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(eay@cryptsoft.com) and Tim Hudson (tjh@cryptsoft.com). Trademarks ABB is a registered trademark of ABB Asea Brown Boveri Ltd. Manufactured by/for a Hitachi Energy company. All other brand or product names mentioned in this document may be trademarks or registered trademarks of their respective holders.
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Disclaimer The data, examples and diagrams in this manual are included solely for the concept or product description and are not to be deemed as a statement of guaranteed properties. All persons responsible for applying the equipment addressed in this manual must satisfy themselves that each intended application is suitable and acceptable, including that any applicable safety or other operational requirements are complied with.
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Conformity This product complies with the directive of the Council of the European Communities on the approximation of the laws of the Member States relating to electromagnetic compatibility (EMC Directive 2004/108/EC) and concerning electrical equipment for use within specified voltage limits (Low-voltage directive 2006/95/EC).
1MRK 500 132-UUS Rev. B Table of contents Table of contents Section 1 Introduction......................5 This manual..........................5 Intended audience........................5 Product documentation....................... 5 Revision history........................... 5 Symbols and conventions......................6 1.5.1 Symbols.............................6 1.5.2 Document conventions......................6 Section 2 Safety information....................7 Section 3 System overview....................9 Section 4 HMI500.......................
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Table of contents 1MRK 500 132-UUS Rev. B 4.5.8 Event list..........................30 4.5.8.1 Classification of events.......................30 4.5.8.2 Load events........................31 4.5.8.3 Deleting events........................31 4.5.8.4 Deleting the PC list......................31 4.5.8.5 Deleting the system list...................... 31 4.5.8.6 Deleting events that have been viewed................32 4.5.8.7 System events when starting.....................
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1MRK 500 132-UUS Rev. B Table of contents 4.6.8 Disturbance recorder.......................62 4.6.8.1 Analogue inputs........................62 4.6.8.2 Recording........................... 63 4.6.8.3 Signals..........................64 Settings menu........................... 68 Testing menu..........................68 4.8.1 Test mode..........................68 4.8.1.1 Using the test generator..................... 70 4.8.1.2 Shutting down the test generator..................70 4.8.2 Installation mode........................
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Table of contents 1MRK 500 132-UUS Rev. B Test Trip.............................86 5.6.1 Configuration........................... 86 5.6.2 Usage............................87 Section 6 Web HMI......................95 Introduction..........................95 Accessing the WebHMI......................95 Section 7 Troubleshooting....................97 Safety Instructions........................97 List of faults and corrective actions................... 97 7.2.1 Useful LEDs on the IEDs and switches...................97 7.2.1.1 Switches..........................
1MRK 500 132-UUS Rev. B Section 1 Introduction Section 1 Introduction This manual GUID-F75BF69E-71BD-4EC9-BC62-53C305751B68 v2 The operation manual contains instructions on how to operate the IED once it has been commissioned. The manual provides instructions for monitoring, controlling and setting the IED. The manual also provides troubleshooting instructions.
Section 1 1MRK 500 132-UUS Rev. B Introduction Symbols and conventions 1.5.1 Symbols GUID-4F7DD10A-DEE5-4297-8697-B8AAB5E3262F v2 The electrical warning icon indicates the presence of a hazard which could result in electrical shock. The warning icon indicates the presence of a hazard which could result in personal injury.
1MRK 500 132-UUS Rev. B 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. Use the busbar protection system only when it is in perfect working order and in strict accordance with the operating instructions.
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Section 2 1MRK 500 132-UUS Rev. B Safety information 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. There is a danger of contact with live parts when opening REB500 cubicle doors.
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Section 3 1MRK 500 132-UUS Rev. B System overview The digital busbar protection REB500 is divided into several hardware units. Bay units measure the line and bus-tie breaker currents and may be installed close to the respective CTs. They communicate with the central unit via a process bus.
1MRK 500 132-UUS Rev. B Section 4 HMI500 Section 4 HMI500 Introduction GUID-CF45303F-BE8E-4D68-A70A-66D8FDE2C023 v3 This section describes the human/machine interface (HMI) for the protection systems REB500. For a detailed explanation of signals and parameters, see Technical manual. For a description of fault finding actions, see Section 7.
