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Toolkit (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.
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Hitachi Power 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.
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(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.
1MRK 505 403-UEN Rev. C Section 1 Introduction Section 1 Introduction This manual GUID-B0C4F5E7-74A5-419E-ABF6-A61C4C2A8840 v1 The manual contains application descriptions, setting guidelines and technical data for the Application manual of REB500. bay protection functions. It is complementary to the basic The manual can be used to find out when and for what purpose a typical protection function can be used.
Section 1 1MRK 505 403-UEN Rev. C 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 505 403-UEN Rev. C Section 2 Safety information Section 2 Safety information GUID-7CDA9FB7-5CD6-4BD5-A1D2-AAB8E7BF87A3 v3 Dangerous voltages can occur on the connectors, even though the auxiliary voltage has been disconnected. Non-observance can result in death, personal injury or substantial property damage.
1MRK 505 403-UEN Rev. C Section 3 Overview Section 3 Overview GUID-112E605B-2753-49EE-817F-ADCF59032497 v1 In addition to the station protection (SP), the system includes bay protection functions (BP) applicable for HV and EHV networks. Depending on the requirements, single functions up to system specific line protection arrangements can be configured.
Section 3 1MRK 505 403-UEN Rev. C Overview It is to be noted that all signals that are to be mapped to the binary output contacts, substation automation systems SAS (for example, IEC 61850 bus) or LEDs first have to be routed via the BP output block (Bo).
1MRK 505 403-UEN Rev. C Section 3 Overview 3.2.2 Label number guide for Figure 1 GUID-0B169260-D5EE-4D87-B296-9B39FAA3ABC4 v2 Table 2: Explanations to inputs / outputs Item No. Name Definition Remark OC input Optocoupler input of bay 33 binary inputs per bay unit unit CR output Relay (contact) output of...
1MRK 505 403-UEN Rev. C Section 4 Configuring bay protection using HMI500 Section 4 Configuring bay protection using HMI500 GUID-29A344A1-54E0-47AC-B179-5BFBF200BE30 v1 Integration of bay protection GUID-5AAAA131-7665-4B8C-987A-34FDFEB103D4 v2 The REB500 bay models include no bay protection functionality. The integration of the bay protection (variant L-V2 or L-V4) takes place under the setfile engineering during the Import a Bay Model process.
Section 4 1MRK 505 403-UEN Rev. C Configuring bay protection using HMI500 IEC18000639 V2 EN-US Figure 3: Settings/ Bay protection Configuration Table 5: Bay protection/ Configuration - buttons Button Function Continue Opens the dialog box Select Protection Function of a selected bay and thus the BP configuration.
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1MRK 505 403-UEN Rev. C Section 4 Configuring bay protection using HMI500 IEC18000640-IEC18000640-1-en.vsdx IEC18000640 V1 EN-US Figure 4: Select Protection Functions Table 6: Select Protection Function – used BP Functions Menu item Description Unique instance number of the BP function Func.
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Section 4 1MRK 505 403-UEN Rev. C Configuring bay protection using HMI500 Assigning protection functions to parameter sets Every instance of a protection function can be assigned to a particular parameter set. The REB500 runs the protection functions in the currently selected parameter set. The active parameter set is changed by setting the appropriate binary input on the bay unit.
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1MRK 505 403-UEN Rev. C Section 4 Configuring bay protection using HMI500 Table 7: Content menu dialog boxes Menu item Description Copy Creates a copy of the protection function according to the following rules: • A copy cannot be in the same parameter set as the original. •...
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Section 4 1MRK 505 403-UEN Rev. C Configuring bay protection using HMI500 17000025-IEC18000645-1-en.vsdx IEC18000645 V1 EN-US Figure 8: Area below tabs – sensitive for selection of statistical evaluation The version number of the bay protection configuration module is shown in the bottom left- hand corner.
