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Copyright This document and parts thereof must not be reproduced or copied without written permission from ABB, and the contents thereof must not be imparted to a third party, nor used for any unauthorized purpose. The software and hardware described in this document is furnished under a license and may be used or disclosed only in accordance with the terms of such license.
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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.
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(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.
Table of contents Table of contents Section 1 Introduction...............3 Introduction to the engineering manual..........3 About the complete set of manuals for an IED......3 About the engineering manual............4 Intended audience.................4 Related documents................5 Revision notes................6 Section 2 Engineering tool set............9 Introduction..................9 IED engineering process..............10 Section 3 Engineering process............13 Workflow...................13 Section 4 Setting up a project............17...
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Table of contents LED operation modes..............58 Single-line diagram engineering............61 Concept description to present and generate diagrams in graphical display editor..............61 Bay configuration engineering.............65 Section 7 IEC 61850 communication engineering......69 IEC 61850 interface in the IED and tools.........69 Function view for IEC 61850 in PCM600........69 IEC 61850 interface in IED............69 GOOSE data exchange............70 Station configuration description file types........71...
Section 1 1MRK511240-UEN B Introduction Section 1 Introduction Introduction to the engineering manual 1.1.1 About the complete set of manuals for an IED The user’s manual (UM) is a complete set of five different manuals: Engineeringmanual Installation and Commissioning manual Operator’s manual Application manual Technical reference...
Section 1 1MRK511240-UEN B Introduction a reference during periodic testing. The manual covers procedures for mechanical and electrical installation, energizing and checking of external circuitry, setting and configuration as well as verifying settings and performing directional tests. The chapters are organized in the chronological order (indicated by chapter/section numbers) in which the protection IED should be installed and commissioned.
Section 1 1MRK511240-UEN B Introduction Requirement The system engineer must have a thorough knowledge of protection and/or control systems, protection and/or control equipment, protection and/or control functions and the configured functional logics in the IEDs. The installation and commissioning personnel must have a basic knowledge of handling electronic equipment.
IEC 61850 Data objects list for 670 series 1MRK 500 091-WEN Engineering manual 670 series 1MRK 511 240-UEN Buyer’s guide REG 216 1MRB520004-BEN Communication set-up for Relion 670 series 1MRK 505 260-UEN More information can be found on www.abb.com/substationautomation. 1.1.5 Revision notes 670 series...
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Section 1 1MRK511240-UEN B Introduction Revision Description First issue for 670 series version 1.2. Maintenance updates, PR corrections Maintenance updates, PR corrections 670 series Engineering Manual...
Section 2 1MRK511240-UEN B Engineering tool set Section 2 Engineering tool set Introduction The structure of a monitoring and control system for electrical substations has a principle structure as shown in Figure 1. It contains a number of IEDs for the various purposes.
Section 2 1MRK511240-UEN B Engineering tool set PCM600 communicates with the bay IEDs via an Ethernet connection. The connection allows to reading and writing all configuration data needed for proper operation from or to the IED. The IEDs have communication interfaces for protocols and media used for station communication.
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Section 2 1MRK511240-UEN B Engineering tool set • Organizing the bay IEDs in the structure of the substation by defining voltage levels and bays below the substation. A PCM600 project can have only one substation. • Configuring the IED functions (for example protection and control functions and LHMI functions) by using the Application Configuration tool.
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Section 2 1MRK511240-UEN B Engineering tool set IED Engineering Management Project Communication Management Operator Disturbance Record Management Service Management PCM600 IEC08000100.vsd IEC08000100 V1 EN Figure 2: Organization of PCM600 in different management tasks Additional functionality to manage the project and to organize the user rights: •...
Section 3 1MRK511240-UEN B Engineering process Section 3 Engineering process Workflow Start Create plant structure Project Optional, can be used to add additional hardware modules Save the work ACT/ Configure IED functionality between the different steps Parametrization Create Single line diagram for local HMI IEC61850 Supported...