Section 4 1MRK 500 132-UUS Rev. B HMI500 directory. Clicking Next starts the installation. An HMI500 directory and program icon HMI500 x.xxll are created in the Windows start menu, x.xx signifying the program version and ∣∣ the language. Insert the Product media into a suitable port. Select the Product medias directory, which is labeled Relion®...
1MRK 500 132-UUS Rev. B Section 4 HMI500 When the HMI500 software establishes communication with a REB500 system initially user must enter a password. For details about security management, passwords, and security options, see Cyber security Deployment Guideline. HMI500 obtains the specific device data from a database in a file, which is stored both in the PC and the protection system.
Section 4 1MRK 500 132-UUS Rev. B HMI500 In many dialog boxes for setting parameters, there are two tabs: • Overview: Lists all bays and enables selecting one. • Details: Shows the settings. You can view the details of a bay by double-clicking on the bay in Overview or by selecting the bay and clicking Details.
1MRK 500 132-UUS Rev. B Section 4 HMI500 Table 3: Status bar content Field Content Description Configurator Indicates that configurator mode is active (no target communication possible). Operator Indicates that operator mode is active (target communication possible). Online Successfully established contact with the protection system. Offline No connection to protection system.
Section 4 1MRK 500 132-UUS Rev. B HMI500 4.4.1 Download to protection system GUID-0605665D-8046-4405-9B1E-A337AA64F876 v2 12000075-IEC18000291-1-en.vsdx IEC18000291 V1 EN-US Figure 5: Download to protection system and comparison of versions Before downloading proceeds, the tool compares and displays the versions of the new database with the one in the protection system.
1MRK 500 132-UUS Rev. B Section 4 HMI500 13000078-IEC18000455-1-en.vsdx IEC18000455 V1 EN-US Figure 6: Download to protection system Various check sums are calculated to establish the integrity of the data in the database and these are examined after the transfer of data has been completed. Only after all the data have been successfully transferred they are saved in the non-volatile memory.
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1MRK 500 132-UUS Rev. B Section 4 HMI500 ANSI18000489 V1 EN-US Figure 8: Typical Single-line diagram The name of every item of a plant can be changed by pointing at its symbol and clicking the right mouse button. This opens the Change label context menu to open the corresponding dialog box. After entering the new name, click OK to confirm.
Section 4 1MRK 500 132-UUS Rev. B HMI500 ANSI18000490 V1 EN-US Figure 9: Updated single-line diagram 4.5.2 Protection zone measurements GUID-514CE160-B685-4E58-86EB-DEBAEB29FAB3 v2 This dialog displays the actual values of measured variables for each protection zone (restrained differential current of the bus bar protection function). The protection zones are determined by the positions of the disconnectors and the bus-tie breakers (bus bar image).
1MRK 500 132-UUS Rev. B Section 4 HMI500 12000082-IEC18000491-1-en.vsdx IEC18000491 V1 EN-US Figure 10: Overview dialog box for protection zone measurements 4.5.2.2 Detailed view GUID-301FB47F-D83F-41B9-AFFB-214ADDA97AFC v1 The feeders assigned to individual protection zones are listed in the detailed views of the relevant zones. The differential current, the restraint current and the stability factor are also displayed.
Section 4 1MRK 500 132-UUS Rev. B HMI500 12000083-IEC18000492-1-en.vsdx IEC18000492 V1 EN-US Figure 11: Detailed view of measurements per zone 4.5.3 Analogue input measurements GUID-919DCC8A-A548-4AD2-BA0A-F36F803CB869 v3 The bay units and their labels are listed in the Overview dialog box. To display the values of measured variables select a device (row) and click on Open measurements window, or double-click on the device (row).
1MRK 500 132-UUS Rev. B Section 4 HMI500 12000084-IEC18000493-1-en.vsdx IEC18000493 V1 EN-US Figure 12: Overview dialog box for protection zone measurements 4.5.4 Binary input/output status GUID-D5F5545E-8D65-47CB-B46D-9EE0003FBE4C v3 The binary inputs and outputs are listed in the overview dialog together with their bay labels (see Figure 13).