1MRK 505 403-UEN Rev. C Section 4 Configuring bay protection using HMI500 Binary signal configuration 4.4.1 Configuring binary input signals GUID-99F4CA96-5956-4A8E-92CD-104FA870E01C v3 Each Bay protection function has a defined number of binary inputs. These are described for REB500 Technical manual - Bay protection functions . each of the protection functions in In the dialog boxes for setting protection functions, a binary input is described in plain text and has a button for configuration.
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Section 4 1MRK 505 403-UEN Rev. C Configuring bay protection using HMI500 The dialog box has two tabs, the first of which (TRUE / FALSE) provides facility for setting the input status to Always TRUE or Always FALSE. This is a permanent assignment, without the involvement of an output signal of another function.
1MRK 505 403-UEN Rev. C Section 4 Configuring bay protection using HMI500 17000029-IEC18000649-1-en.vsdx IEC18000649 V1 EN-US Figure 12: Configuring binary inputs (Output from other BP function) Table 10: Output from Function dialog box/ Column designations Dialog box term Description Channel Unique number of the output signal Inv.
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Section 4 1MRK 505 403-UEN Rev. C Configuring bay protection using HMI500 17000030-IEC18000650-1-en.vsdx IEC18000650 V1 EN-US Figure 13: Configuring binary inputs (Default → Output from SP function) Location of input signals from SP function within the BP function diagram see Figure 1, Label number 15.
1MRK 505 403-UEN Rev. C Section 4 Configuring bay protection using HMI500 17000031-IEC18000751-1-en.vsdx IEC18000751 V1 EN-US Figure 14: Configuring binary inputs (General purpose) Location of BP internal input signals within the BP function diagram see Figure 1, Label number 11. Once defined, signals can be assigned to an optocoupler input by selecting the menu Configuration /Binary module/Inputs .
Section 4 1MRK 505 403-UEN Rev. C Configuring bay protection using HMI500 17000032-IEC18000752-1-en.vsdx IEC18000752 V1 EN-US Figure 15: BP output signal assignment The list shows the input signals assigned to the respective output. For each signal in the list, the instance number and an abbreviation of the function are given. Table 11: BP output signal assignment Example...
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1MRK 505 403-UEN Rev. C Section 4 Configuring bay protection using HMI500 17000034-IEC18000754-1-en.vsdx IEC18000754 V1 EN-US Figure 17: BP output (Default) The signals assigned under the default group do not reduce the number of BP output channels (total of 120). Location of ‘BP default’...
Section 4 1MRK 505 403-UEN Rev. C Configuring bay protection using HMI500 17000035-IEC18000755-1-en.vsdx IEC18000755 V1 EN-US Figure 18: BP output (General purpose) Location of BP general purpose output signals within the BP function diagram Figure 1, Label number 12. Edit (used for both Default and General Purpose signals) Click on the respective Edit button to assign a Default or General purpose signal.
1MRK 505 403-UEN Rev. C Section 4 Configuring bay protection using HMI500 4.4.6 Disturbance recording of a binary signal GUID-4B1DAD18-7D38-4AED-98B8-50CC4E94BB47 v2 Binary output signals generated by bay protection functions can be configured for disturbance recording, providing they are configured in the General purpose dialog box for the binary output function (see Figure 18).
1MRK 505 403-UEN Rev. C Section 5 System functions Section 5 System functions BP Function Monitoring GUID-255E4CC1-25D5-4C7D-8251-3D57B6255495 v1 The BP function monitoring (measurement of primary system values) is made under the Operator mode. The bay units licensed to include bay protection are listed in the Overview dialog box.
Section 5 1MRK 505 403-UEN Rev. C System functions 17000038-IEC18000758-3-en.vsdx IEC18000758 V3 EN-US Figure 21: Licensed BP function groups CT grounding GUID-B7027FAC-814A-4F71-A9F0-9F1BC8F78A33 v1 The location at which the CT neutrals are grounded (line or busbar side) is of consequence to directional protection functions (Distance protection DIST, Directional overcurrent definite time protection DIROCDT and Directional overcurrent inverse time protection DIROCINV).
