ABB RELION REB500 Engineering Manual

Distributed busbar protection

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RELION

REB500

Distributed busbar protection REB500

Version 8.3 ANSI

Engineering manual

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Table of Contents

Summary of Contents for ABB RELION REB500

Page 1 ® RELION REB500 Distributed busbar protection REB500 Version 8.3 ANSI Engineering manual /t1ain m1:nu /Main menu i!9? Events t�, � ;;: :: Measu remen ts Distu rbance records Setti rlgS Settings conf i� ation rua,gr,o stics rests O•� L¥19"39f� joi,je ct name j$sup erUs er 10:5 3:.10 2013 -03- 30...
Page 3 /t1ainm1:nu i!9? /Mainmenu Events J;;: :: t�,� Measuremen ts Disturbance records SettirlgS Settings confi� ation rua,gr,o stics rests O•� L¥19"39f� joi,ject name j$superUs er 3:.10 2013-03- 3010:5 I D I Document ID: 1MRK 511 452-UUS Issued: October 2020 Revision: A Product version: 8.3 ©...
Page 4 (http://www.openssl.org/). This product includes cryptographic software written/developed by: Eric Young (eay@cryptsoft.com) and Tim Hudson(tjh@cryptsoft.com). Trademarks ABB and Relion are registered trademarks of the ABB Group. All other brand or product names mentioned in this document may be trademarks or registered trademarks of their respective holders.
Page 5 Grids be responsible or liable for any loss or damage resulting from the use of this manual or the application of the equipment. ABB is a registered trademark of ABB Asea Brown Boveri Ltd. Manufactured by/for a Hitachi Power Grids company.
Page 6 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 Power Grids 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: Table Of Contents
1MRK 511 452-UUS Rev. A Table of contents Table of contents Section 1 Introduction......................5 This manual............................5 Intended audience..........................5 Revision history........................... 5 Product documentation........................5 Symbols and conventions......................... 6 1.5.1 Symbols...............................6 1.5.2 Document conventions........................6 Section 2 Safety information....................9 Section 3 HMI500 modes....................11 Section 4...
Page 8 Table of contents 1MRK 511 452-UUS Rev. A 5.10 Event text configuration......................... 30 5.11 LMI LED............................... 30 5.12 Disturbance recorder........................30 Section 6 Settings....................... 31 Breaker failure protection........................31 Time overcurrent protection......................31 End fault protection..........................31 CB pole discrepancy..........................31 Overcurrent release...........................31 Voltage release...........................31 Bay protection............................31 Circuit breakers..........................
Page 9 1MRK 511 452-UUS Rev. A Table of contents Preparations (2)..........................52 Start HMI500............................53 Sequence of configuration......................54 Start configuration - File-New (1)....................55 Start configuration - File-New (2)....................56 Initial (default) settings (1)......................57 Initial (default) settings (2)......................58 Initial (default) settings (3)......................59 9.10 Initial (default) settings (4)......................60 9.11...
Page 11: Introduction
1MRK 511 452-UUS Rev. A Section 1 Introduction Section 1 Introduction This manual GUID-732A0F6C-4E13-43CD-AECD-C3DB22B42F83 v2 This document contains the description of the REB500 Configurator Tool (HMI500 started under Configurator Mode) and the setfile engineering process. In addition to the theoretical part, the Engineering Manual provides an application example (see Section 8 Section...
Page 12: Symbols And Conventions
Section 1 1MRK 511 452-UUS Rev. A Introduction REB500 manuals Document numbers Communication protocol manual IEC 61850 1MRK 511 450-UEN Communication protocol manual IEC 60870-5-103 1MRK 511 451-UEN Getting started guide 1MRK 505 404-UEN Symbols and conventions 1.5.1 Symbols GUID-FBABB9D6-60F3-4BFB-B9C9-9B2F65B5F7CE v3 The electrical warning icon indicates the presence of a hazard which could result in electrical shock.
Page 13 1MRK 511 452-UUS Rev. A Section 1 Introduction The signal 21120_EXT_TEST_TRIP can be set and reset via the LHMI Test Trip menu. • Parameter names and parameter values are presented in italics. Operation setting is Not inverted . For example, the default value of the •...