Section 4 1MRK 500 132-UUS Rev. B HMI500 12000085-IEC18000494-1-en.vsdx IEC18000494 V1 EN-US Figure 13: Binary input/output status The signals assigned to each physical channel while configuring the binary inputs/outputs are displayed in the status window. Channels to which no signals were assigned are marked No signal assigned. Closing the overview window closes all the status windows as well.
Section 4 1MRK 500 132-UUS Rev. B HMI500 12000087-IEC18000496-1-en.vsdx IEC18000496 V1 EN-US Figure 15: Protection zone circuit breakers, detailed view These circuit breakers are intertripped, for example, in the event of a busbar fault in the respective protection zone. 4.5.7 Disturbance recorder GUID-2210794F-CB7C-4047-B17D-9CDA89275198 v2 A disturbance recorder is integrated in every bay unit and in the central unit of the system.
1MRK 500 132-UUS Rev. B Section 4 HMI500 4.5.7.1 Overview GUID-7682EBC7-A56D-4519-9056-1FFB7304671E v3 12000089-IEC18000497-1-en.vsdx IEC18000497 V1 EN-US Figure 16: Disturbance recorder overview This tab displays the number of records and the current status of the devices. The column Bays indicates the bay names of the individual records. The record of the central unit can be seen from the bays entry CU01.
Section 4 1MRK 500 132-UUS Rev. B HMI500 Open detailed views (button Open window) Start recording Upload records from selected disturbance recorders (Transfer disturbance records to computer) Delete all records from all disturbance records 4.5.7.2 Upload disturbance recorder records GUID-7889B237-A144-45B5-8DE8-9CEA5A3FD305 v2 12000090-IEC18000498-1-en.vsdx IEC18000498 V1 EN-US Figure 17:...
1MRK 500 132-UUS Rev. B Section 4 HMI500 12000091-IEC18000499-1-en.vsdx IEC18000499 V2 EN-US Figure 18: Disturbance recorder detailed view The following data are displayed: • Status (defined in the overview) • Number of records available • Number of free records • Sampling frequency (see Section 4.6.8)
Section 4 1MRK 500 132-UUS Rev. B HMI500 Item Description Miliseconds of the recording (Trigger time) Station number (1-999) nnnnn Fault number (0-65535) The name of the file can be changed if the records are transferred manually. 4.5.8 Event list GUID-A88B62AD-8C4C-4062-B978-1B9837159D2C v1 Protection system events are shown in chronological order.
1MRK 500 132-UUS Rev. B Section 4 HMI500 4.5.8.2 Load events GUID-21DC09EF-0F2E-4C79-8D38-A498B321E197 v2 The protection system has an event memory for every unit (central unit and bay units). To upload the latest events to the PC, open the View menu and select Event list. This opens the Event list dialog box (HMI500 must be in the on-line mode).
Section 4 1MRK 500 132-UUS Rev. B HMI500 4.5.8.6 Deleting events that have been viewed GUID-813EA8CE-1752-4529-818B-6B3588D3133B v1 All the protection events viewed since opening the window are deleted. 4.5.8.7 System events when starting GUID-356B984A-1051-45DC-B9BF-951C29388AA3 v1 A number of system signals that are generated when starting the system are recorded as events. Up to the instant that system clocks are automatically synchronized, events may have an incorrect date and time.
In this window, all the event signals configured in the REB500 are displayed. For each event signal a user specific text can be configured (32 characters). The user can sort the list as per ABB reference or the standard text. LHMI LED…...
Section 4 1MRK 500 132-UUS Rev. B HMI500 4.6.1.2 SCS Diff Current Parameters GUID-823DD457-B9D4-45B1-B2FB-8356D3D15CFE v2 12000190-IEC18000536-1-en.vsdx IEC18000536 V1 EN-US Figure 22: Configuration/ Communication/ SCS Diff Current Parameters This input mask contains the parameters for sending differential current to station control system (SCS). Specific setting for bus zones is possible.
Device structure GUID-7B9E243A-CAAC-4EBF-8914-C94DECD19692 v1 The device structure is configured by ABB when engineering the system. This dialog box is only for information as the configuration cannot be changed. The Overview tab lists the central unit and all the bay units along with their device label and device type.
