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ABB 650 series ANSI Engineering Manual

ABB 650 series ANSI Engineering Manual

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  • Page 1 ® Relion Protection and Control 650 series ANSI Engineering Manual...
  • Page 3 Document ID: 1MRK 511 245-UUS Issued: April 2011 Revision: - Product version: 1.1 © Copyright 2011 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 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

    Setting IED IP address in the project..........47 Setting technical key................49 Section 5 Protection and control engineering........53 Creating an application configuration with ACT........53 Overview....................53 Function blocks..................54 Signals and signal management............56 Function block execution parameters..........56 Configuration parameters..............59 650 series ANSI Engineering Manual...
  • Page 8 Importing SCD files................102 Importing ICD or CID files..............104 Writing communication configuration to IED ........105 Section 8 IEC 60870-5-103 communication engineering....107 Engineering in PCM600................107 Section 9 DNP3 communication engineering........109 Signal configuration user information...........109 Configuring DNP3 protocol signals............110 650 series ANSI Engineering Manual...
  • Page 9 Table of contents Setting DNP3 signal parameters............112 Configuring DNP3 class..............114 Section 10 Glossary................115 650 series ANSI Engineering Manual...

  • Page 11: Section 1 Introduction

    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. 650 series ANSI Engineering Manual...

  • Page 12: Product Documentation

    IED should be installed. The commissioning manual contains instructions on how to commission the IED. The manual can also be used by system engineers and maintenance personnel for assistance 650 series ANSI Engineering Manual...

  • Page 13: Document Revision History

    IED. The manual should be used in conjunction with the corresponding communication protocol manual. The service manual is not available yet. 1.3.2 Document revision history Document revision/date Product series version History -/February 2011 First release 650 series ANSI Engineering Manual...

  • Page 14: Related Documents

    1MRK 502 033-UUS Technical manual 1MRK 502 034-UUS Commissioning manual 1MRK 502 035-UUS Product Guide 1MRK 502 036-BUS Type test certificate 1MRK 502 036-TUS Rotor Ground Fault Protection with Injection Unit RXTTE4 and REG670 1MRG001910 650 series ANSI Engineering Manual...

  • Page 15: Symbols And Conventions

    Although warning hazards are related to personal injury, it is necessary to understand that under certain operational conditions, operation of damaged equipment may result in degraded process performance leading to personal injury or death. Therefore, comply fully with all warning and caution notices. 650 series ANSI Engineering Manual...

  • Page 16: Manual Conventions

    Restricted ground fault protection, low impedance HZPDIF 1Ph High impedance differential protection GENPDIF Generator differential protection Impedance protection ZQDPDIS Five-zone distance protection, quadrilateral characteristic FDPSPDIS Phase selection with load enchroachment, quadrilateral characteristic Table continues on next page 650 series ANSI Engineering Manual...
  • Page 17 CCRPLD 52PD Pole discordance protection BRCPTOC Broken conductor check GUPPDUP Directional underpower protection GOPPDOP Directional overpower protection DNSPTOC Negative sequence-based overcurrent function AEGGAPC 50AE Accidental energizing protection for synchronous generator Table continues on next page 650 series ANSI Engineering Manual...
  • Page 18 Interlocking for 1 1/2 breaker diameter DB_BUS_A Interlocking for double CB bay DB_BUS_B Interlocking for double CB bay DB_LINE Interlocking for double CB bay ABC_LINE Interlocking for line bay AB_TRAFO Interlocking for transformer bay Table continues on next page 650 series ANSI Engineering Manual...
  • Page 19 Configurable logic blocks, Inverter PULSETIMER Configurable logic blocks, PULSETIMER GATE Configurable logic blocks, Controllable gate Configurable logic blocks, exclusive OR LOOPDELAY Configurable logic blocks, loop delay TimeSet Configurable logic blocks, timer Table continues on next page 650 series ANSI Engineering Manual...
  • Page 20 Fault locator SPVNZBAT Station battery supervision SSIMG Insulation gas-monitoring function SSIML Insulation liquid-monitoring function SSCBR Circuit breaker condition monitoring I103MEAS Measurands for IEC60870-5-103 I103MEASUSR Measurands user defined signals for IEC60870-5-103 Table continues on next page 650 series ANSI Engineering Manual...
  • Page 21 GOOSE function block to receive a double point value GOOSEINTRCV GOOSE function block to receive an integer value GOOSEMVRCV GOOSE function block to receive a measurand value GOOSESPRCV GOOSE function block to receive a single point value Table continues on next page 650 series ANSI Engineering Manual...
  • Page 22 Summation block 3 phase GBASVAL Global base values for settings DOSFRNT Denial of service, frame rate control for front port DOSLAN1 Denial of service, frame rate control for LAN1 port DOSSCKT Denial of service, socket flow control 650 series ANSI Engineering Manual...