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Section 3 1MRK511240-UEN B Engineering process The described sequence in Figure 3 is a proposal based on practical experience and dependencies of the steps. It is possible to do a different sequence based on the available information at the time the project is started. This means that several iterations may be needed to finish the project.
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Section 3 1MRK511240-UEN B Engineering process • The engineering steps are protocol dependent. • Use the communication management tool (CMT) for DNP3 engineering. • Use the IET600 station configuration tool for IEC 61850 engineering. See the application manual for other protocols (LON, SPA, IEC103). The IED restarts automatically when writing an IED configuration where changes have been made to, for example, configuration parameters.
Section 4 1MRK511240-UEN B Setting up a project Section 4 Setting up a project PCM600 operates on 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.
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The Connectivity package manager shows the IEDs that are compatible with the installed PCM600 version. Activate the ABB IED Connectivity Package RE_670 Ver. n to use 670 series products. (n = version number) Always use the latest version of a connectivity package, see Figure 5.
Section 4 1MRK511240-UEN B Setting up a project IEC09000393-2-en.vsd IEC09000393 V2 EN Figure 5: Connectivity package manager window PCM600 recognizes the installed Connectivity Package(s) during startup and corresponding IED types are available in PCM600 when starting a new project. Setting up communication between PCM600 and the IED The communication between the IED and PCM600 is independent of the communication protocol used within the substation or to the NCC.
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Section 4 1MRK511240-UEN B Setting up a project Setting up IP addresses The IP address and the corresponding mask must be set via the LHMI for each available Ethernet interface in the IED. Each Ethernet interface has a default factory IP address when the IED is delivered. This is not given when an additional Ethernet interface is installed or an interface is replaced.
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Section 4 1MRK511240-UEN B Setting up a project signals from the IED are received on the Tx pin on the PC. Thus, a straight (standard) Ethernet cable can be used. Select Network Connections in the PC. IEC09000355-1-en.vsd IEC09000355 V1 EN Figure 7: Select: Network connections Select Properties in the status window.
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Section 4 1MRK511240-UEN B Setting up a project IEC09000357-1-en.vsd IEC09000357 V1 EN Figure 9: Select the TCP/IP protocol and open Properties Select Use the following IP address and define IP address and Subnet mask if the front port is used and if the IP address is not set to be obtained automatically by the IED, see Figure 10.
Section 4 1MRK511240-UEN B 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 IED must belong to the same subnetwork for this set- up to work.
Section 4 1MRK511240-UEN B Setting up a project en05000609.vsd IEC05000609 V1 EN Figure 11: PCM600: Create a new project window Name the project and include a description (optional) and click Create. PCM600 sets up a new project that will be listed under Projects on my computer.
Section 4 1MRK511240-UEN B Setting up a project IEC09000710-1-en.vsd IEC09000710 V1 EN Figure 12: 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.
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Section 4 1MRK511240-UEN B Setting up a project 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. The technical key is used within SCL for referencing other objects.
Section 4 1MRK511240-UEN B Setting up a project IEC08000374.vsd IEC08000374 V1 EN Figure 13: PCM600: IEC 61850 signal designation concept Inserting an IED The context menu or the Object Types view shows the available 670 series IEDs possible to insert, on the bay level in the plant structure, according to the installed connectivity package.
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Section 4 1MRK511240-UEN B Setting up a project with the IED. The offline configuration in PCM600 can be synchronized with the physical IED at a later state by connecting the IED to PCM600. It is possible to judge whether the inserted IED is in offline mode or online mode from the plant structure.
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Section 4 1MRK511240-UEN B Setting up a project IEC09000711-1-en.vsd IEC09000711 V1 EN Figure 15: PCM600: Communication mode selection wizard Select the IED Communication protocol, see Figure IEC09000712-1-en.vsd IEC09000712 V1 EN Figure 16: PCM600: Communication protocol selection wizard Select the port and insert the IP address of the physical IED to configure, see Figure 670 series Engineering Manual...