Page 15: Safety Information
1MRK 511 452-UUS Rev. A Section 2 Safety information Section 2 Safety information GUID-FF570B1E-4999-4F5C-9896-09542F345F6A v3 The busbar protection system REB500 corresponds to the latest practices and guidelines and complies with the recognized safety rules. Nevertheless, care must always be taken to avoid danger.
Page 16 Section 2 1MRK 511 452-UUS Rev. A Safety information Whenever changes are made in the IEDs, measures should be taken to avoid inadvertent tripping. The IEDs contain components which are sensitive to electrostatic discharge. Unnecessary touch of electronic components must therefore be avoided. Take care never to open the secondary circuits of CTs conducting current.
Page 17: Hmi500 Modes
1MRK 511 452-UUS Rev. A Section 3 HMI500 modes Section 3 HMI500 modes GUID-5319AF9A-9D65-4A41-967C-052853034E87 v3 Section 9.3. HMI500 software is primarily used as a human-machine interface (HMI) for the protection system REB500 (Operator mode). Furthermore, the program can be used for the configuration of the system file (Configurator mode), if a licence key file has been saved under the HMI500-REBWIN HMI500 Licence request description ).
Page 18 Section 3 1MRK 511 452-UUS Rev. A HMI500 modes Engineering Manual covers the Configurator mode and the REB500 The following setfile engineering process only. Distributed busbar protection REB500 Engineering manual © 2020 Hitachi Power Grids. All rights reserved...
Page 19: Setfile (Reb500 Configuration File)
IEC18000564-IEC18000564-1-en.vsdx IEC18000564 V1 EN-US Figure 2: New configuration file 4.1.1 File name GUID-AED0EBCC-2E9C-4A89-BA95-4F71A522F9F4 v2 ABB recommends the following guidelines for the naming of a setfile (example): Distributed busbar protection REB500 Engineering manual © 2020 Hitachi Power Grids. All rights reserved...
Page 20: Project Directory Structure
Project directory structure GUID-B616CBFE-40B7-4F81-8A2A-2986DBE85087 v1 A REB500 set file configured with the HMI500 Configurator mode has to be saved in a REB500 project structure. For ABB in-house configured systems, the following projects structure is used: IEC18000565-IEC18000565-1-en.vsdx IEC18000565 V1 EN-US Figure 3:...
Page 21: Initial Windows (Default System Settings)
Section 4 Setfile (REB500 Configuration File) This directory structure, used for ABB in house configured projects, ensures the transparency about setfile versions used in a REB500 system throughout the engineering process. It is recommended to implement this structure also for client configured systems.
Page 23: Configuration
1MRK 511 452-UUS Rev. A Section 5 Configuration Section 5 Configuration System installation GUID-916C856C-1B61-4D25-BBA7-CAFE7DD44BE5 v2 Section 9.7. Under this dialog box, the general system data, the licensed protection functions and the version/ revision control shall be entered. IEC18000566-IEC18000566-1-en.vsdx IEC18000566 V1 EN-US Figure 4: System installation Distributed busbar protection REB500...
Page 24: System Data
Section 5 1MRK 511 452-UUS Rev. A Configuration Table 1: Function of selections Selection Function File version of setfile: • preliminary versions → for example, 0.10, 0.20 …. • commissioned versions → for example, 1.00, 2.00 …. Revision index of setfile: •...
Page 25: Plant Data
1MRK 511 452-UUS Rev. A Section 5 Configuration Plant data GUID-C1E885C8-4818-4A66-AB6A-8951B5F1B2FD v2 Section 9.8. IEC18000567-IEC18000567-1-en.vsdx IEC18000567 V1 EN-US Figure 5: Plant data Under this menu, Rated voltage, Rated frequency, busbar Grounding and the type of Busbar shall be selected. The Rated frequency, can be either 50 Hz or 60 Hz, whereas the range of the Rated voltage, can be from 6 kV to 1000 kV.
