, logical nodes of IEDs need to be mapped to proper objects, for example, to support the automatic bay configuration via SCL files in the SCADA system.

  • Page 112: Creating Data Sets With Iet600

    Section 8 1MRS757809 C Engineering of event reporting with IET600 GUID-6C0A7FE7-3C60-49AF-91D5-4BB69F6D707D V1 EN Figure 70: LN Mapping Editor Creating data sets with IET600 Data sets are created or modified using the Dataset editor, which consists of three parts. • Grid for existing data sets (data set creating, deleting and renaming) •...
  • Page 113 Section 8 1MRS757809 C Engineering of event reporting with IET600 GUID-410C53C5-F990-4944-927D-3857E19B3AA9 V1 EN Figure 71: 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 114: Creating Report Control Blocks With Iet600

    Section 8 1MRS757809 C Engineering of event reporting with IET600 Select a proper FC (functional constraint) value for the data attributes to be added to a data set. If none is selected, that is “(all)” is shown on the list, it is not possible to add attributes to the data set. 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.

  • Page 115: Rcb Client Configuration With Iet600

    Section 8 1MRS757809 C Engineering of event reporting with IET600 Conf.Rev cannot be manually edited. IET600 updates it automatically to the next multiple of 100 when the configuration changes. Deleting an RCB does not totally remove it from IET600. Instead, its status is set to “Deleted”...

  • Page 116: Configuring Rcb Clients Semi-Automatically

    Section 8 1MRS757809 C Engineering of event reporting with IET600 GUID-3CCC1EE1-6916-4A9A-9EA2-959D23282E1C V1 EN Figure 73: RCB client editor Different keys can be used when editing the cells. • PLUS SIGN (+), asterisk (*) or X to add an additional client to the existing ones •...
  • Page 117 Section 8 1MRS757809 C Engineering of event reporting with IET600 GUID-EB4EE24C-111F-45E7-BFC4-FF6A1DB93F3F V1 EN Figure 74: 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 119: Section 9 Glossary

    Section 9 1MRS757809 C Glossary Section 9 Glossary ACSI Abstract communication service interface APDU Application protocol data unit APPID Application identifier Configured IED description COM600S Substation Management Unit. An all-in-one communication gateway, automation platform and user interface solution for utility and industrial distribution substations.
  • Page 120 Section 9 1MRS757809 C Glossary High-availability seamless redundancy IED capability description International Electrotechnical Commission IEC 61850 International standard for substation communication and modeling IEC 61850-8-1 A communication protocol based on the IEC 61850 standard series IEC 61850-9-2 A communication protocol based on the IEC 61850 standard series IEC 61850-9-2 LE Lite Edition of IEC 61850-9-2 offering process bus...
  • Page 121 Section 9 1MRS757809 C Glossary Substation configuration description XML-based substation description configuration language defined by IEC 61850 Sampled measured values Connector type for glass fiber cable SVCB Sampled value control block Time allowed to live TCP/IP Transmission Control Protocol/Internet Protocol VLAN Virtual LAN Voltage transformer...
  • Page 124 — ABB Distribution Solutions Distribution Automation P.O. Box 699 FI-65101 VAASA, Finland Phone +358 10 22 11 www.abb.com/mediumvoltage www.abb.com/substationautomation © Copyright 2018 ABB. All rights reserved.

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