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ABB REC 561 User Manual
ABB REC 561 User Manual

ABB REC 561 User Manual

Bay level control terminal
Table of Contents

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ABB Network Partner AB
User's Guide
REC 561
Bay level
control terminal
1MRK 511 009-UEN
Version 1.0-00
October 1996
How to use this manual
ABB Network Partner AB
S-721 71
Västerås, Sweden
Phone +46 21 321300
Fax +46 21 146918
1
User's Guide contents
2
Introduction
3
Installation
4
General functions
5
Protection functions
6
Control functions
7
Monitoring functions
8
Index
9
Diagrams

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Summary of Contents for ABB REC 561

  • Page 1 User’s Guide contents ABB Network Partner AB Introduction User’s Guide REC 561 Bay level control terminal Installation 1MRK 511 009-UEN Version 1.0-00 October 1996 General functions How to use this manual Protection functions Control functions Monitoring functions Index Diagrams ABB Network Partner AB S-721 71 Västerås, Sweden...
  • Page 2 2. Introduction, REC 561 Introduction, REC 561 1MRK 580 146-XEN Basic Ordering data sheet 1MRK 580 149-XEN — Requirements and basic technical data, REC 561 1MRK 580 147-XEN Basic Construction and hardware characteristics, REC 561 1MRK 580 148-XEN Basic 3. Installation...
  • Page 3 1MRK 580 145-XEN 1.0-00 August 1996 Introduction, REC 561 1MRK 580 146-XEN 1.0-00 August 1996 Requirements and basic technical data, REC 561 1MRK 580 147-XEN 1.0-00 August 1996 Construction and hardware characteristics, REC 561 1MRK 580 148-XEN 1.0-00 August 1996...
  • Page 4: Table Of Contents

    Choice of current transformers............. 2-19 Conditions for the CT requirements ..........2-19 Fault current ................. 2-20 REC 561 current transformer requirements ......... 2-20 Requirements for the LON communication link for remote communication ..............2-21 Requirements for the SPA communication link for remote communication ..............
  • Page 5 ABB Network Partner AB Page II Main processing module (MPM)........... 2-30 Signal processing module (SPM) ..........2-30 Serial communication module (SCM) ........... 2-31 Power supply module (PSM) ............2-32 Man-machine interface (MMI)............2-32 Input/output modules ..............2-33 Binary in/out module (IOM) ..........2-33 Binary input module (BIM) ...........
  • Page 6: Application

    LON port (based on the LonWorks Network) and one port for an asyn- chronous link, type SPA. They are independent of each other and availa- ble on the rear side of the terminal. This enables the REC 561 to be used...
  • Page 7: Rec 561 Types

    1½ breaker diameter. Type 3 (basic + option 2): This type of REC 561 is intended to be used for arrangements up to 12 bays with up to 24 high-voltage apparatuses. It also contains interlocking modules for two 1½...
  • Page 8 2 - 3 Version 1.0-00 1 A or 5 A is available in a REC 561. Only one alternative of the autore- closing functions can be selected. The synchro-check function for the 1½- CB arrangement is available for one diameter in REC 561.
  • Page 9 Fig. 2 Double busbar, double-breaker arrangement Breaker-and-a-half In REC 561 type 2, control and interlocking functions for one diameter of a 1½-breaker arrangement are included. As an option, the synchro-check function for each circuit breaker, including the voltage selection, can also be included.
  • Page 10 The synchro-check function is applicable only for one diameter. By using REC 561 type 3, one more diameter can be added including control and interlocking functions, but then external synchro-check functions are needed. Control of all earthing switches within the two diameters are lim- ited, because the upper limit of the number of apparatuses to be controlled is still 24.
  • Page 11 If P, Q, f and three-phase values of U and I must be pre- sented for the operator, then external transducers connected to mA inputs in REC 561 can be used. To get the line current, the currents through the circuit breakers are summed externally.
  • Page 12 ABB Network Partner AB Introduction - REC 561 1MRK 580 146-XEN Page 2 - 7 Version 1.0-00 . . .  ( ) ( ) ( ) ( )   (X80146-6) Fig. 6 Arrangement for up to 12 bays...
  • Page 13: Basic Features

    The apparatus control function in REC 561 is prepared to be connected to a dedicated control panel for local control. This panel can have a switch for selection of the operators’ mode; station/remote, local, or back-up. In station/remote mode, the station is controlled from the station MMI or the control centre, depending on the selection from a VDU or station switch.
  • Page 14: Time Tagged Events

    A serial communication port based on the LonWorks Network (here communication - LON called the LON bus) is available within the REC 561. This port is used to transfer data between different control terminals and PC-based operator stations. The communication with REC 561 uses optical fibres (glass or plastic) to eliminate influence of electromagnetic interferences.
  • Page 15: Optional Features

    ABB Network Partner AB 1MRK 580 146-XEN Introduction - REC 561 Page 2 - 10 Version 1.0-00 4 Optional features 4.1 Additional apparatus Additional apparatus control functions are available as options. They are control applicable for several bays, that is, up to 12 bays and 24 high-voltage apparatuses in total.
  • Page 16: Pulse Counter

    Up to 12 binary inputs in a REC 561 can be used for this purpose with a frequency of up to 40 Hz. The number of pulses in the counter is then reported via the LON bus to the station MMI or read via SPA as a service value.
  • Page 17: Disturbance Recorder

    2 - 12 Version 1.0-00 4.8 Breaker-failure The breaker-failure protection in the REC 561 operates on the basis of the protection phase currents that flow through a corresponding line circuit breaker. This optional function is intended to be used only for a single-breaker bay.
  • Page 18: Input/Output Facilities

    The SMS-BASE software program with SM/REC 561, installed in a per- sonal computer, enables the relay engineer to establish communication with the terminal (either direct communication or communication through a telephone network), read information from the terminal on a PC screen, and store it in PC files.
  • Page 19 ABB Network Partner AB 1MRK 580 146-XEN Introduction - REC 561 Page 2 - 14 Version 1.0-00...
  • Page 20: Ordering

    Version 1.0-00 October 1996 1 Ordering The basic version of REC 561 is a control terminal with software modules for apparatus control for one bay and 14 high-voltage apparatuses and interlocking modules for single or double breaker arrangements. The basic version includes: pole discordance protection, configurable logic, one LON communication port, one binary input module, and one binary output module.
  • Page 21 ABB Network Partner AB 1MRK 580 149-XEN REC 561 Ordering data sheet Page 2 - 16 Version 1.0-00 October 1996 Functions Typical switchyard arrangements Ordering number One bay bays bays 1½ bays sin- dou- Sin- Dou- diam 1½ diam Transformer and A/D-...
  • Page 22: User's Guide

    6 channels (up to 6 1MRK 000 284-AA modules can be selected) 1) Totally up to 6 modules of any combination of binary in/out and binary output modules can be used in REC 561. Remote communication (SMS/SCS): Additional port (SPA) Transmitter...
  • Page 23 ABB Network Partner AB 1MRK 580 149-XEN REC 561 Ordering data sheet Page 2 - 18 Version 1.0-00 October 1996 For our reference and statistics, please send us this data: Country: End user: Station name: Voltage level:...
  • Page 24: General

    Function: Basic 1 General As an option, the REC 561 control terminal can include protection func- tions, for example, breaker failure protection. The operation of a protec- tion measuring function is influenced by distortion, so you must take measures in the protection function to handle this phenomenon. One source of distortion is current transformer saturation.
  • Page 25: Fault Current

    ABB Network Partner AB Requirements and basic technical data - REC 561 Page 2 - 20 Version 1.0-00 All testing was made without any remanence flux in the current trans- former core. So the requirements below are fully valid for a core with no remanence flux.
  • Page 26: Requirements For The Lon Communication Link For Remote Communication

    Connect a PC as an MMI to this LON network. Windows NT runs on the PC, which is equipped with a communication card for the LON (Echelon PCLTA card). Control functions in the MMI (to be used with REC 561) are available in the HV/Control software package, a library of standard application functions, and pictures for the application engineering in S.P.I.D.E.R.
  • Page 27: Technical Data

    ABB Network Partner AB Requirements and basic technical data - REC 561 Page 2 - 22 Version 1.0-00 6 Technical data Table 1: Energizing quantities, rated values and limits Quantity Rated value Nominal range Current = 1 or 5 A (0,2-30) x I (0,2-4) ×...
  • Page 28 ABB Network Partner AB Requirements and basic technical Page 2 - 23 data - REC 561 Version 1.0-00 Table 2: Influencing factors, permissible influence Dependence on Within nominal range Within operative range 0,01 % / °C Ambient temperature Correct function...
  • Page 29 ABB Network Partner AB Requirements and basic technical data - REC 561 Page 2 - 24 Version 1.0-00 Table 6: Contact data (reference standard: IEC 255) Function or quantity Trip and Signal relays Fast signal relays Max system voltage 250 V ac, dc...
  • Page 30 ABB Network Partner AB Requirements and basic technical Page 2 - 25 data - REC 561 Version 1.0-00 Table 9: Option: Increased Measuring Accuracy Function Nominal range Accuracy ± 0,2 Hz frequency (0,95-1,05) x f ± 0,25 % of U at U ≤...
  • Page 31 ABB Network Partner AB Requirements and basic technical data - REC 561 Page 2 - 26 Version 1.0-00...
  • Page 32: Hardware Design

    ABB Network Partner AB Construction and hardware 1MRK 580 148-XEN characteristics - REC 561 Page - 27 Version 1.0-00 October 1996 Function: Basic 1 Hardware design The terminal is supplied in a closed case that is a standard 19” wide rack and 6U high.
  • Page 33: Hardware Modules

    ABB Network Partner AB 1MRK 580 148-XEN Construction and hardware characteristics - REC 561 Page 2 - 28 Version 1.0-00 2 Hardware modules (X80148-1) Fig. 1 Hardware structure The basic configuration of the terminal consists of these modules: • Main processing module. All information is processed or passed through this module before it is sent from the terminal.
  • Page 34 Construction and hardware 1MRK 580 148-XEN Page 2 - 29 characteristics - REC 561 Version 1.0-00 • Man machine interface (MMI) is built-in to the front cover and con- tains LEDs, an LCD and an optical connector for a front-connected PC.
  • Page 35: Main Processing Module (Mpm)

    ABB Network Partner AB 1MRK 580 148-XEN Construction and hardware characteristics - REC 561 Page 2 - 30 Version 1.0-00 2.1 Main processing The terminal is based on a pipelined multi-processor design. The 32-bit module (MPM) main controller receives the result from the Signal processing module every millisecond.
  • Page 36: Serial Communication Module (Scm)

    The modules can be identified with a number on the label on the module. The number can be found in Order data sheet REC 561 (1MRK 580 149- XEN). The modules are mounted on position X13 (SPA) and X15 (LON)
  • Page 37: Power Supply Module (Psm)

    Thus, disturbance-free local serial communication with the personal computer is achieved. You need the SMS-BASE and SM/ REC 561 software for this communication. A PC greatly simplifies the communication with the terminal. It also gives the user additional func- tionality which is unavailable on the MMI because of insufficient space.
  • Page 38: Input/Output Modules

    ABB Network Partner AB Construction and hardware 1MRK 580 148-XEN Page 2 - 33 characteristics - REC 561 Version 1.0-00 Green: • Steady In service. • Flashing Internal failure, that is the internal signal INT--FAIL is high. • Dark No power supply.
  • Page 39: Binary Output Module (Bom)

    If any discrepancy occurs, an error is reported. This func- tion covers: • Interrupt or short-cirucuit in an output relay coil. • Failure of an output relay driver. For more information about IOM, BIM and BOM, see: Requirements and basic technical data - REC 561, (1MRK 000 147-XEN).
  • Page 40: Ma Input Module (Mim)

    ABB Network Partner AB Construction and hardware 1MRK 580 148-XEN Page 2 - 35 characteristics - REC 561 Version 1.0-00 2.6.4 mA input module Up to six mA input modules that measure analogue current can be (MIM) included in a REC terminal. Each mA input module has six input chan- nels, the channels are isolated from each other and have a separate A/D converter.
  • Page 41: Mounting System

    All necessary screw holes in the box are already prepared. One set of mounting angles for 6U, 19” rack (1MRK 000 020-CA) includ- ing eight screws (TORX T20) are needed for the rack mounting. (X80148-6) Fig. 6 One REC 561 in a 19” rack...
  • Page 42: Flush Mounting

    ABB Network Partner AB Construction and hardware 1MRK 580 148-XEN Page 2 - 37 characteristics - REC 561 Version 1.0-00 3.3 Flush mounting A mounting kit is available for flush mounting. It includes: • Four side holders • Four small screws (grip type TORX T10) •...
  • Page 43: Wall Mounting

    ABB Network Partner AB 1MRK 580 148-XEN Construction and hardware characteristics - REC 561 Page 2 - 38 Version 1.0-00 3.4 Wall mounting A mounting kit is available for wall mounting. It includes: • Two side plates • Screws (grip types TORX T20, T25 and T30) •...
  • Page 44: Electrical Connections

    ABB Network Partner AB Construction and hardware 1MRK 580 148-XEN Page 2 - 39 characteristics - REC 561 Version 1.0-00 3.5 Electrical connections There are two types of electrical terminals: • Current-carrying, which is for conductors that have a cross section of up to 4 mm •...
  • Page 45 Page 2 - 40 Version 1.0-00 (X80148-9) Fig. 9 Rear view of REC 561 (X80148-10) Fig. 10 Voltage connector The terminals are numbered from 1 to 18 from top to bottom. The marked terminal in Fig. 10 above is called X20:5.
  • Page 46 ABB Network Partner AB Page I Contents Page Receiving and storage................3-1 Installation ....................3-1 Mechanical installation ..............3-1 19” rack installation..............3-1 Flush mounting ..............3-4 Wall mounting ................ 3-5 Electrical connections..............3-6 Signal connectors................3-7 Fibre optic connections ..............3-8 Setting and configuration................
  • Page 47 ABB Network Partner AB Page II Selecting a command ..............3-25 Cancelling a command ..............3-26 Selecting and cancelling a command ........... 3-26 Data window ..................3-27 Reading and setting values ............3-28 Reading and setting of non-numerical parameters....... 3-29 Reading and setting strings ............
  • Page 48 Display for Terminal Status menu ..........3-58 Display for Configuration menu ............ 3-59 Display for Command menu............3-68 Display for Test menu ..............3-69 Signal lists ..................3-70 Object addresses for indications in REC 561 ........3-73 SPA addresses for commands in REC 561.......... 3-79...
  • Page 49 ABB Network Partner AB Page IV...
  • Page 50: Receiving And Storage

    ABB Network Partner AB Installation and commissioning 1MRK 580 166-XEN Page Version 1.0-00 October 1996 Function: Basic 1 Receiving and storage Remove the terminal from its transport case and perform a visual inspec- tion of any possible transport damages. Check that the delivered terminal has the correct data on the rating plate at the front of the terminal, that is, rated current, rated voltage, and rated dc voltage.
  • Page 51 ABB Network Partner AB 1MRK 580 166-XEN Installation and commissioning Page 3 - 2 Version 1.0-00 (X80166-1) Fig. 1 19” rack mounting If more than one terminal is to be placed side-by-side, you need a special side-by-side mounting kit. It consists of two plates and screws with TORX T20 type grips.
  • Page 52 ABB Network Partner AB Installation and commissioning 1MRK 580 166-XEN Page 3 - 3 Version 1.0-00 (X80166-2) Fig. 2 Side-by-side mounting...
  • Page 53: Flush Mounting

    ABB Network Partner AB 1MRK 580 166-XEN Installation and commissioning Page 3 - 4 Version 1.0-00 2.1.2 Flush mounting For flush mounting: 1. Cut and affix the sealing strip, if IP 54 is required (option). 2. Put the terminal in the cut-out.
  • Page 54: Wall Mounting

    ABB Network Partner AB Installation and commissioning 1MRK 580 166-XEN Page 3 - 5 Version 1.0-00 2.1.3 Wall mounting (X80166-4) Fig. 4 Wall mounting The included screws have TORX type grips: Grip type To attach the mounting... Angles to the case...
  • Page 55: Electrical Connections

    Fig. 5 Rear view of REC 561 Fig. 5 shows a typical rear view of a product (REC 561). Note: The use of terminals for external connections is product specific. The terminal diagram for each product describes terminal usage. Here is a...
  • Page 56: Signal Connectors

    ABB Network Partner AB Installation and commissioning 1MRK 580 166-XEN Page 3 - 7 Version 1.0-00 Connector: Designation: Current transformer inputs Voltage transformer inputs Optical fibre connectors for serial communication Optical fibre connectors for serial communication X16, X17... Input/output connectors for I/O modules Connector for the power supply, (in Fig.5)
  • Page 57: Fibre Optic Connections

    Two 1,5 mm conductors Use a ferrule The ferrule (ABB Network Partner’s order no. 1MKC 840 003-4 or Phoe- nix type AI-TWIN 2 ⋅ 1,5 - 8 BK) is applied with ZA3 crimping pliers type from Phoenix, (see Fig. 7).
  • Page 58: Setting And Configuration

    • Locally or remotely, via one of the ports on the rear (using SMS, CAP 531 or SCS). Note that in REC 561, all configuration is performed with CAP 531. 3.1 Built-in man machine The setting access on the built-in MMI can be blocked by the binary input interface (MMI) signal MMI--BLOCKSET.
  • Page 59: Remote Communication, Sms Or Scs

    ABB Network Partner AB 1MRK 580 166-XEN Installation and commissioning Page 3 - 10 Version 1.0-00 the built-in MMI. The other end of the cable is plugged directly into the COM-port of the PC. The cable includes an optical contact, an opto/elec- trical converter and an electrical cable with a standard 9-pole D-sub con- tact.
  • Page 60: Configuration Of Inputs And Outputs

    MMI, the configuration is done at: Configuration Function Inputs, Slotnn-XXXyy For REC 561, all configuration is performed with CAP 531, and no con- figuration can be changed on the built-in MMI. You can select the binary outputs from a signal list where the signals are grouped under their function names.
  • Page 61: Commissioning

    ABB Network Partner AB 1MRK 580 166-XEN Installation and commissioning Page 3 - 12 Version 1.0-00 4 Commissioning Before any test occurs, set the terminal to test mode. This can be done on the built-in MMI at: Test Test Mode...
  • Page 62: Test Of Internal Circuits

    ABB Network Partner AB Installation and commissioning 1MRK 580 166-XEN Page 3 - 13 Version 1.0-00 Events occurring while the terminal is set in test mode can reported to the SCS system in these ways: • All event are reported.
  • Page 63: Functional Test

    ABB Network Partner AB 1MRK 580 166-XEN Installation and commissioning Page 3 - 14 Version 1.0-00 When the test handle is inserted into the test switch, all current circuits on the transformer side are short-circuited and all voltage circuits are opened, except for terminal 1 and 12, which are used for dc supply of the terminal.
  • Page 64: Fault Tracing

    ABB Network Partner AB Installation and commissioning 1MRK 580 166-XEN Page 3 - 15 Version 1.0-00 5 Fault tracing 5.1 Using information on If an internal fault has occurred, the built-in MMI displays information the built-in MMI under: Terminal Status...
  • Page 65 ABB Network Partner AB 1MRK 580 166-XEN Installation and commissioning Page 3 - 16 Version 1.0-00 • Self-supervision summary = INT--FAIL and INT--WARNING • CPU-module status summary = INT--CPUFAIL and INT--CPU- WARN When an internal fault has occurred, you can retrieve extensive informa- tion about the fault from the list of internal events available in the TERM- STS Terminal Status part of the PC program.
  • Page 66: Repair Instruction

    An alternative to this can be to disassemble the terminal and send only the faulty circuit board to ABB for repair. When a printed circuit board is transported to ABB, it must always be placed in a metallic protection bag (closest to the card) which is ESD-proof (electrostatic discharge).
  • Page 67 ABB Network Partner AB 1MRK 580 166-XEN Installation and commissioning Page 3 - 18 Version 1.0-00...
  • Page 68: Introduction

    ABB Network Partner AB Local man machine 1MRK 580 156-XEN communication Page - 19 Version 1.0-00 October 1996 Function: Basic 1 Introduction The built-in man machine interface (MMI) provides local communication between the user and the terminal. Local communication also occurs with a PC connected to the built-in MMI via a special optical interface.
  • Page 69: Lcd Display

    ABB Network Partner AB 1MRK 580 156-XEN Local man machine communication Page 3 - 20 Version 1.0-00 Signal: Indicates that ... Green LED, steady light The operating condition of a terminal is normal. Green LED, flashing light An internal error is detected within the terminal.
  • Page 70 ABB Network Partner AB Local man machine 1MRK 580 156-XEN Page 3 - 21 communication Version 1.0-00 current function or leaving the menu branch and moving one step higher in the menu tree. • Clears LEDs when in an upper menu level.
  • Page 71: Unattended Mmi

    ABB Network Partner AB 1MRK 580 156-XEN Local man machine communication Page 3 - 22 Version 1.0-00 3 Unattended MMI When the MMI is unattended in normal operation, two things might occur: • No reporting of a disturbance (idle mode) •...
  • Page 72: Menu Window

    ABB Network Partner AB Local man machine 1MRK 580 156-XEN Page 3 - 23 communication Version 1.0-00 4 Menu window .path1/path2 REL 531/Config Menu (k) Function Inputs Menu (k+1) Slot 11-BIM1 Menu (k+2) Slot 13-BOM2 V (X80156-2) Fig. 2 Menu window, general configuration (2a) and typical example...
  • Page 73: Dialogue Window

    ABB Network Partner AB 1MRK 580 156-XEN Local man machine communication Page 3 - 24 Version 1.0-00 5 Dialogue window Ready Trip Ready Start Trip Start RE.5.. VER 1.0 RE.5.. VER 1.0 C=Quit C=Clear LEDs E=Enter menu E=Enter menu (X80156-3) Fig.
  • Page 74: Confirming A Command

    ABB Network Partner AB Local man machine 1MRK 580 156-XEN Page 3 - 25 communication Version 1.0-00 5.2 Confirming a Fig. 4 shows a typical example of a dialogue window for command with- command out selection. The instructions in the first two rows describe possible actions.
  • Page 75: Cancelling A Command

    ABB Network Partner AB 1MRK 580 156-XEN Local man machine communication Page 3 - 26 Version 1.0-00 5.4 Cancelling a command Fig. 6 shows a typical dialogue window that lets you cancel a command. Use the right or left arrows to move to YES, NO or CANCEL. Then select E to confirm your selection.
  • Page 76: Data Window

    ABB Network Partner AB Local man machine 1MRK 580 156-XEN Page 3 - 27 communication Version 1.0-00 6 Data window Use the data windows and branches to perform these tasks: • Reading information • Configuration • Setting parameters .path1/path2 .Imped/Zone1...
  • Page 77: Reading And Setting Values

    ABB Network Partner AB 1MRK 580 156-XEN Local man machine communication Page 3 - 28 Version 1.0-00 6.1 Reading and setting The setting procedure for setting different values is identical for all differ- values ent types of parameters. Fig. 9 shows a typical example of such a proce- dure.
  • Page 78: Reading And Setting Of Non-Numerical Parameters

    ABB Network Partner AB Local man machine 1MRK 580 156-XEN Page 3 - 29 communication Version 1.0-00 6.2 Reading and setting of Non-numerical parameters can be set to predefined non-numerical values, non-numerical for example, On - Off for the activation of different functions.
  • Page 79: Configuration Of The Binary Inputs

    ABB Network Partner AB 1MRK 580 156-XEN Local man machine communication Page 3 - 30 Version 1.0-00 Row one in the data window displays the last two branches of the menu tree. Row two displays the parameter that has a string value. Row three displays the value (Fig.
  • Page 80: Configuration Of The Binary Outputs

    ABB Network Partner AB Local man machine 1MRK 580 156-XEN Page 3 - 31 communication Version 1.0-00 The bottom row in Fig. 13b displays the signal that is connected to the binary output displayed in row two. Row three displays the function that the signal belongs to.
  • Page 81: Configuration Of The Functional Inputs