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Section 4 1MRK511240-UEN B Setting up a project IEC09000713-1-en.vsd IEC09000713 V1 EN Figure 17: PCM600: Communication port and IP address Cross check that the IED, whose IP address has been inserted, has been detected online by PCM600, see Figure The user can not scan data from the IED or proceed further if the IED is not online or if the IP address is not correct.
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Section 4 1MRK511240-UEN B Setting up a project IEC09000714 V2 EN Figure 18: PCM600: IED Version detection Click next to open the Housing Selection Page and select the housing and display type of the IED, see Figure 19 670 series Engineering Manual...
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Section 4 1MRK511240-UEN B Setting up a project IEC09000742-1-en.vsd IEC09000742 V1 EN Figure 19: PCM600: IED housing and display type detection The Setup Complete Page dialog shows the summary of the IED Type, IED Version, IP Address of IED and Order Number, Figure 20.
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Section 4 1MRK511240-UEN B Setting up a project IEC09000715 V2 EN Figure 20: PCM600: IED Setup completion wizard Note that it is not possible to go back and do any modification if an error is found in the setup complete page. If an error is detected, the user has to cancel the insertion and insert the IED again.
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Section 4 1MRK511240-UEN B Setting up a project in offline mode is almost similar to that of an online mode; however with offline mode it is not necessary to type the correct IP address in the Communication port and IP address dialog. The version information needs to be selected from the drop down menu as shown Figure 21 IEC09000741 V2 EN...
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Section 4 1MRK511240-UEN B Setting up a project IEC09000716-1-en.vsd IEC09000716 V1 EN Figure 22: PCM600: IED Order code selection Inserting an IED from the template library An IED in the plant structure can be exported as a template (*.pcmt). The user can build up a template library with all the exported IED templates.
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Section 4 1MRK511240-UEN B Setting up a project IEC09000717-1-en.vsd IEC09000717 V1 EN Figure 23: PCM600: Selecting IED from template library Select the IED from the list of available IEDs. Click the icon in the right column of the list of available templates to open the Template Properties.
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Section 4 1MRK511240-UEN B Setting up a project IEC09000718-1-en.vsd IEC09000718 V1 EN Figure 24: PCM600: IED Template Properties Click Delete Template to delete the template, click Import Template to import a template from the selection window or click Create to insert the selected IED to the bay, see Figure It is possible to insert more than one IED from the Create New...
Section 4 1MRK511240-UEN B Setting up a project Procedure to insert a pre-configuration Right-click the bay and select Import ... to select the IED template file (*.pcmi) , see Figure IEC09000644-1-en.vsd IEC09000644 V1 EN Figure 25: Import an IED from the context menu Import the *.pcmi file from the bay level in the plant structure.
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Section 4 1MRK511240-UEN B Setting up a project IEC09000719-1-en.vsd IEC09000719 V1 EN Figure 26: Alternative 1: IP address via first Wizard window • Via the IP address of the IED in the Object Properties window, see Figure IEC08000121.vsd IEC08000121 V1 EN Figure 27: Alternative 2: IP address via IED Object Properties window Procedure...
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Section 4 1MRK511240-UEN B Setting up a project The used alternative depends on the time at which the IP address is available. To enter the IP address via the IED object properties window allows to changing the IP address at any time. 670 series Engineering Manual...
Section 5 1MRK511240-UEN B Protection and control engineering Section 5 Protection and control engineering Creating an application configuration with ACT 5.1.1 Overview ACT is used to create the application configuration for an IED. The application configuration is built up with function blocks. Function blocks are dedicated for different functionality, for example: •...
Section 5 1MRK511240-UEN B Protection and control engineering • Insert function blocks, make connections and create variables. • Include the hardware IO channels directly in the application configuration. • Set function blocks and signal visibility to SMT. SMT is not supporting signals of integer type or group signals.