Table 8: Binary inputs/outputs overview columns Column Description ABB ref. Internal designation for the bay or central unit Feeder in which the bay unit is located, user’s label for the bay Device IED device label...
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1MRK 500 132-UUS Rev. B Section 4 HMI500 The combo box is used to select a new value for the auxiliary supply voltage (battery voltage). In the matrix below, all the input signals assigned to the device are listed. Delete a Signal: Select a row in the list and click the button Delete. Optocoupler event configuration: Select a column (for example, OC08) and click the button OC event config.
Section 4 1MRK 500 132-UUS Rev. B HMI500 13000006-IEC18000539-1-en.vsdx IEC18000539 V1 EN-US Figure 27: Configuration/Binary module - Bay unit inputs 4.6.3.4 Inputs Details tab GUID-970A738B-8B20-45BC-B6D6-6C4E4FAA3426 v2 1300007-IEC18000551-1-en.vsdx IEC18000551 V1 EN-US Figure 28: Configuration/ Binary module/ Inputs/ Details Signal allocation GUID-BE8D8C6F-CF67-40DB-9EDB-5C8F39272C5B v2 The Details dialog box provides facility for allocating optocoupler inputs to the logical input signals and the event memory of every input/output.
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1MRK 500 132-UUS Rev. B Section 4 HMI500 The abbreviations C.x and O.x denote the CLOSE and OPEN auxiliary contacts on the disconnector or circuit breaker respectively as they appear in the Details dialog box. Where an disconnector or a circuit breaker is only equipped with a single auxiliary contact, the One auxiliary contact mode must be selected.
Section 4 1MRK 500 132-UUS Rev. B HMI500 Clicking on the arrow to the right of the Signal type field opens a list of available signals. The effective list depends on the functions ordered by the user. The list can include as a maximum the following groups: •...
1MRK 500 132-UUS Rev. B Section 4 HMI500 4.6.3.6 Outputs Overview tab GUID-DEDABA49-152E-46C5-AD22-9575930BB534 v3 13000008-IEC18000540-1-en.vsdx IEC18000540 V1 EN-US Figure 30: Configuration/ Binary module/ Outputs/ Overview – CU 13000009-IEC18000541-1-en.vsdx IEC18000541 V1 EN-US Figure 31: Configuration/ Binary module/ Outputs/ Overview – BU The overview of the BU outputs shows which signals are assigned to which output relays.
Section 4 1MRK 500 132-UUS Rev. B HMI500 Tripping commands: • 21105_EXTERNAL TRIP • 21110_TRIP • 23105_BFP TRIP • 25105_OCDT TRIP • 27105_PDF TRIP The remaining signals and all the CU signals are control signals. It is recommended to configure tripping signals for operating circuit breakers either to latch or to operate with a reset delay of at least 100 ms.
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1MRK 500 132-UUS Rev. B Section 4 HMI500 13000011-IEC18000543-1-en.vsdx IEC18000543 V1 EN-US Figure 33: Configuration/ Binary module/ Outputs/ Details - BU Signal delay GUID-41CE6D0A-6FEA-446B-9851-D4D4C55BEC22 v1 Every output signal can be configured either to latch (until reset by a signal) or to have a defined reset delay.
Section 4 1MRK 500 132-UUS Rev. B HMI500 4.6.4 GOOSE input support GUID-795EC0C6-BFA9-4B81-A78A-87B7F499DEDB v3 GOOSE indications from protection IEDs can be used as input signals for REB500 functions. 4.6.4.1 Applications for GOOSE input signals GUID-F08B47D8-573B-4BAC-A236-290759A74931 v1 Breaker and disconnector position signals (bus image) Normally, the OPEN/CLOSED auxiliary contacts of the disconnector and circuit breakers are wired to optocoupler inputs of the respective bay units, to be used for the system internal bus image.
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1MRK 500 132-UUS Rev. B Section 4 HMI500 IEC 61850-8-1 SAS / SMS Switch Stationbus 12 13 14 15 ß Trip GOOSE HMI500 1001 REB 50 0 Rea dy Star t T rip Switch Processbus REB 500 Clea r Me nu Help REB 500 CU 1005...