Page 26: Single-Line Diagram
Section 5 1MRK 511 452-UUS Rev. A Configuration Single-line diagram GUID-64D99818-A287-41BF-BC60-E54C3B52EA6B v2 The single-line diagram editor is the core menu of the HMI500 Configurator tool. Its basic function is the configuration of the bus image (single-line diagram) used for the protection system. For this part of the configuration, tailor-made Bay Models (BM) are copied from a data base to a selected position of the single-line diagram.
Page 27 1MRK 511 452-UUS Rev. A Section 5 Configuration Table 2: Function of selections Selection Function The basic single-line editor mode is the ‘Process feeder’ mode. Under this mode, the configuration of the single-line diagram is defined. After the single-line (bus configuration) of the complete station is finished, the (logical) bus zone assignment has to be checked under the ‘Process bus zone’...
Page 28: Process Bus Zones Mode
Section 5 1MRK 511 452-UUS Rev. A Configuration Button Functions Import a Bay Model from the Bay Model database to the left side of the selected bay. This button is active only, if the Model Mode (see S2) is selected. Import a Bay Model from the Bay Model database to the right side of the selected bay.
Page 29 1MRK 511 452-UUS Rev. A Section 5 Configuration ANSI18000569 V1 EN-US Figure 7: Single-line diagram editor/ Process bus zones mode Table 4: Function of buttons Button Functions After pressing the button B15, the system checks whether all busbar connectors are assigned to a bus zone. At the end of the test, a message box indicates the test result.
Page 30: Select Bay Model
B5-B7) is pressed. Under the Select Bay Model window, a Bay Model (BM) can either be selected from the Base Bay Models database (models created by ABB) or from the User Bay Models database (models created by the user). ANSI18000570 V1 EN-US...
Page 31: Import Options
Function Activates the Base Model Database. The table of Bay Models (S4) containing the BM’s created by ABB can be selected. Activates the User Model Database. The table of Bay Models (S4) containing the BM’s created by the user (client) can be selected.
Page 32: Device Structure
GUID-B354F1CC-B669-4091-8C5D-AF11E4AE67C9 v2 Section 9.37. Under the menu item Device structure, the system generated hardware device labels of the CU and the BUs (so called ABB-References) can be edited with client specific labels. IEC18000579-IEC18000579-1-en.vsdx IEC18000579 V1 EN-US Figure 10: Device structure...
Page 33: Cu Device Creator
By pressing the button B1, the reassignment of the ABB-References is started from left to right side of the single-line diagram (ABB- Reference = logical device containing label, node Id, device Id of a Bay Unit).
Page 34 Section 5 1MRK 511 452-UUS Rev. A Configuration After pressing the button Next, a windows containing the settings of the hardware options on the Central Unit will appear: 15000011-IEC18000363-1-en.vsd IEC18000363 V1 EN-US Figure 12: CU Hardware wizard/ Options Table 9: Function of selections Selection Function...
Page 35: Network
1MRK 511 452-UUS Rev. A Section 5 Configuration IEC18000581-IEC18000581-1-en.vsdx IEC18000581 V1 EN-US Figure 13: CU Hardware wizard/ finish HW build process Once the build process of the CU device creator is completed, it can be repeated again (for example, to reflect subsequent corrections resulting from system configuration changes).
Page 36: Binary Inputs/Outputs
Section 5 1MRK 511 452-UUS Rev. A Configuration IEC18000582-IEC18000582-1-en.vsdx IEC18000582 V1 EN-US Figure 14: Network Binary inputs/outputs GUID-592398BD-6787-4AAE-8C52-DD6819B6E3C4 v1 For detailed information about setting and configuration, see REB500 Operating Manual, section Binary inputs/outputs . 5.10 Event text configuration GUID-8B10823C-8C93-47FE-B5C5-05A6CDE513D6 v1 REB500 Operating Manual, section For detailed information about setting and configuration, see Event text configuration .