  • Page 23: Section 2 Engineering Tool Set

    Principle structure of a monitoring and control system for a substation All three parts require specific engineering and configuration. PCM600 is used to do the complete engineering and configuration activities needed for bay level IEDs. 650 series ANSI Engineering Manual...
  • Page 24 The applications can be organized in: • IED product engineering • IED communication engineering per protocol • IED system monitoring • IED product diagnostic This manual is valid for PCM600 supporting the 650 series product. 650 series ANSI Engineering Manual...

  • Page 25: Ied Engineering Process

    PCM600 scheduler. • Managing recording files with the assistance of the Disturbance Handling tool. • Creating overview reports of recording file content for fast evaluation with assistance of the Disturbance Handling tool. • Service management 650 series ANSI Engineering Manual...
  • Page 26 IED user management • Organizing users with their rights, profile and password to read and write files of the IED. • Defining allowed activities for the user profiles to use the read and write function. 650 series ANSI Engineering Manual...
  • Page 27 Conversely some parts of the engineering information can be uploaded from the IED 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 IED. 650 series ANSI Engineering Manual...

  • Page 29: Section 3 Engineering Process

    Section 3 1MRK 511 245-UUS - Engineering process Section 3 Engineering process Workflow 650 series ANSI Engineering Manual...
  • Page 30 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. • Setting up the PCM600 project 650 series ANSI Engineering Manual...
  • Page 31 The engineering steps are protocol dependent. • Use the communication management tool (CMT) for DNP3 engineering. • Use a station configuration tool, for example CCT600, for IEC 61850 engineering. See the application manual for other protocols (IEC103). 650 series ANSI Engineering Manual...
  • Page 32 1MRK 511 245-UUS - Engineering process The IED restarts automatically when writing an IED configuration where changes have been made to, for example configuration parameters. It is not possible to communicate with the IED during the restart. 650 series ANSI Engineering Manual...

  • Page 33: Section 4 Setting Up A Project

    REL650 module 1.0.0 Module v.n. (n = version number).The installation software guides the user through steps required to install the IED Connectivity package base module and the specific IED type modules. The IED specific module is 650 series ANSI Engineering Manual...

  • Page 34: Setting Up Communication Between Pcm600 And The Ied

    1MRK 511 245-UUS - Setting up a project installed to same location as for IEDConnectivity package base module. The default directory is C:/Program Files/ABB/Connectivity Packages/ IEDConnPackRE_650. 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 35 IED are received on the Tx pin on the PC. Thus straight (standard) Ethernet cable can be used. When a computer is connected to the IED and the setting DHCPServer is set to Enabled via the local HMI path Main menu/Configuration/Communication/TCP-IP 650 series ANSI Engineering Manual...
  • Page 36 Select Properties in the status window. IEC09000356-1-en.vsd IEC09000356 V1 EN Figure 7: Right-click Local Area Connection and select Properties Select the TCP/IP protocol from the list of configured components using this connection and click Properties. 650 series ANSI Engineering Manual...
  • Page 37 IP address is not set to be obtained automatically by the IED, see Figure 10. The IP address must be different from the IP address chosen for the IED. 650 series ANSI Engineering Manual...

  • Page 38: Project Managing In Pcm600

    It is possible to: • Open existing projects • Import projects • Create new projects • Export projects • Delete projects • Rename projects • Copy and paste projects • Migrate projects from one product version to another 650 series ANSI Engineering Manual...
  • Page 39 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. 650 series ANSI Engineering Manual...

  • Page 40: Building A Plant Structure

    Rename the level after insertion, using the Rename possibility or the Object Properties. Figure 12 shows the start of a project with two IEDs placed but still not renamed. 650 series ANSI Engineering Manual...