    ABB Network Partner AB 1MRK 580 156-XEN Local man machine communication Page 3 - 32 Version 1.0-00 After the correct signal appears in the data window (Fig. 13f), select the E button to confirm this action. Then the window changes from Fig. 13f to Fig.
  • Page 82: Setting Internal Time

    ABB Network Partner AB Local man machine 1MRK 580 156-XEN Page 3 - 33 communication Version 1.0-00 The window in Fig. 14c reappears, and then you can configure another signal for the same function. 6.7 Setting internal time Use the setting menu to set the internal time for a complete terminal, according to Fig.
  • Page 83: Saving The Settings In A Setting Group

    ABB Network Partner AB 1MRK 580 156-XEN Local man machine communication Page 3 - 34 Version 1.0-00 All this information is available under the different parts of a menu tree (See Menu tree - Appendix, (1MRK 580 158-XEN)). In addition, a recalculation of the distance to fault is possible when the Fault locator option is included in the terminal.
  • Page 84 ABB Network Partner AB Local man machine 1MRK 580 156-XEN Page 3 - 35 communication Version 1.0-00 .Set/Func .Set/Func .Func/Grp n Group (n-1) Group n-1 Function (m-1) Group n Group n Function m Group (n+1) Group (n+1) Function (m+1) Setting procedure as described under...
  • Page 85 ABB Network Partner AB 1MRK 580 156-XEN Local man machine communication Page 3 - 36 Version 1.0-00...
  • Page 86: General

    Block terminal Test mode SETTINGS Operation Parameters within the four setting groups Block functions for different protection functions Disturbance reporting unit Changing of the active setting group Configuration mode Disturbance report Internal time (X80189-1) Fig. 1 Menu tree for REC 561...
  • Page 87: Disturbance Report

    ABB Network Partner AB 1MRK 580 189-XEN Menu tree REC 561 Page 3 - 38 Version 1.0-00 2 Disturbance report The disturbance recording function is optional. The disturbance report menu gives the user all information recorded by the terminal for the last 10 disturbances after the last clearing of the disturbance recorder memory.
  • Page 88: Mean Values

    ABB Network Partner AB Menu tree REC 561 1MRK 580 189-XEN Page 3 - 39 Version 1.0-00 3.1 Mean values Mean values of the measured current, voltage, active and reactive power, and of the frequency, are displayed on the control terminals.
  • Page 89: Settings

    ABB Network Partner AB 1MRK 580 189-XEN Menu tree REC 561 Page 3 - 40 Version 1.0-00 4 Settings Use this menu to set different parameters within the built-in functions. 4.1 Functions You can set different setting parameters for basic and optional protection and automation functions that are built into the terminal.
  • Page 90: Terminal Id

    ABB Network Partner AB Menu tree REC 561 1MRK 580 189-XEN Page 3 - 41 Version 1.0-00 5.2 Terminal ID The terminal ID consists of information about the terminal’s serial number, ordering number, and software version. The built-in modules with their versions are also included.
  • Page 91: Built-In Man Machine Interface (Mmi)

    ABB Network Partner AB 1MRK 580 189-XEN Menu tree REC 561 Page 3 - 42 Version 1.0-00 6.5 Built-in man machine You can activate the setting restriction function, which restricts the interface (MMI) changes of setting values and active groups via the built-in MMI.
  • Page 92: Introduction

    ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page - 43 Version 1.0-00 November 1996 Function: Basic 1 Introduction This appendix describes the MMI-tree structure for the complete REx 5xx series of terminals. This means that the MMI-tree in a certain terminal is only a part of what is shown in this appendix.
  • Page 93: Menu Tree Structure

    ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 44 Version 1.0-00 2 Menu tree structure 2.1 Display for Disturbance Report menu REx5xx RExx5xx/DistRep .DistRep/Disturb .Disturb/Dist1 .Dist1/Time .TripVal/PreFlt Disturb.Report Disturbances Disturbance 1 TimeOfDisturb TimeOfDisturb U1 (*)
  • Page 94: Display For Service Report Menu

    ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 45 Version 1.0-00 2.2 Display for Service Report menu REx5xx REx5xx/ServRep .ServRep/MeanVal .Phasors/Primary Disturb.Report Mean Values U (*) U1 (*) Service Report Diff Values I (*)
  • Page 95 ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 46 Version 1.0-00 REx5xx REx5xx/ServRep .ServRep/LogSign Disturb.Report Mean Values All signals in signal list Service Report Diff Values are grouped under Settings Phasors function sub-menus, Terminal Status...
  • Page 96 ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 47 Version 1.0-00 REx5xx REx5xx/ServRep .ServRep/BIM1 .ARCount/ARnn .ARnn/Count Disturb.Report Mean Values IO1--BI01 Counters 1-ph Shot1 IO1--BI02 3-ph Shot1 Service Report Diff Values Clear Counters 3-ph Shot2...
  • Page 97 ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 48 Version 1.0-00 REx5xx REx5xx/ServRep .ServRep/DiffCom .DiffCom/ChInfo TransmDelay Disturb.Report Mean Values Channel Info Service Report Diff Values Clear Counters NoOfShlnterr Settings Phasors NoOfMedlnterr Terminal Status SyncValues1 .ServRep/Direct...
  • Page 98: Display For Settings Menu

    ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 49 Version 1.0-00 2.3 Display for Settings menu REx5xx REx5xx/Set .Set/Func .Func/Grp1 .Grp1/LineRef Length Unit Disturb.Report Functions Group 1 Line Reference Service Report ChangeAct Grp Group 2...
  • Page 99 ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 50 Version 1.0-00 REx5xx/Set .Set/Func .Func/Grp1 .Grp1/Imp .Imp/DirComp .ZComm/Extens Operation Operation Functions Group 1 Line Reference DirCompNetwork ChangeAct Grp Group 2 Differential X1DIR DisturbReport Group 3...
  • Page 100 ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 51 Version 1.0-00 REx5xx/Set .Set/Func .Func/Grp1 .Grp1/Imp .Imp/PhSel X1PHS Functions Group 1 Line Reference DirCompNetwork ChangeAct Grp Group 2 Differential RFPHS Disturb Report Group 3 High Speed...
  • Page 101 ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 52 Version 1.0-00 REx5xx/Set .Set/Func .Func/Grp1 .Grp1/EarthFl .Earth/NoDirEF Operation Functions Group 1 Line Reference NonDir EF Change Act Grp Group 2 Differential Directional EF CurveType Disturb Report...
  • Page 102 ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 53 Version 1.0-00 REx5xx REx5xx/Set .Set/Func .Func/Grp1 .Grp1/FuseF Operation Disturb.Report Functions Group 1 LineReference Service Report ChangeArtGrp Group 2 Differential U> Settings DisturbReport Group 3 High Speed I>...
  • Page 103 ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 54 Version 1.0-00 REx5xx REx5xx/Set .Set/Func .Func/Grp1 .Grp1/ARnn Operation Disturb.Report Functions Group 1 LineReference Service Report ChangeActGrp Group 2 Differential Program Settings DisturbReport Group 3 High Speed...
  • Page 104 ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 55 Version 1.0-00 REx5xx REx5xx/Set .Set/Func .Func/Grp1 .Grp1/SyncCh n Operation Disturb.Report Functions Group 1 LineReference Service Report ChangeActGrp Group 2 Differential InputPhase Settings DisturbReport Group 3...
  • Page 105 ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 56 Version 1.0-00 REx5xx REx5xx/Set ChangeActGrp Disturb.Report Functions Command with Service Report ChangeActGrp confirmation, see Settings DisturbReport “Local MMC” Terminal Status Time 1MRK580156-XEN Configuration Command Test...
  • Page 106 ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 57 Version 1.0-00 REx5xx REx5xx/Set .Set/DistRep .DistRep/Oper .Binary/Input1 O peration User name (**) Disturb.Report Functions Operation Service Report ChangeActGrp RecordingTimes TrigOperation Settings DisturbReport BinarySignals .DistRep/RecTime TrigLevel...
  • Page 107: Display For Terminal Status Menu

    ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 58 Version 1.0-00 2.4 Display for Terminal Status menu REx5xx REx5xx/TermSt .TermSt/SelfSup .IdentNo/Observe .Observe/General Disturb.Report Self Superv InternFail General OrderingNo Service Report Identity No InternWarning IO-modules...
  • Page 108: Display For Configuration Menu

    ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 59 Version 1.0-00 2.5 Display for Configuration menu REx5xx REx5xx/Config .Config/FuncInp .FuncInp/Trip SIGNAL LIST Disturb. Report FunctionInputs Trip TRIP-BLOCK All signals in signal TRIP-TRTP Service Report...
  • Page 109 ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 60 Version 1.0-00 REx5xx REx5xx/Config .Config/FuncInp .FuncInp/GFC Disturb Report Function Inputs Trip GFC--BLOC K Service Report Slot11-BIM1 (*) Differential .FuncInp/Zone n Settings Slot13-IOM2 (*) HighSpeed ZM1--BLOCK...
  • Page 110 ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 61 Version 1.0-00 REx5xx REx5xx/Config .Config/FuncInp .FuncInp/EarthFI SIGNAL LIST Disturb Report Function Inputs Trip EF---BLOCK All signals in signal Service Report Slot11-BIM1 (*) Differential EF---BLKTEF list are grouped...
  • Page 111 ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 62 Version 1.0-00 Config/FuncInp FuncInp/FuseF REx5xx REx5xx/Config SIGNAL LIST Disturb Report FunctionInputs Trip FUSE-MCB All signals in signal Service Report Slot11-BIM1 (*) Differential FUSE-DISC list are grouped...
  • Page 112 ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 63 Version 1.0-00 REx5xx REx5xx/Config .Config/FuncInp .FuncInp/ITOC SIGNAL LIST Disturb Report FunctionInputs Trip ITOC-BLKTR All signals in signal Service Report Slot11-BIM1 (*) Differential ITOC-VTSZ list are grouped...
  • Page 113 ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 64 Version 1.0-00 REx5xx REx5xx/Config .Config/FuncInp .FuncInp/OR SIGNAL LIST Disturb Report FunctionInputs Trip O001-INPUT1 All signals in signal Service Report Slot11-BIM1 (*) Differential O001-INPUT2 list are grouped...
  • Page 114 ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 65 Version 1.0-00 REx5xx REx5xx/Config .Config/BIM1(*) SIGNAL LIST Disturb Report FunctionInputs IO1--BINAME01 All signals in signal Service Report Slot11-BIM1 (*) IO1--BINAME02 list are grouped Settings Slot13-IOM2 (*)
  • Page 115 ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 66 Version 1.0-00 REx5xx REx5xx/Config .Config/Ident .AnInp/GeneraI .IOmod/BIM1 Disturb Report FunctionInputs Station Name BIM1--OscBlock Service Report Slot11-BIM1 (*) Station No BIM1--OscRel Object Name Settings Slot13-IOM2 (*)
  • Page 116 ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 67 Version 1.0-00 REx5xx REx5xx/Config .Config/Time .SPAComm/Rear .NodeInf/AdrInfo TIME-MINSYNC (***) SlaveNo DomainID Disturb Report FunctionInputs TimeSyncSource BaudRate SubnetID Service Report Slot11-BIM1 Settings Slot13-IOM2 ActGrpRestrict NodeID Terminal Status Slot15-BOM3 .Config/MMI...
  • Page 117: Display For Command Menu

    ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 68 Version 1.0-00 2.6 Display for Command menu REx5xx REx5xx/Cmd .Cmd/CD01 CD01-CmdOut n Disturb. Report CD01 CD01-CmdOut1 (*) Command with Service Report CD02 CD01-CmdOut2 (*) confirmation, see...
  • Page 118: Display For Test Menu

    ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 69 Version 1.0-00 2.7 Display for Test menu REx5xx REx5xx/Test .Test/BlockT .Mode/TestOp Disturb.Report Block Terminal BlockTerminal Operation Service Report Test Mode Settings ConfigMode .Test/Mode .Mode/BlkFnc Terminal Status...
  • Page 119: Signal Lists

    ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 70 Version 1.0-00 2.8 Signal lists SIGNAL LIST A SIGNAL LIST B SIGNAL LIST C SIGNAL LIST D Fixed Signals Fixed Signals NotConnected NotConnected NotConnected NotConnected...
  • Page 120 ABB Network Partner AB Menu tree - Appendix 1MRK 580 158-XEN Page 3 - 71 Version 1.0-00 SIGNAL LIST A cont. SIGNAL LIST B cont. MI21-Error (*) MI31-Error (*) CD01 Slot11-BIM1 (*) Slot13-IOM2 (*) CD11 Slot15-BOM3 (*) Slot17-BOM4 (*) Slot19-BIM5 (*)
  • Page 121 ABB Network Partner AB 1MRK 580 158-XEN Menu tree - Appendix Page 3 - 72 Version 1.0-00...
  • Page 122: Object Addresses For Indications In Rec 561

    October 1996 Function: Basic 1 Object addresses for indications in REC 561 The table below describes the LON address and the SPA address for the event function blocks in REC 561. • The first column contains the name of the function block in REC 561.
  • Page 123 ABB Network Partner AB 1MRK 580 155-XEN Communication addresses REC Page 3 - 74 Version 1.0-00 Function First LON address in SPA channel: block: function block: EV01 1024 EV02 1040 EV03 1056 EV04 1072 EV05 1088 EV06 1104 EV07 1120...
  • Page 124 ABB Network Partner AB Communication addresses REC 1MRK 580 155-XEN Page 3 - 75 Version 1.0-00 Function First LON address in SPA address: block: function block: EV23 1376 EV24 1392 EV25 1408 EV26 1424 EV27 1440 EV28 1456 EV29 1472...
  • Page 125 Version 1.0-00 The table below describes the LON address and the SPA address for the direct analogue input and mA input function blocks in REC 561. • The first column contains the name of the function block in REC 561.
  • Page 126 ABB Network Partner AB Communication addresses REC 1MRK 580 155-XEN Page 3 - 77 Version 1.0-00 Function First LON address in SPA address: block: function block: MI21 2121 96I990 MI22 2122 96I991 MI23 2123 96I992 MI24 2124 96I993 MI25 2125...
  • Page 127 3 - 78 Version 1.0-00 The table below describes the LON address and the SPA address for the pulse counter function blocks in REC 561. • The first column contains the name of the function block in REC 561. • The second column contains the LON object address for each value.
  • Page 128: Spa Addresses For Commands In Rec 561

    40S257 is low warning, and 40S258 is low alarm. To store the limits for DAxx in REC 561, the 0 value must be written to the 10V42 address. For the MIxx limits, the 0 value must be written to the...
  • Page 129 ABB Network Partner AB 1MRK 580 155-XEN Communication addresses REC Page 3 - 80 Version 1.0-00 Function block SPA address CD01 12I1 CD02 12I21 CD03 12I41 CD04 12I61 CD05 12I81 CD06 12I101 CD07 12I121 CD08 12I141 CD09 12I161 CD10 12I181...
  • Page 130 ABB Network Partner AB Communication addresses REC 1MRK 580 155-XEN Page 3 - 81 Version 1.0-00 Function block SPA address CM11 12I421 CM12 12I441 CM13 12I461 CM14 12I481 CM15 12I501 CM16 12I521 CM17 12I541 CM18 12I561 CM19 12I581 CM20 12I601...
  • Page 131 ABB Network Partner AB 1MRK 580 155-XEN Communication addresses REC Page 3 - 82 Version 1.0-00 Function block SPA address CM39 12I981 CM40 21I1 CM41 21I21 CM42 21I41 CM43 21I61 CM44 21I81 CM45 21I101 CM46 21I121 CM47 21I141 CM48 21I161...
  • Page 132 ABB Network Partner AB Communication addresses REC 1MRK 580 155-XEN Page 3 - 83 Version 1.0-00 Function block SPA address CM67 21I541 CM68 21I561 CM69 21I581 CM70 21I601 CM71 21I621 CM72 21I641 CM73 21I661 CM74 21I681 CM75 21I701 CM76 21I721...
  • Page 133 ABB Network Partner AB 1MRK 580 155-XEN Communication addresses REC Page 3 - 84 Version 1.0-00 Function block: SPA address: MI11, Limit supervision 40S312 MI12, Limit supervision 40S342 MI13, Limit supervision 40S372 MI14, Limit supervision 40S402 MI15, Limit supervision 40S432...
  • Page 134 ABB Network Partner AB Page I Contents Page Application ....................4-1 Setting ....................4-1 Appendix....................4-2 Setting table ................... 4-2 Introduction..................... 4-5 Application ....................4-5 Configuration and operation ..............4-5 Testing....................4-6 Appendix....................4-7 Terminal diagram ................4-7 Signal list ..................4-7 Application ....................
  • Page 135 ABB Network Partner AB Page II Design....................4-25 Inverter (INV) ................4-26 OR ....................4-26 AND ....................4-27 Timer .................... 4-27 Pulse..................... 4-28 Exclusive OR (XOR)..............4-28 Set-Reset (SR) ................4-29 MOVE ................... 4-29 Setting....................4-31 Configuration ..................4-31 Testing ....................4-32 Appendix....................
  • Page 136: Application

    ABB Network Partner AB Terminal identification 1MRK 580 160-XEN Page Version 1.0-00 October 1996 Function: Basic 1 Application You can store the identification names and numbers of the station, the line, and the terminal itself in the terminal. This information can be read on the built-in MMI or when communicating with the terminal through a PC or an SMS/SCS.
  • Page 137: Appendix

    ABB Network Partner AB 1MRK 580 160-XEN Terminal identification Page 4 - 2 Version 1.0-00 3 Appendix 3.1 Setting table PARAMETER: SETTING RANGE: DESCRIPTION: Identifiers: Unit No (0 - 99999) Unit No. Unit Name 16 character string Unit Name Object No (0 - 99999) Object No.
  • Page 138 ABB Network Partner AB Terminal identification 1MRK 580 160-XEN Page 4 - 3 Version 1.0-00 PARAMETER: SETTING RANGE: DESCRIPTION: AnalogInputs/I1: CTPrim I1 (1 - 9999)A Nominal primary current of input I1 Name 13 character string User-defined name of analogue input I1...
  • Page 139 ABB Network Partner AB 1MRK 580 160-XEN Terminal identification Page 4 - 4 Version 1.0-00...
  • Page 140: Introduction

    ABB Network Partner AB Activation of setting group 1MRK 580 162-XEN Page Version 1.0-00 October 1996 Function: Basic 1 Introduction REx 5xx protection, monitoring and control terminals have four built-in independent groups (sets) of setting parameters, which can be activated at any time on five different ways: 1.
  • Page 141: Testing

    ABB Network Partner AB 1MRK 580 162-XEN Activation of setting group Page 4 - 6 Version 1.0-00 The voltage need not be permanently present on one binary input. Any pulse, which must be longer than 200 ms activates the corresponding set- ting group.
  • Page 142: Appendix

    ABB Network Partner AB Activation of setting group 1MRK 580 162-XEN Page 4 - 7 Version 1.0-00 5 Appendix 5.1 Terminal diagram ACTIVATE SETTING GROUP GRP--ACTGROUP1 GRP--ACTGROUP2 GRP--ACTGROUP3 GRP--ACTGROUP4 (X80162-2) Fig. 2 Simplified terminal diagram of the function. 5.2 Signal list...
  • Page 143 ABB Network Partner AB 1MRK 580 162-XEN Activation of setting group Page 4 - 8 Version 1.0-00...
  • Page 144: Application

    ABB Network Partner AB Restricted settings via man- 1MRK 580 163-XEN machine interface Page Version 1.0-00 October 1996 Function: Basic WARNING! Do not set this function in operation before carefully reading these instructions and configuring the MMI--BLOCKSET functional input to the selected binary input.
  • Page 145: Installation And Setting Instructions

    ABB Network Partner AB 1MRK 580 163-XEN Restricted settings via man- machine interface Page 4 - 10 Version 1.0-00 2 Installation and setting instructions Fig. 1 presents the combined connection and logical diagram for the func- tion. Configuration of the MMI--BLOCKSET functional input signal under the...
  • Page 146: Testing

    ABB Network Partner AB Restricted settings via man- 1MRK 580 163-XEN Page 4 - 11 machine interface Version 1.0-00 3 Testing 1.1 Configure the MMI--BLOCKSET functional input to the binary input of the terminal, which is determined by the engineering or the input that is not used by any other built-in function.
  • Page 147: Appendix

    ABB Network Partner AB 1MRK 580 163-XEN Restricted settings via man- machine interface Page 4 - 12 Version 1.0-00 4 Appendix 4.1 Terminal diagram SETTING RESTRICTION MMI--BLOCKSET (X80163-2) Fig. 2 Simplified terminal diagram of the function 4.2 Signal list DESCRIPTION: MMI--BLOCKSET Input signal that restricts the setting and configuration options by the MMI unit.
  • Page 148: Application

    Basic 1 Application This document describes the I/O system configuration that is used to add, remove, or move I/O modules in the REC 561 and REL 531 terminal Available I/O modules are: products. • BIM, Binary Input Module with 16 binary input channels •...
  • Page 149: Design

    You can fit up to 13 modules of the type BIM, up to 6 BOM or IOM in any combination, and up to 6 modules of type MIM in one REC 561, but totally maximum 13 modules. In REL 531, you can fit up to 5 modules and no MIM.
  • Page 150: Binary Input Module

    ABB Network Partner AB I/O system configuration 1MRK 580 190-XEN Page 4 - 15 Version 1.0-00 2.2 Binary input module The binary input module (BIM) has 16 inputs. These inputs appear as out- puts on the IOxx function block. The BIM supervises oscillating input sig- nals.
  • Page 151: Binary Output Module

    ABB Network Partner AB 1MRK 580 190-XEN I/O system configuration Page 4 - 16 Version 1.0-00 2.3 Binary output module The binary output module (BOM) has 24 outputs. The outputs are used in pairs when used as command outputs. Refer to Apparatus Control (1MRK 580 150-XEN), which describes the application of using these outputs.
  • Page 152: Input/Output Module

    ABB Network Partner AB I/O system configuration 1MRK 580 190-XEN Page 4 - 17 Version 1.0-00 2.4 Input/output module The input/output module (IOM) has 8 inputs and 12 outputs. The func- tionality of the oscillating input blocking that is available on BIM and on the supervised outputs on BOM are not available on this module.
  • Page 153: I/O Position

    ABB Network Partner AB 1MRK 580 190-XEN I/O system configuration Page 4 - 18 Version 1.0-00 For more information about the mA input module including the signal list and setting table, refer to the document Direct Current Measuring Unit (1MRK 580 154-XEN).
  • Page 154 ABB Network Partner AB I/O system configuration 1MRK 580 190-XEN Page 4 - 19 Version 1.0-00 The Sxx outputs are connected to the POSITION inputs of the I/O Mod- ules and MIMs. REL531 IOP1 I/OPosition REC 561 IOP1 I/OPosition (X80190-5) Fig.
  • Page 155: Configuration

    ABB Network Partner AB 1MRK 580 190-XEN I/O system configuration Page 4 - 20 Version 1.0-00 3 Configuration The configuration can be performed in two ways: • From CAP 531, the graphical configuration tool • By using the reconfiguration command from the built-in MMI (REL...
  • Page 156: Setting

    ABB Network Partner AB I/O system configuration 1MRK 580 190-XEN Page 4 - 21 Version 1.0-00 4 Setting You can set the input names for binary input and binary output modules (BIM, BOM, and IOM) from the CAP 531 configuration tool. For REL 531, you can set the names from the SMS or the built-in MMI.
  • Page 157: Testing

    ABB Network Partner AB 1MRK 580 190-XEN I/O system configuration Page 4 - 22 Version 1.0-00 5 Testing I/O modules that are not configured are not supervised. When an I/O mod- ule is configured as a logical I/O module (BIM, BOM, IOM, or MIM), the logical I/O modules are supervised.
  • Page 158: Appendix

    I/O board located in slot number zz. zz = odd numbers 11 to 19 for REL 531 and even numbers 12 to 36 for REC 561. Is con- nected to the corresponding I/O module function block for BIM, BOM, IOM, or MIM.
  • Page 159: Setting Table

    ABB Network Partner AB 1MRK 580 190-XEN I/O system configuration Page 4 - 24 Version 1.0-00 6.2 Setting table Table 3: Setting table for binary input module (BIM), binary output module (BOM), and input/output module (IOM) PARAMETER: SETTING RANGE: DESCRIPTION:...
  • Page 160: Application