Section 4 1MRK 500 132-UUS Rev. B HMI500 Table 9: Explanations of information flow using GOOSE as input for BFP initiating Step Description Fault on line side. The line protection IED detects a fault, issues a trip command to the CB and indicates the issued trip on the station bus by GOOSE.
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1MRK 500 132-UUS Rev. B Section 4 HMI500 Table 10: GOOSE engineering process Step REB500 System Remark configuration tool engineering tool HMI500 Pre-configuration: Enabling GOOSE Client (see Figure • REB500 System must be configured • System name must be defined •...
Section 4 1MRK 500 132-UUS Rev. B HMI500 Step REB500 System Remark configuration tool engineering tool HMI500 Final configuration: Figure The assignment of GOOSE data attributes from selection list Unassigned GOOSE data attributes to REB500 input signals is made Download the CCF creator uses the information of the Station configuration configuration to the description (SCD) and of the REB500 configuration to create the...
Section 4 1MRK 500 132-UUS Rev. B HMI500 4.6.4.4 Export IID/CID file GUID-44D7F50A-519B-4ADB-862E-DE6586E90D3B v1 The configuration file which is passed to the system configuration tool can be created from the Tools/ Export SCS data menu. The Export button starts the export. 15000039-IEC18000559-1-en.vsdx IEC18000559 V1 EN-US Figure 37:...
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1MRK 500 132-UUS Rev. B Section 4 HMI500 15000028_2-IEC18000553-1-en.vsdx IEC18000553 V1 EN-US Figure 39: Configuration/ SCS Configuration/ IEC 61850-8-1 options Once the SCD file is imported to the HMI500, the Import GOOSE data attribute button changes the text label to Delete GOOSE data attributes. A successful import is indicated by the GOOSE data attributes imported message box.
Section 4 1MRK 500 132-UUS Rev. B HMI500 To simplify GOOSE engineering in REB500, the import of GOOSE signals is limited to specific logical nodes (for example, PTRC). 4.6.4.6 GOOSE input mapping GUID-412DEE24-DC4A-4536-9699-43BC440EBEC2 v2 This section describes the configuration process of GOOSE input mapping in HMI500 menu Configuration /Binary Module/Inputs /Details.
Menu Items Description Unassigned GOOSE REB500 Internal designation for the bay or central unit. Attribute – ABB Ref Unassigned GOOSE Full name of the GOOSE data attribute. The full name comprises: Attribute – External IED name, Logical Device Instance, Prefix, Logical Node Class, logical...
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Section 4 1MRK 500 132-UUS Rev. B HMI500 IEC61850-8-1 SAS / SMS Switch Stationbus Trip GOOSE à HMI500 REB50 0 Rea dy Star t T rip Switch Processbus REB500 Teleprotection Clea r Me nu Help REB500 CU ß GOOSE Event Intertripping à...
1MRK 500 132-UUS Rev. B Section 4 HMI500 Step Description The high priority event is mapped to IEC 61850 LN PTRC and PSCH respectively. If a GOOSE control block has been mapped to the trip signals then GOOSE messages are sent according to the definition.
1MRK 500 132-UUS Rev. B Section 4 HMI500 18000081-IEC19000203-1-en.vsdx IEC19000203 V1 EN-US Figure 45: Configuration / SCS Configuration – IEC 61850-8-1 options / GCB configuration Fields of the GOOSE control blocks are used according to IEC 61850-7-2 and IEC 61850-8-1. Table 14: GCB configuration Menu Items Menu items...
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Section 4 1MRK 500 132-UUS Rev. B HMI500 For all mapped signals the name of the GCB Name is listed in the GOOSE column in the Overview tab of the Binary module/ Outputs dialog box. The combined tripping signals are less flexible than the tripping logic of the Trip relays output assignment in the Details Tab of Configuration / Binary Module —...
In this window, all the event signals configured for REB500 are displayed. For each event signal, a user specific text can be defined (maximal 32 characters). The user can sort the list as per ABB reference or the standard text.