  • Page 41: Iec 61850 Naming Conventions To Identify An Ied

    The bay level is predefined by "Q01", where 01 is the index. • The IED is predefined by "A1", where 1 is the index. The predefined full path name of the technical key for the IED would be AA1J1Q01A1. 650 series ANSI Engineering Manual...
  • Page 42 • The IED has been renamed as "SB1" The renamed full path name of the technical key for the IED would be DMSTATC1Q1SB1. IEC08000374.vsd IEC08000374 V1 EN Figure 13: PCM600: IEC 61850 signal designation concept 650 series ANSI Engineering Manual...

  • Page 43: Inserting An Ied

    Import a template IED available in the template library as a *.pcmt file. • Import a configured IED available as a *.pcmi file. Inserting an IED in online mode For setting up an IED online the IED must be connected to PCM600. 650 series ANSI Engineering Manual...
  • Page 44 It is also possible to drag-and-drop an IED from the Object Types window to the Bay level. Select the Online Configuration mode, see Figure IEC09000660-1-en.vsd IEC09000660 V1 EN Figure 15: PCM600: Communication mode selection wizard Select the IED Communication protocol, see Figure 650 series ANSI Engineering Manual...
  • Page 45 1MRK 511 245-UUS - Setting up a project IEC09000661-1-en.vsd IEC09000661 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 650 series ANSI Engineering Manual...
  • Page 46 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. Click the Scan option to scan/read the IED Type and IED Version for the IED that is online, see Figure 650 series ANSI Engineering Manual...
  • Page 47 Setting up a project IEC09000663-2-en.vsd IEC09000663 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 19 650 series ANSI Engineering Manual...
  • Page 48 The Setup Complete Page dialog shows the summary of the IED Type, IED Version, IP Address of IED and Order Number, Figure 20. It is possible to Cancel the insertion or confirm the configuration and do the insertion with Finish 650 series ANSI Engineering Manual...
  • Page 49 The version information and order specific file needs to be selected, see Figure 21. The order specific file is delivered in a order confirmation E-mail. If no order specific file is available then select the No Order Specific File option, see Figure 650 series ANSI Engineering Manual...
  • Page 50 Section 4 1MRK 511 245-UUS - Setting up a project IEC09000665-2-en.vsd IEC09000665 V2 EN Figure 21: PCM600: IED Version selection IEC09000681-1-en.vsd IEC09000681 V1 EN Figure 22: PCM600: IED Order code selection 650 series ANSI Engineering Manual...
  • Page 51 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. Verify the template information, see Figure 24 and click Close to close the window. 650 series ANSI Engineering Manual...
  • Page 52 Two alternatives to insert configured IEDs in 650 series: • Use the configured IEDs in 650 series that has been ordered together with the IED. • Create an own configuration, export the configuration as *.pcmi file and use it to configure other IEDs. 650 series ANSI Engineering Manual...

  • Page 53: Setting Ied Ip Address In The Project

    Setting IED IP address in the project There are two alternatives to set IP address of the IED object in PCM600. The IED object in PCM600 must have the same IP address and subnetwork mask as the front or 650 series ANSI Engineering Manual...
  • Page 54 Via the first window of the wizard when including a new IED in a project, see Figure IEC09000662-1-en.vsd IEC09000662 V1 EN Figure 26: Alternative 1: IP address via first Wizard window • Via the IP address property of the IED in the Object Properties window, see Figure 650 series ANSI Engineering Manual...

  • Page 55: Setting Technical Key

    PCM600 project. The IED is delivered with a factory default technical key. The validation of the technical keys between PCM600 and the IED will not occur if the IED contains the factory default technical key. 650 series ANSI Engineering Manual...
  • Page 56 The technical key for an IED object in PCM600 can also be changed in the Object properties window. Select the IED in the Plant Structure. Right-click and select Set Technical Key, see Figure 650 series ANSI Engineering Manual...
  • Page 57 PCM600: Set technical key menu at IED level A dialog window opens to inform about the technical key concept. Click OK in the dialog window. The technical key is read from the IED and the technical key editor window opens, see Figure 650 series ANSI Engineering Manual...
  • Page 58 It is not possible to set a user defined name or select the Technical key in IED if the value is the same as already given to another IED object in the PCM600 project. A dialog window opens if this is the case. 650 series ANSI Engineering Manual...

  • Page 59: Section 5 Protection And Control Engineering

    Features to program an application configuration: • 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 and PST. 650 series ANSI Engineering Manual...