Page 37: Settings
1MRK 511 452-UUS Rev. A Section 6 Settings Section 6 Settings GUID-165F9CAA-B9DE-4229-8F3A-EB678DF3D097 v1 Breaker failure protection GUID-39AA7F6F-529C-4865-AC15-82BC2B921004 v1 REB500 Technical Manual, section For detailed information about setting and configuration, see Breaker failure protection . Time overcurrent protection GUID-CC0F4526-743A-4DFC-A51E-4A1BA137D385 v1 REB500 Technical Manual, section For detailed information about setting and configuration, see Time overcurrent protection .
Page 38: Circuit Breakers
Section 6 1MRK 511 452-UUS Rev. A Settings Circuit breakers GUID-1D7E9DA9-CFDF-4453-8945-6B8CE3868C41 v1 For detailed information about setting and configuration, see REB500 Technical Manual, section Circuit breakers . Disconnectors GUID-2FE5781F-5572-44E0-A613-AFFB193F4F79 v2 REB500 Technical Manual, section For detailed information about setting and configuration, see Disconnectors .
Page 39 1MRK 511 452-UUS Rev. A Section 6 Settings Input scaling: 3-Phase wye (solidly grounded or impedance grounded): Ungrounded or Petersen coil: Input scaling: 1-Phase to Phase (independent of network grounding): , only one voltage measured Input scaling: 1-Phase to Ground (independent of network grounding): , only one voltage measured Voltage transformer connections for U<...
Page 40: System Response
Section 6 1MRK 511 452-UUS Rev. A Settings ANSI18000584=ANSI18000584=1=en-us=Original.vsdx ANSI18000584 V1 EN-US Figure 16: 1-phase VT connections 6.13 System response GUID-75759610-00B1-44EE-A8D5-DC31969CC915 v1 For detailed information about setting and configuration, see REB500 Technical Manual, section System response . 6.14 Activate/ deactivate device GUID-8EC20800-53B2-4754-AC2F-587628EBB38A v1 REB500 Commissioning Manual .
Page 41: Time
1MRK 511 452-UUS Rev. A Section 6 Settings 6.17 Time GUID-D1DB6E18-19C4-406A-817C-2864CC798C15 v1 For detailed information about setting and configuration, see REB500 Technical Manual, section Time synchronization and the specific subsection Additional settings . Distributed busbar protection REB500 Engineering manual © 2020 Hitachi Power Grids. All rights reserved...
Page 43: Tools
1MRK 511 452-UUS Rev. A Section 7 Tools Section 7 Tools File verification GUID-2BD22A5D-E6F2-4270-BAAC-B3B06EB8E2D8 v2 After starting the File verification tool, the content, structure and completeness of the REB500 setfile is checked. This test routine shall be started after the setfile configuration has been completed. Once the test run is finished, the HMI500 menu shows the test result.
Page 44: Export Scs Data
Section 7 1MRK 511 452-UUS Rev. A Tools Export SCS data GUID-12267C3B-0001-4923-9A7F-C7F490ECDE23 v1 For detailed information about setting and configuration, see REB500 Operation Manual, section Export SCS data . Export Bay Model catalogues GUID-D48C80C1-58D0-43A8-9DB0-F595A3C9F146 v1 The setfile engineer can save (export) a Bay Model catalogue in the PDF file format at any time. Depending on a selection, this catalogue contains Bay Models from the Base model database, or the User model database.
Page 45: Bay Model Viewer
1MRK 511 452-UUS Rev. A Section 7 Tools IEC18000587-IEC18000587-1-en.vsdx IEC18000587 V1 EN-US Figure 19: Default values In this window, the default values common for all bays can be adjusted (the adjustment has a system global validity). If the entries are made during the initial setfile configuration phase (prior to the Bay Model engineering under the window single-line diagram), they are active for the further configuration process.
Page 46: Operator Mode
Function of selections Selection Function Preview of Base bay models(created by ABB) Preview of User bay models (created by users) Table of bay models: The content of this table depends on the selection S1/S2. By selecting one table row (one Bay Model) with a left mouse click, the Bay Model viewer provides a preview of the single-line diagram as well as a short description.