    2 Design The number of blocks of configurable logic circuits available in REL 531 and REC 561 are: REL 531 Fast execution cyclicity (typical 5 ms) • 20 INV (INVerters) •...
  • Page 161: Inverter (Inv)

    INPUTm, where nnn runs from 001 to 040 for REL 531 and to 199 for REC 561 and presents the serial number of the block, and m presents the serial number of the inputs in the block. Each OR circuit has two outputs, Onnn-OUT and Onnn-NOUT (inverted).
  • Page 162: And

    The configuration logic AND gate (Fig. 3) has four inputs (one of them inverted), designated Annn-INPUTm (Annn-INPUT4N is inverted), where nnn runs from 001 to 010 for REL 531 and to 249 for REC 561 and presents the serial number of the block, and m presents the serial number of the inputs in the block.
  • Page 163: Pulse

    TPnn-INPUT, where nn runs from 01 to 10 for REL 531 and to 50 for REC 561 and presents the serial number of the logic block. Each pulse timer has one output, designated by TPnn- OUT.
  • Page 164: Set-Reset (Sr)

    ABB Network Partner AB Configurable logic 1MRK 580 161-XEN Page 4 - 29 Version 1.0-00 of the inputs in the block. Each XOR circuit has two outputs, XOnn-OUT and XOnn-NOUT (inverted). The output signal (OUT) is 1 if the input signals are different and 0 if they are equal.
  • Page 165 ABB Network Partner AB 1MRK 580 161-XEN Configurable logic Page 4 - 30 Version 1.0-00 Each block of 16 signals is protected from being interrupted by other logic application tasks. This guarantees the consistency of the signals to each other within each MOVE function block.
  • Page 166: Setting

    4 Configuration The configuration of the logics is performed from the CAP 531 configura- tion tool for REL 531 and REC 561, but can for REL 531 also be done from the SMS and the built-in MMI. Execution of functions as defined by the configurable logic blocks runs in a fixed sequence in two different cycle times, typical 8 ms and 200 ms.
  • Page 167: Testing

    ABB Network Partner AB 1MRK 580 161-XEN Configurable logic Page 4 - 32 Version 1.0-00 5 Testing You can separately test configuration logic circuits for each group and each circuit. For each block, you must configure all: • Input signals to the corresponding binary inputs.
  • Page 168: Appendix

    ABB Network Partner AB Configurable logic 1MRK 580 161-XEN Page 4 - 33 Version 1.0-00 6 Appendix 6.1 Terminal diagram IVnn INPUT (X80161-12) Fig. 12 Simplified terminal diagram of the Inverter function Onnn INPUT1 NOUT INPUT2 INPUT3 INPUT4 INPUT5 INPUT6 (X80161-13) Fig.
  • Page 169 ABB Network Partner AB 1MRK 580 161-XEN Configurable logic Page 4 - 34 Version 1.0-00 TPnn Pulse INPUT (X80161-16) Fig. 16 Simplified terminal diagram of the Pulse function XOnn INPUT1 INPUT2 NOUT (X80161-17) Fig. 17 Simplified terminal diagram of the Exclusive OR function...
  • Page 170 ABB Network Partner AB Configurable logic 1MRK 580 161-XEN Page 4 - 35 Version 1.0-00 MOLn MOVE INPUT1 OUTPUT1 INPUT2 OUTPUT2 INPUT3 OUTPUT3 INPUT4 OUTPUT4 INPUT5 OUTPUT5 INPUT6 OUTPUT6 INPUT7 OUTPUT7 INPUT8 OUTPUT8 INPUT9 OUTPUT9 INPUT10 OUTPUT10 INPUT11 OUTPUT11 INPUT12...
  • Page 171: Signal List

    ABB Network Partner AB 1MRK 580 161-XEN Configurable logic Page 4 - 36 Version 1.0-00 6.2 Signal list Table 1: Signal list for the Inverter function DESCRIPTION: IVnn-INPUT Logic INV input to INV gate number nn OUT: DESCRIPTION: IVnn-OUT Logic INV output from INV gate...
  • Page 172 ABB Network Partner AB Configurable logic 1MRK 580 161-XEN Page 4 - 37 Version 1.0-00 Table 4: Signal list for the Timer function DESCRIPTION: TMnn-INPUT Logic Timer input to timer number OUT: DESCRIPTION: TMnn-OFF Output from timer number nn, Off...
  • Page 173 ABB Network Partner AB 1MRK 580 161-XEN Configurable logic Page 4 - 38 Version 1.0-00 Table 7: Signal list for the Set-Reset function DESCRIPTION: SRnn-SET Logic set input to Set-Reset gate number nn SRnn-RESET Logic reset input to Set-Reset gate number nn...
  • Page 174: Setting Table

    ABB Network Partner AB Configurable logic 1MRK 580 161-XEN Page 4 - 39 Version 1.0-00 6.3 Setting table Table 10: Setting table for the Timer function PARAMETER: SETTING RANGE: DESCRIPTION: TMnn-T 0.00-50.00 s Time delay for timer number nn. To be set from CAP 531.
  • Page 175 ABB Network Partner AB 1MRK 580 161-XEN Configurable logic Page 4 - 40 Version 1.0-00...
  • Page 176 ABB Network Partner AB Page I Contents Page Application ....................5-1 Design ....................5-1 Three-phase front logic ..............5-1 Single-phase front logic..............5-2 Tripping logic circuits..............5-3 Testing....................5-6 Appendix....................5-7 Terminal diagrams................5-7 Signal list ..................5-7 Setting table ................... 5-8 Application ....................
  • Page 177 ABB Network Partner AB Page II Signal list ..................5-29 Setting table.................. 5-30 Application .................... 5-31 Synchronism check ..............5-31 Energizing check ................5-33 Voltage selection ................5-34 Fuse failure and Voltage OK signals ..........5-35 Theory of operation................5-36 Synchro check ................
  • Page 178 ABB Network Partner AB Page III Start and control of the auto-reclosing ......... 5-63 Extended AR open time, shot 1 ........... 5-64 Long trip signal ..............5-64 Reclosing programs............. 5-64 1/3ph reclosing............5-64 Evolving fault ............... 5-65 AR01-P3PH, Prepare three-phase trip ........ 5-65 Blocking of a new reclosing cycle ........
  • Page 179 ABB Network Partner AB Page IV Terminate the test and restore the equipment to normal state..5-94 Appendix....................5-95 Terminal diagrams................ 5-95 Signal list ..................5-96 Setting table.................. 5-96 Application .................... 5-97 Measuring principle................5-97 Design....................5-97 Setting....................5-98 Testing ....................5-99 General..................
  • Page 180: Application

    ABB Network Partner AB Tripping logic 1MRK 580 120-XEN Page Version 1.0-00 October 1996 Function: Basic 1 Application The tripping logic in REx 5xx protection, control and monitoring termi- nals offers two options: • Three-phase tripping, available as a basic function in all 500 series terminals of REx 5xx type.
  • Page 181: Single-Phase Front Logic

    ABB Network Partner AB 1MRK 580 120-XEN Tripping logic Page 5 - 2 Version 1.0-00 These signals continue to appear within the tripping logic circuits (see Fig. 3). Any of the functional input signals that are connected to either the selected...
  • Page 182: Tripping Logic Circuits

    ABB Network Partner AB Tripping logic 1MRK 580 120-XEN Page 5 - 3 Version 1.0-00 Signal To phase... L1TRIP L2TRIP L3TRIP External tripping signals can also cause a single-phase tripping without any restriction. TRIP-TRTP TRIP-EXTL1 L1TRIP TRIP-PSL1 & TRIP-EXTL2 L2TRIP...
  • Page 183 ABB Network Partner AB 1MRK 580 120-XEN Tripping logic Page 5 - 4 Version 1.0-00 The impulse circuits assure that the tripping signals that are issued by the terminal are not shorter than 150 ms.
  • Page 184 ABB Network Partner AB Tripping logic 1MRK 580 120-XEN Page 5 - 5 Version 1.0-00 TEST TEST-ACTIVE & BLOCK-TRIP TRIP-EXTTRIP & TRIP-BLOCK OPERATION=OFF 150ms TRIP-TRIPL1 & L1TRIP 2000ms & 150ms TRIP-TRIPL2 & L2TRIP 2000ms & 150ms TRIP-TRIPL3 & L3TRIP 2000ms TRIP-GTRIP &...
  • Page 185: Testing

    So when you test different functions, ABB Network Partner recommends that you check the correct operation of the tripping logic for the operation of dif- ferent built-in protection and control functions. Also use the appropriate docu- mentation that is issued separately for each terminal.
  • Page 186: Appendix

    ABB Network Partner AB Tripping logic 1MRK 580 120-XEN Page 5 - 7 Version 1.0-00 4 Appendix 4.1 Terminal diagrams THREE-PHASE TRIPPING LOGIC TRIP_BLOCK TRIP_TRIPL1 TRIP_TRIPL2 TRIP_TESTBLCK TRIP_EXTTRIP TRIP_TRIPL3 TRIP_GTRIP TRIP_EXTL1 TRIP_TPTRIP TRIP_EXTL2 TRIP_SPTRIP TRIP_EXTL3 TRIP_TRSP TRIP_TRTP SINGLE AND/OR THREE-PHASE TRIPPING LOGIC...
  • Page 187: Setting Table

    ABB Network Partner AB 1MRK 580 120-XEN Tripping logic Page 5 - 8 Version 1.0-00 DESCRIPTION: TRIP-PSL3 Necessary condition for single phase trip in phase L3. Generally connected to protective functions with phase selective operation TRIP-PTPTRIP Turns the tripping logic into three phase operating mode.
  • Page 188: Application

    ABB Network Partner AB Synchronism and energizing 1MRK 580 152-XEN check for single circuit breaker Page Version 1.0-00 with voltage selection October 1996 Function: Optional 1 Application 1.1 Synchronism check The synchro-check function is used for controlled closing of a circuit in an interconnected network.
  • Page 189 ABB Network Partner AB 1MRK 580 152-XEN Synchronism and energizing check for single circuit breaker Page 5 - 10 Version 1.0-00 with voltage selection The voltage circuits are arranged differently depending on the number of synchro-check functions that are included in the control terminal.
  • Page 190: Energizing Check

    ABB Network Partner AB Synchronism and energizing 1MRK 580 152-XEN Page 5 - 11 check for single circuit breaker Version 1.0-00 with voltage selection 1.2 Energizing check The energizing check is made when a disconnected line is to be connected to an energized section of a network, see Fig.
  • Page 191: Voltage Selection

    1.3 Voltage selection The voltage selection function is used for the synchronism (SYNX) and energizing check functions. When the REC 561 is used in a doublebus, the voltage that should be selected depends on the positions of the break- ers and/or disconnectors. By checking the position of the disconnectors and/or breakers auxiliary contacts, the REC 561 can select the right volt- age for the synchronism and energizing function.
  • Page 192: Voltage Selection For A Single Busbar

    ABB Network Partner AB Synchronism and energizing 1MRK 580 152-XEN Page 5 - 13 check for single circuit breaker Version 1.0-00 with voltage selection Bus 1 Bay 1 REC561 I/O BI SYNCH.CHECK VOLT SELECTION SYN1 U-Bus 1 U-Bus U-Line 1...
  • Page 193 ABB Network Partner AB 1MRK 580 152-XEN Synchronism and energizing check for single circuit breaker Page 5 - 14 Version 1.0-00 with voltage selection For the control terminal intended for one bay, the line voltage (SYN1-U- line 1) is connected as a three-phase voltage to the analogue inputs UL1, UL2, UL3 (ULx).
  • Page 194 ABB Network Partner AB Synchronism and energizing 1MRK 580 152-XEN Page 5 - 15 check for single circuit breaker Version 1.0-00 with voltage selection Bus 1 Bay 1 Bus 2 REC561 I/O BI SYNCH.CHECK VOLT SELECTION SYN1 VOLT. SEL1 U-Bus...
  • Page 195: Voltage Selection For A Double Bus

    ABB Network Partner AB 1MRK 580 152-XEN Synchronism and energizing check for single circuit breaker Page 5 - 16 Version 1.0-00 with voltage selection 1.3.2 Voltage selection for Select DbleBus on the MMI. Fig. 5 shows the principle for the connection a double bus arrangement.
  • Page 196: Theory Of Operation

    ABB Network Partner AB Synchronism and energizing 1MRK 580 152-XEN Page 5 - 17 check for single circuit breaker Version 1.0-00 with voltage selection 2 Theory of operation Connectable inputs X=1,2 or 3 SYNX General Block SYNX-BLOCK From fuse failure...
  • Page 197: Voltage-Selection

    ABB Network Partner AB 1MRK 580 152-XEN Synchronism and energizing check for single circuit breaker Page 5 - 18 Version 1.0-00 with voltage selection SYN1-CB1OPEN & SYN1-VSUB1 SYN1-CB1CLD SYN1-U-BUS & SYN1-VSUB2 SYN1-CB2OPEN & SYN1-CB2CLD & SYN-UB1OK UENERG1OK SYN-UB1FF & SYN-UB2OK...
  • Page 198: Operation

    ABB Network Partner AB Synchronism and energizing 1MRK 580 152-XEN Page 5 - 19 check for single circuit breaker Version 1.0-00 with voltage selection SYNX-VTSU Internal fuse failure detection or configured to a binary input indicating external fuse failure of the UL1, UL2, UL3 line-side voltage.
  • Page 199 ABB Network Partner AB 1MRK 580 152-XEN Synchronism and energizing check for single circuit breaker Page 5 - 20 Version 1.0-00 with voltage selection AutoEnerg. To synchro check fig 8 Both 50ms DLLB & DBLL 0.00-1.0s & AUTOENERG 1 50ms &...
  • Page 200: Input Phase

    ABB Network Partner AB Synchronism and energizing 1MRK 580 152-XEN Page 5 - 21 check for single circuit breaker Version 1.0-00 with voltage selection 3.2 Input phase The measuring phase of the UL1, UL2, UL3 line voltage, which can be of a single-phase (phase-neutral) or two-phases (phase-phase).
  • Page 201: Testing

    ABB Network Partner AB 1MRK 580 152-XEN Synchronism and energizing check for single circuit breaker Page 5 - 22 Version 1.0-00 with voltage selection 4 Testing At periodical checks, the functions should preferably be tested with the used settings. To test a specific function, you might need to change some setting parameters, for example: •...
  • Page 202 ABB Network Partner AB Synchronism and energizing 1MRK 580 152-XEN Page 5 - 23 check for single circuit breaker Version 1.0-00 with voltage selection These voltage inputs are used: U-line UL1, UL2 or UL3 voltage input on the terminal. U-bus...
  • Page 203: Test Of Phase Difference

    ABB Network Partner AB 1MRK 580 152-XEN Synchronism and energizing check for single circuit breaker Page 5 - 24 Version 1.0-00 with voltage selection 4.2.2 Test of phase The phase difference is set at 45° on the MMI, and the test should verify...
  • Page 204: Test Of Frequency Difference

    ABB Network Partner AB Synchronism and energizing 1MRK 580 152-XEN Page 5 - 25 check for single circuit breaker Version 1.0-00 with voltage selection 4.2.3 Test of frequency The frequency difference is set at 50 mHz on the MMI, and the test...
  • Page 205: Dead Bus Live Line (Dbll)

    ABB Network Partner AB 1MRK 580 152-XEN Synchronism and energizing check for single circuit breaker Page 5 - 26 Version 1.0-00 with voltage selection Set these MMI settings: Parameter Setting Operation InputPhase USelection SingleBus AutoEnerg DLLB ManEnerg DLLB UHigh /sqr3...
  • Page 206: Energizing In Both Directions (Dllb Or Dbll)

    ABB Network Partner AB Synchronism and energizing 1MRK 580 152-XEN Page 5 - 27 check for single circuit breaker Version 1.0-00 with voltage selection 4.3.3 Energizing in both Change the MMI settings AutoEnerg and ManEnerg to Both. directions (DLLB or...
  • Page 207 ABB Network Partner AB 1MRK 580 152-XEN Synchronism and energizing check for single circuit breaker Page 5 - 28 Version 1.0-00 with voltage selection Connect the signals below to binary inputs and binary outputs. Apply signals according to the table and verify that correct outsignals are...
  • Page 208: Appendix

    ABB Network Partner AB Synchronism and energizing 1MRK 580 152-XEN Page 5 - 29 check for single circuit breaker Version 1.0-00 with voltage selection 5 Appendix 5.1 Terminal diagrams SYN1 AUTOOK BLOCK MANOK FD1OPEN VSUB1 FD1CLD VSUB2 CB1OPEN CB1CLD CB2OPEN...
  • Page 209: Setting Table

    ABB Network Partner AB 1MRK 580 152-XEN Synchronism and energizing check for single circuit breaker Page 5 - 30 Version 1.0-00 with voltage selection 5.3 Setting table PARAMETER: SETTING RANGE: DESCRIPTION: Synchrocheck 1 Operation Off, Release, On Function execution InputPhase L1, L2, L3, Voltage reference selection.
  • Page 210: Application

    ABB Network Partner AB Synchronism and energizing 1MRK 580 167-XEN check for double circuit breakers Page - 31 Version 1.0-00 and voltage selection October 1996 Function: Optional 1 Application 1.1 Synchronism check The synchro-check function is used for controlled closing of a circuit in an interconnected network.
  • Page 211 ABB Network Partner AB 1MRK 580 167-XEN Synchronism and energizing check for double circuit breakers Page 5 - 32 Version 1.0-00 and voltage selection In terminals intended for one bay the U-line voltage reference phase is selected on the man-machine interface (MMI). The reference voltage can be single-phase L1, L2, L3 or phase-phase L1-L2, L2-L3, L3-L1.
  • Page 212: Energizing Check

    ABB Network Partner AB Synchronism and energizing 1MRK 580 167-XEN Page 5 - 33 check for double circuit breakers Version 1.0-00 and voltage selection 1.2 Energizing check The energizing check is made when a disconnected line is to be connected to an energized section of a network, see Fig.
  • Page 213: Voltage Selection

    ABB Network Partner AB 1MRK 580 167-XEN Synchronism and energizing check for double circuit breakers Page 5 - 34 Version 1.0-00 and voltage selection Bus 1 Bay 1 Bus 2 REC561 I/O BI SYNCH.CHECK VOLT SELECTION SYN1 U-Bus 1 U-Bus...
  • Page 214: Fuse Failure And Voltage Ok Signals

    ABB Network Partner AB Synchronism and energizing 1MRK 580 167-XEN Page 5 - 35 check for double circuit breakers Version 1.0-00 and voltage selection For the synchro check and energizing check, the voltage from Bus 1 (SYN1(3)-U-bus) is connected to the single-phase analouge input (U5) on the control terminal and the voltage from Bus 2 (SYN2(4)-U-bus) is con- nected to the single-phase analouge input (U4).
  • Page 215: Theory Of Operation

    ABB Network Partner AB 1MRK 580 167-XEN Synchronism and energizing check for double circuit breakers Page 5 - 36 Version 1.0-00 and voltage selection 2 Theory of operation Connectable inputs X=1,2,3 or 4 SYNX General Block SYNX-BLOCK From fuse failure...
  • Page 216: Operation

    ABB Network Partner AB Synchronism and energizing 1MRK 580 167-XEN Page 5 - 37 check for double circuit breakers Version 1.0-00 and voltage selection Output signals Description SYNX-AUTOOK Synchro-check/energizing OK. The output sig- nal is high when the synchro-check conditions set on the MMI are fulfilled.
  • Page 217 ABB Network Partner AB 1MRK 580 167-XEN Synchronism and energizing check for double circuit breakers Page 5 - 38 Version 1.0-00 and voltage selection AutoEnerg. To synchro check fig 8 Both 50ms DLLB & DBLL 0.00-1.0s & AUTOENERG 1 50ms &...
  • Page 218: Input Phase

    ABB Network Partner AB Synchronism and energizing 1MRK 580 167-XEN Page 5 - 39 check for double circuit breakers Version 1.0-00 and voltage selection 3.2 Input phase The measuring phase of the UL1, UL2, UL3 line voltage, which can be of a single-phase (phase-neutral) or two-phases (phase-phase).
  • Page 219: Testing

    ABB Network Partner AB 1MRK 580 167-XEN Synchronism and energizing check for double circuit breakers Page 5 - 40 Version 1.0-00 and voltage selection 4 Testing At periodical checks, the functions should preferably be tested with the used settings. To test a specific function, you might need to change some setting parameters, for example: •...
  • Page 220 ABB Network Partner AB Synchronism and energizing 1MRK 580 167-XEN Page 5 - 41 check for double circuit breakers Version 1.0-00 and voltage selection These voltage inputs are used: U-line UL1, UL2 or UL3 voltage input on the terminal. U-bus...
  • Page 221: Test Of Phase Difference

    ABB Network Partner AB 1MRK 580 167-XEN Synchronism and energizing check for double circuit breakers Page 5 - 42 Version 1.0-00 and voltage selection 4.2.2 Test of phase The phase difference is set at 45° on the MMI, and the test should verify...
  • Page 222: Test Of Frequency Difference

    ABB Network Partner AB Synchronism and energizing 1MRK 580 167-XEN Page 5 - 43 check for double circuit breakers Version 1.0-00 and voltage selection 4.2.3 Test of frequency The frequency difference is set at 50 mHz on the MMI, and the test...
  • Page 223: Dead Bus Live Line (Dbll)

    ABB Network Partner AB 1MRK 580 167-XEN Synchronism and energizing check for double circuit breakers Page 5 - 44 Version 1.0-00 and voltage selection Set these MMI settings: Parameter Setting Operation InputPhase USelection SingleBus AutoEnerg DLLB ManEnerg DLLB UHigh /sqr3...
  • Page 224: Energizing In Both Directions (Dllb Or Dbll)

    ABB Network Partner AB Synchronism and energizing 1MRK 580 167-XEN Page 5 - 45 check for double circuit breakers Version 1.0-00 and voltage selection 4.3.3 Energizing in both Change the MMI settings AutoEnerg and ManEnerg to Both. directions (DLLB or...
  • Page 225: Appendix

    ABB Network Partner AB 1MRK 580 167-XEN Synchronism and energizing check for double circuit breakers Page 5 - 46 Version 1.0-00 and voltage selection 5 Appendix 5.1 Terminal diagrams SYN1 AUTOOK BLOCK MANOK UB1FF VSUB1 UB1OK VTSU VSUB2 (X80167-10) Fig. 10 Simplified terminal diagram of the function.
  • Page 226: Setting Table

    ABB Network Partner AB Synchronism and energizing 1MRK 580 167-XEN Page 5 - 47 check for double circuit breakers Version 1.0-00 and voltage selection 5.3 Setting table PARAMETER: SETTING RANGE: DESCRIPTION: Operation Off, Release, On Function execution InputPhase L1, L2, L3, Voltage reference selection.
  • Page 227 ABB Network Partner AB 1MRK 580 167-XEN Synchronism and energizing check for double circuit breakers Page 5 - 48 Version 1.0-00 and voltage selection...
  • Page 228: Application

    ABB Network Partner AB Fuse-failure supervision function 1MRK 580 169-XEN Page - 49 Version 1.0-00 October 1996 Function: Optional 1 Application Different protection functions within the REx 5xx protection, control and monitoring terminals operate on the basis of the decreased measured volt- age in a relay point.
  • Page 229: Design

    ABB Network Partner AB 1MRK 580 169-XEN Fuse-failure supervision function Page 5 - 50 Version 1.0-00 3 Design 50ms FUSE-MCB FUSE-DISC FUSE-VTSU 50ms 200ms UICH & FUSE-VTSZ Operation= Zeroseg & VTF0 Operation= NegativeSeq & VTF2 50ms 25ms 1 & UCHL1 25ms &...
  • Page 230: Settings

    ABB Network Partner AB Fuse-failure supervision function 1MRK 580 169-XEN Page 5 - 51 Version 1.0-00 The function has built in a phase-segregated voltage and current measur- ing function. It sets the value of internal signal UICH to logical one, if the voltage in any phase decreases under the set value at the same time as the current in the same phase decreases under 10% of its rated value.
  • Page 231: Testing