Section 4 1MRK 500 132-UUS Rev. B HMI500 12000118-IEC18000510-1-en.vsdx IEC18000510 V1 EN-US Figure 48: LMI LED configuration (List of units/ Print dialog box) 12000119-IEC18000511-1-en.vsdx IEC18000511 V1 EN-US Figure 49: Status LED on the LMI (LED Configuration dialog box) Under the Status LED on LMI dialog box, the number of the LED on the LMI is given in the ID column. 4.6.7.1 New signal GUID-ECF1D0AC-8EB2-4673-9716-A59622A57235 v3...
1MRK 500 132-UUS Rev. B Section 4 HMI500 In case of breaker and disconnector position signals only one position signal can be assigned. The caption, mode, color and active state configuration can be set once for each LED. 12000119-IEC18000511-1-en.vsdx IEC18000511 V1 EN-US Figure 50: New signal (list of available signals) 4.6.7.2...
Section 4 1MRK 500 132-UUS Rev. B HMI500 LED. All other (undefined) combinations of the binary input signals (0 0 or 1 1) are indicated by a yellow LED. The Status LED on LMI dialog box is saved by clicking OK. The dialog box LMI LED configuration is active again and a print of the LED labels can be started by clicking Print Labels now.
The overview shows all devices and their basic disturbance recorder configurations. A device is selected by clicking on it with the mouse. The column ABB ref. indicates an internal designation for the devices. The reference =ABB00 is always assigned to the central unit. The references =ABB01-xx are assigned to the bay units.
Section 4 1MRK 500 132-UUS Rev. B HMI500 • Number of records n: The maximum recording time available is divided by this setting into n equal time periods. For example, assuming 3 records have to be made, then 6.67 seconds each can be recorded.
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1MRK 500 132-UUS Rev. B Section 4 HMI500 Trigger operation GUID-5C0ABD53-F314-4D93-8387-87EC7FDB40CA v2 Recording commences when at least one of the triggering conditions is fulfilled. The trigger then remains disabled until the record has been completed and is then enabled again. You must therefore set the recording period such that all the signals you want to record can be recorded.
Section 4 1MRK 500 132-UUS Rev. B HMI500 Settings menu GUID-6B356153-BE7C-40D5-9AF6-F387CFC670EF v3 In general, the settings are described in the Technical Manual. Detailed explanations and examples can be found in the Application Manual. Table 16 provides pointers to the respective sections in the Technical Manual and in the Application Manual.
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1MRK 500 132-UUS Rev. B Section 4 HMI500 The test generator is used in conjunction with the Status of binary inputs/outputs dialog box (has to be opened by the operator), (see Section 4.5.4). When the test generator is active, the statuses of the tripping commands cannot change. 12000095-IEC18000502-1-en.vsdx IEC18000502 V1 EN-US Figure 57:...
Section 4 1MRK 500 132-UUS Rev. B HMI500 Blocking by the test generator takes precedence over all other functions, that is neither a protection function nor an External TRIP signal can initiate a trip. Unblocking by the test generator takes precedence over all other functions, that is blocking by an isolator alarm or differential current alarm or a signal applied to an optocoupler input is cancelled.
Reinitializes the protection (CU and all BU’s) Start debug mode In the debug mode, the protection system generates additional internal program events. As a rule, the debug mode is only used by the ABB engineering department for test purposes. Read Traceability information...
Version: X.YY, date of the last change, description The version is purely numerical, that is X (0...9) and Y (0...9). It is assigned by ABB while processing the contract and determined at the time the system is accepted by the user. The user cannot change it subsequently.
1MRK 500 132-UUS Rev. B Section 4 HMI500 4.9.3 Reports GUID-F7F7B2DA-519B-442C-986A-0123B50A0185 v1 12000100-IEC18000504-1-en.vsdx IEC18000504 V1 EN-US Figure 61: Reports The Reports dialog box is opened by selecting Reports in the Tools menu. It contains a list of the various kinds of reports. Either a desired report can be printed on its own or all the reports can be printed by activating the Print all reports check box.
Section 4 1MRK 500 132-UUS Rev. B HMI500 4.9.5 Settings GUID-DB508E6C-93A9-4A69-B7AB-1B49379BD4CD v1 4.9.5.1 HMI500 settings GUID-9430004F-C808-43F7-8AFE-A21685142EFE v1 Some of the operator program functions can be customized. 12000102-IEC18000505-1-en.vsdx IEC18000505 V1 EN-US Figure 62: HMI500 settings 4.9.5.2 Communication GUID-6B90A07B-BF93-4955-BB12-855A76CEDECD v2 Communication can be established with a REB500 system either via HMI front connector or via the station bus.