  • Page 60: Function Blocks

    Set IEC or/and ANSI naming style. • Lock function blocks. • Set visibility for execution order, cycle time and instance number. • Manage signals, for example hide, show and rearrange. • Invert Boolean inputs and Boolean outputs. 650 series ANSI Engineering Manual...
  • Page 61 Function block, locked (red) ANSI symbol Inverted output Hardware, binary output channel Hardware, analog input channel User defined signal name Hardware, binary input channel Execution order Cycle time Instance number Inverted input Signal description note 650 series ANSI Engineering Manual...

  • Page 62: Signals And Signal Management

    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. 650 series ANSI Engineering Manual...
  • Page 63 650 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.
  • Page 64 Figure 34: 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. 650 series ANSI Engineering Manual...

  • Page 65: Configuration Parameters

    Link two signals by using variables. It is possible to search and replace variable names in ACT. Connection validation A connection is only useful and possible between two signals of the same data type, Figure 650 series ANSI Engineering Manual...

  • Page 66: Hardware Channels

    A hardware input channel can be used as often as it is needed. A hardware binary output channel is taken from the list of available channels when a new channel is requested. That prevents for using a hardware binary output channel twice. As an example, see Figure 650 series ANSI Engineering Manual...

  • Page 67: Validation

    During creating the logic while doing a connection or placing a function block. • On demand by starting the validation. • When writing the application configuration into the IED. Validation when creating the application configuration Validation is made when creating the application configuration, for example: 650 series ANSI Engineering Manual...
  • Page 68 These problems are listed in the Output View under the Tab Application Configuration. A double-click in the error or warning row will navigate to the MainApplication>Page>Area where the problems are identified. IEC09000614_2_en.vsd IEC09000614 V2 EN Figure 38: ACT: Validation on demand 650 series ANSI Engineering Manual...

  • Page 69: Setting Configuration And Setting Parameters In Pst

    A configuration parameter specifies an operation mode of an application function or of the IED. These are basic configurations, which are normally configured only once and then settled. The IED configures itself at start-up according to the given configuration parameter values. 650 series ANSI Engineering Manual...

  • Page 70: Connecting Signals In Smt

    The organization of the parameters in a tree structure is visible in the plant structure by expanding the setting tree. Connecting signals in SMT SMT is used to do cross references, see Figure • between physical IO signals and function blocks. • for the GOOSE engineering. 650 series ANSI Engineering Manual...
  • Page 71 Glue logic means inserting a logical gate (OR and AND blocks) between the function blocks and the binary output channel. This can be engineered in SMT. Connections made in SMT are automatically shown in ACT. Connections made in ACT are automatically shown in SMT. 650 series ANSI Engineering Manual...
  • Page 72 SMT Connection between binary input channels to binary input signals Depending on the IED capability, SMT has a separate sheet for each possible combination. The possible sheets are: • Binary Inputs • Binary Outputs • Analog Inputs • GOOSE Receive 650 series ANSI Engineering Manual...

  • Page 73: Section 6 Local Hmi Engineering

    Set function keys and LEDs SAVE GDE / ACT Create the single line diagram SAVE IEC09000622_1_en.vsd IEC09000622 V1 EN Figure 41: LHMI: Engineering process flowchart • Application Configuration tool with possible assistance of Signal Matrix tool 650 series ANSI Engineering Manual...
  • Page 74 Configuration tool. Figure 42 describes the basic LHMI and the operation element groups. These are the 15 LEDs and their belonging text elements on the LCD [A]. They are operated by the keys [a] and [b]. 650 series ANSI Engineering Manual...
  • Page 75 Generates a pulse whenever a new LED signal occurs. It may be used to trigger an acoustical alarm. • Handles the timer tReset and tMax for the LED operation mode 'LatchedReset-S'. Function block GRP1_LED1 to GRP3_LED15 650 series ANSI Engineering Manual...
  • Page 76 • Pulsed signal • Each push forces a pulse of a configured time. • The pulse time can be set in Parameter Setting tool. • The default pulse time is 200 ms. • Toggle signal 650 series ANSI Engineering Manual...
  • Page 77 (RED, YELLOW, GREEN) of the LED. • A reset of the LLEDs operates also on all three signals of the LEDs. • Follow-S • The LED illumination follows the status of the signal. The LED illuminates steady (S). • Follow-F 650 series ANSI Engineering Manual...
  • Page 78 LEDs will stay in the last state after the disturbance run time until they are reset after a defined time. • The timers are set in Parameter Setting tool in the function block LEDGEN. IEC09000657-1-en.vsd IEC09000657 V1 EN Figure 44: LHMI: LED operation mode 650 series ANSI Engineering Manual...