    Check the operation of the FFS function during the commissioning and during regular maintenance tests. ABB Network Partner recommends, although it does not absolutely request, the use of a testing equipment of type RTS 21 (FREJA) for purposes of the secondary injection testing.
  • Page 232 ABB Network Partner AB Fuse-failure supervision function 1MRK 580 169-XEN Page 5 - 53 Version 1.0-00 These steps are necessary for testing the FFS function: Check if the input and output logical signals as shown in Fig. 1 are configured to the corresponding binary inputs and outputs of the tested terminal.
  • Page 233 ABB Network Partner AB 1MRK 580 169-XEN Fuse-failure supervision function Page 5 - 54 Version 1.0-00 voltage-dependent functions must operate. Simulate normal operating condition again. Disconnect the dc voltage from the FUSE-MCB binary input terminal. Set the operating mode of the FFS function to the Operation = Zeroseq.
  • Page 234: Appendix

    ABB Network Partner AB Fuse-failure supervision function 1MRK 580 169-XEN Page 5 - 55 Version 1.0-00 4 Appendix 4.1 Terminal diagrams FUSE FUSE VTF3PH DISC VTSU VTSZ (X80169-2) Fig. 2 Simplified terminal diagram of the function 50ms FUSE-MCB FUSE-DISC FUSE-VTSU...
  • Page 235: Signal List

    ABB Network Partner AB 1MRK 580 169-XEN Fuse-failure supervision function Page 5 - 56 Version 1.0-00 4.2 Signal list DESCRIPTION: FUSE-MCB Functional input sigal, which is normally connected via binary input to the auxiliary NC contact of the miniature circut breaker in the voltage measuring circuits...
  • Page 236: Application

    ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN three-phase Page - 57 Version 1.0-00 October 1996 Function: Optional 1 Application Automatic reclosing (AR) is a well-established method to restore the serv- ice of a power line after a transient line fault. The majority of line faults are flashover arcs, which are transient by nature.
  • Page 237: Theory Of Operation

    ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 58 Version 1.0-00 Line protection Operate time Operate time Closed Circuit breaker Open Closing time Break time Break time Fault duration AR open time for breaker...
  • Page 238: Input And Output Signals

    ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN Page 5 - 59 three-phase Version 1.0-00 2.1 Input and output signals CAN BE CONNECTED TO BINARY INPUTS CONNECTED TO BINARY OUTPUTS CLOSECB TRSOTF SETON TPTRIP INPROG START WFMASTER...
  • Page 239: Ar Operation

    ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 60 Version 1.0-00 AR01-SYNC Synchro-check OK from the internal synchro- check function or an external device required for three-phase auto-reclosing. AR01-PLCLOST Power line carrier or other form of permissive sig- nal lost.
  • Page 240: Function Logic

    ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN Page 5 - 61 three-phase Version 1.0-00 2.3 Function logic 2.3.1 Start and control of The automatic operation of the auto-reclosing function is controlled by the auto-reclosing the Operation parameter and the input signals as described above. When it is on, the AR01-SETON output is high (active).
  • Page 241: Long Trip Signal

    ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 62 Version 1.0-00 2.3.2 Extended AR open By setting the Extended t1 parameter (On/Off), this function can either time, shot 1 be selected or not. The purpose is to adapt the length of the AR Open time to the possibility of non-simultaneous tripping at the two line ends.
  • Page 242: Evolving Fault

    ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN Page 5 - 63 three-phase Version 1.0-00 high, the timer for three-phase AR open time, t1, is started (instead of t1S) and AR01-TP1 is set (auto-reclosing three-phase, shot 1, in progress).
  • Page 243: Pulsing Of Cb Closing Command And Incrementing The Operation Counters

    ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 64 Version 1.0-00 Another possibility is to set the output from the internal synchro-check function to a permanently active signal. Set Operation = Release in the synchro-check function.
  • Page 244: Permanent Fault

    ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN Page 5 - 65 three-phase Version 1.0-00 After the reclaim time, the AR state control resets to the original rest state, with AR01-SETON = 1, AR01-READY = 1 and AR01-P1PH = 1 outputs (depending on the selected program).
  • Page 245: Setting

    ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 66 Version 1.0-00 1/3ph + 3ph 1-phase + 3-phase, or 3-phase + 3-phase, two-shot reclosing. The operation is similar to that in program 1/3ph, described above, but at a tripping after the first reclosing shot, a second reclosing shot is made.
  • Page 246: Recommendations For Output Signals

    ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN Page 5 - 67 three-phase Version 1.0-00 AR01-TRSOTF is connected to the internal line protection, distance protection, trip switch-onto-fault. AR01-TPTRIP is connected to the internal function TRIP, or to a binary input. The protec- tion functions that give a three-phase trip are supposed to be routed via that function.
  • Page 247: Testing

    ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 68 Version 1.0-00 4 Testing You can test the auto-reclosing function, for example, during commis- sioning or after a configuration change. You can test the function with, for example, the protection and trip functions and the synchro-check function (with energizing check).
  • Page 248: Check That The Ar Function Works

    ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN Page 5 - 69 three-phase Version 1.0-00 1.2 Read and note the reclosing operate counters from the MMI tree: Service report AR Counters AR01-Counters (for AR No. 1) Counters 1.3 Do the testing arrangements outlined above, for example, as in Fig.
  • Page 249: Termination Of The Test

    ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 70 Version 1.0-00 3.4 Lack of verification from synchro-check: Check the function at non- acceptable voltage conditions. Wait for time out, >5 s. No reclosing.
  • Page 250: Diagrams

    ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN Page 5 - 71 three-phase Version 1.0-00 5 Diagrams Operation:On Operation:Off Operation:Standby & & AR01-ON AR-SETON & AR01-OFF AR01-START AR-INITIATE Additional condition & AR01-TRSOTF & AR-STARTAR & AR01-CBCLOSED AR01-CBREADY &...
  • Page 251 ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 72 Version 1.0-00 AR01-PLCLOST & Extend_t1 & AR-INITIATE AR-STARTAR AR-tTRIP & AR-tTRIP AR-INITIATE & AR-LONGDURA AR-STARTAR (X80170-4) Fig. 4 Control of extended “AR Open time, shot 1”...
  • Page 252 ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN Page 5 - 73 three-phase Version 1.0-00 AR State signal (Fig.6) Logic AR01-SP1 Started state (Fig.3) AR01-SPTO AR01-TPTRIP Extend t1 0,4s EXTEND_t1 (Fig.4) AR01-TP1 AR01-TPTO AR01-READY AR01-INPROGR Inhibit (Fig.6) AR01-P3PH RMR (Fig.6)
  • Page 253 ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 74 Version 1.0-00 “AR Open time” timers SPTO (Fig.5) TPTO T2TO Pulse AR T3TO & & T4TO AR01-EXTSYNC & Trip int. (Fig.3) Blocking & Additional condition tSync &...
  • Page 254 ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN Page 5 - 75 three-phase Version 1.0-00 tPulse Pulse-AR & AR01-CLOSECB Trip int. (Fig.3) tPulse 1-ph Shot 1 & AR01-SP1 3-ph Shot 1 & AR01-TP1 3-ph Shot 2 &...
  • Page 255 ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 76 Version 1.0-00 Fault AR01-CBCLOSED AR01-CBREADY(CO) AR01-START(Trip) AR01-TPTRIP AR01-SYNC AR01-READY AR01-INPROGR AR01-SP1 AR01-TP1 AR01-TP2 AR01-CLOSECB AR01-P3PH AR01-UNSUC tReclaim (X80170-8) Fig. 8 Example of sequence. Permanent single-phase fault.
  • Page 256 ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN Page 5 - 77 three-phase Version 1.0-00 Trip Trip AR01-CLOSECB Close AR01-CBCLOSED AR01-CBREADY To Test Set (X80170-10) Fig. 10 Simulating breaker operation with two auxiliary relays...
  • Page 257: Appendix

    ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 78 Version 1.0-00 6 Appendix 6.1 Terminal diagrams AR01 CLOSECB TRSOTF SETON TPTRIP INPROGR START WFMASTER P1PH CBREADY P3PH CBCLOSED READY INHIBIT PLCLOST WAIT SYNC...
  • Page 258 ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN Page 5 - 79 three-phase Version 1.0-00 AR1 1-ph/3-ph reclosing Operation=On AR On/Off Operation=Standby Operation=Off & AR01-SETON AR01-ON & AR01-OFF AR01-START Start AR01-CBCLOSED AR01-READY AR01-CBREADY AR01-UNSUC AR01-TRSOTF AR01-INPROGR Reclosing programs...
  • Page 259: Signal List

    ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 80 Version 1.0-00 6.2 Signal list Signal list indicating the input and output signals which can be interfaced with the auto-recloser 1. Data is same for other auto-recloser functions (2 to 6) with signal prefix AR02- to AR06-.
  • Page 260: Setting Table

    ABB Network Partner AB Auto-reclosing - Single- and/or 1MRK 580 170-XEN Page 5 - 81 three-phase Version 1.0-00 6.3 Setting table PARAMETER: SETTING RANGE: DESCRIPTION: Operation Off, Stand by, On Auto-reclose operation Program 3ph, 2*3ph, 3*3ph, 4*3ph, 1ph, 1/3 ph,...
  • Page 261 ABB Network Partner AB 1MRK 580 170-XEN Auto-reclosing - Single- and/or three-phase Page 5 - 82 Version 1.0-00...
  • Page 262: Application

    ABB Network Partner AB Breaker-failure protection 1MRK 580 171-XEN Page - 83 Version 1.0-00 October 1996 Function: Optional 1 Application This function issues a back-up trip adjacent circuit breakers in case of a tripping failure of the circuit breaker (CB), and clears the fault as requested by the object protection.
  • Page 263 ABB Network Partner AB 1MRK 580 171-XEN Breaker-failure protection Page 5 - 84 Version 1.0-00 The application functions of the protection are: • Individual phase-current detection • Two time steps, one for retrip of the related circuit breaker and one for the back-up trip of the adjacent circuit breakers •...
  • Page 264: Theory Of Operation

    ABB Network Partner AB Breaker-failure protection 1MRK 580 171-XEN Page 5 - 85 Version 1.0-00 2 Theory of operation The breaker-failure protection starts on a single-phase or three-phase con- dition, either from an external protection, or internally from a protection trip signal in the terminal.
  • Page 265: Input And Output Signals

    ABB Network Partner AB 1MRK 580 171-XEN Breaker-failure protection Page 5 - 86 Version 1.0-00 2.1 Input and output signals External start Breaker-failure Trip Logic protection STL1 TRIPL1 STL2 TRIPL2 STL3 TRIPL3 ST3PH TPTRIP RETRIPL1 RETRIPL2 RETRIPL3 BUTRIP (X80171-4) Fig. 4...
  • Page 266: Measuring Principles

    ABB Network Partner AB Breaker-failure protection 1MRK 580 171-XEN Page 5 - 87 Version 1.0-00 2.3 Measuring principles The current is filtered through a specially designed high-pass filter to obtain the required suppression of the dc components. High-pass filtering is performed basically for two reasons; to remove the: •...
  • Page 267: Retrip Functions

    ABB Network Partner AB 1MRK 580 171-XEN Breaker-failure protection Page 5 - 88 Version 1.0-00 Current detector Back-up & Current trip & Start (X80171-5) Fig. 5 Breaker-failure protection Creation of Decision Current High-pass Recti- stabilizing through samples filtering fying signal...
  • Page 268: Back-Up Trip

    ABB Network Partner AB Breaker-failure protection 1MRK 580 171-XEN Page 5 - 89 Version 1.0-00 2.5 Back-up trip The back-up trip delay timer t2 can be set between 50 and 400 ms. A trip pulse length of 150 ms is generated.
  • Page 269: Testing

    ABB Network Partner AB 1MRK 580 171-XEN Breaker-failure protection Page 5 - 90 Version 1.0-00 The inputs and the outputs to and from the breaker-failure protection are presented in the signal list. Fixed values Trip pulse, tp 150 ms, fixed...
  • Page 270: Check That The Protection Does Not Trip When Set Passive

    ABB Network Partner AB Breaker-failure protection 1MRK 580 171-XEN Page 5 - 91 Version 1.0-00 MMI submenu: Settings Functions Group n Breaker Failure If the settings are changed to speed up times during the tests, they must later be reset and verified.
  • Page 271: Check That The Back-Up Trip Function Works

    ABB Network Partner AB 1MRK 580 171-XEN Breaker-failure protection Page 5 - 92 Version 1.0-00 5.5 Check that the back-up Set RetripType = Retrip Off, t2 = 200 ms and I> = 100% I trip function works Apply a stationary three-phase current over the set value.
  • Page 272 ABB Network Partner AB Breaker-failure protection 1MRK 580 171-XEN Page 5 - 93 Version 1.0-00 6 Appendix 6.1 Terminal diagrams STL1 BUTRIP STL2 RETRIPL1 STL3 RETRIPL2 ST3PH RETRIPL3 (X80171-8) Fig. 8 Simplified terminal diagram of the function BFP FUNCTION BFP--BUTRIP &...
  • Page 273 ABB Network Partner AB 1MRK 580 171-XEN Breaker-failure protection Page 5 - 94 Version 1.0-00 6.2 Signal list DESCRIPTION: BFP--STL1 Start breaker-failure phase L1 BFP--STL2 Start breaker-failure phase L2 BFP--STL3 Start breaker-failure phase L3 BFP--ST3PH Start breaker-failure three-phase OUT: DESCRIPTION:...
  • Page 274: Application

    ABB Network Partner AB Loss of power system voltage 1MRK 580 153-XEN Page - 95 Version 1.0-00 October 1996 Function: Optional 1 Application The tripping of a circuit breaker at prolonged loss-of-voltage is normally used in automatic restoration systems to facilitate the system restoration following a major blackout.
  • Page 275: Setting

    ABB Network Partner AB 1MRK 580 153-XEN Loss of power system voltage Page 5 - 96 Version 1.0-00 TEST TEST-ACTIVE & Block LOV=Yes LOV--VTSU UCHL1 < & & UCHL2 < UCHL3 < LOV--BC & 150ms & LOV--TRIP (X80153-1) Fig. 1...
  • Page 276: Testing

    REx 5xx protection, control and mon- itoring terminals must be checked during the commissioning and during regular maintenance tests. ABB Network Partner recommends, although it does not absolutely request, the use of testing equipment of type RTS 21 (FREJA) for purposes of secondary injection testing.
  • Page 277 ABB Network Partner AB 1MRK 580 153-XEN Loss of power system voltage Page 5 - 98 Version 1.0-00 The LOV--TRIP output signal should be configured to the corre- sponding binary output (relay contact) under the submenu Configuration Slotnn-ZZZy Where nn is the corresponding number of the I/O module, and y is the number of the output on the module.
  • Page 278 ABB Network Partner AB Loss of power system voltage 1MRK 580 153-XEN Page 5 - 99 Version 1.0-00 1.11 Increase the measured voltages to their rated values for at least 10 seconds. Simultaneously decrease all three voltages to a value that is at least 10% higher than the set operating value (settings are per- formed under the under-voltage protection function).
  • Page 279: Appendix

    ABB Network Partner AB 1MRK 580 153-XEN Loss of power system voltage Page 5 - 100 Version 1.0-00 6 Appendix 6.1 Terminal diagrams LOSS OF POWER SYSTEM VOLTAGE LOV--BC U<, t LOV--TRIP LOV--VTSU (X80153-2) Fig. 2 Simplified terminal diagram of the function...
  • Page 280: Signal List

    ABB Network Partner AB Loss of power system voltage 1MRK 580 153-XEN Page 5 - 101 Version 1.0-00 6.2 Signal list DESCRIPTION: LOV--BC Information on open/close position of an associated circuit breaker. Usualy configured via binary input of a terminal to NC auxiliary contact of a cicuit breaker.
  • Page 281 ABB Network Partner AB 1MRK 580 153-XEN Loss of power system voltage Page 5 - 102 Version 1.0-00...
  • Page 282 ABB Network Partner AB Page I Contents Page Introduction..................... 6-1 Application ....................6-2 General................... 6-2 Operator place................6-2 Selection and reservation............... 6-4 Automatic functions ................ 6-6 Manual updating of indications............6-7 Blockings ..................6-7 Command supervision..............6-7 Supervision of operating apparatus..........6-8 Synchro-check................
  • Page 283 ABB Network Partner AB Page II Appendix....................6-51 Terminal diagrams................ 6-51 BAYCONA ................6-51 BAYCONB ................6-52 BAYCONC ................6-53 BAYCOND ................6-54 BAYCONE ................6-55 BAYCONF................6-56 COMCON................6-57 SWICONA................6-58 SWICONB................6-59 SWICONC................6-60 BLKCONK................6-61 BLKCONL ................6-61 ..................Signal list6-62...
  • Page 284 ABB Network Partner AB Page III Breaker and a half diameter, BH_LINE_A, BH_CONN, BH_LINE_B ......6-110 Communication between modules........6-110 Configurations ..................6-111 General..................6-111 Project-specific logic..............6-111 Single breaker arrangement, line bay........ 6-111 Signals from bypass busbar........6-111 Signals from bus coupler.......... 6-112 Parameter setting.............
  • Page 285 ABB Network Partner AB Page IV ABC_BC................6-191 AB_TRAFO ................ 6-194 A1A2_BS ................6-196 A1A2_DC ................6-198 BB_ES ................6-199 DB_BUS_A ................ 6-200 DB_LINE ................6-201 DB_BUS_B ................ 6-202 BH_LINE_A................ 6-204 BH_CONN ................. 6-206 BH_LINE_B................ 6-207 Application ..................6-211 Design....................6-211 General..................
  • Page 286: Introduction

    ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page Version 1.0-00 October 1996 Function: Basic 1 Introduction The apparatus control function is a program supervising operation of a set of high-voltage apparatuses within a bay. Apparatuses in the form of breakers, disconnectors, and earthing switches.
  • Page 287: Application

    ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 2 Version 1.0-00 2 Application 2.1 General A bay can handle, for examples a power line, a transformer, a reactor, or a capacitor bank. The different high-voltage apparatuses within the bay level can be operated directly by the operator or indirectly by sequences.
  • Page 288 The operator can override the interlocking and/or the reservation from the station MMI and from the local operator place. Of course arbitrarily orders can be sent to the REC 561, but only orders involved with the apparatus control are described below.
  • Page 289: Selection And Reservation

    • Set operator place to local (switch on the back-up panel) Automatic functions An automatic program (placed in REC 561 or in external equipment) can be connected to the apparatus control. These signals can be connected to the apparatus control: •...
  • Page 290 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 5 Version 1.0-00 The basic part of the reservation function is the reservation of the own bay. When the reservation is made, no acceptance of selections from other apparatuses can occur until all selection requests and reservations are can- celled.
  • Page 291: Automatic Functions

    ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 6 Version 1.0-00 1. Select 5. Execute 2. Reserve 2. Reserve Selected 3. Indication 3. Indication Select Reserve Execute Release 6. Release 6. Release Indication REC 561 REC 561...
  • Page 292: Manual Updating Of Indications

    ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 7 Version 1.0-00 2.5 Manual updating of The position indications can be set manually. This feature is only operable indications from the station operator place. There are two different independent functions given: •...
  • Page 293: Supervision Of Operating Apparatus

    (after a closing command is given), there is a failed synchronisation. The REC 561 can use a built-in synchro-check function (also called inter- nal synchro-check) or use an external synchro-check or synchronising equipment, which are separate devices outside the REC 561. Two solu- tions are supported.
  • Page 294: Design

    ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 9 Version 1.0-00 3 Design 3.1 General The apparatus control function contains several function blocks. These function blocks are interconnected to form a control program reflecting the switchyard configuration.
  • Page 295: Standard Modules

    Overview of the interaction between the apparatus control modules 3.2 Standard modules In REC 561, several standard function blocks are available. Below the dif- ferent standard modules are described. The appendix describes input and output functions. The BAYCON element consists of six variants, BAYCONA - BAY- CONF.
  • Page 296 The BLKCON element consists of two variants, BLKCONL and BLK- CONK. BLKCONL: Normally used for the apparatuses. BLKCONK: Normally used for the bays. In the three types of REC 561, these standard modules are available: Type 1 (basic): Normal use: • 1 BAYCONA or •...
  • Page 297 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 12 Version 1.0-00 Type 2 (basic + option 1): Normal use: • 3 BAYCONA or • 2 BAYCONA and 3 BAYCONB or • 1 BAYCONA and 4 BAYCONB or with external selection relays with common feedback signals: •...
  • Page 298: Baycon

    • 12 BLKCONK The selection of software type is made during manufacturing. The selec- tion of standard modules within the different types of REC 561 is made by a Function Selector tool included in the CAP 531 Configuration tool. 3.2.1 BAYCON BAYCON handles bay control functions for operation of circuit breakers, disconnectors, or earthing switches in a Substation Automation system.
  • Page 299 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 14 Version 1.0-00 If the operator place selection is used without any priority and if the out- puts REMOTE/STATION/LOCAL can be set independent of each other, the inputs REMOTE/STATION/LOCAL on COMCON can be used. See configuration example in the “Operator place selection”...
  • Page 300 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 15 Version 1.0-00 Selection relay supervision The normal use of the command output module does not require any external relays. The supervision of the command relays on the output module is performed on the circuit board.
  • Page 301 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 16 Version 1.0-00 BAYCONC(D) SEL_ACT1 SEL_ACT8 SEL_CH1 SEL_CH2 FDB_SEL1 FDB_SEL8 Apparatus 1 SWICON SEL_OPEN ≥1 SEL_CLOS FDB_SEL ≥1 & EXE_OPEN  From   other SWICON & ≥1 EXE_CLOS ...
  • Page 302 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 17 Version 1.0-00 BAYCONE(F) SEL_ACT1 SEL_ACT8 SEL_CH1 SEL_CH2 FDB_SEL1 FDB_SEL8  SEL_FDB1   SEL_FDB8 Apparatus 1 SWICON SEL_OPEN ≥1 SEL_CLOS FDB_SEL & ≥1 EXE_OPEN  From ...
  • Page 303: Comcon

    ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 18 Version 1.0-00 Automatic operation check BAYCON has an amount of information that concerns the permission for automatic operation. This information is made available at the AU_OP_Vx outputs. Other elements can combine this information to a signal to an automatic function indicating permission for operation.
  • Page 304 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 19 Version 1.0-00 COMCON From SWICON To BAYCON SEL_RES RQ_SEL From BAYCON SELECT  S_SEL_O OPEN S_SEL_C From station To SWICON CLOSE  S_OPEN EXECUTE S_CLOSE CANCEL ...
  • Page 305: Swicon

    ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 20 Version 1.0-00 For command supervision, COMCON has two time parameters. The supervision checks the time between select and execute signals and checks the response on a request for selection including reservation of other bays.
  • Page 306 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 21 Version 1.0-00 EXECUTE command. This must now come together with the OPEN or CLOSE direction to activate either EXE_OPEN or EXE_CLOS. The con- nections between SWICON and the output board are shown in Fig. 9.
  • Page 307 The other version (SWICONB) is used for an external synchro-check or synchronising relay. The close command from this relay is handled out- side REC 561, see Fig. 29 and Fig. 30. At the close command from the operator, SWICON activates the SEL_CLOS and EXE_CLOS outputs.
  • Page 308: Blkcon

    ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 23 Version 1.0-00 3.2.4 BLKCON BLKCON is used for blocking of functions in a bay and in an apparatus control program. BLKCONL (x=1) contains one blocking function and BLKCONK (x=1, 2 and 3) contains three blocking functions.
  • Page 309 (if necessary). That is, no operation is allowed there. Acknowledgement signals should be received. Other control programs can be placed in the same REC 561 or in other REC 561s (bay-bay communication). 5. If everything is OK, the select signal is passed through to the SWICON element and is displayed on the station MMI.
  • Page 310: Configurations

    All functions are described in separate chapters. A standard configuration for a single-breaker bay with double busbars including five high-voltage apparatus can be found in “Default configuration REC 561” 1MRK 580 188-XEN. Fig. 12 shows an overview of a circuit breaker module that includes breaker-related optional functions.
  • Page 311: Connections To Other Functions

    ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 26 Version 1.0-00 Fig. 13 shows an overview of a disconnector/earthing switch module. BI/BO COMCON SWICONC Open Operator Close command INT_LOCK Interlocking (X80150-13) Fig. 13 Overview of a disconnector/earthing switch configuration 4.2 Connections to other...
  • Page 312 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 27 Version 1.0-00 3. After acknowledgement from all bays, the select output (SELx) from BAYCON activates the SELECT in COMCON and allows the execute command to pass through.
  • Page 313 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 28 Version 1.0-00 1. RQ_SEL (COMCON) 2. RE_BAYS (BAYCON) ANY_ACK ACK_F_B (from all bays) 3. SELx (BAYCON)/ SELECT (COMCON) 4. OPEN/CLOSE (SWICON) 5. SEL_RES (SWICON) (X80150-15) Fig. 15...
  • Page 314 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 29 Version 1.0-00 From bay X MultCmdFunc X_RE_BAYS OUT1 OUT2 X_ACK_T_B OUT3 Interlocking information OUT16 VALID X_V_TX From bay Y MultCmdFunc OUT1 Y_RE_BAYS OUT2 Y_ACK_T_B OUT3 Interlocking information...
  • Page 315 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 30 Version 1.0-00 Fig. 17 shows the sending part of the reservation function. From this part, the request (RE_BAYS) from BAYCON to reserve other bays (RE_RQ_B) are sent to other bays by broadcast, that is, to all bays at the same time.
  • Page 316 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 31 Version 1.0-00 If this interlocking information needs additional event blocks for sending, the first bit of all the extra blocks is a reserve acknowledgement signal to acknowledge any bays, see Fig. 18.
  • Page 317 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 32 Version 1.0-00 Fig. 18 illustrates the station-wide communication. The signals not used in the figure are removed. The bus coupler has information for two event function blocks. But for the two lines, one block is enough.
  • Page 318 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 33 Version 1.0-00 Bus coupler bay EVENT MultCmdFunc RE_RQ_B RE_BAYS INPUT1 OUT1 ACK_T_B1 ACK_T_B INPUT2 OUT2 ACK_T_B2 INPUT3 OUT3 INPUT4 OUT4 OUT16 INPUT16 EVENT MultCmdFunc RE_BAYS ≥1 INPUT1...
  • Page 319: Operator Place Selection

    ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 34 Version 1.0-00 From previous page: 1 2 3 Line bay 2 EVENT MultCmdFunc RE_RQ_B RE_BAYS INPUT1 OUT1 ACK_T_B INPUT2 OUT2 ACK_T_B2 INPUT3 OUT3 INPUT4 OUT4 OUT16 INPUT16...
  • Page 320 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 35 Version 1.0-00 Some applications require that the operator place selection must be per- formed without any priority, that is, the desired operator places must be able to be set independent of each other.
  • Page 321 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 36 Version 1.0-00 4.2.3 Station MMI The connection to the station MMI is made via EVENT-block and MultC- mdFunc-block in a standardized way. Fig. 21 shows the command con- nections between the command blocks and the apparatus control modules.
  • Page 322 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 37 Version 1.0-00 4 are used only for event handling of the positions for one pole of the cir- cuit breaker. For event handling of all three poles separately, an additional Event Function block is needed.
  • Page 323 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 38 Version 1.0-00 Fig. 23 shows bay-related signals that can be presented on the station MMI. To station MMI EVENT Delivery Bay connected to busbar INPUT1 specific INPUT2...
  • Page 324: Remote Control

    4.2.4 Remote control The command signals from the remote-control gateway are transferred to REC 561 via Single Command function blocks and can be arranged in a way shown in Fig. 24. All or some of the events defined for the station MMI can also be sent to the remote control gateway.
  • Page 325: Local Panel (Back-Up Panel)

    ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 40 Version 1.0-00 4.2.5 Local panel (back-up The connection of an external local panel to the apparatus control mod- panel) ules is done via binary inputs. Fig. 25 shows one example of a solution.
  • Page 326: Built-In Mmi

    Fig. 27 shows the connection between an interlocking module and appara- tus control modules. The input is activated when the apparatus is inter- locked. The interlocking information within the REC 561 control terminal are taken from the binary input boards. Information from other bays are transferred over the station bus.
  • Page 327 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 42 Version 1.0-00 4.2.8 Synchro-check Connections between the apparatus control modules and the synchro- check function can be made either for the built-in synchro-check module or for an external synchro-check relay, for example, type RASC. External synchronising equipment can also be connected to the apparatus control modules.
  • Page 328 Version 1.0-00 For the external synchro-check relay, the close command is handled out- side REC 561. At the close command from the operator, SWICONB acti- vates the SEL_CLOS and EXE_CLOS outputs. SWICONB now has two inputs SY_RUN and SY_FAIL, which must have information on the state of the synchro-check relay.
  • Page 329 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 44 Version 1.0-00 BI/BO COMCON CLOSE EXECUTE SWICONB CLOSE EXECUTE SEL_CLOS External synchro-check equipment & EXE_CLOS & SYNCH SY_RUN SY_FAIL CLOSE close Timer coil & INPUT (X80150-30) Fig. 30...
  • Page 330: Autoreclosing

    ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 45 Version 1.0-00 BI/BO COMCON CLOSE EXECUTE External synchronising equipment SWICONB SYNCH CLOSE close EXECUTE coil CLOSE SEL_CLOS START & EXE_CLOS SY_RUN PROGRESS FAULT SY_FAIL Timer & INPUT ≥1...
  • Page 331: Protections

    The protection functions are normally running independent of the appara- tus control modules. The trip signals from the protection modules included in REC 561 are connected via the tripping logic function. If a three-phase circuit breaker is used, the GTRIP general trip signal from the tripping logic can be connected to the same open output as for the manual control from SWICON via an OR gate (see Fig.
  • Page 332: Command Output Module

    (select/execute/cancel) to be con- nected from other application programs in the form of automatic functions. These programs can be located in the same REC 561, in another terminal, or in a station computer. One usage for automatic programs is when the apparatuses are included in a sequence, for example, a busbar transfer.
  • Page 333 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 48 Version 1.0-00 lowing figures show examples of different configurations. The terminal diagram for the binary output module shows detailed information about the terminal numbering. Application software Switchyard...
  • Page 334 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 49 Version 1.0-00 Fig. 38 shows the configuration of single outputs used for purposes other than operating high-voltage apparatuses. Here the ERROR signal is con- nected to an event function block for alarming or as a condition for another application.
  • Page 335: Setting

    ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 50 Version 1.0-00 5 Setting The setting parameters are accessible through the CAP 531 configuration tool. The parameters for the apparatus control modules consist only of time settings.
  • Page 336 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 51 Version 1.0-00 7 Appendix 7.1 Terminal diagrams 7.1.1 BAYCONA BAxx BAYCONA REMOTE STATION LOCAL RQ_SEL1 SEL1 RQ_SEL2 SEL2 RQ_SEL3 SEL3 RQ_SEL4 SEL4 SEL5 RQ_SEL5 SEL6 RQ_SEL6 SEL7...
  • Page 337 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 52 Version 1.0-00 7.1.2 BAYCONB BBxx BAYCONB REMOTE STATION LOCAL EXCH_IN EXCH_OUT RQ_SEL1 SEL1 SEL2 RQ_SEL2 SEL3 RQ_SEL3 SEL4 RQ_SEL4 SEL5 RQ_SEL5 SEL6 RQ_SEL6 SEL7 RQ_SEL7 SEL8 RQ_SEL8...
  • Page 338 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 53 Version 1.0-00 7.1.3 BAYCONC BCxx BAYCONC REMOTE STATION LOCAL RQ_SEL1 SEL1 RQ_SEL2 SEL2 RQ_SEL3 SEL3 RQ_SEL4 SEL4 SEL5 RQ_SEL5 SEL6 RQ_SEL6 SEL7 RQ_SEL7 SEL8 RQ_SEL8 BLK_RE RE_BAYS...
  • Page 339 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 54 Version 1.0-00 7.1.4 BAYCOND BDxx BAYCOND REMOTE STATION LOCAL EXCH_IN EXCH_OUT RQ_SEL1 SEL1 RQ_SEL2 SEL2 RQ_SEL3 SEL3 RQ_SEL4 SEL4 SEL5 RQ_SEL5 SEL6 RQ_SEL6 SEL7 RQ_SEL7 SEL8 RQ_SEL8...
  • Page 340 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 55 Version 1.0-00 7.1.5 BAYCONE BExx BAYCONE REMOTE STATION LOCAL RQ_SEL1 SEL1 RQ_SEL2 SEL2 RQ_SEL3 SEL3 RQ_SEL4 SEL4 SEL5 RQ_SEL5 SEL6 RQ_SEL6 SEL7 RQ_SEL7 SEL8 RQ_SEL8 BLK_RE RE_BAYS...
  • Page 341 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 56 Version 1.0-00 7.1.6 BAYCONF BFxx BAYCONF REMOTE STATION LOCAL EXCH_IN EXCH_OUT RQ_SEL1 SEL1 RQ_SEL2 SEL2 RQ_SEL3 SEL3 RQ_SEL4 SEL4 SEL5 RQ_SEL5 SEL6 RQ_SEL6 SEL7 RQ_SEL7 SEL8 RQ_SEL8...
  • Page 342 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 57 Version 1.0-00 7.1.7 COMCON COxx COMCON RQ_SEL SEL_RES SELECT OPEN R_SEL_O CLOSE R_SEL_C EXECUTE R_OPEN CANCEL R_CLOSE OVERRIDE R_CANCEL LO_OP_T RES_ERR REMOTE R_OP S_SEL_O S_OP S_SEL_C BLK_OP...
  • Page 343 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 58 Version 1.0-00 7.1.8 SWICONA SAxx SWICONA POSIND_V POS_L1_O POS_L2_O POS_ERR POS_L3_O POL_DISC POS_L1_C MA_UPD_P POS_L2_C SEL_OPEN POS_L3_C SEL_CLOS BLK_UPD EXE_OPEN EXE_CLOS PROC_UPD SEL_RES MA_UPD_O SEL_ERR MA_UPD_C CMD_ERR...
  • Page 344 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 59 Version 1.0-00 7.1.9 SWICONB SBxx SWICONB POSIND_V POS_L1_O POS_L2_O POS_ERR POS_L3_O POL_DISC POS_L1_C MA_UPD_P POS_L2_C SEL_OPEN POS_L3_C SEL_CLOS BLK_UPD EXE_OPEN EXE_CLOS PROC_UPD MA_UPD_O SEL_RES SEL_ERR MA_UPD_C CMD_ERR...
  • Page 345 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 60 Version 1.0-00 7.1.10SWICONC SCxx SWICONC POSIND_V POS_O POS_C POS_ERR MA_UPD_P BLK_UPD SEL_OPEN PROC_UPD SEL_CLOS MA_UPD_O EXE_OPEN MA_UPD_C EXE_CLOS UPD_BLK SEL_RES SELECT SEL_ERR FDB_SEL CMD_ERR OPEN AU_OP_P CLOSE...
  • Page 346 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 61 Version 1.0-00 7.1.11BLKCONK BKxx BLKCONK BLK_1_1 BLK_OUT1 BLK_OUT2 BLK_1_2 BLK_1_3 BLK_OUT3 BLKCMD1 DBLCMD1 BYPASS1 BLK_2_1 BLK_2_2 BLK_2_3 BLK_CMD2 BLK_CMD2 BYPASS2 BLK_3_1 BLK_3_2 BLK_3_3 BLKCMD3 DBLCMD3 (X80150-49) BYPASS3 Fig.
  • Page 347 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 62 Version 1.0-00 7.2 Signal list 7.2.1 BAYCONA Table 1: Input signals for BAYCONA DESCRIPTION: BAxx-S_R Input to change operator place to Remote (pulse input) BAxx-S_S Input to change operator place to Station...
  • Page 348 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 63 Version 1.0-00 Table 1: Input signals for BAYCONA DESCRIPTION: BAxx-ANY_ACK Input indicating that at least one acknowl- edge is still active BAxx-V_TX Indication for valid transmission of the reser-...
  • Page 349 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 64 Version 1.0-00 Table 2: Output signals for BAYCONA OUT: DESCRIPTION: BAxx-AU_OP_V3 Automatic operation permitted, i.e. the oper- ator place selector is not in Local position, the apparatus is not reserved or not manual...
  • Page 350 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 65 Version 1.0-00 7.2.2 BAYCONB Table 3: Input signals for BAYCONB DESCRIPTION: BBxx-S_R Input to change operator place to Remote (pulse input) BBxx-S_S Input to change operator place to Station...
  • Page 351 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 66 Version 1.0-00 Table 3: Input signals for BAYCONB DESCRIPTION: BBxx-ACK_F_B Input for acknowledging the reservation of other bays BBxx-ANY_ACK Input indicating that at least one acknowl- edge is still active...
  • Page 352 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 67 Version 1.0-00 Table 4: Output signals for BAYCONB OUT: DESCRIPTION: BBxx-AU_OP_V1 Automatic operation permitted, i.e. the oper- ator place selector is not in Local position, the apparatus is not reserved or not manual...
  • Page 353 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 68 Version 1.0-00 7.2.3 BAYCONC Table 5: Input signals for BAYCONC DESCRIPTION: BCxx-S_R Input to change operator place to Remote (pulse input) BCxx-S_S Input to change operator place to Station...
  • Page 354 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 69 Version 1.0-00 Table 5: Input signals for BAYCONC DESCRIPTION: BCxx-V_TX Indication for valid transmission of the reser- vation signals BCxx-EX_DA_UP Input is 1 if the program that acknowledged...
  • Page 355 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 70 Version 1.0-00 Table 6: Output signals for BAYCONC OUT: DESCRIPTION: BCxx-SEL1 Apparatus 1 is selected after reservation acknowledgement from other bays BCxx-SEL2 Apparatus 2 is selected after reservation...
  • Page 356 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 71 Version 1.0-00 Table 6: Output signals for BAYCONC OUT: DESCRIPTION: BCxx-AU_OP_V3 Automatic operation permitted, i.e. the oper- ator place selector is not in Local position, the apparatus is not reserved or not manual...
  • Page 357 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 72 Version 1.0-00 Table 7: Input signals for BAYCOND DESCRIPTION: BDxx-RQ_SEL5 Request for selection and reservation of apparatus 5 BDxx-RQ_SEL6 Request for selection and reservation of apparatus 6...
  • Page 358 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 73 Version 1.0-00 Table 7: Input signals for BAYCOND DESCRIPTION: BDxx-SEL_ACT3 Selection of apparatus 3 is activated by the program and the selection relay should be energized BDxx-SEL_ACT4...
  • Page 359 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 74 Version 1.0-00 Table 8: Output signals for BAYCOND OUT: DESCRIPTION: BDxx-SEL6 Apparatus 6 is selected after reservation acknowledgement from other bays BDxx-SEL7 Apparatus 7 is selected after reservation...
  • Page 360 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 75 Version 1.0-00 Table 8: Output signals for BAYCOND OUT: DESCRIPTION: BDxx-AU_OP_V5 Automatic operation permitted, i.e. the oper- ator place selector is not in Local position, the apparatus is not reserved or not manual...
  • Page 361 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 76 Version 1.0-00 7.2.5 BAYCONE Table 9: Input signals for BAYCONE DESCRIPTION: BExx-S_R Input to change operator place to Remote (pulse input) BExx-S_S Input to change operator place to Station...
  • Page 362 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 77 Version 1.0-00 Table 9: Input signals for BAYCONE DESCRIPTION: BExx-V_TX Indication for valid transmission of the reser- vation signals BExx-EX_DA_UP Input is 1 if the program that acknowledged...
  • Page 363 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 78 Version 1.0-00 Table 9: Input signals for BAYCONE DESCRIPTION: BExx-SEL_FDB6 Input for individual selection relay energiz- ing of apparatus 6 BExx-SEL_FDB7 Input for individual selection relay energiz-...
  • Page 364 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 79 Version 1.0-00 Table 10: Output signals for BAYCONE OUT: DESCRIPTION: BExx-FDB_SEL6 Correct selection relay is energized for apparatus 6 BExx-FDB_SEL7 Correct selection relay is energized for apparatus 7...
  • Page 365 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 80 Version 1.0-00 7.2.6 BAYCONF Table 11: Input signals for BAYCONF DESCRIPTION: BFxx-S_R Input to change operator place to Remote (pulse input) BFxx-S_S Input to change operator place to Station...
  • Page 366 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 81 Version 1.0-00 Table 11: Input signals for BAYCONF DESCRIPTION: BFxx-ACK_F_B Input for acknowledging the reservation of other bays BFxx-ANY_ACK Input indicating that at least one acknowl- edge is still active...
  • Page 367 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 82 Version 1.0-00 Table 11: Input signals for BAYCONF DESCRIPTION: BFxx-SEL_FDB4 Input for individual selection relay energiz- ing of apparatus 4 BFxx-SEL_FDB5 Input for individual selection relay energiz-...
  • Page 368 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 83 Version 1.0-00 Table 12: Output signals for BAYCONF OUT: DESCRIPTION: BFxx-FDB_SEL2 Correct selection relay is energized for apparatus 2 BFxx-FDB_SEL3 Correct selection relay is energized for apparatus 3...
  • Page 369 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 84 Version 1.0-00 Table 12: Output signals for BAYCONF OUT: DESCRIPTION: BFxx-AU_OP_V8 Automatic operation permitted, i.e. the oper- ator place selector is not in Local position, the apparatus is not reserved or not manual...
  • Page 370 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 85 Version 1.0-00 7.2.7 COMCON Table 13: Input signals for COMCON DESCRIPTION: COxx-SEL_RES Input for reset of selection after operation COxx-SELECT Input stating that a correct selection and...
  • Page 371 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 86 Version 1.0-00 Table 13: Input signals for COMCON DESCRIPTION: COxx-L_SEL_C Selection for closing the apparatus from Local COxx-L_OPEN Execute command for opening the appara- tus from Local...
  • Page 372 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 87 Version 1.0-00 Table 14: Output signals for COMCON OUT: DESCRIPTION: COxx-DBL_OP Output signal for deblocking the operation (pulse output) COxx-L_OP MMI indication stating that Local is valid...
  • Page 373 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 88 Version 1.0-00 7.2.8 SWICONA Table 15: Input signals for SWICONA DESCRIPTION: SAxx-POSIND_V Input for external position check function, i.e. valid position of the apparatus SAxx-POS_L1_O Input for open position indication in phase...
  • Page 374 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 89 Version 1.0-00 Table 15: Input signals for SWICONA DESCRIPTION: SAxx-SY_FAIL To be set to true when the synchro-check fails and the command execution will stop SAxx-SY_OK Closing will be permitted at set to true by the...
  • Page 375 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 90 Version 1.0-00 Table 16: Output signals for SWICONA OUT: DESCRIPTION: SAxx-AU_OP_P Automatic operation is permitted, i.e. the operator place selector is not in Local posi- tion, the apparatus is not reserved, not man- ual selected or not blocked (neither operation nor update of position).
  • Page 376 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 91 Version 1.0-00 7.2.9 SWICONB Table 17: Input signals for SWICONB DESCRIPTION: SBxx-POSIND_V Input for external position check function, i.e. valid position of the apparatus SBxx-POS_L1_O Input for open position indication in phase...
  • Page 377 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 92 Version 1.0-00 Table 17: Input signals for SWICONB DESCRIPTION: SBxx-SY_RUN Connected to the synchro-check module (equipment). At true all timers in SWICONB are stopped SBxx-SY_FAIL To be set to true when the synchro-check...
  • Page 378 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 93 Version 1.0-00 Table 18: Output signals for SWICONB OUT: DESCRIPTION: SBxx-AU_OP_P Automatic operation is permitted, i.e. the operator place selector is not in Local posi- tion, the apparatus is not reserved, not man- ual selected or not blocked (neither operation nor update of position).
  • Page 379 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 94 Version 1.0-00 7.2.10SWICONC Table 19: Input signals for SWICONC DESCRIPTION: SCxx-POSIND_V Input for external position check function, i.e. valid position of the apparatus SCxx-POS_O Input for open position indication...
  • Page 380 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 95 Version 1.0-00 Table 20: Output signals for SWICONC OUT: DESCRIPTION: SCxx-CX Indication that the apparatus is in close position. Result of the input indication or blocking of the process updating or by the...
  • Page 381 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 96 Version 1.0-00 7.2.11BLKCONK Table 21: Input and output signals for BLKCONK DESCRIPTION: BKxx-BLK_1_1 First blocking input for the first blocking function BKxx-BLK_1_2 Second blocking input for the first blocking...
  • Page 382 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 97 Version 1.0-00 7.2.12BLKCONL Table 22: Input and output signals for BLKCONL DESCRIPTION: BLxx-BLK_1_1 First blocking input for the blocking function BLxx-BLK_1_2 Second blocking input for the blocking func-...
  • Page 383 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 98 Version 1.0-00 7.3 Setting table 7.3.1 BAYCONx Table 23: Setting table for BAYCONx PARAMETER: SETTING RANGE: DESCRIPTION: T_CAN_RE 0.0-200.0 s Timeout when the reset of the reservation...
  • Page 384 ABB Network Partner AB Apparatus control 1MRK 580 150-XEN Page 6 - 99 Version 1.0-00 7.3.4 SWICONB Table 26: Setting table for SWICONB PARAMETER: SETTING RANGE: DESCRIPTION: T_POSERR 0.0-200.0 s Allowed time for middle position. To be set from CAP 531 T_POL 0.0-200.0 s...
  • Page 385 ABB Network Partner AB 1MRK 580 150-XEN Apparatus control Page 6 - 100 Version 1.0-00...
  • Page 386 ABB Network Partner AB Interlocking 1MRK 580 151-XEN -101 Page Version 1.0-00 October 1996 Function: Basic 1 Introduction The interlocking of switchgear operation can have two main purposes to: • Avoid dangerous or damaging operation of switchgear • Put restrictions on the configuration of the substation or total switch- gear for operational reasons.
  • Page 387 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 102 Version 1.0-00 interpreted as unknown (it may be in an intermediate position, or there may be a control system error, such as bad contact). If both indications stay high, then there is something wrong, and the state is again treated as unknown.
  • Page 388 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 103 Version 1.0-00 The interlocking module is connected to the surrounding functions within a bay as shown in Fig. 1. Interlocking modules in other bays Control module Interlocking Control module...
  • Page 389 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 104 Version 1.0-00 On the station MMI an override function exists, which can be used to bypass the interlocking function if not all available data for the condition are valid.
  • Page 390 The switchyard arrangements are described below, to which the standard modules can be used. The appendix describes input and output details. In REC 561, these standard modules are available: Type 1 (basic): • A1A2_DC and •...
  • Page 391 • 2 BH_LINE_A, 2 BH_CONN, 2 BH_LINE_B The selection of software type is made during manufacturing. The selec- tion of standard modules within the different types of REC 561 is made by a Function Selector tool included in the Configuration tool CAP 531.
  • Page 392 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 107 Version 1.0-00 3.2.2 Bus coupler for ABC_BC contains the interlocking for a bus-coupler bay that is connected double and transfer to a double busbar configuration and a bypass bus. This module is also...
  • Page 393 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 108 Version 1.0-00 3.2.4 Bus-section breaker A1A2_BS contains the interlocking for one, bus-section circuit breaker for double busbars, between section A1 and A2. This module is used for different busbars, which includes a bus-section circuit breaker, that is, not only busbar A.
  • Page 394 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 109 Version 1.0-00 3.2.7 Double CB bay, Two types of interlocking modules per double circuit breaker bay are DB_BUS_A, defined. DB_LINE is the connection from the line to the circuit breaker parts that are connected to the busbar.
  • Page 395 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 110 Version 1.0-00 3.2.8 Breaker and a half Two types of interlocking modules per diameter are defined. BH_LINE is diameter, the connection from one line to the busbar and is used twice per diameter.
  • Page 396 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 111 Version 1.0-00 4 Configurations 4.1 General This section describes how the interlocking for a certain switchgear con- figuration can be realized by using standard interlocking modules and their interconnections. It also describes the parameter settings. The EXVVA_xx input signals, which are normally not used, are always set to 1=FIXD-ON.
  • Page 397 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 112 Version 1.0-00 For bay n, these conditions are valid: Q7OPTR (bay 1) C_DC_OP & Q7OPTR (bay 2) ..Q7OPTR (bay n-1) VPQ7TR (bay 1) VP_C_DC &...
  • Page 398 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 113 Version 1.0-00 VP_BC_AB The switch status of BC_AB is valid. VP_BC_AC The switch status of BC_AC is valid. VP_BC_BC The switch status of BC_BC is valid. EXDUP_BC Signal if there is no transmission error from bay BC (bus-coupler bay).
  • Page 399 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 114 Version 1.0-00 These signals from each bus-section disconnector bay (A1A2_DC) are also needed. For B1B2_DC, corresponding signals from busbar B are used. The same type of module (A1A2_DC) is used for different busbars, that is, for both bus-section disconnector A1A2_DC and B1B2_DC.
  • Page 400 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 115 Version 1.0-00 For a line bay in section 1, these conditions are valid: BCABCLTR (sect.1) BC_AB_CL ≥1 DCCLTR (A1A2) & DCCLTR (B1B2) BCABCLTR (sect.2) VPBCABTR (sect.1) VP_BC_AB &...
  • Page 401 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 116 Version 1.0-00 For a line bay in section 2, the same conditions as above are valid by changing section 1 to section 2 and vice versa. 4.2.1.3 Parameter setting If there is no bypass busbar and therefore no Q7 disconnector, then the interlocking for Q7 is not used.
  • Page 402 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 117 Version 1.0-00 4.2.2 Single breaker arrangement, bus- coupler bay 4.2.2.1 Signals from all feed- The signals from other bays connected to the bus-coupler module ABC_BC are described below.
  • Page 403 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 118 Version 1.0-00 If the busbar is divided by bus-section disconnectors into bus sections, the signals BBTR are connected in parallel - if both bus-section disconnectors are closed. So for the basic project-specific logic for BBTR above, add...
  • Page 404 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 119 Version 1.0-00 EXDUP_BS Signal if there is no transmission error from the bay that contains the above information. This signal is taken from the data valid output on the command function block.
  • Page 405 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 120 Version 1.0-00 To derive the signals: BC_AB_CL Signal if an other bus-coupler connection exists between busbar A and B. VP_BC_AB The switch status of BC_AB is valid. EXDUP_BC Signal if there is no transmission error from bay BC (bus-coupler bay).
  • Page 406 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 121 Version 1.0-00 A1A2CLTR Signal if a bus-section coupler connection exists between bus sections A1 and A2. VPA1A2TR The switch status of A1A2_DC is valid. EXDUP_BS Signal if no transmission error from the bay containing the above infor- mation.
  • Page 407 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 122 Version 1.0-00 If there is no second busbar B and therefore no Q20 and Q2 disconnectors, then the interlocking for Q20 and Q2 are not used. The states for Q20, Q2, Q25, BC_AB, BBTR are set to open by setting the appropriate module inputs as follows.
  • Page 408 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 123 Version 1.0-00 EXDUP_BC Signal if there is no transmission error from bay BC (bus-coupler bay). See “Signals from bus coupler” on page 112. 4.2.3.2 Parameter setting If there is no second busbar B and therefore no Q2 disconnector, then the interlocking for Q2 is not used.
  • Page 409 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 124 Version 1.0-00 If there is no voltage supervision, then set the corresponding inputs as fol- lows: • VOLT_OP = 1 • VOLT_CL = 0 4.2.6 Bus-section breaker 4.2.6.1 Signals from all feed-...
  • Page 410 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 125 Version 1.0-00 EXDUP_AB Signal if there is no transmission error from the bay that contains the above information. This signal is taken from the data valid output on the command function block.
  • Page 411 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 126 Version 1.0-00 For a bus-section circuit breaker between A1 and A2 section busbars, these conditions are valid: A1A2OPTR (B1B2) BCABOPTR (sect 1) ≥1 Q1Q2OPTR (bay 1/sect 2) &...
  • Page 412 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 127 Version 1.0-00 For a bus-section circuit breaker between B1 and B2 section busbars, these conditions are valid: A1A2OPTR (A1A2) BCABOPTR (sect 1) ≥1 Q1Q2OPTR (bay 1/sect 2) &...
  • Page 413 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 128 Version 1.0-00 4.2.6.2 Parameter setting If there is no other busbar via the busbar loops that are possible, then either the interlocking for the Q0 open circuit breaker is not used or the state for BBTR is set to open.
  • Page 414 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 129 Version 1.0-00 These signals from each line bay (ABC_LINE), each transformer bay (AB_TRAFO), and each bus-coupler bay (ABC_BC) are needed: Q1OPTR Signal if Q1 is open. Q2OPTR Signal if Q2 (AB_TRAFO, ABC_LINE) is open.
  • Page 415 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 130 Version 1.0-00 VPQ12TR The switch status of Q12 is valid. EXDUP_BS Signal if there is no transmission error from the bay BS (bus-section cou- pler bay) that contains the above information. This signal is taken from the data valid output on the command function block.
  • Page 416 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 131 Version 1.0-00 For a bus-section disconnector, these conditions from the A2 busbar sec- tion are valid: Q1OPTR (bay 1/sect A2) A2DC_OP . . . & . . .
  • Page 417 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 132 Version 1.0-00 For a bus-section disconnector, these conditions from the B2 busbar sec- tion are valid: Q2(20)OPTR (bay 1/sect B2) B2DC_OP (A2DC_OP) . . . & . . .
  • Page 418 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 133 Version 1.0-00 To derive the signals: A1DC_OP Signal if all disconnectors on busbar A1 are open. A2DC_OP Signal if all disconnectors on busbar A2 are open. VPA1_DC The switch status of A1_DC is valid.
  • Page 419 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 134 Version 1.0-00 For a bus-section disconnector, these conditions from the A1 busbar sec- tion are valid: Q1OPTR (bay 1/sect A1) A1DC_OP . . . & . . .
  • Page 420 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 135 Version 1.0-00 For a bus-section disconnector, these conditions from the B1 busbar sec- tion are valid: Q2OPTR (bay 1/sect B1) B1DC_OP (A1DC_OP) . . . & . . .
  • Page 421 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 136 Version 1.0-00 The same type of module (A1A2_DC) is used for different busbars, that is, for both bus-section disconnector A1A2_DC and B1B2_DC. But for B1B2_DC, corresponding signals from busbar B are used.
  • Page 422 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 137 Version 1.0-00 To derive the signals: ABCDC_OP Signal if all disconnectors of this busbar section are open. VP_ABCDC The switch status of ABCDC is valid. EXDUP_BB Signal if no transmission error from any bay containing the above infor- mation.
  • Page 423 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 138 Version 1.0-00 EXDUP_DC Signal if there is no transmission error from the bay that contains the above information. This signal is taken from the data valid output on the command function block.
  • Page 424 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 139 Version 1.0-00 For a busbar earthing switch, these conditions from the A1 busbar section are valid: Q1OPTR (bay 1/sect A1) ABCDC_OP & ..
  • Page 425 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 140 Version 1.0-00 For a busbar earthing switch, these conditions from the B1 busbar section are valid: Q2(20)OPTR (bay 1/sect B1) ABCDC_OP . . . & . . .
  • Page 426 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 141 Version 1.0-00 For a busbar earthing switch on bypass busbar C, these conditions are valid: Q7OPTR (bay 1) ABCDC_OP . . . & ..
  • Page 427 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 142 Version 1.0-00 These signals from each double-breaker bay (DB_BUS) are needed: Q1OPTR Signal if Q1 is open. Q2OPTR Signal if Q2 is open. VPQ1TR The switch status of Q1 is valid.
  • Page 428 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 143 Version 1.0-00 The project-specific logic are the same as for the logic for the double bus- bar configuration. See “Signals in single breaker arrangement” on page 36. ABCDC_OP Signal if all disconnectors of this busbar section are open.
  • Page 429 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 144 Version 1.0-00 5 Testing The interlocking function consists of a bay-level part and a station-level part. The interlocking is delivery specific and is realized by bay-to-bay communication over the station bus. For that reason, test the function in a system, that is, either in a complete delivery system as an acceptance test (FAT/SAT) or as parts of that system.
  • Page 430 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 145 Version 1.0-00 6 Appendix 6.1 Terminal diagram 6.1.1 ABC_LINE IFxx ABC_LINE Q0_OP Q0CLREL Q0_CL Q0CLITL Q9REL Q9_OP Q9ITL Q9_CL Q1REL Q1_OP Q1ITL Q1_CL Q2_OP Q2REL Q2ITL Q2_CL Q7REL...
  • Page 431 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 146 Version 1.0-00 ABC_LINE Q0_OP Q0_CL VPQ0 Q9_OP Q9_CL VPQ9 Q0CLREL Q1_OP & Q1_CL Q0CLITL VPQ1 Q2_OP Q2_CL VPQ2 Q7_OP Q7_CL VPQ7 Q51_OP Q51_CL VPQ51 Q52_OP Q52_CL VPQ52 Q8_OP...
  • Page 432 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 147 Version 1.0-00 VPQ0 & Q1REL VPQ2 ≥1 Q1ITL VPQ51 VPQ52 VPQ15 Q0_OP Q2_OP Q51_OP Q52_OP Q15_OP EXDUP_ES EXVVA_ES Q1EX1 VPQ2 VP_BC_AB & Q2_CL BC_AB_CL EXDUP_BC EXVVA_BC Q1EX2 VPQ51 &...
  • Page 433 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 148 Version 1.0-00 VPQ0 & Q2REL VPQ1 ≥1 Q2ITL VPQ51 VPQ52 VPQ25 Q0_OP Q1_OP Q51_OP Q52_OP Q25_OP EXDUP_ES EXVVA_ES Q2EX1 VPQ1 VP_BC_AB & Q1_CL BC_AB_CL EXDUP_BC EXVVA_BC Q2EX2 VPQ51 &...
  • Page 434 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 149 Version 1.0-00 VPQ8 & Q7REL VPQ75 ≥1 Q7ITL VP_C_DC VP_BC_AC VP_BC_BC Q8_OP Q75_OP EXDUP_ES EXVVA_ES C_DC_OP EXDU_BPB EXVV_BPB BC_AC_OP BC_BC_OP EXDUP_BC EXVVA_BC Q7EX1 VPQ0 & VPQ1 VPQ8 VPQ9...
  • Page 435 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 150 Version 1.0-00 VPQ0 & ≥1 VPQ2 VPQ8 VPQ9 VPQ75 VP_C_DC VP_BC_BC Q0_CL Q2_CL Q8_OP Q9_CL Q75_OP EXDUP_ES EXVVA_ES C_DC_OP EXDU_BPB EXVV_BPB BC_BC_CL EXDUP_BC EXVVA_BC Q7EX3 VPQ8 & VPQ75...
  • Page 436 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 151 Version 1.0-00 Q1OPTR Q1_OP Q1CLTR Q1_CL VPQ1TR VPQ1 Q2_OP Q2OPTR Q2CLTR Q2_CL VPQ2TR VPQ2 Q7_OP Q7OPTR Q7CLTR Q7_CL VPQ7TR VPQ7 Q1_OP Q1Q2OP ≥1 Q2_OP Q1Q2CL VPQ1 VPQ1Q2TR &...
  • Page 437 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 152 Version 1.0-00 6.1.2 ABC_BC IGxx ABC_BC Q0_OP Q0OPREL Q0_CL Q0OPITL Q1_OP Q0CLREL Q0CLITL Q1_CL Q1REL Q20_OP Q20_CL Q1ITL Q20REL Q7_OP Q20ITL Q7_CL Q7REL Q2_OP Q7ITL Q2_CL Q2REL Q51_OP...
  • Page 438 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 153 Version 1.0-00 ABC_BC Q0_OP Q0_CL VPQ0 Q1_OP VPQ1 Q1_CL Q2_OP Q2_CL VPQ2 Q7_OP Q7_CL VPQ7 Q20_OP Q20_CL VPQ20 Q51_OP Q51_CL VPQ51 Q52_OP Q52_CL VPQ52 Q15_OP VPQ15 Q15_CL Q25_OP...
  • Page 439 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 154 Version 1.0-00 VPQ0 & Q1REL VPQ20 ≥1 Q1ITL VPQ51 VPQ52 VPQ15 Q0_OP Q20_OP Q51_OP Q52_OP Q15_OP EXDUP_ES EXVVA_ES Q1EX1 VPQ20 VP_BC_AB & Q20_CL BC_AB_CL EXDUP_BC EXVVA_BC Q1EX2 VPQ51 &...
  • Page 440 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 155 Version 1.0-00 VPQ0 & Q20REL VPQ1 ≥1 Q20ITL VPQ51 VPQ52 VPQ25 Q0_OP Q1_OP Q51_OP Q52_OP Q25_OP EXDUP_ES EXVVA_ES Q20EX1 VPQ1 VP_BC_AB & Q1_CL BC_AB_CL EXDUP_BC EXVVA_BC Q20EX2 VPQ51 &...
  • Page 441 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 156 Version 1.0-00 VPQ0 & Q7REL VPQ2 ≥1 Q7ITL VPQ51 VPQ52 VPQ75 Q0_OP Q2_OP Q51_OP Q52_OP Q75_OP EXDUP_ES EXVVA_ES Q7EX1 VPQ52 VPQ75 & Q52_CL Q75_CL EXDUP_ES EXVVA_ES Q7EX2 VPQ0 &...
  • Page 442 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 157 Version 1.0-00 Q51REL VPQ1 & Q51ITL VPQ2 VPQ7 Q52REL VPQ20 Q52ITL Q1_OP Q2_OP Q7_OP Q20_OP Q1_OP Q1OPTR Q1_CL Q1CLTR VPQ1 VPQ1TR Q2_OP Q20OPTR & Q20_OP Q20CLTR VPQ2 VPQ20TR &...
  • Page 443 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 158 Version 1.0-00 6.1.3 AB_TRAFO IExx AB_TRAFO Q0_OP Q0CLREL Q0_CL Q0CLITL Q1_OP Q1REL Q1ITL Q1_CL Q2REL Q2_OP Q2_CL Q2ITL Q51REL Q51_OP Q51ITL Q51_CL Q52REL Q52_OP Q52ITL Q52_CL Q1OPTR TQ1_OP...
  • Page 444 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 159 Version 1.0-00 AB_TRAFO Q0_OP VPQ0 Q0_CL Q1_OP Q1_CL VPQ1 Q2_OP Q2_CL VPQ2 Q51_OP Q51_CL VPQ51 Q52_OP Q52_CL VPQ52 TQ1_OP TQ1_CL VPTQ1 TQ2_OP VPTQ2 TQ2_CL TQ51_OP TQ51_CL VPTQ51 Q15_OP...
  • Page 445 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 160 Version 1.0-00 VPQ0 & Q1REL VPQ2 ≥1 Q1ITL VPQ51 VPQ52 VPTQ51 VPQ15 Q0_OP Q2_OP Q51_OP Q52_OP TQ51_OP Q15_OP EXDUP_ES EXVVA_ES Q1EX1 VPQ2 & VPTQ51 VP_BC_AB Q2_CL TQ51_OP BC_AB_CL...
  • Page 446 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 161 Version 1.0-00 VPQ0 & Q2REL VPQ1 ≥1 Q2ITL VPQ51 VPQ52 VPTQ51 VPQ25 Q0_OP Q1_OP Q51_OP Q52_OP TQ51_OP Q25_OP EXDUP_ES EXVVA_ES Q2EX1 VPQ1 & VPTQ51 VP_BC_AB Q1_CL TQ51_OP BC_AB_CL...
  • Page 447 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 162 Version 1.0-00 Q51REL VPQ1 & Q51ITL VPQ2 VPTQ1 Q52REL VPTQ2 Q52ITL Q1_OP Q2_OP TQ1_OP TQ2_OP Q1OPTR Q1_OP Q1CLTR Q1_CL VPQ1 VPQ1TR Q2OPTR Q2_OP Q2CLTR Q2_CL VPQ2 VPQ2TR Q1_OP Q1Q2OPTR ≥1...
  • Page 448 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 163 Version 1.0-00 6.1.4 A1A2_BS IHxx A1A2_BS Q0OPREL Q0_OP Q0_CL Q0OPITL Q11_OP Q0CLREL Q11_CL Q0CLITL Q11REL Q12_OP Q11ITL Q12_CL Q12REL Q51_OP Q12ITL Q51_CL Q51REL Q52_OP Q51ITL Q52_CL Q52REL A1Q15_OP...
  • Page 449 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 164 Version 1.0-00 A1A2_BS Q0_OP Q0_CL VPQ0 Q11_OP Q11_CL VPQ11 Q12_OP VPQ12 Q12_CL Q51_OP Q51_CL VPQ51 Q52_OP Q52_CL VPQ52 A1Q15_OP A1Q15_CL VPA1Q15 A2Q15_OP A2Q15_CL VPA2Q15 VPQ11 Q0OPREL Q11_OP ≥1 &...
  • Page 450 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 165 Version 1.0-00 VPQ0 & Q12REL VPQ51 ≥1 VPQ52 Q12ITL VPA2Q15 Q0_OP Q51_OP Q52_OP A2Q15_OP EXDUP_ES EXVVA_ES Q12EX1 VPQ52 & VPA2Q15 Q52_CL A2Q15_CL EXDUP_ES EXVVA_ES Q12EX2 Q51REL VPQ11 &...
  • Page 451 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 166 Version 1.0-00 6.1.5 A1A2_DC IIxx A1A2_DC Q11OPREL Q11_OP Q11_CL Q11OPITL Q11CLREL A1Q15_OP Q11CLITL A1Q15_CL DCOPTR A2Q15_OP A2Q15_CL DCCLTR VPDCTR A1DC_OP A2DC_OP VPA1_DC VPA2_DC EXDUP_ES EXVVA_ES EXDUP_BB EXVVA_BB Q11C_EX1...
  • Page 452 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 167 Version 1.0-00 A1A2_DC Q11_OP VPQ11 VPDCTR Q11_CL DCOPTR DCCLTR A1Q15_OP VPA1Q15 A1Q15_CL A2Q15_OP VPA2Q15 A2Q15_CL VPA1Q15 & VPA2Q15 Q11OPREL ≥1 VPA1_DC A1Q15_OP Q11OPITL A2Q15_OP A1DC_OP EXDUP_ES EXVVA_ES EXDUP_BB...
  • Page 453 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 168 Version 1.0-00 VPA1Q15 & VPA2Q15 Q11CLREL ≥1 VPA1_DC VPA2_DC Q11CLITL A1Q15_OP A2Q15_OP A1DC_OP A2DC_OP EXDUP_ES EXVVA_ES EXDUP_BB EXVVA_BB Q11C_EX1 VPA1Q15 VPA2Q15 & A1Q15_CL A2Q15_CL EXDUP_ES EXVVA_ES Q11C_EX2 (X80151-51) Fig.
  • Page 454 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 169 Version 1.0-00 6.1.6 BB_ES IJxx BB_ES Q15REL Q15_OP Q15_CL Q15ITL BBESOPTR ABCDC_OP BBESCLTR VP_ABCDC EXDUP_BB EXVVA_BB (X80151-52) Fig. 52 Simplified terminal diagram of BB_ES BB_ES VP_ABCDC & Q15REL...
  • Page 455 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 170 Version 1.0-00 DB_BUS_A Q01_OP Q01_CL VPQ01 Q61_OP Q61_CL VPQ61 Q1_OP Q1_CL VPQ1 Q51_OP Q51_CL VPQ51 Q52_OP Q52_CL VPQ52 Q53_OP Q53_CL VPQ53 Q15_OP Q15_CL VPQ15 Q01CLREL VPQ61 & Q01CLITL...
  • Page 456 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 171 Version 1.0-00 Q51REL VPQ61 & Q51ITL VPQ1 Q52REL Q61_OP Q52ITL Q1_OP Q1OPTR Q1_OP Q1CLTR Q1_CL VPQ1TR VPQ1 (x80151-55) Fig. 55 Terminal diagram of DB_BUS_-A IAxx DB_LINE Q9REL Q01_OP...
  • Page 457 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 172 Version 1.0-00 DB_LINE Q01_OP Q01_CL VPQ01 Q02_OP Q02_CL VPQ02 Q61_OP Q61_CL VPQ61 Q51_OP Q51_CL VPQ51 Q52_OP Q52_CL VPQ52 Q62_OP VPQ62 Q62_CL Q54_OP Q54_CL VPQ54 Q55_OP Q55_CL VPQ55 Q9_OP...
  • Page 458 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 173 Version 1.0-00 VPQ01 & VPQ51 ≥1 VPQ52 VPQ53 VPQ8 VPQ62 Q01_OP Q51_OP Q52_OP Q53_OP Q8_OP Q62_OP Q9EX2 VPQ02 & VPQ61 VPQ53 VPQ54 VPQ55 VPQ8 Q02_OP Q61_OP Q53_OP Q54_OP...
  • Page 459 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 174 Version 1.0-00 VPQ61 & Q53REL VPQ62 VPQ9 Q53ITL Q61_OP Q62_OP Q9_OP VPQ9 & Q8REL VPVOLT Q9_OP Q8ITL VOLT_OP (X80151-56) Fig. 57 Terminal diagram of DB_LINE...
  • Page 460 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 175 Version 1.0-00 6.1.8 DB_BUS_B ICxx DB_BUS_B Q02CLREL Q02_OP Q02_CL Q02CLITL Q62_OP Q62REL Q62_CL Q62ITL Q2REL Q2_OP Q2ITL Q2_CL Q54REL Q54_OP Q54ITL Q54_CL Q55REL Q55_OP Q55ITL Q55_CL Q2OPTR Q53_OP...
  • Page 461 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 176 Version 1.0-00 DB_BUS_B Q02_OP Q02_CL VPQ02 Q62_OP Q62_CL VPQ62 Q2_OP Q2_CL VPQ2 Q54_OP Q54_CL VPQ54 Q55_OP VPQ55 Q55_CL Q53_OP Q53_CL VPQ53 Q25_OP Q25_CL VPQ25 Q02CLREL VPQ62 & Q02CLITL...
  • Page 462 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 177 Version 1.0-00 Q54REL VPQ62 & Q54ITL VPQ2 Q55REL Q62_OP Q55ITL Q2_OP Q2OPTR Q2_OP Q2CLTR Q2_CL VPQ2PTR VPQ2 (X80151-58) Fig. 59 Terminal diagram of DB_BUS_B...
  • Page 463 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 178 Version 1.0-00 6.1.9 BH_LINE_A ILxx BH_LINE_A Q0CLREL Q0_OP Q0_CL Q0CLITL Q6_OP Q6REL Q6ITL Q6_CL Q1REL Q1_OP Q1_CL Q1ITL Q51REL Q51_OP Q51ITL Q51_CL Q52REL Q52_OP Q52ITL Q52_CL Q53REL Q53_OP...
  • Page 464 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 179 Version 1.0-00 BH_LINE_A Q0_OP Q0_CL VPQ0 Q1_OP Q1_CL VPQ1 Q6_OP Q6_CL VPQ6 Q8_OP Q8_CL VPQ8 Q9_OP Q9_CL VPQ9 Q51_OP VPQ51 Q51_CL Q52_OP Q52_CL VPQ52 Q53_OP Q53_CL VPQ53 CQ0_OP...
  • Page 465 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 180 Version 1.0-00 VPQ0 & Q1REL VPQ51 ≥1 VPQ52 Q1ITL VPQ15 Q0_OP Q51_OP Q52_OP Q15_OP EXDUP_ES EXVVA_ES Q1EX1 VPQ51 & VPQ15 Q51_CL Q15_CL EXDUP_ES EXVVA_ES Q1EX2 VPQ1 & Q51REL...
  • Page 466 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 181 Version 1.0-00 CQ61_OP ≥1 & Q9EX4 ≥1 CQ0_OP & CQ51_OP CQ52_OP Q9EX5 Q8_OP Q53_OP Q9EX6 VPQ8 & VPQ53 Q8_CL Q53_CL Q9EX7 VPQ9 & Q8REL VPVOLT Q9_OP Q8ITL VOLT_OP...
  • Page 467 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 182 Version 1.0-00 6.1.10BH_CONN IKxx BH_CONN Q0_OP Q0CLREL Q0_CL Q0CLITL Q61_OP Q61REL Q61ITL Q61_CL Q62REL Q62_OP Q62ITL Q62_CL Q51_OP Q51REL Q51ITL Q51_CL Q52REL Q52_OP Q52ITL Q52_CL 1Q53_OP 1Q53_CL 2Q53_OP...
  • Page 468 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 183 Version 1.0-00 Q0_OP BH_CONN Q0_CL VPQ0 Q61_OP Q61_CL VPQ61 Q62_OP Q62_CL VPQ62 Q51_OP Q51_CL VPQ51 Q52_OP VPQ52 Q52_CL 1Q53_OP 1Q53_CL VP1Q53 2Q53_OP 2Q53_CL VP2Q53 Q0CLREL VPQ61 & Q0CLITL...
  • Page 469 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 184 Version 1.0-00 6.1.11BH_LINE_B IMxx BH_LINE_B Q0CLREL Q0_OP Q0_CL Q0CLITL Q6_OP Q6REL Q6ITL Q6_CL Q2REL Q2_OP Q2ITL Q2_CL Q51REL Q51_OP Q51ITL Q51_CL Q52REL Q52_OP Q52ITL Q52_CL Q53REL Q53_OP Q53ITL...
  • Page 470 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 185 Version 1.0-00 BH_LINE_B Q0_OP Q0_CL VPQ0 Q2_OP Q2_CL VPQ2 Q6_OP VPQ6 Q6_CL Q8_OP Q8_CL VPQ8 Q9_OP Q9_CL VPQ9 Q51_OP VPQ51 Q51_CL Q52_OP Q52_CL VPQ52 Q53_OP Q53_CL VPQ53 CQ0_OP...
  • Page 471 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 186 Version 1.0-00 VPQ0 & Q2REL VPQ51 ≥1 Q2ITL VPQ52 VPQ25 Q0_OP Q51_OP Q52_OP Q25_OP EXDUP_ES EXVVA_ES Q2EX1 VPQ51 & VPQ25 Q51_CL Q25_CL EXDUP_ES EXVVA_ES Q2EX2 VPQ2 & Q51REL...
  • Page 472 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 187 Version 1.0-00 CQ62_OP ≥1 & Q9EX4 ≥1 CQ0_OP & CQ51_OP CQ52_OP Q9EX5 Q8_OP Q53_OP Q9EX6 VPQ8 & VPQ53 Q8_CL Q53_CL Q9EX7 VPQ9 & Q8REL VPVOLT Q9_OP Q8ITL VOLT_OP...
  • Page 473 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 188 Version 1.0-00 6.2 Signal list 6.2.1 ABC_LINE Table 1: Input signals for ABC_LINE DESCRIPTION: IFxx-Q0_OP Signal is 1 if Q0 is open IFxx-Q0_CL Signal is 1 if Q0 is closed...
  • Page 474 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 189 Version 1.0-00 Table 1: Input signals for ABC_LINE DESCRIPTION: IFxx-VP_C_DC Switch status of the disconnectors on bypass busbar C are valid (open or closed) IFxx-VP_BC_AB Switch status of the bus coupler appara-...
  • Page 475 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 190 Version 1.0-00 Table 1: Input signals for ABC_LINE DESCRIPTION: IFxx-Q7EX3 Input for an external condition for apparatus IFxx-Q7EX4 Input for an external condition for apparatus Table 2: Output signals for ABC_LINE...
  • Page 476 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 191 Version 1.0-00 6.2.2 ABC_BC Table 3: Input signals for ABC_BC DESCRIPTION: IGxx-Q0_OP Signal is 1 if Q0 is open IGxx-Q0_CL Signal is 1 if Q0 is closed IGxx-Q1_OP...
  • Page 477 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 192 Version 1.0-00 Table 3: Input signals for ABC_BC DESCRIPTION: IGxx-EXVVA_BC Signal is 1 if the interlocking programs in all bays connected to the BC busbars are run- ning...
  • Page 478 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 193 Version 1.0-00 Table 4: Output signals for ABC_BC OUT: DESCRIPTION: IGxx-Q2REL Switching of Q2 is allowed IGxx-Q2ITL Switching of Q2 is forbidden IGxx-Q51REL Switching of Q51 is allowed...
  • Page 479 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 194 Version 1.0-00 6.2.3 AB_TRAFO Table 5: Input signals for AB_TRAFO DESCRIPTION: IExx-Q0_OP Signal is 1 if Q0 is open IExx-Q0_CL Signal is 1 if Q0 is closed IExx-Q1_OP...
  • Page 480 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 195 Version 1.0-00 Table 5: Input signals for AB_TRAFO DESCRIPTION: IExx-Q1EX2 Input for an external condition for apparatus IExx-Q1EX3 Input for an external condition for apparatus IExx-Q2EX1 Input for an external condition for apparatus...
  • Page 481 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 196 Version 1.0-00 6.2.4 A1A2_BS Table 7: Input signals for A1A2_BS DESCRIPTION: IHxx-Q0_OP Signal is 1 if Q0 is open IHxx-Q0_CL Signal is 1 if Q0 is closed IHxx-Q11_OP...
  • Page 482 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 197 Version 1.0-00 Table 8: Output signals for A1A2_BS OUT: DESCRIPTION: IHxx-Q0OPREL Opening of Q0 is allowed IHxx-Q0OPITL Opening of Q0 is forbidden IHxx-Q0CLREL Closing of Q0 is allowed...
  • Page 483 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 198 Version 1.0-00 6.2.5 A1A2_DC Table 9: Input signals for A1A2_DC DESCRIPTION: IIxx-Q11_OP Signal is 1 if Q11 is open IIxx-Q11_CL Signal is 1 if Q11 is closed IIxx-A1Q15_OP...
  • Page 484 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 199 Version 1.0-00 Table 10: Output signals for A1A2_DC OUT: DESCRIPTION: IIxx-Q11CLREL For GIS closing of Q11 is allowed IIxx-Q11CLITL For GIS closing of Q11 is forbidden IIxx-DCOPTR Signal is 1 if the bus section disconnector is...
  • Page 485 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 200 Version 1.0-00 6.2.7 DB_BUS_A Table 13: Input signals for DB_BUS_A DESCRIPTION: IBxx-Q01_OP Signal is 1 if Q01 is open IBxx-Q01_CL Signal is 1 if Q01 is closed IBxx-Q1_OP...
  • Page 486 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 201 Version 1.0-00 Table 14: Output signals for DB_BUS_A OUT: DESCRIPTION: IBxx-Q52ITL Switching of Q52 is forbidden IBxx-Q1OPTR Signal is 1 if Q1 is open IBxx-Q1CLTR Signal is 1 if Q1 is closed...
  • Page 487 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 202 Version 1.0-00 Table 15: Input signals for DB_LINE DESCRIPTION: IAxx-Q9EX4 Input for an external condition for apparatus IAxx-Q9EX5 Input for an external condition for apparatus Table 16: Output signals for DB_LINE...
  • Page 488 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 203 Version 1.0-00 Table 17: Input signals for DB_BUS_B DESCRIPTION: ICxx-Q62EX2 Input for an external condition for apparatus ICxx-Q2EX1 Input for an external condition for apparatus ICxx-Q2EX2 Input for an external condition for apparatus...
  • Page 489 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 204 Version 1.0-00 6.2.10BH_LINE_A Table 19: Input signals for BH_LINE_A DESCRIPTION: ILxx-Q0_OP Signal is 1 if Q0 is open ILxx-Q0_CL Signal is 1 if Q0 is closed ILxx-Q6_OP Signal is 1 if Q6 is open...
  • Page 490 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 205 Version 1.0-00 Table 19: Input signals for BH_LINE_A DESCRIPTION: ILxx-Q6EX1 Input for an external condition for apparatus ILxx-Q6EX2 Input for an external condition for apparatus ILxx-Q1EX1 Input for an external condition for apparatus...
  • Page 491 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 206 Version 1.0-00 Table 20: Output signals for BH_LINE_A OUT: DESCRIPTION: ILxx-Q1OPTR Signal is 1 if Q1 is open ILxx-Q1CLTR Signal is 1 if Q1 is closed ILxx-VPQ1TR Switch status of Q1 is valid (open or closed) 6.2.11BH_CONN...
  • Page 492 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 207 Version 1.0-00 Table 22: Output signals for BH_CONN OUT: DESCRIPTION: IKxx-Q51REL Switching of Q51 is allowed IKxx-Q51ITL Switching of Q51 is forbidden IKxx-Q52REL Switching of Q52 is allowed...
  • Page 493 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 208 Version 1.0-00 Table 23: Input signals for BH_LINE_B DESCRIPTION: IMxx-Q25_CL Signal is 1 if Q25 on busbar B is closed IMxx-VOLT_OP There is no voltage on the line and not fuse...
  • Page 494 ABB Network Partner AB Interlocking 1MRK 580 151-XEN Page 6 - 209 Version 1.0-00 Table 24: Output signals for BH_LINE_B OUT: DESCRIPTION: IMxx-Q51ITL Switching of Q51 is forbidden IMxx-Q52REL Switching of Q52 is allowed IMxx-Q52ITL Switching of Q52 is forbidden...
  • Page 495 ABB Network Partner AB 1MRK 580 151-XEN Interlocking Page 6 - 210 Version 1.0-00...
  • Page 496 Optional 1 Application The REC 561 and REL 531 terminals may be provided with output func- tions that can be controlled either from a Substation Automation System or from the built-in MMI. The output functions can be used, for example, to control high-voltage apparatuses in switchyards.
  • Page 497 ABB Network Partner AB 1MRK 580 165-XEN Command function Page 6 - 212 Version 1.0-00 Fig. 1 shows an example of how the user can, in an easy way, connect the command function via the configuration logic circuit to control a high- voltage apparatus.
  • Page 498 Control”, 1MRK 580 150-XEN). This Multiple Command function block can also be used to receive infor- mation over the LON bus from other REC 561 control terminals . The most common use is to transfer interlocking information between differ- ent bays. That can be performed by an Event function block as the send block and with a Multiple Command function block as the receive block.
  • Page 499 MMI tree for configuration to a built-in function: Configuration FunctionInputs Function n Command The configuration of the signal outputs of the Single Command function and Multiple Command function in REC 561 is made by the CAP 531 con- figuration tool.
  • Page 500 MMI. This can be performed under the menu: Command CDxx (xx=01 for REL 531, xx=01-11 for REC 561) Fig. 4 shows the dialogue box for the built-in MMI after the selection of the command menu above. The display shows the name of the output to control (CmdOut1) and the present status (Old) and proposes a new value (New).
  • Page 501 The setting parameters for the Single Command function in REL 531 are accessible through the SMS. The setting parameters for the Single Command function and Multiple Command function in REC 561 are set from the CAP 531 configuration tool. Parameters to be set for the Single Command function are MODE, com- mon for the whole block, and CmdOuty - including the name for each out- put signal.
  • Page 502 ABB Network Partner AB Command function 1MRK 580 165-XEN Page 6 - 217 Version 1.0-00 7 Appendix 7.1 Terminal diagrams CDxx SingleCmdFunc CmdOut1 OUT1 CmdOut2 OUT2 CmdOut3 OUT3 OUT4 CmdOut4 OUT5 CmdOut5 CmdOut6 OUT6 CmdOut7 OUT7 CmdOut8 OUT8 CmdOut9 OUT9...
  • Page 503 ABB Network Partner AB 1MRK 580 165-XEN Command function Page 6 - 218 Version 1.0-00 7.2 Signal list Table 1: Signal list for Single Command function No. xx OUT: DESCRIPTION: CDxx-OUT1 Command output 1 for single command block No xx...
  • Page 504 ABB Network Partner AB Command function 1MRK 580 165-XEN Page 6 - 219 Version 1.0-00 Table 2: Signal list for Multiple Command function No. xx OUT: DESCRIPTION: CMxx-OUT5 Command output 5 for multiple command block No xx CMxx-OUT6 Command output 6 for multiple command...
  • Page 505 ABB Network Partner AB 1MRK 580 165-XEN Command function Page 6 - 220 Version 1.0-00 Table 3: Setting table for Single Command function No. xx PARAMETER: SETTING RANGE: DESCRIPTION: CMDOUT8 13 characters string User name for Output 7, to be set from CAP...
  • Page 506 The Event function block can also handle double indication, that is normally used to indicate positions of high-voltage apparatus. With this Event function block in the REC 561 control terminal, data can be sent to other control terminals over the LON bus.
  • Page 507 3.1 General As basic, 36 Event function blocks are available in REC 561. Optionally, eight additional event blocks can be used in REC 561 type 3 (basic + option 2). In REL 531, six event blocks are available. Each Event function block has 16 connectables corresponding to 16 inputs EVxx-INPUT1 to EVxx-INPUT16.
  • Page 508 LON bus. The Event function block is then used to send data over the LON bus to other REC 561 con- trol terminals. The most common use is to transfer interlocking informa- tion between different bays.
  • Page 509 ABB Network Partner AB 1MRK 580 140-XEN Event function Page 6 - 224 Version 1.0-00 4 Setting The event reporting can be set from the SMS as: • Use event masks • Report no events • Report all events Use of event masks is the normal reporting of events, that is, the events are reported as defined in the database.
  • Page 510 ABB Network Partner AB Event function 1MRK 580 140-XEN Page 6 - 225 Version 1.0-00 6 Appendix 6.1 Terminal diagram EVxx EVENT INPUT1 INPUT2 INPUT3 INPUT4 INPUT5 INPUT6 INPUT7 INPUT8 INPUT9 INPUT10 INPUT11 INPUT12 INPUT13 INPUT14 INPUT15 INPUT16 T_SUPR01 T_SUPR03...
  • Page 511 ABB Network Partner AB 1MRK 580 140-XEN Event function Page 6 - 226 Version 1.0-00 6.2 Signal list Table 1: Signal list for Event function No. xx DESCRIPTION: EVxx-INPUT1 Event input 1 for event block No xx EVxx-INPUT2 Event input 2 for event block No xx...
  • Page 512 ABB Network Partner AB Event function 1MRK 580 140-XEN Page 6 - 227 Version 1.0-00 6.3 Setting table Table 2: Setting table for Event function No. xx PARAMETER: SETTING RANGE: DESCRIPTION: EventMask1 No Events, OnSet, Event mask for input 1, to be set from SMS OnReset, OnChange, Double Ind., Double...
  • Page 513 ABB Network Partner AB 1MRK 580 140-XEN Event function Page 6 - 228 Version 1.0-00 Table 2: Setting table for Event function No. xx PARAMETER: SETTING RANGE: DESCRIPTION: EventMask16 No Events, OnSet, Event mask for input 16, to be set from SMS...
  • Page 514 ABB Network Partner AB Event function 1MRK 580 140-XEN Page 6 - 229 Version 1.0-00 Table 2: Setting table for Event function No. xx PARAMETER: SETTING RANGE: DESCRIPTION: NAME15 19 characters string User name of signal connected to Input 15,...
  • Page 515 ABB Network Partner AB 1MRK 580 140-XEN Event function Page 6 - 230 Version 1.0-00...
  • Page 516 ABB Network Partner AB Page I Contents Page Introduction..................... 7-1 Information subgroups................7-1 Mean values ................... 7-1 Differential values................7-1 Phasors ..................7-2 Synchronising values ..............7-2 Logical signals................7-2 Different I/O units ................7-2 Counters within the autoreclosing function........7-3 Communication channel for the line differential protection function7-3 Directionality...................
  • Page 517 ABB Network Partner AB Page II Periodic reporting with the dead-band supervision in series 7-20 Design and measuring principle ............7-21 Setting....................7-22 Testing ....................7-24 Appendix....................7-25 Terminal diagram................7-25 Signal list ..................7-25 Setting table.................. 7-27 Application .................... 7-33 Theory of operation................
  • Page 518 ABB Network Partner AB Page III Fault locator.................. 7-53 Trip values..................7-53 Disturbance recorder..............7-53 Recording times..................7-54 Analogue signals .................. 7-55 Binary signals ..................7-55 Trig signals ................... 7-56 Manual trig ................7-56 Binary trig................7-56 Analogue trig................ 7-56 Settings, introduction ................
  • Page 519 ABB Network Partner AB Page IV...
  • Page 520: Introduction