Section 5 1MRK511240-UEN B Protection and control engineering Mandatory signals must be connected. IEC08000258.vsd IEC08000258 V1 EN Figure 28: 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...
Section 5 1MRK511240-UEN B Protection and control engineering A function block can contain more signals than needed in that application part. Hide unused signals to get a clear picture. Signals are located on both sides of the middle position up and down. When there is space left, move some signals up or down for a better visibility and connection routing.
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670 series product only one, two or all three possibilities may be available. The combination Execution Order, Instance Number is predefined by ABB. Mainly for basic logic function blocks like for example AND, OR, a set of combinations spread over the full range of execution orders is available.
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Section 5 1MRK511240-UEN B Protection and control engineering IEC09000737 V1 EN Figure 30: ACT: Possible MainApplication cycle times For the same time point, faster cycle times are executed first. A function block that is placed after a function block in the execution flow must have the same or a higher cycle time and/or execution order.
Section 5 1MRK511240-UEN B Protection and control engineering Execution Flow Execution order Execution order Execution order group 1 group 2 group 3 IEC08000271.vsd IEC08000271 V1 EN Figure 32: ACT: Concept of Execution order sequence In the conceptual MainApplication example in Figure 32, the execution order of the main function block in the execution order group 2 defines the execution orders...
Section 5 1MRK511240-UEN B Protection and control engineering IEC08000304.vsd IEC08000304 V1 EN Figure 33: ACT: Warning message by signal mismatch for a connection 5.1.7 Hardware channels Hardware channels can only be connected to a function block input or output. A hardware connection can be established in ACT or SMT.
Section 5 1MRK511240-UEN B Protection and control engineering IEC09000723-1-en.vsd IEC09000723 V1 EN Figure 34: ACT: HW signal channels 5.1.8 Validation Validation checks the application configuration on errors about the rules and restrictions defined for doing a MainApplication on three levels. •...
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Section 5 1MRK511240-UEN B Protection and control engineering Validation on demand To check the validity of an application configuration, click the 'Validate Configuration' icon in the toolbar. ACT will check the application configuration for formal correctness. Found problems are qualified in: •...
Section 5 1MRK511240-UEN B Protection and control engineering IEC09000614-1-en.vsd IEC09000614 V1 EN Figure 35: ACT: Validation on demand Validation when writing to the IED When writing the application configuration to the IED an automatic validation is performed. The validation is the same as the manually demanded validation. Errors will abort the writing.
Section 5 1MRK511240-UEN B Protection and control engineering A common write from PCM600 to the IED, where parameters are changed in PST, will overwrite any parameter changes made locally from LHMI. It is possible to export parameters from PST in XRIO format. All variables listed and shown in the parameter list can be sorted into two groups: •...
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Section 5 1MRK511240-UEN B Protection and control engineering Binary Input IOM BI LEDs LEDs Binary Output IOM BO Analog SMAI Input GOOSE IEC 61850 Goose_Bin GOOSE Inputs Intl_AP Input blocks Hardware Signal Matrix IO interfaces (X-direction) (Y-direction) IEC09000709.vsd IEC09000709 V1 EN Figure 36: SMT: Operation principles A binary input channel can be connected to one or several function block inputs,...
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Section 5 1MRK511240-UEN B Protection and control engineering It is possible to group and collapse hardware channels in SMT to get a better overview. IEC09000721-1-en.vsd IEC09000721 V1 EN Figure 37: SMT Connection between binary input channels to binary input signals Depending on the IED capability, SMT has a separate sheet for each possible combination.
Section 6 1MRK511240-UEN B Local HMI engineering Section 6 Local HMI engineering LED engineering 6.1.1 Local HMI engineering process The engineering process of the LEDLHMI involves several steps. Figure 38 presents the pre-engineering step, the main steps in the engineering process and the required sequences.