  • Page 79: Led Operation Modes

    Monitoring a signal with a LED is a simple mode, where the LED follows the signal state. More than one signal per LED can be used when applicable. See Figure 45 the valid priority rules. The LED illuminates always in steady state. 650 series ANSI Engineering Manual...
  • Page 80 Two possibilities for the operator to acknowledge: • The signal is already gone when acknowledged, the LED turns OFF (at least for this color). • The signal is still ON, the LED stays illuminated and changes to steady state. 650 series ANSI Engineering Manual...
  • Page 81 The higher priority color (signal) will illuminate in flash mode. Figure 48 Figure 49 for these two principles. Illumination => = Steady = Flash IEC08000399.vsd IEC08000399 V1 EN Figure 49: LHMI LED operation mode LatchedAck-F-S Prio / 2 650 series ANSI Engineering Manual...
  • Page 82 The thin dashed lines in Figure 50 shows the internal state of the LED following the signal and reset, when no higher prior signal is given. The LED illuminates always in steady mode. 650 series ANSI Engineering Manual...
  • Page 83 A disturbance runs for a maximum of some seconds, while tReset can be in the range of 60 to 90 seconds. The timer tReset and tMax are configured in Parameter Setting tool as part of the function block LEDGEN 650 series ANSI Engineering Manual...

  • Page 84: Single-Line Diagram Engineering

    6.2.1 Concept description to present and generate diagrams in graphical display editor Additional concept information to use GDE, see Figure • Different GDE windows • HMI display raster layouts • Drawing lines (doing a Link) 650 series ANSI Engineering Manual...
  • Page 85 Display window and sequence order It is important to link correctly between the HMI display page and the corresponding bay that is presented as a single line diagram on this HMI page. Rules to handle HMI pages: 650 series ANSI Engineering Manual...
  • Page 86 32 different inputs. The corresponding function blocks in ACT are of type xxxGGIO. • Select Dynamic Text and Indication to present the text for the actual value of the function block, see Figure • Click Select Button to select the value. 650 series ANSI Engineering Manual...
  • Page 87 Select and toggle Show Texts using the IED Fonts to get a view how it will look like later on the real HMI display. 650 series ANSI Engineering Manual...
  • Page 88 Draw all line elements that are necessary. Click Select in the menu bar to finish the line drawing. Line draw icon start point end point en05000598.vsd IEC05000598 V1 EN Figure 55: GDE: Drawing a line 650 series ANSI Engineering Manual...

  • Page 89: Supported Single-Line Diagram Symbols

    Surge arrestor Others Generator Others Reactor Others Motor Others Coil Others Transformer 2 winding Power transformers Transformer 3 winding Power transformers Autotransformer Power transformers Isolator, 00 = middle position Switchgear Table continues on next page 650 series ANSI Engineering Manual...
  • Page 90 Undefined Breaker indication only, 00 = Switchgear Middle position Breaker indication only, 01 = Switchgear Open Breaker indication only, 10 = Switchgear Closed Breaker indication only, 11 = Switchgear Undefined Table continues on next page 650 series ANSI Engineering Manual...
  • Page 91 Breaker2, 10 = Closed Switchgear Breaker2, 11 = Undefined Switchgear Breaker2 indication only, 00 = Switchgear Middle position Breaker2 indication only, 01 = Switchgear Open Breaker2 indication only, 10 = Switchgear Closed Table continues on next page 650 series ANSI Engineering Manual...

  • Page 92: Bay Configuration Engineering

    Procedure: Make a sketch how to present the single line diagram. Place the apparatus, transformer and other symbols that are needed for the single line diagram into the raster boxes. Add connection points where needed. 650 series ANSI Engineering Manual...
  • Page 93 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: 650 series ANSI Engineering Manual...
  • Page 94 Select the switch control application function block that corresponds to the selected apparatus. Right-click the measurement symbol and select Select Input Signal. A list of the engineered measurement application function blocks opens. Select the measurement application function block that corresponds to the selected symbol. 650 series ANSI Engineering Manual...
  • Page 95 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. 650 series ANSI Engineering Manual...
  • Page 96 (for example MW). Be sure to write the proper unit under the Unit Text field. IEC10000174.vsd IEC10000174 V1 EN Figure 59: GDE: Object properties window for unit change 650 series ANSI Engineering Manual...