DRR viewer support (optional) GUID-05DC846E-9C93-4C2A-B190-01F14AA177DC v3 HMI500 automatically displays the DRR viewer support tab when Wavewin ABB is installed on the PC (the version H.G.24 installation file is available on REB500 Product media). Use Select viewer button to change WaveWin ABB’s installation path if it has been changed or select the installation path of E_wineve (if installed and preferred).
Section 4 1MRK 500 132-UUS Rev. B HMI500 4.9.11 Set system time GUID-2C1D0893-D2E7-4489-A171-671B515925FC v1 The system clock in the protection system is equipped with a standby battery and runs independently with an accuracy of 50 ppm (4.3 s per day) if not synchronized periodically by an external reference. In this case, this menu is used for setting the date and time of the protection system.
1MRK 500 132-UUS Rev. B Section 5 Local HMI Section 5 Local HMI Introduction GUID-04829693-552B-40F7-B7D5-BF6EEA5C75D7 v3 REB500 includes continuous comprehensive self-supervision and diagnosis of the software and hardware components. By setting up a proper signaling scheme while commissioning the system, most failures are signaled externally (see Section 4.6.3).
Section 5 1MRK 500 132-UUS Rev. B Local HMI 5.3.2 Viewing data on the local HMI GUID-AF72C1C6-5E25-40FE-B19B-E864125C01F6 v2 The local HMI provides a quick overview of the status of the protection (normal operation, alarms and trips) without having to connect a PC. It is fitted in every central unit and as an option in the bay units.
1MRK 500 132-UUS Rev. B Section 5 Local HMI Table 19: Local HMI Protection Indicator LEDs IEC label ANSI label Description green Ready Normal Flashes while the system is being initialized, not in service, permanently blocked. Continuously lit during normal operation. yellow Start Pick up...
Section 5 1MRK 500 132-UUS Rev. B Local HMI Button Name Purpose Clear Navigate to the view for clearing or acknowledging alarms, trips and LEDs. Multipage At first push it navigates to the alarm page. At second push it navigates to the alarm LED panel, which displays the text associated with the corresponding signalization LED on the right panel side.
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1MRK 500 132-UUS Rev. B Section 5 Local HMI • System response • Busbar protection • Configuration • LAN IP settings • Process bus • • IEC 61850 • System Information • Station Name • System frequency • DB Version •...
Section 5 1MRK 500 132-UUS Rev. B Local HMI • Busbar Protection • Breaker Failure Protection • Overcurrent Protection • End Fault Protection • Pole Discrepancy Protection 5.3.7.2 Menu structure of the bay unit GUID-AAD08CAD-2A2F-4DBB-A6C9-925236A5A7ED v2 • Menu Alarms • Trips •...
1MRK 500 132-UUS Rev. B Section 5 Local HMI • Test • LED Test • Test Trip • Diagnostic information • Product Identifiers • IEDProdType • Firmware Version • Serial Number • Production Date • Ordering Number • Order Code •...
Section 5 1MRK 500 132-UUS Rev. B Local HMI • Contacts blocked • Inspection/Maintenance • Inspection alarm • Auxiliary voltage failed • Trip transferred • Circuit breaker alarm • Isolator alarm • Test generator active • Contacts blocked • HW configuration mismatch •...
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1MRK 500 132-UUS Rev. B Section 5 Local HMI BFP TRIP T2: Current of each phase OCDT TRIP: Current PDF TRIP: Current EFP TRIP: Current EXTERNAL TRIP DIST TRIP: Zone (Zone 1,2,3,4, or Zone 5 for the final zone), impedance and fault location Further trip signal of Bay Protection (if existing) All these information can be seen in the trip list by navigation via the right and left arrow keys on the LHMI.
Section 5 1MRK 500 132-UUS Rev. B Local HMI The protection system and all signals can be reset by choosing Clear/Reset all latched LEDs and Lists on the LHMI, or equivalently by setting the signal 31810_External reset, for example, generated by pressing the RESET button.