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Section 6 1MRK511240-UEN B Local HMI engineering • insert and connect the HMI_LED function block in the configuration • make the connections for the indication LEDs in SMT (on the binary outputs tab) • The function blocks for LHMI are visible by default for PST and SMT. •...
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Section 6 1MRK511240-UEN B Local HMI engineering IEC09000656-1-en.vsd IEC09000656 V1 EN Figure 39: LHMI: Function key operation mode The LEDs have a number of different operation modes, see Figure • Follow-S • The LED illumination follows the status of the signal. The LED illuminates steady (S).
Section 6 1MRK511240-UEN B Local HMI engineering IEC09000743 V2 EN Figure 40: LHMI: LED operation mode 6.1.2 LED operation modes Description of different operation modes for LEDs to be configured in ACT and PST. Six operation modes are listed in the drop down menu in PST. •...
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Section 6 1MRK511240-UEN B Local HMI engineering LED operation mode Follow-F This is the same mode as Follow-S but the LED illuminates flashing, see Figure This mode may be used to indicate that a tap changer or Petersen coil is moving. LED operation mode LatchedAck-F-S This sequence has a latched function and works in collecting mode.
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Section 6 1MRK511240-UEN B Local HMI engineering If the signal is still ON when a reset LED is done, the LED will illuminated again. This occurs when the application configuration accesses the signal again in the next cycle after reset. The thin dashed lines in Figure 43 shows the internal state of the LED following the signal and reset, when no higher prior signal is given.
Section 6 1MRK511240-UEN B Local HMI engineering tMax tRestart Auto- Reset Man- Reset S1LED S2LED S3LED S4LED Illumination => = Steady = Flash IEC08000401.vsd IEC08000401 V1 EN Figure 45: 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.
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Section 6 1MRK511240-UEN B Local HMI engineering HMI display Regard the window pages squence of pages Symbol library IED HMI window display window IEC08000123.vsd IEC08000123 V1 EN Figure 46: 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.
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Section 6 1MRK511240-UEN B Local HMI engineering • Several single line diagrams can be created for one bay. • The IED supports one bay. • The sequence order of the HMI pages in the graphical display editor starts from left to right. •...
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Section 6 1MRK511240-UEN B Local HMI engineering IEC08000127.vsd IEC08000127 V1 EN Figure 47: GDE: Dynamic Text symbols The standard (IEC or ANSI) for the symbols and the selection of the font size for the text elements can be changed using the two selector boxes on top of the page window.
Section 6 1MRK511240-UEN B Local HMI engineering symbol can be changed either by double click the symbol or via the object property window. Select and toggle Show Texts using the IED Fonts to get a view how it will look like later on the real HMI display.
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Section 6 1MRK511240-UEN B Local HMI engineering corresponding function block in the application configuration, which protects or controls the object that the symbol on the HMI page represents. Creating a complete HMI display page Procedure: Make a sketch how to present the single line diagram. Place the apparatus, transformer and other symbols that are needed for the single line diagram into the raster boxes.
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Section 6 1MRK511240-UEN B Local HMI engineering Linking process objects To describe a process object within an IED it needs to be established in the application configuration, configured when given with its parameters by PST and linked to be displayed in the HMI. Three tools are involved for the described steps: •...
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Section 6 1MRK511240-UEN B Local HMI engineering IEC08000125.vsd IEC08000125 V1 EN Figure 50: GDE: Input signal selection The number of order 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.
Section 7 1MRK511240-UEN B IEC 61850 communication engineering Section 7 IEC 61850 communication engineering IEC 61850 interface in the IED and tools More information about the implementation of IEC 61850 in IEDs is available in the IEC 61850 communication protocol manual. 7.1.1 Function view for IEC 61850 in PCM600 The IED function blocks have a design based on the demands and advantages of...
Section 7 1MRK511240-UEN B IEC 61850 communication engineering 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 IEC08000364 V1 EN Figure 52: IEC 61850: Communication interface principle IEC 61850 has as a concept for the identification of all signals for communication that belong to a function by a logical node as a placeholder.