1MRK 505 403-UEN Rev. C Section 6 BP-Additions to base documentation Section 6 BP-Additions to base documentation Technical data GUID-8D67EE49-4551-4FAD-BC9F-24889CC8B79D v3 The following information about bay protection functionality applies in addition to the Product Guide of REB500. Table 13: Distance Protection 21 (PDIS) Function/ Parameter Range/ Value Impedance measurement...
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Section 6 1MRK 505 403-UEN Rev. C BP-Additions to base documentation For details about distance protection operating times, see Figure 17000040-IEC18000760-1-en.vsdx IEC18000760 V1 EN-US Figure 22: Distance protection operating times Table 14: Definite time over and undercurrent protection 51 (PTOC/PTUC) Function/ Parameter Range/ Value Pick up current...
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1MRK 505 403-UEN Rev. C Section 6 BP-Additions to base documentation Function/ Parameter Range/ Value Over and undercurrent detection Single or three-phase measurement with detection of the highest, respectively lowest phase current 2nd harmonic restraint for high inrush currents Four independent parameter sets Accuracies Value Accuracy of the pick up setting (at f...
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Section 6 1MRK 505 403-UEN Rev. C BP-Additions to base documentation Function/ Parameter Range/ Value Accuracy of pick up value ±5% Accuracy of angle measurement (at 0.97…1.03 f ±5° Reset ratio Table 17: Directional overcurrent inverse time protection 67 (PTOC) Function/ Parameter Range/ Value Current...
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1MRK 505 403-UEN Rev. C Section 6 BP-Additions to base documentation Table 19: Directional sensitive earthfault protection for grounded systems 67N (PDEF) Function/ Parameter Range/ Value Current Pick up 0.1 to 1.0 I in steps of 0.01 I Minimum polarizing voltage 0.003 to 1 U in steps of 0.001 U Characteristic Angle...
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Section 6 1MRK 505 403-UEN Rev. C BP-Additions to base documentation Table 21: Logic Function/ Parameter Range/ Value Accuracy Logic for four binary inputs with the following three configurations: • OR gate • AND gate • Bistable flip-flop with two set and two reset inputs (both OR gates), resetting takes priority Four independent parameter sets All configurations have an additional blocking input.
1MRK 505 403-UEN Rev. C Section 6 BP-Additions to base documentation Table 25: Peak value over and undercurrent protection 50 (PTOC/PTUC) Function/ Parameter Range/ Value Current 0.1 to 20 I in steps of 0.1 I Delay 0 to 60 s in steps of 0.01 s Max.
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Section 6 1MRK 505 403-UEN Rev. C BP-Additions to base documentation Table 27: BP tripped, central unit HMI text LEDs Event Date Time Green lit, CU: None DIST trip red lit Feeder name Date Time Green lit, CU: None OCTD trip red lit Feeder name Date Time...
1MRK 505 403-UEN Rev. C Section 6 BP-Additions to base documentation HMI text LEDs Event Date Time Green lit, BU: 220105_DIREFGND TRIP DIREFGND trip red lit Feeder name Date Time Green lit, BU: 221105_I0INV TRIP I0INV trip red lit Feeder name Date Time Green lit, BU: 224605_CHKI3PH Picked up...
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Section 6 1MRK 505 403-UEN Rev. C BP-Additions to base documentation additional checks, the following procedure is recommended. The basic philosophy is to check the bay unit on its own first (without the rest of the REB500 system). This is done in the stand- alone bay unit mode and requires that the setfile be loaded in the bay unit to be extended beforehand as follows: Step 1...
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1MRK 505 403-UEN Rev. C Section 6 BP-Additions to base documentation Check the direction of the distance protection function with load current. This is achieved by measuring real and apparent power in L1 phase. The real and apparent power measurements of all the directional functions can be viewed by selecting the HMI500 menu View /BP function monitoring .