    ABB Network Partner AB Service report 1MRK 580 137-XEN Page Version 1.0-00 November 1996 Function: Basic 1 Introduction The Service report menu lets you display information about the: • Operation conditions for protected objects in the power systems • Terminal The amount of available information depends on the number of basic and optional functions in a specific REx 5xx terminal.
  • Page 521: Phasors

    ABB Network Partner AB 1MRK 580 137-XEN Service report Page 7 - 2 Version 1.0-00 Line-protection terminals, which have built-in line differential protection functions, separately display (for each phase) the values of the differential and bias currents in phases L1, L2, and L3.
  • Page 522: Counters Within The Autoreclosing Function

    ABB Network Partner AB Service report 1MRK 580 137-XEN Page 7 - 3 Version 1.0-00 The current values of input logical signals, logical signals configured to different output elements (relays) and analogue direct current measuring inputs are available under the Slotxx submenu.
  • Page 523: Active Group

    ABB Network Partner AB 1MRK 580 137-XEN Service report Page 7 - 4 Version 1.0-00 • Percentage of the used dedicated memory capacity for purposes of the disturbance recording when it is built into the terminal. • Sequence numbers of the disturbances recorded during the same day •...
  • Page 524: Application

    The REC 561 control, protection and monitoring terminal have a built-in option to measure and further process information about up to 36 different direct current information from different measuring transducers. Six inde- pendent measuring channels are located on each independent mA input module.
  • Page 525: Continuous Monitoring Of The Measured Quantity

    ABB Network Partner AB 1MRK 580 154-XEN Direct current measuring unit Page 7 - 6 Version 1.0-00 User can this way select for each measuring quantity on each monitored object of a power system the most suitable measuring range and this way optimise a complete functionality together with the characteristics of the used measuring transducer.
  • Page 526: Amplitude Dead-Band Supervision

    ABB Network Partner AB Direct current measuring unit 1MRK 580 154-XEN Page 7 - 7 Version 1.0-00 These reporting modes are available: • Periodic reporting • Periodic reporting with dead-band supervision in parallel • Periodic reporting with dead-band supervision in series Users can select between two types of dead-band supervision: •...
  • Page 527: Periodic Reporting

    ABB Network Partner AB 1MRK 580 154-XEN Direct current measuring unit Page 7 - 8 Version 1.0-00 time increment. These products are added until the pre-set value is exceeded. The last measured value (Y2 in Fig. 3) is reported and set as a new base for the following measurements.
  • Page 528: Design And Measuring Principle

    ABB Network Partner AB Direct current measuring unit 1MRK 580 154-XEN Page 7 - 9 Version 1.0-00 Table 1: Dependence of reporting on different setting parameters Reporting of the new value No measured values is reported t>0 The new measured value is reported only if the time t period expired and if, during this time, the integrating dead-band limits were exceeded t>0...
  • Page 529 ABB Network Partner AB 1MRK 580 154-XEN Direct current measuring unit Page 7 - 10 Version 1.0-00 (x80154-4) Fig. 4 Block diagram of measuring channel The digital information is filtered by the digital low-pass filter with the (sinx/x) response. The filter notch frequency automatically follows the selected sampling frequency.
  • Page 530: Setting

    ABB Network Partner AB Direct current measuring unit 1MRK 580 154-XEN Page 7 - 11 Version 1.0-00 The complete measuring module is equipped with advanced self-supervi- sion. Only the outermost analogue circuits cannot be monitored. The A/D converter, optocouplers, digital circuitry, and DC/DC converters, are all supervised on the module.
  • Page 531: Testing

    ABB Network Partner AB 1MRK 580 154-XEN Direct current measuring unit Page 7 - 12 Version 1.0-00 IDeadB is a set value of the current level for IDBS in mA SampRate is a set value of sampling rate (frequency) in Hz...
  • Page 532: Appendix

    ABB Network Partner AB Direct current measuring unit 1MRK 580 154-XEN Page 7 - 13 Version 1.0-00 8 Appendix 8.1 Terminal diagram MIM (mA input module) m channel 1 MIm1-POSITION MImn-ERROR MIm1-BLOCK MImn-INPUTERR MImn-RMAXAL MImn-RMINAL MImn-HIALARM MImn-HIWARN MImn-LOWWARN MImn-LOWALARM (x80154-5) Fig.
  • Page 533: Signal List

    ABB Network Partner AB 1MRK 580 154-XEN Direct current measuring unit Page 7 - 14 Version 1.0-00 8.2 Signal list Table 2 DESCRIPTION: MIn1-BLOCK Blocks the reporting of new measured value by measuring channel No.1 on measuring module n (n = 1...6) MIn2-BLOCK Blocks the reporting of new measured value by measuring channel No.2 on measuring...
  • Page 534: Setting Table

    ABB Network Partner AB Direct current measuring unit 1MRK 580 154-XEN Page 7 - 15 Version 1.0-00 8.3 Setting table Table 3: PARAMETER: SETTING RANGE: DESCRIPTION: Name 13 character string Up to 13 characters long name for the measuring channel...
  • Page 535 ABB Network Partner AB 1MRK 580 154-XEN Direct current measuring unit Page 7 - 16 Version 1.0-00 Table 3: PARAMETER: SETTING RANGE: DESCRIPTION: MaxValue (-1000.00 - 1000.00)(a) Determines the maximum value of the measuring transducer pri- mary measuring quantity, which corresponds to the maximum per-...
  • Page 536: Application

    ABB Network Partner AB Measurement of alternating 1MRK 580 159-XEN quantities Page - 17 Version 1.0-00 October 1996 Function: Optional 1 Application Fast, reliable supervision of different analogue quantities is of vital impor- tance during the normal operation of a power system.
  • Page 537: User-Defined Measuring Ranges

    Page 7 - 18 Version 1.0-00 Further processing, monitoring, and supervision of different alternate measuring quantities is possible only in the REC 561 control terminal. 1.1 User-defined You can set measuring range for different measuring channels—inde- measuring ranges pendent of each other in wide setting ranges.
  • Page 538: Continuous Supervision Of The Measured Quantity

    ABB Network Partner AB Measurement of alternating 1MRK 580 159-XEN Page 7 - 19 quantities Version 1.0-00 1.3 Continuous The actual value of the measured quantity is available locally and supervision of the remotely. The measurement is continuous for each channel separately.
  • Page 539: Periodic Reporting

    ABB Network Partner AB 1MRK 580 159-XEN Measurement of alternating quantities Page 7 - 20 Version 1.0-00 The last value reported (Y1 in Fig. 3) serves as a basic value for further measurement. A difference is calculated between the last reported and the newly measured value during new sample and is multiplied by the time increment.
  • Page 540: Design And Measuring Principle

    ABB Network Partner AB Measurement of alternating 1MRK 580 159-XEN Page 7 - 21 quantities Version 1.0-00 Dependence of reporting on different setting parameters: Reporting of the new value No measured values is reported t>0 The new measured value is reported only if the time t period expired and if, dur- ing this time, the integrating dead-band limits were exceeded t>0...
  • Page 541: Setting

    ABB Network Partner AB 1MRK 580 159-XEN Measurement of alternating quantities Page 7 - 22 Version 1.0-00 • Five input measured currents (I1, I2,..., I5) • Five input measured voltages (U1, U2,...,U5) • Mean value of the first, three measured currents (I1, I2, and I3) •...
  • Page 542 ABB Network Partner AB Measurement of alternating 1MRK 580 159-XEN Page 7 - 23 quantities Version 1.0-00 You can enter the user-defined name for each of the 15 analogue measur- ing quantities. Each name can consist of up to 13 characters and can be set...
  • Page 543: Testing

    ABB Network Partner AB 1MRK 580 159-XEN Measurement of alternating quantities Page 7 - 24 Version 1.0-00 4 Testing Stabilized ac current and voltage generators and corresponding current, voltage, power and frequency meters with very high accuracy are neces- sary for testing the alternating quantity measuring function. The operating ranges of the generators must correspond to the rated alternate current and voltage of each terminal.
  • Page 544: Appendix