Section 7 1MRK511240-UEN B 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 53: IEC 61850: Horizontal communication principle Figure 53 shows an example with three IEDs where each one communicates with all the others.
• An IED is already extended by default data sets. They are predefined by ABB. Changes or additional data sets, for example, have to be done with the IET600 station configuration tool. •...
Section 7 1MRK511240-UEN B IEC 61850 communication engineering For more details please refer to the IEC 61850 standards. In the following description it is assumed that PCM600 together with IET600 is used as system configuration tool. A short form of a typical sequence is shown in Figure 54 when a complete station is exported as a SCD file.
Section 7 1MRK511240-UEN B IEC 61850 communication engineering 7.3.1 Exporting SCD files Procedure to export the SCD file from PCM600: Select the station in the plant structure, see Figure Station IEC08000415.vsd IEC08000415 V1 EN Figure 55: IEC 61850: Export SCD step 1 Right-click the station and select Export ..
Section 7 1MRK511240-UEN B IEC 61850 communication engineering • Configured IED Description (*.cid) for the IEC 61850 structure as needed for the IED at runtime. • IED Capability Description (*.icd) for the IEC 61850 structure, see Figure IEC08000416.vsd IEC08000416 V1 EN Figure 57: IEC 61850: Export IED file type selection The SCL Export Options window opens.
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Section 7 1MRK511240-UEN B IEC 61850 communication engineering number of entries in a data set and the number of report control blocks that can be used. Add and/or reconfigure default data sets. The 670 series pre-configured IED includes a number of predefined data sets, but it is possible to add additional data sets and/or reconfigure default data sets according to the requirements.
Section 7 1MRK511240-UEN B IEC 61850 communication engineering Importing SCL files to PCM600 The IED engineering tool must be able to receive a SCD file or an ICD file as import to receive the engineered communication extensions, for example for the different IEDs.
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Section 7 1MRK511240-UEN B IEC 61850 communication engineering 5.1. Make connections between the signals that the server is sending and the GOOSE receive interface function blocks (GOOSEBINRCV and GOOSEINTLKRCV) on the client’s side. If a client is defined for GOOSE receive then at least one cross in SMT is required to be able to write the configuration to the IED.
Section 7 1MRK511240-UEN B IEC 61850 communication engineering IEC09000616-1-en.vsd IEC09000616 V1 EN Figure 60: Common write menu 7.5.2 Importing ICD or CID files Procedure to import a complete ICD file or CID file: Select an existing IED to import IEC 61850 files. Select the file type of IEC 61850 to import from the Files of type drop down list (ICD or CID) The SCL Import Option menu opens, which queries how the file should be...
Section 7 1MRK511240-UEN B IEC 61850 communication engineering 3.1. Ignore Substation Section will not import the "SSD-file" part of the SCD- file. 3.2. Don't import ... protects the existing IEDs in case the SCD file does not match the original configuration in PCM600. 3.3.
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Section 7 1MRK511240-UEN B IEC 61850 communication engineering Click Yes in the Update Communication window to update the communication configuration part in the IED. Click No in the Update Communication window to keep the communication configuration part in the IED. Other parts of the configuration will be updated. If no change has been done to the communication configuration part, select No in the Update Communication window.
Section 8 1MRK511240-UEN B IEC 60870-5-103 communication engineering Section 8 IEC 60870-5-103 communication engineering Engineering in PCM600 The Application Configuration tool (ACT) and the Parameter Setting tool (PST) in PCM600 are used to configure the communication for IEC 60870-5-103 protocol. Add the desired IEC 60870-5-103 function blocks to the application configuration in the Application Configuration tool.
Section 9 1MRK511240-UEN B 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.
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Section 9 1MRK511240-UEN B DNP3 communication engineering Save the actual project configuration in PCM600 to make all signals visible for CMT. Right-click the IED in the plant structure and select Communication Management to start the Communication management tool. Select the DNP3 protocol from the new window and click OK. Figure 63 presents the design of the two container windows, which open after the selection of DNP3.