1MRK 500 132-UUS Rev. B Section 5 Local HMI 18000068-IEC19000206-1-en.vsdx IEC19000206 V1 EN-US Figure 66: LHMI Test Trip Configuration per Circuit Breaker The current criteria can be enabled by selecting the Enable current criteria check box . The current criteria value can be set to a value between 0.05 and 1.0 in steps of 0.05. Changed configuration settings take effect after downloaded to the REB500 system (see Section...
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Section 5 1MRK 500 132-UUS Rev. B Local HMI 18000069-IEC19000207-1-en.vsdx IEC19000207 V1 EN-US Figure 67: LHMI Test Trip Menu The Test Trip menu can be entered by pressing the right arrow key, which opens first the logon window to authenticate the user (see Figure 68).
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1MRK 500 132-UUS Rev. B Section 5 Local HMI 18000074-IEC19000208-1-en.vsdx IEC19000208 V1 EN-US Figure 68: LHMI Test Trip Menu Initial Logon Window Only users assigned with the predefined roles Installer or Engineer, or any other role that includes the permission forceInOutputs@REB500 are allowed to enter the Test Trip menu.
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Section 5 1MRK 500 132-UUS Rev. B Local HMI 18000070-IEC19000209-1-en.vsdx IEC19000209 V1 EN-US Figure 69: LHMI Test Trip Logon Window In case of an unsuccessful user authentication, the logon window can be re-opened by pressing the Login key. After a successful login the Toggle Test Trip menu item is available, and can be executed by pressing the Enter key.
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1MRK 500 132-UUS Rev. B Section 5 Local HMI 18000071-IEC19000210-1-en.vsdx IEC19000210 V1 EN-US Figure 70: LHMI Test Trip inactive Every requested Test Trip change requires a confirmation by the user. A cancellation of the initiated change is possible by navigation with the right arrow key to the Cancel menu item and pressing the Enter key.
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1MRK 500 132-UUS Rev. B Section 5 Local HMI IEC19000212-IEC19000212-1-en.vsdx IEC19000212 V1 EN-US Figure 72: LHMI Test Trip active When the Test Trip state changes from OFF to ON , the tripping command 21120_EXT_TEST_TRIP is activated and depending on the binary output configuration see Tripping Command Section 4.6.3.6 a trip command is sent to the respective circuit...
1MRK 500 132-UUS Rev. B Section 6 Web HMI Section 6 Web HMI Introduction GUID-E2FF8256-D231-4DCD-A590-C12A7076EA3A v2 The WebHMI allows easy read-only access to all relevant details of a running REB500 system, such as: • Switchgear status • Event lists • Analogue measurements •...
1MRK 500 132-UUS Rev. B Section 7 Troubleshooting Section 7 Troubleshooting GUID-7C84B9F2-85E4-44F5-B421-E954E20B3CDD v1 Safety Instructions GUID-BD3EEF26-E183-46AA-9591-278F8534681A v1 All work on the REB500 busbar protection system must be carefully planned. Errors when manipulating the system cannot only destroy components, they can also cause false tripping and serious interruption to the power supply.
Section 7 1MRK 500 132-UUS Rev. B Troubleshooting For details about fault indications and corrective actions, see Section 7.2.2. Rear side GUID-D3E58EA8-731D-4A91-B2D4-BADCAD4E943D v2 The yellow LED bat1(2) signals the availability of the station battery. • On: The station battery is available and the voltage is within the tolerance. •...
Section 7 1MRK 500 132-UUS Rev. B Troubleshooting 7.2.4 Optical fiber connections faults GUID-36722875-6514-4090-9FEE-70207E0F99DD v3 Description Possible Cause Corrective Action Process Bus: Optical fiber defect or wrong type Check, replace optical fibers No link LED for a Optical fiber wrong connection Check connection connected BU IEC 61850 Bus...
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1MRK 500 132-UUS Rev. B Section 7 Troubleshooting Table 25: Start-up and repetitive error causes Alarm Event Detection Description setting Version check Major_Error 013 In case the target version does not match the version of once failed the CU CIM target, the target blocks permanently. License check Major_Error 014 In case the license check during start-up failed (that is...