    ABB Network Partner AB Measurement of alternating 1MRK 580 159-XEN Page 7 - 25 quantities Version 1.0-00 5 Appendix 5.1 Terminal diagram DAxx (Alternate quantity measuring unit No.1..15) DIrAnalog In_U1 DAxx-HIALARM DAxx-BLOCK DAxx-HIWARN DAxx-LOWWARN DAxx-LOWALARM (x80159-5) Fig. 5 Simplified terminal diagram for the alternate analogue quan- tity measuring 5.2 Signal list...
  • Page 545 ABB Network Partner AB 1MRK 580 159-XEN Measurement of alternating quantities Page 7 - 26 Version 1.0-00 DESCRIPTION: DA14- Blocks the reporting of new measured value by analogue BLOCK measuring channel Q, when active DA15- Blocks the reporting of new measured value by analogue...
  • Page 546: Setting Table

    ABB Network Partner AB Measurement of alternating 1MRK 580 159-XEN Page 7 - 27 quantities Version 1.0-00 5.3 Setting table PARAMETER: SETTING RANGE: DESCRIPTION: Voltage input channels U1 - U5: Operation Off, On Operation of the measuring channel enabled (On) or disabled (Off)
  • Page 547 ABB Network Partner AB 1MRK 580 159-XEN Measurement of alternating quantities Page 7 - 28 Version 1.0-00 PARAMETER: SETTING RANGE: DESCRIPTION: HiWarn (0-99999)A Determines the operating value of the monitoring element which pro- duces logical signal DA0n-HIWARN (n=6..10) HiAlarm (0-99999)A Determines the operating value of the monitoring element which pro- duces logical signal DA0n-HIALARM (n=6..10)
  • Page 548 ABB Network Partner AB Measurement of alternating 1MRK 580 159-XEN Page 7 - 29 quantities Version 1.0-00 PARAMETER: SETTING RANGE: DESCRIPTION: Mean current measuring channel Operation Off, On Operation of the measuring channel enabled (On) or disabled (Off) RepInt (0-3600)Seconds Duration of time interval between two reports at periodic reporting function.
  • Page 549 ABB Network Partner AB 1MRK 580 159-XEN Measurement of alternating quantities Page 7 - 30 Version 1.0-00 PARAMETER: SETTING RANGE: DESCRIPTION: HiAlarm (0.0-9999.9)MW Determines the operating value of the monitoring element which pro- duces logical signal DA13-HIALARM EnDeadB Off, On...
  • Page 550 ABB Network Partner AB Measurement of alternating 1MRK 580 159-XEN Page 7 - 31 quantities Version 1.0-00 PARAMETER: SETTING RANGE: DESCRIPTION: Frequency measuring channel Operation Off, On Operation of the measuring channel enabled (On) or disabled (Off) RepInt (0-3600)Seconds Duration of time interval between two reports at periodic reporting function.
  • Page 551 ABB Network Partner AB 1MRK 580 159-XEN Measurement of alternating quantities Page 7 - 32 Version 1.0-00 PARAMETER: SETTING RANGE: DESCRIPTION: EventMask I3 No Events, Report Enables (Report Events) or disables (No Events) reporting of events Events from channel DA08 to the SCS...
  • Page 552: Application

    The normal use for this function is the counting of energy pulses for kWh and kvarh in both directions from external energy meters. Up to 12 binary inputs in a REC 561 can be used for this purpose with a frequency of up to 40 Hz.
  • Page 553: Design

    ABB Network Partner AB 1MRK 580 187-XEN Pulse counter Page 7 - 34 Version 1.0-00 3 Design The function can be regarded as a function block with a few inputs and outputs. The inputs are divided into two groups: settings and connectables (configuration).
  • Page 554: Setting

    ABB Network Partner AB Pulse counter 1MRK 580 187-XEN Page 7 - 35 Version 1.0-00 The INVALID signal is a steady signal and is set if the Binary input mod- ule, where the Pulse Counter input is located, fails or has wrong configu- ration.
  • Page 555: Testing

    ABB Network Partner AB 1MRK 580 187-XEN Pulse counter Page 7 - 36 Version 1.0-00 5 Testing The test of the Pulse Counter function requires at least a SPA (or LON) connection to a station MMI including corresponding functionality. A known number of pulses are with different frequency connected to the pulse-counter input.
  • Page 556: Appendix

    ABB Network Partner AB Pulse counter 1MRK 580 187-XEN Page 7 - 37 Version 1.0-00 6 Appendix 6.1 Terminal diagram PCxx PulseCounter BLOCK INVALID TMIT_VAL RESTART BIM_CONN BLOCKED NAME NEW_VAL (X80187-2) Fig. 2 Simplified terminal diagram of the Pulse Counter function 6.2 Signal list...
  • Page 557: Setting Table

    ABB Network Partner AB 1MRK 580 187-XEN Pulse counter Page 7 - 38 Version 1.0-00 6.3 Setting table Table 2: Setting table for Pulse Counter No. xx PARAMETER: SETTING RANGE: DESCRIPTION Operation Off, On Pulse Counter xx in operation. To be...
  • Page 558: Application

    ABB Network Partner AB Time synchronisation 1MRK 580 135-XEN Page - 39 Version 1.0-00 November 1996 Function: Basic 1 Application Time-tagging of internal events and disturbances is an excellent help when evaluating faults. Without time synchronisation, only the events within the terminal can be compared to one another. With time synchroni- sation, events and disturbances within the entire station, and even between line ends, can be compared during an evaluation.
  • Page 559: Setting

    ABB Network Partner AB 1MRK 580 135-XEN Time synchronisation Page 7 - 40 Version 1.0-00 3 Setting The internal time can be set on the built-in, man-machine interface (MMI) at: Settings Time The time is set with year, date and time. See Local man machine commu- nication (1MRK 580 156-XEN), for more information.
  • Page 560: Appendix

    ABB Network Partner AB Time synchronisation 1MRK 580 135-XEN Page 7 - 41 Version 1.0-00 4 Appendix 4.1 Terminal diagrams TIME TIME-MINSYNC TIME-RTCERR TIME-SYNSOURC TIME-SYNCERR (X80135-1) Fig. 1 Simplified terminal diagram for the function 4.2 Signal list DESCRIPTION: TIME-MINSYNC Minute-pulse synchronisation input...
  • Page 561 ABB Network Partner AB 1MRK 580 135-XEN Time synchronisation Page 7 - 42 Version 1.0-00...
  • Page 562: Application

    ABB Network Partner AB Remote communication 1MRK 580 142-XEN Page - 43 Version 1.0-00 November 1996 Function: Optional 1 Application The remote communication can be used for different purposes, which ena- ble better access to the information stored in the terminals. For control ter- minals, the remote communication is also used for communication directly between terminals (bay-to-bay communication).
  • Page 563: Theory Of Operation

    ABB Network Partner AB 1MRK 580 142-XEN Remote communication Page 7 - 44 Version 1.0-00 2 Theory of operation All remote communication to and from the terminal (including the front PC port communication) uses either the SPA-bus V 2.4 protocol or the LonTalk protocol.
  • Page 564: Design

    ABB Network Partner AB Remote communication 1MRK 580 142-XEN Page 7 - 45 Version 1.0-00 3 Design The remote communication use optical fibres for transfer of data within a station. For this purpose, a fibre optic bus input can be available on the rear of the terminal, one for LON communication, and one for SPA com- munication.
  • Page 565: Setting

    ABB Network Partner AB 1MRK 580 142-XEN Remote communication Page 7 - 46 Version 1.0-00 4 Setting 4.1 SPA setting The most important settings in the terminal for SPA communication are the slave number and baud rate (communication speed). These settings are absolutely essential for all communication contact to the terminal.
  • Page 566: Lon Setting

    ABB Network Partner AB Remote communication 1MRK 580 142-XEN Page 7 - 47 Version 1.0-00 4.2 LON setting Use the LNT, LON Network Tool to set the LON communication. This is a software tool that is applied as one node on the LON bus. In order to...
  • Page 567: Appendix

    ABB Network Partner AB 1MRK 580 142-XEN Remote communication Page 7 - 48 Version 1.0-00 5 Appendix 5.1 Setting table PARAMETER: SETTING RANGE: DESCRIPTION: Rear: SlaveNo (1 - 899) SPA-bus identification number BaudRate 300, 1200, 2400, 4800, 9600, Communication speed...
  • Page 568: Internal Events

    ABB Network Partner AB Internal events 1MRK 580 134-XEN Page - 49 Version 1.0-00 October 1996 Function: Basic 1 Internal events Internal events are generated by the built-in supervisory functions. The supervisory functions supervise the status of the various modules in the terminal and, in case of failure, a corresponding event is generated.
  • Page 569 ABB Network Partner AB 1MRK 580 134-XEN Internal events Page 7 - 50 Version 1.0-00...
  • Page 570: General Overview

    ABB Network Partner AB Disturbance report - Introduction 1MRK 580 132-XEN Page - 51 Version 1.0-00 October 1996 Function: Basic 1 General overview The aim of the Disturbance Report is to contribute to the highest possible quality of electrical supply. This is done by a continuous collection of sys- tem data and, upon occurrence of a fault, by storing a certain amount of pre-fault, fault, and post-fault data.
  • Page 571: General Disturbance Information

    ABB Network Partner AB 1MRK 580 132-XEN Disturbance report - Introduction Page 7 - 52 Version 1.0-00 turbances are stored. If fewer analogue signals are recorded, a longer total recording time is available. This memory limit does not affect the rest of the disturbance report.
  • Page 572: Fault Locator

    ABB Network Partner AB Disturbance report - Introduction 1MRK 580 132-XEN Page 7 - 53 Version 1.0-00 1.4 Fault locator The Fault locator contains information about the distance to the fault and about which measuring loop that was selected for the calculation. After changing the system parameters in the protection, a recalculation of the fault distance can be made in the protection.
  • Page 573: Recording Times

    ABB Network Partner AB 1MRK 580 132-XEN Disturbance report - Introduction Page 7 - 54 Version 1.0-00 2 Recording times The recording times are valid for the whole Disturbance Report. The Dis- turbance Recorder and the Event Recorder register disturbance data and events during tRecording, the total recording time.
  • Page 574: Analogue Signals

    ABB Network Partner AB Disturbance report - Introduction 1MRK 580 132-XEN Page 7 - 55 Version 1.0-00 3 Analogue signals Up to 10 analogue signals (five voltages and five currents from the trans- former module) can be selected for recording and trig if the Disturbance Recorder function is installed.
  • Page 575: Trig Signals

    ABB Network Partner AB 1MRK 580 132-XEN Disturbance report - Introduction Page 7 - 56 Version 1.0-00 4.1 Trig signals The trig conditions affect the entire disturbance report. As soon as a trig condition is fulfilled, a complete disturbance report is recorded. On the other hand, if no trig condition is fulfilled, there is no disturbance report, no calculation of distance to fault, no indications, and so on.
  • Page 576: Settings, Introduction

    ABB Network Partner AB Disturbance report - Settings 1MRK 580 133-XEN Page - 57 Version 1.0-00 October 1996 Function: Basic 1 Settings, introduction The main part of the settings for the Disturbance Report is found on the built-in, man-machine interface (MMI) at:...
  • Page 577 ABB Network Partner AB 1MRK 580 133-XEN Disturbance report - Settings Page 7 - 58 Version 1.0-00 1.1 Settings during normal conditions Table 1: How the settings affect different functions in the Disturbance Report Function Disturbance Disturbance Indications Event list...
  • Page 578: Recording Times

    ABB Network Partner AB Disturbance report - Settings 1MRK 580 133-XEN Page 7 - 59 Version 1.0-00 2.1 Recording times MMI submenu: Settings DisturbReport RecordingTimes Under this submenu, the different recording times for the Disturbance Report are set (the pre-fault time, post-fault time, and limit time). These recording times affect the Disturbance Recorder and Event Recorder func- tions.
  • Page 579: Fault Locator

    ABB Network Partner AB 1MRK 580 133-XEN Disturbance report - Settings Page 7 - 60 Version 1.0-00 This MMI submenu is only available when the Disturbance Recorder option is installed. For each of the 10 analogue signals (five voltages and five currents), Operation = On means that it is recorded by the Disturbance Recorder.
  • Page 580: Settings During Test

    ABB Network Partner AB Disturbance report - Settings 1MRK 580 133-XEN Page 7 - 61 Version 1.0-00 3 Settings during test 3.1 Test mode During testing, the operation of the Disturbance Report is required. The setting of this operation is found at the MMI submenu:...
  • Page 581: Appendix

    ABB Network Partner AB 1MRK 580 133-XEN Disturbance report - Settings Page 7 - 62 Version 1.0-00 4 Appendix 4.1 Signal list DESCRIPTION: DREP-CLRLEDS Clear built-in MMI LEDs, scrolling of Distur- bance Summaries and signal DREP-RECMADE DREP-INPUT1 Binary signal to be recorded as signal No. 1 DREP-INPUT2 Binary signal to be recorded as signal No.
  • Page 582: Setting Table

    ABB Network Partner AB Disturbance report - Settings 1MRK 580 133-XEN Page 7 - 63 Version 1.0-00 DESCRIPTION: DREP-INPUT36 Binary signal to be recorded as signal No. 36 DREP-INPUT37 Binary signal to be recorded as signal No. 37 DREP-INPUT38 Binary signal to be recorded as signal No. 38 DREP-INPUT39 Binary signal to be recorded as signal No.
  • Page 583 ABB Network Partner AB 1MRK 580 133-XEN Disturbance report - Settings Page 7 - 64 Version 1.0-00 PARAMETER: SETTING RANGE: DESCRIPTION: IndicationMask Masked, Show Masked=the signal is not automatically scrolled, Show=the signal is automatically scrolled on the MMI in the Disturbance summary...
  • Page 584: Application

    ABB Network Partner AB Event recorder - Station 1MRK 580 139-XEN Monitoring System Page - 65 Version 1.0-00 October 1996 Function: Basic 1 Application When using a front-connected PC or Station Monitoring System (SMS), an event list can be available for each of the recorded disturbances in the disturbance report.
  • Page 585: Testing

    ABB Network Partner AB 1MRK 580 139-XEN Event recorder - Station Monitoring System Page 7 - 66 Version 1.0-00 For each of the binary input and output signals, a user-defined name can be programmed at: Configuration Slotnn-XXXX (ex. Slot15-BOM3) See Disturbance report - Settings (1MRK 580 133-XEN), for more infor- mation.
  • Page 586: Application

    ABB Network Partner AB Indications 1MRK 580 136-XEN Page - 67 Version 1.0-00 October 1996 Function: Basic 1 Application The indications from all the 48 selected binary signals are shown on the built-in man-machine interface (MMI) and on the Station Monitoring Sys- tem (SMS) for each recorded disturbance in the disturbance report.
  • Page 587: Testing

    ABB Network Partner AB 1MRK 580 136-XEN Indications Page 7 - 68 Version 1.0-00 3 Setting The signals to be displayed as indications are selected in the Disturbance report setting. This can be found on the built-in MMI at: Settings...
  • Page 588: Application

    ABB Network Partner AB Disturbance recorder 1MRK 580 141-XEN Page - 69 Version 1.0-00 October 1996 Function: Optional 1 Application The aim of disturbance recording is to provide a means for better under- standing of the behaviour of the power network and related primary and secondary equipment during and after a disturbance.
  • Page 589: Time Tagging

    ABB Network Partner AB 1MRK 580 141-XEN Disturbance recorder Page 7 - 70 Version 1.0-00 1.5 Time tagging The terminal has a built-in, real-time clock and calendar. This function is used for time tagging of the recorded disturbances. The time tagging refers to the activation of the trigger that starts the disturbance recording.
  • Page 590 ABB Network Partner AB Disturbance recorder 1MRK 580 141-XEN Page 7 - 71 Version 1.0-00 The recordings can be divided into two parts, the header and the data part. The data part contains the numerical values for the recorded analogue and binary channels.
  • Page 591: Design

    ABB Network Partner AB 1MRK 580 141-XEN Disturbance recorder Page 7 - 72 Version 1.0-00 The calculation of the RMS values takes some time. The minimum time between the start of two different recordings must be about 300 ms to obtain correct calculation.
  • Page 592 ABB Network Partner AB Disturbance recorder 1MRK 580 141-XEN Page 7 - 73 Version 1.0-00 The RAM area for temporary storage of recorded data is divided into sub- areas, one for each recording. The size of a subarea is governed by the sum of the set pre-fault (tPre) and maximum post-triggering (tLim) time.
  • Page 593: Testing

    ABB Network Partner AB 1MRK 580 141-XEN Disturbance recorder Page 7 - 74 Version 1.0-00 The sequence number of the recordings is a specific parameter for the dis- turbance recorder and is used to identify the different recordings. By com- bining the date and the sequence number for a recording, the recording can be uniquely identified.
  • Page 594 ABB Network Partner AB Index 1MRK 580 175-XEN Page Version 1.0-01 February 1997 Function: Basic BAY_CON worksheet 9-4 BAYCON 6-9, 6-10, 6-13 A/D-conversion module 2-35 BAYCONA 6-10, 6-51, 6-62 A1A2_BS 6-105, 6-108, 6-163, 6-196 BAYCONB 6-10, 6-52, 6-65 A1A2_DC 6-105, 6-108, 6-166, 6-198...
  • Page 595 ABB Network Partner AB 1MRK 580 175-XEN Index Page 8 - 2 Version 1.0-01 CMxx-signal name 6-217, 6-218 DREP-CLEARED 7-63 CO 5-61 DREP-CLRLEDS 7-62 COMBITEST 3-13 DREP-INPUT1 7-62 COMCON 6-9, 6-10, 6-18, 6-57, 6-85, 6-98 DREP-MEMUSED 7-63 COMM worksheet 9-3...
  • Page 596 ABB Network Partner AB Index 1MRK 580 175-XEN Page 8 - 3 Version 1.0-01 IBxx - signal name 6-169, 6-200 LON address 3-73 ICxx - signal name 6-175, 6-202 LON Network Tool 3-11 identifiers 4-1 LONDefault 7-47 IExx - signal name 6-158, 6-194...
  • Page 597 6-36 rack mounting 2-36, 3-1 storage 3-1 reactive power Q 7-17 SWICON 6-11, 6-20 REC 561 types 2-2 SWICONA 6-11, 6-58, 6-88, 6-98 receiving 3-1 SWICONB 6-11, 6-59, 6-91, 6-99 reclosing counters 5-60 SWICONC 6-11, 6-60, 6-94, 6-99...
  • Page 598 ABB Network Partner AB Index 1MRK 580 175-XEN Page 8 - 5 Version 1.0-01 technical data 2-22 terminal identification 4-1 test mode 3-12, 7-61 TEST-INPUT 3-12 time synchronisation 7-39 TIME-MINSYNC 7-41 timer 4-27 TIME-RTCERR 7-41 TIME-SYNCERR 7-41 TPX 2-19 TPY 2-19...
  • Page 599 ABB Network Partner AB 1MRK 580 175-XEN Index Page 8 - 6 Version 1.0-01...
  • Page 600 1 Introduction Use this default configuration as a base when you start the engineering work with REC 561. Different users have their own requirements for how the substation is controlled and monitored. The REC 561 control terminal can meet these requirements for flexibility of both software and hardware.
  • Page 601 CAP 531 to extend the number of apparatuses and bays (option). Connec- tions of optional functions are not in the default configuration, but can be found under the functions respectively in the User’s Guide for REC 561 or when the function is connected to the apparatus control function in Apparatus Control (1MRK 580 150-XEN).
  • Page 602 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 3 Version 1.0-00 • The binary output module of type BOM is defined as I/O module 2. • No other types of I/O modules are defined.
  • Page 603 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 4 Version 1.0-00 The time for cyclic sending of data between control terminals is set to 20 s for the event functon blocks. The interval time, in corresponding com- mand function blocks for receiving of data, is set a little bit longer —...
  • Page 604 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 5 Version 1.0-00 2.9 Earthing switch The confguration in the Q8_CON worksheet for the earthing switch is the control same as for the disconnector control. 2.10Input/output modules The I_O worksheet contains the configuration of the input/output signals.
  • Page 605 Version 1.0-00 3 Appendix 3.1 List of function blocks The REC 561 control terminal contains the function blocks listed in Table 2. Depending on selected options, only parts of all function blocks are included in a terminal at the same time.
  • Page 606 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 7 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment A036- Logic AND Logic AND gate number 36 A037- Logic AND...
  • Page 607 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 8 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment A076- Logic AND Logic AND gate number 76 A077- Logic AND...
  • Page 608 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 9 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment A116- Logic AND Logic AND gate number 116 A117- Logic AND...
  • Page 609 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 10 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment A156- Logic AND Logic AND gate number 156 A157- Logic AND...
  • Page 610 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 11 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment A196- Logic AND Logic AND gate number 196 A197- Logic AND...
  • Page 611 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 12 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment A236- Logic AND Logic AND gate number 236 A237- Logic AND...
  • Page 612 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 13 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment BC05- Apparatus Control BAYCONC AppControl BAYCONC BC06- Apparatus Control BAYCONC...
  • Page 613 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 14 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment BK12- Apparatus Control BLKCONK AppControl BLKCONK BL01- Apparatus Control BLKCONL...
  • Page 614 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 15 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment CM05- Multiple Command MultCmdFunc Multiple Command Function 05 CM06- Multiple Command...
  • Page 615 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 16 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment CM45- Multiple Command MultCmdFunc Multiple Command Function 45 CM46- Multiple Command...
  • Page 616 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 17 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment CO05- Apparatus Control COMCON AppControl COMCON CO06- Apparatus Control COMCON...
  • Page 617 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 18 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment DRP3- Disturbance Report DisturbReport Disturbance Report, DRP3- EV01- Event Function...
  • Page 618 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 19 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment EV40- Event Function EVENT Event Function 40 EV41- Event Function...
  • Page 619 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 20 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment INT-- Internal Signals InternSignals Internal Signals IO01- Binary I/O-module I/O-module...
  • Page 620 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 21 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment IV26- Logic Inverter Logic Inverter gate number 26 IV27- Logic Inverter...
  • Page 621 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 22 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment IV66- Logic Inverter Logic Inverter gate number 66 IV67- Logic Inverter...
  • Page 622 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 23 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment MI52- mA Input mA Input Module 5, Input 2 MI53-...
  • Page 623 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 24 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment O019- Logic OR Logic OR gate number 19 O020- Logic OR...
  • Page 624 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 25 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment O059- Logic OR Logic OR gate number 59 O060- Logic OR...
  • Page 625 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 26 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment O099- Logic OR Logic OR gate number 99 O100- Logic OR...
  • Page 626 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 27 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment O139- Logic OR Logic OR gate number 139 O140- Logic OR...
  • Page 627 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 28 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment O179- Logic OR Logic OR gate number 179 O180- Logic OR...
  • Page 628 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 29 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment PC12- Metering Pulse Coun- PulseCounter Pulse Counter number 12 SA01-...
  • Page 629 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 30 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment SC16- Apparatus Control SWICONC AppControl SWICONC SC17- Apparatus Control SWICONC...
  • Page 630 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 31 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment TP09- Logic Timer Pulse Pulse Logic Timer Pulse gate number 9...
  • Page 631 ABB Network Partner AB 1MRK 580 188-XEN Default configuration REC 561 Page 9 - 32 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment TP49- Logic Timer Pulse Pulse Logic Timer Pulse gate number 49...
  • Page 632 ABB Network Partner AB Default configuration REC 561 1MRK 580 188-XEN Page 9 - 33 Version 1.0-00 Table 2: List of function blocks Function block FB description Function type Comment XO38- Logic XOR Logic Exclusive OR gate number 38 XO39-...
  • Page 633 Version 1.0-00 3.2 Diagram of default This appendix also contains the printout of the default configuration configuration 1MRK 000 606-1 of REC 561. The configuration consists of these work- sheets: Table 3: Worksheets of REC 561 default configuration Name: Version: OVERVIEW 1.0-00...

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