Page 47: Settings
1MRK 511 452-UUS Rev. A Section 7 Tools ANSI18000288 V1 EN-US Figure 21: Change over from Configurator mode to Operator mode Settings GUID-BAC41B41-8392-49C3-86F5-A23684D5137C v1 REB500 Operation Manual, section For detailed information about setting and configuration, see Settings . Distributed busbar protection REB500 Engineering manual ©...
Page 49: Annex A | Configurator Mode - Definitions
1MRK 511 452-UUS Rev. A Section 8 Annex A | Configurator mode - Definitions Section 8 Annex A | Configurator mode - Definitions GUID-A7A2496D-6635-4F72-9217-F1AF44852B8B v2 Distributed busbar protection REB500 Engineering manual © 2020 Hitachi Power Grids. All rights reserved...
Page 50: Setfile
Section 8 1MRK 511 452-UUS Rev. A Setfile Setfile GUID-AB127468-2751-4BD3-B405-D693381202C5 v2 IEC18000341 V1 EN-US Section Distributed busbar protection REB500 Engineering manual © 2020 Hitachi Power Grids. All rights reserved...
Page 51: Configuration Models (1)
1MRK 511 452-UUS Rev. A Section 8 Annex A | Configurator mode - Definitions Configuration models (1) GUID-817BCAF9-EB57-4626-B854-D963FA2D098B v3 Bay Model → (BM) The Bay Model is a logical image representing the complete configuration of a bay in a REB500 setfile. It contains the Bay Figure and the Bay Unit Model. Bay Figure →...
Page 52: Configuration Models (3)
Section 8 1MRK 511 452-UUS Rev. A Annex A | Configurator mode - Definitions Configuration models (2) GUID-FF31106B-B069-4A67-A0A4-DA6D0298D52A v3 Bay Model containing more than one Bay Figure A Bay Model can contain more than one Bay Figure (for example, a feeder bay + bus section disconnectors), while only one Bay Unit Model (one Bay Unit) is used.
Page 53 1MRK 511 452-UUS Rev. A Section 8 Annex A | Configurator mode - Definitions Configuration models (3) GUID-0898CF32-0B9D-4519-9DB1-9E05EF2B64C9 v3 Bay Model containing more than one Bay Figure AND more than one Bay Unit Model This type of Bay Model, is called Multiple Bay Model (MBM). ➢...
Page 54: Bay Figure (Bf)
Section 8 1MRK 511 452-UUS Rev. A Annex A | Configurator mode - Definitions Bay Figure (BF) GUID-67242FB2-62F0-4757-AF7C-0E579ABECD15 v3 Bay Figure BF The bay figure is a part of the single-line diagram. It contains the Bay Objects (BO) as well as Bay Topology BT Bay Objects BO the Bay Topology (BT).
Page 55: Bus Interconnections (1)
1MRK 511 452-UUS Rev. A Section 8 Annex A | Configurator mode - Definitions Bus interconnections (1) GUID-74BAF243-DBED-4E7A-ADA5-104E131B70EF v3 Bus Interconnections The (logical) connections between adjacent Bay Models (adjacent Busbar Connectors. If the number of bus connectors of adjacent Bay Models is identical, these interconnects are automatically added by the tool =Line 01...
Page 56: Bus Interconnections (2)
Section 8 1MRK 511 452-UUS Rev. A Annex A | Configurator mode - Definitions Bus interconnections (2) GUID-C24C8E53-7F36-4090-92AB-D0CEAB145EAD v3 If the number of Bus Connectors of adjacent Bay Models is not identical (for example, single bus and double bus Bay Models within the same single-line diagram), Bus Interconnections have to be added manually.
Page 57: Annex B | Configurator Mode - System Configuration
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration Section 9 Annex B | Configurator mode - System configuration GUID-86AFE642-693E-4673-AEEB-583AAB379836 v2 Preparations (1) GUID-68BFB64E-1F1E-4671-B50D-0D7ADB67D904 v2 Ordering code for Central Unit Ordering code for Central Unit Ordering code for Central Unit Ordering code for Bay Unit Ordering code for Bay Unit...