  • Page 97: Events And Indications

    To get IED events to the LHMI event list and indications for Ready, Pickup and Trip indication LEDs, disturbance report needs to be engineered. Detailed information about disturbance report subfunctions is found in the technical manual. 650 series ANSI Engineering Manual...

  • Page 99: Section 7 Iec 61850 Communication Engineering

    This means that the user do not need to handle any instance information for the functions regarding IEC 61850. 7.1.2 IEC 61850 interface in IED Figure 60 for a principle view of the IEC 61850 logical node concept in the IED. 650 series ANSI Engineering Manual...

  • Page 100: Goose Data Exchange

    The IEC 61850 protocol supports a method to directly exchange data between two or more IEDs. This method is described in the IEC 61850–7–2 clause 15. The concept is based on sending a multicast over the Ethernet. Whoever needs the information detects 650 series ANSI Engineering Manual...

  • Page 101: Station Configuration Description File Types

    The IEC 61850 standard defines SCL-file types in the sequence of engineering. These files have a different definition, which is explained in IEC 61850–6. Three of these file types are used in the engineering process for an IED. 650 series ANSI Engineering Manual...

  • Page 102: Iec 61850 Engineering Procedure

    • 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 CCT600. • SCD = Station Configuration Description •...
  • Page 103 IED engineering è è link GOOSE input data è export SCD file è Write to IED IED 1 IED 2 IED n-1 IED n IEC08000413.vsd IEC08000413 V1 EN Figure 62: IEC 61850: Signal engineering procedure flow 650 series ANSI Engineering Manual...

  • Page 104: Exporting Scl Files From Pcm600

    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 The SCL Export Options window opens, see Figure 650 series ANSI Engineering Manual...

  • Page 105: Exporting Icd Or Cid Files

    Select Export Private Sections, Export As SCL Template or Include Goose Sending IEDs and click Export, see Figure 66. Note that the options in SCL Export Options window according to Figure 66 is only available when an ICD file is exported. 650 series ANSI Engineering Manual...

  • Page 106: Engineering Of Vertical And Horizontal Communication In Cct600

    Create a project in CCT600. Import the SCD file created by PCM600, see Figure IEC09000628-1-en.vsd IEC09000628 V1 EN Figure 67: CCT600 Import SCL file Do vertical communication engineering (monitoring direction). 3.1. Check the default data sets, see Figure 650 series ANSI Engineering Manual...
  • Page 107 The data set for GOOSE may contain signals on data attribute level or on FCDA level. The latter is also called structured GOOSE. 3.3. Configure additional Report Control Blocks when needed for each data set used for vertical communication. 650 series ANSI Engineering Manual...

  • Page 108: Importing Scl Files To Pcm600

    Procedure to import a SCD file to PCM600: Select the station in the plant structure. Right-click the station and select Import ... Select the file to be imported from the open standard Windows menu and start the reading. 650 series ANSI Engineering Manual...
  • Page 109 SMT is required to be able to write the configuration to the IED. Be sure to set the setting Operation to Enabled in PST for all included GOOSE receiving function blocks in the application configuration to enable GOOSE communication. Write the configuration to the IED, see Figure 650 series ANSI Engineering Manual...

  • Page 110: Importing Icd Or Cid Files

    Note that the engineered data is written to the IED when executing a common Write to IED operation. IEC09000616-1-en.vsd IEC09000616 V1 EN Figure 70: Common write menu 7.5.2 Importing ICD or CID files Procedure to import a complete ICD file or CID file: 650 series ANSI Engineering Manual...

  • Page 111: Writing Communication Configuration To Ied

    IEC 61850. It is not possible to read the communication configuration from the IED to PCM600. However it is possible to make a configuration change in one IED, without affecting the communication engineering. For example, when the Application Configuration tool 650 series ANSI Engineering Manual...
  • Page 112 If no changes have been done in the communication configuration part, click No in the Update Communication window. IEC09000729-1-en.vsd IEC09000729 V1 EN Figure 72: Update the communication configuration in the IED with the configuration made in PCM600 650 series ANSI Engineering Manual...