Section 9 1MRK511240-UEN B DNP3 communication engineering IEC08000361.vsd IEC08000361 V1 EN Figure 64: CMT: Move buttons Click the drop down list Signal Type: to select the other signal types for this channel. Repeat to move signals for all signal types and save the selection. Content changes in the DNP3 container are marked with a star at the end of the name, see Figure...
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Section 9 1MRK511240-UEN B DNP3 communication engineering IEC08000336.vsd IEC08000336 V1 EN Figure 66: CMT: Context menu in DNP3 window The selection window shows the number of signals selected, see Figure IEC08000363.vsd IEC08000363 V1 EN Figure 67: CMT: Set Index menu Define the Starting index for this group and click OK.
Section 9 1MRK511240-UEN B DNP3 communication engineering 9.3.1 Configuring DNP3 class In DNP3 the user classifies the signals and defines those signals that are not member of any class. CMT has a default predefined organization of classes per signal type. In the master station the classes can be polled in sequences according to the demands in the project.
Section 10 1MRK511240-UEN B Glossary Section 10 Glossary Alternating current Application configuration tool within PCM600 A/D converter Analog-to-digital converter ADBS Amplitude deadband supervision Analog digital conversion module, with time synchronization Analog input ANSI American National Standards Institute Autoreclosing ArgNegRes Setting parameter/ZD/ ArgDir Setting parameter/ZD/ ASCT...
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Section 10 1MRK511240-UEN B Glossary CCITT Consultative Committee for International Telegraph and Telephony. A United Nations-sponsored standards body within the International Telecommunications Union. CAN carrier module CCVT Capacitive Coupled Voltage Transformer Class C Protection Current Transformer class as per IEEE/ ANSI CMPPS Combined megapulses per second Communication Management tool in PCM600...
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Section 10 1MRK511240-UEN B Glossary Disturbance recorder DRAM Dynamic random access memory Disturbance report handler Digital signal processor Direct transfer trip scheme EHV network Extra high voltage network Electronic Industries Association Electromagnetic compatibility (Electromotive force) Electromagnetic interference EnFP End fault protection Enhanced performance architecture Electrostatic discharge Flow control bit;...
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Section 10 1MRK511240-UEN B Glossary HSAR High speed autoreclosing High-voltage HVDC High-voltage direct current IDBS Integrating deadband supervision International Electrical Committee IEC 60044-6 IEC Standard, Instrument transformers – Part 6: Requirements for protective current transformers for transient performance IEC 60870-5-103 Communication standard for protective equipment.
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Section 10 1MRK511240-UEN B Glossary IP 40 Ingression protection, according to IEC standard, level 40 IP 54 Ingression protection, according to IEC standard, level 54 Internal failure signal IRIG-B: InterRange Instrumentation Group Time code format B, standard 200 International Telecommunications Union Local area network LIB 520 High-voltage software module...
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Section 10 1MRK511240-UEN B Glossary PC-MIP Mezzanine card standard PCI Mezzanine card Permissive overreach POTT Permissive overreach transfer trip Process bus Bus or LAN used at the process level, that is, in near proximity to the measured and/or controlled components Power supply module Parameter setting tool within PCM600 PT ratio...
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Section 10 1MRK511240-UEN B Glossary requirement to have accurate hardware clocks in every embedded system in a network. Each embedded node can instead synchronize with a remote clock, providing the required accuracy. Strömberg protection acquisition, a serial master/slave protocol for point-to-point communication Switch for CB ready condition Switch or push button to trip Starpoint...
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Section 10 1MRK511240-UEN B Glossary for the eccentricity of the Earth's orbit, the rotational axis tilt (23.5 degrees), but still showing the Earth's irregular rotation, on which UT1 is based. The Coordinated Universal Time is expressed using a 24-hour clock, and uses the Gregorian calendar.
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