Page 58: Preparations (2)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration Preparations (2) GUID-FB4B3E00-72D5-46D2-BBF1-648C5AD6FCDB v3 Single-line Diagram It is mandatory for the configuration of a setfile to have a binding single-line diagram of the substation (latest version). The bus image implemented in the REB500 system will be based on this diagram.
Page 59: Start Hmi500
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration Start HMI500 GUID-D1ECA4E4-F3E6-4AA0-B923-4BA871AAA180 v2 Starting HMI500  Configurator mode For the setfile configuration, the HMI500 has to be started under the Configurator mode. HMI500 Setfile Editor Under the setfile editor, the complete system configuration (setfile) can be configured.
Page 60: Sequence Of Configuration
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration Sequence of configuration GUID-06B24AFF-D8CE-4B68-A959-CA4E5E67E604 v2 Sequence of configuration As a guideline for the sequence of work items, the setfile engineer can follow the sequence of menu items.
Page 61: Start Configuration - File-New (1)
GUID-991B7F63-BDD5-425E-AEC8-82AA43F88365 v2 (1) File New… Create a new setfile (2) File name Save the new setfile under a new file name. The ABB System Number shall be used for the file name (5221 in this example). IEC18000831 V1 EN-US Section 4.1 Section 4.1.1.
Page 62 Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration Start configuration - File-New (2) GUID-55AD2BD9-43E3-46F2-AC5E-DAC9505ED01F v2 Default system settings After pressing the Save button, three windows containing the basic (default) system settings will appear: 1.
Page 63: Initial (Default) Settings (1)
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration Initial (default) settings (1) GUID-E9DE260C-C724-4CB3-92D9-0D0A9D65B506 v2 Licensed components The licensed components (protection functions) shall be activated under this section. After the OK, or Apply button is pressed, the sub-menu items of the selected (licensed) protection functions become visible under the main menu Settings.
Page 64: Initial (Default) Settings (2)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration Initial (default) settings (2) GUID-2B389032-7C6C-4E6A-ACBA-259E7B78F7C4 v2 Plant data/ Busbar data The busbar specific data shall be entered under this window: (1) Rate voltage ' Busbar voltage ph-ph (2) Rated frequency (3) Grounding ' Network grounding (4) Busbar ' Busbar configuration...
Page 65: Initial (Default) Settings (3)
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration Initial (default) settings (3) GUID-F223C83F-65A7-4B21-ACB2-2B947AFA8005 v2 General The default values are valid for the complete protection system. If the entries are made during the initial setfile configuration phase (prior to the Bay Model engineering under the window Single-line diagram), they are valid for the further configuration process.
Page 66: Initial (Default) Settings (4)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.10 Initial (default) settings (4) GUID-AB11128F-B14D-435A-86C1-463AF48F2BB2 v2 Disturbance recorder licence The default values are valid for the complete protection system. Max. recording time This disturbance recorder provides two options for the setting of the recording time ...
Page 67: Communication (1)
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.11 Communication (1) GUID-F9ADBAE8-3820-4A19-B648-55A1296E46D7 v2 SCS Configuration The default setting is no interface. Under th setting, no protocol specific settings are visible. If an inter-bay bus (IBB) is selected, the particular protocol specific settings are visible.
Page 68: Communication (2)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.12 Communication (2) GUID-37941409-D6E7-4DB3-8459-05BDB5590661 v2 SCS Diff Current Parameters The settings shall be worked over only after the configuration of single-line diagram has finished. For detailed information about SCS Diff Current Parameters setting, see REB500 Communication Protocol Manual, IEC 61850...
Page 69: Sld-Conf - Start
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.13 SLD-CONF - Start GUID-5BBDF823-4C12-44BC-8BB2-93F0E0A3CAED v2 Configuration of the single-line diagram  SLD-CONF (1) Model Mode (2) Import model from database (DB) First model to be inserted into the single-line Before starting SLD-CONF, select Model diagram (SLD) with the button Copy Bay Model.
Page 70: Sld-Conf Select Bm (1)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.14 SLD-CONF Select BM (1) GUID-DB7EAD24-5A59-44FF-ACBF-870009C593A5 v3 Now, the Select Bay Model window appears. ANSI18000840 V1 EN-US Section 5.5.3. Distributed busbar protection REB500 Engineering manual ©...