  • Page 113: Section 8 Iec 60870-5-103 Communication Engineering

    IEC 60870-5-103 function block instance in the Parameter Setting tool. See the Communication protocol manual for IEC 60870-5-103 for more information about the IEC 60870-5-103 implementation in 650 series. 650 series ANSI Engineering Manual...

  • Page 115: Section 9 Dnp3 Communication Engineering

    DNP3 protocol presentation. This can be done when the Configuration Table View is selected. Finally, the signal configuration to the different DNP3 channels can be listed in a report on demand and per signal type. 650 series ANSI Engineering Manual...

  • Page 116: Configuring Dnp3 Protocol Signals

    73) appear in CMT (see Figure 74). Do not configure these hardware channels to be sent by DNP3, as they are not event-handled. IEC10000172.vsd IEC10000172 V1 EN Figure 73: Configuring hardware channels directly to the function blocks 650 series ANSI Engineering Manual...
  • Page 117 Right-click in the list of signals, select Select All from the context menu or press Ctrl+A to select all signals. Press the blue arrow button to insert the selected signals into the configuration. Press the green double arrow button to insert all signals into the configuration, see Figure 650 series ANSI Engineering Manual...

  • Page 118: Setting Dnp3 Signal Parameters

    Procedure to set the index of the signal: Click the two inner arrows to sort signals to another index sequence, or select Set Index ... from the context menu to move one or a set of signals to another array, Figure 650 series ANSI Engineering Manual...
  • Page 119 Click in the class field of the signal to change the class configuration. The Select Class window opens. Make the selection according to the definitions in the project and click OK to close the window and get the new configuration, see Figure 650 series ANSI Engineering Manual...

  • Page 120: Configuring Dnp3 Class

    Click in the Class field of the signal. A new window Select Class opens where the user classifies the signal. Select the signal classes and choose between None and 0 to 3 according to the project demands. Click OK to set the signal classification. Write to IED. 650 series ANSI Engineering Manual...

  • Page 121: Section 10 Glossary

    Combined megapulses per second Communication Management tool in PCM600 CO cycle Close-open cycle Codirectional Way of transmitting G.703 over a balanced line. Involves two twisted pairs making it possible to transmit information in both directions 650 series ANSI Engineering Manual...
  • Page 122 Dead line live bus Distributed Network Protocol as per IEEE/ANSI Std. 1379-2000 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 650 series ANSI Engineering Manual...
  • Page 123 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 61850 Substation automation communication standard 650 series ANSI Engineering Manual...
  • Page 124 Ingression protection, according to IEC standard, level IP54-Dust-protected,protected againstsplashing water. 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 Liquid crystal display 650 series ANSI Engineering Manual...
  • Page 125 Power supply module Parameter setting tool within PCM600 PT ratio Potential transformer or voltage transformer ratio PUTT Permissive underreach transfer trip RASC Synchrocheck relay, COMBIFLEX Relay characteristic angle RFPP Resistance for phase-to-phase faults 650 series ANSI Engineering Manual...
  • Page 126 Trip coil Trip circuit supervision Transmission control protocol. The most common transport layer protocol used on Ethernet and the Internet. TCP/IP Transmission control protocol over Internet Protocol. The de facto standard Ethernet protocols incorporated into 4.2BSD 650 series ANSI Engineering Manual...
  • Page 127 "Z", which stands for longitude zero. Undervoltage Weak end infeed logic Voltage transformer X.21 A digital signalling interface primarily used for telecom equipment Three times zero-sequence current. Often referred to as the residual or the -fault current 650 series ANSI Engineering Manual...
  • Page 128 Section 10 1MRK 511 245-UUS - Glossary Three times the zero sequence voltage. Often referred to as the residual voltage or the neutral point voltage 650 series ANSI Engineering Manual...
  • Page 130 ABB Inc. 3450 Harvester Road Burlington, ON L7N 3W5, Canada Phone Toll Free: 1-800-HELP-365, menu option #8 ABB Mexico S.A. de C.V. Paseo de las Americas No. 31 Lomas Verdes 3a secc. 53125, Naucalpan, Estado De Mexico, MEXICO Phone (+1) 440-585-7804, menu...

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