Page 71: Sld-Conf - Select Bm (2)
(2) Filter selection... first bay of the single-line Use Base Bay Models This selection filters the Base Bay diagram. (Models created by ABB) for Models according to the number of (4) Press OK. the BM selection. busbars (see settings made under Plant data →...
Page 72: Sld-Conf - Select Bm (4)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.16 SLD-CONF — Select BM (3) GUID-64DD32F2-7DCE-47ED-BFA4-957F86F875D8 v3 (1) Select BM from table The 'Bay model import options' menu appears now, providing the following selection items: →...
Page 73 1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.17 SLD-CONF — Select BM (4) GUID-6E2978E7-11F2-45E7-A252-97F4C09C0045 v3 Now, the first Bay Figure is imported into the single-line diagram. ANSI18000843 V1 EN-US Distributed busbar protection REB500 Engineering manual ©...
Page 74: Sld-Conf - Adjust Bm (1)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.18 SLD-CONF — adjust BM (1) GUID-D92282C9-E7D9-478D-9191-342D7ED33C47 v3 Note: While inserting the Bay Figure into the single-line diagram, the HMI500 tool has implemented the complete Bay Model under the related Menus automatically.
Page 75: Sld-Conf - Adjust Bm (2)
Note: Before duplicating the (first) Bay Model, it is recommended to work over the bay specific configuration and settings (menus) with the user (client) setting values (if different from ABB default setting). Setting menus Menu Configuration-Device structure (hardware object) Menu Configuration-Binary module (I/O signals/ configuration)
Page 76: Sld-Conf - Export Bm (1)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.20 SLD-CONF — export BM (1) GUID-101BAFAB-B6F3-4CB9-B93C-3FDA543B1537 v3 Now, the BM, which is custom made for a line bay can be copied to the user model database (template database).
Page 77 1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.21 SLD-CONF — export BM (2) GUID-DD8E11A1-7F07-4318-8B92-7A5EA6398258 v3 (1) Define a BM name. (2) Provide a BM description. (3) Press OK to write the BM to the user model database.
Page 78: Sld-Conf - Export Bm (3)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.22 SLD-CONF — export BM (3) GUID-06E59B02-4BE0-4A93-9318-83098F1E2F70 v3 Now, the typical Bay Model My Line 380kV, which is saved under the user model database is finished. Note: The user model database and consequentially the Bay Model My Line 380kV can also be used for other stations.
Page 79: Sld-Conf - Typical Bays (1)
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.23 SLD-CONF — typical bays (1) GUID-5E5C0425-6D0F-4B68-9131-D7C59100A6FE v3 Configuration steps from Configuration steps from   8.14 SLD-CONF → Select BM (1) 8.14 SLD-CONF → Select BM (1) 8.22 SLD-CONF →...
Page 80: Sld-Conf - Typical Bays (2)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.24 SLD-CONF — typical bays (2) GUID-6B80FE3B-0CCB-4665-BA44-3B2D3BD95913 v2 The User Bay Model database contains each typical bay of the station now. IEC18000850 V1 EN-US Distributed busbar protection REB500 Engineering manual ©...
Page 81: Sld-Conf - Completion Of Single-Line Diagram
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.25 SLD-CONF — completion of single-line diagram GUID-7D58F271-2EB4-4A9E-A9AD-4C91611AEEE5 v3 Now, the single-line diagram shall be completed step by step by importing the typical Bay Models from the User Bay Model database.
Page 82: Sld-Conf - Bus Labels (1)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.27 SLD-CONF — Bus labels (1) GUID-DF3E5306-8B79-4EAF-961D-1AA1A873B56C v3 After all Bay models have been imported to the SLD, the busbar labels shall be made visible. (1) Select a Busbar Connector After a left mouse click the connector point is highlighted in...
Page 83: Sld-Conf - Bus Labels (2)
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.28 SLD-CONF — Bus labels (2) GUID-3896871F-1800-4693-A547-8F400A37D261 v3 Now, the Bus Label is visible. It is recommended to make all necessary Bus Labels visible now. Note: At least one Bus Label should be visible at the end of each zone.
Page 84: Sld-Conf - Labels (1)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.29 SLD-CONF — Labels (1) GUID-E013E5AA-1B61-45E3-AEC6-4A60631874DA v3 Each text (caption) of the single-line diagram can be worked over by the user. (1) Select a label (2) Change label (3) New label With a right mouse click, the...
Page 85 1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.30 SLD-CONF — Labels (2) GUID-E14D2549-22BD-47FB-B6FF-08056C0C90C1 v3 Note: The single-line diagram configured in the Note: The single-line diagram configured in the REB500 setfile should now reflect the single-line REB500 setfile should now reflect the single-line diagram of the station.
Page 86: Sld-Conf - Bus Zone Assignment (1)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.31 SLD-CONF — Bus zone assignment (1) GUID-94ACBEC7-7838-4AF5-838D-82390F51F8A0 v3 (1) Process bus zones mode After the configuration of the single-line diagram is finished, switch over to the process Process bus zones mode.
Page 87: Sld-Conf - Bus Zone Assignment (2)
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.32 SLD-CONF - Bus zone assignment (2) GUID-48883315-F0A3-40F6-9B8E-B2BEC1BD7D0B v3 Check Bus zone assignment After pressing this button, the software checks whether the bus zone assignment is completed or not.
Page 88: Sld-Conf - Bus Zone Assignment (3)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.33 SLD-CONF — Bus zone assignment (3) GUID-84006325-F3A6-4ACB-8AF6-13E84E6702AD v3 Reassign Buszones Press button Reassign Buszone only if the assignment made by the system is incomplete. Warning: If the bus zones reassignment process is started with the button "Reassign Buszones", the configurator tool also performs the reassignment of the bus zone related signals (I/Os) in the background.
Page 89: Cu Device Creator (1)
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.34 CU device creator (1) GUID-2B881384-B924-4FAE-A98E-0C398157C0E7 v2 CU device creator After the basic setfile configuration, the single-line diagram and the bay configuration are completed, the design wizard for the Central Unit (CU) shall be started.
Page 90: Cu Device Creator (2)
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.35 CU device creator (2) GUID-B427F50D-C0B0-414F-80C5-A7B19E713AE9 v2 The Build Process creates a new CU including the specified hardware options:  Redundant power supply on CU (or not) ...
Page 91: Cu Device Creator (3)
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.36 CU device creator (3) GUID-8A0D092A-3025-447E-B997-90C429711DB5 v2 Network Additionally to the CU device, the Build Process defines the device allocation of the REB500 process bus (network) including the Device IDs of the Bay Units.
Page 92: Device Structure
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.37 Device structure GUID-92A39321-7849-43B7-AD65-1DDAAA8FE825 v2 Device structure Under the menu item Device Structure, the system generated device labels of the CU and the Bus can be worked over with client specific labels.
Page 93: File Verification
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.38 File verification GUID-82785E56-AF1B-4EFA-94EB-429EB3F48FE5 v2 File verification After the configuration of the setfile has been completed, it must be verified. The File verification tool checks the plausibility and completeness of the bus configuration, hardware-configuration and the assignments.
Page 94: Final Settings
Section 9 1MRK 511 452-UUS Rev. A Annex B | Configurator mode - System configuration 9.39 Final settings GUID-67FBBE83-B861-4904-95CC-A0B3A4B4638B v2 Final adjustment of the setting menus The settings shall be changed, if the default values generated by the configurator tool are not in accordance with the station parameters. IEC18000865 V1 EN-US Section Distributed busbar protection REB500...
Page 95: Completed Setfile
1MRK 511 452-UUS Rev. A Section 9 Annex B | Configurator mode - System configuration 9.40 Completed setfile GUID-FF9D24F9-4E51-4082-BDD4-F0D1A09176C6 v2 The setfile is now ready for a download to the protection system REB500 (target). A download can be realized under the HMI500 Operator mode only. Setfile xxxxxx.mdb IEC18000866 V1 EN-US...
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