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Operator’s manual

Protect

IT

 Line differential and distance

protection terminal

REL 561*2.5

Summary of Contents for REL 561*2.5

Page 1: ...Operator s manual ProtectIT Line differential and distance protection terminal REL 561 2 5 ...

Page 2: ... Copyright 2003 ABB All rights reserved 2SHUDWRU V PDQXDO ProtectIT Line differential and distance terminal REL 561 2 5 ERXW WKLV PDQXDO Document No 1MRK 506 181 UEN Issued November 2003 Revision ...

Page 3: ...523 57 6 1 7 17 5 676 2 285 86720 56 2167 17 6 72 1685 7 7 285 352 8 76 5 9 23 72 7 7 67 7 12 2 67 1 5 6 6 5 68 7 7 6 3266 7 7 7 5 0 620 5 1 6 7 1 7 6 352 8 7 1 7 6 1 250 7 21 352 8 7 QGXVWULDO 7 Industrial IT enabled products from ABB are the building blocks for greater productivity featuring all the tools necessary for lifecycle product support in consistent electronic form 0DQXIDFWXUHU ABB Auto...

Page 4: ...r overview 10 KDSWHU 8QGHUVWDQG WKH XPDQ 0DFKLQH QWHUIDFH Human Machine Interface 12 Overview 12 Local LCD Human Machine Interface LCD HMI 12 18 LED indication module LED HMI 14 HMI module LED indications 16 KDSWHU 8QGHUVWDQG WKH 0 WUHH Overview 18 DisturbReport 20 General 20 Disturbance 20 CalcDistToFlt 20 ManualTrig 21 ClearDistRep 21 ServiceReport 22 General 22 ServiceValues 22 Phasors 22 Funct...

Page 5: ...rbance summary 32 The disturbance summary 32 View the disturbance indications 33 Navigate the menus 33 View the prefault and fault voltages and currents 34 Navigate the menus 34 View disturbance trigger levels 36 Navigate the menus 36 View disturbance sequence number 38 Navigate the menus 38 Calculate the distance to fault 39 Navigate the menus 39 How the distance to fault is displayed 39 Manually...

Page 6: ...communication values 61 56 64 kbit data communication values 62 View the thermal overload temperatures 63 Thermal overload temperatures 63 View the automatic recloser counters 63 Autorecloser counter values 64 View the synchrocheck values 64 Synchrocheck values 65 View the event counter values 65 Event counter values 66 View the I O function block signals 67 View the I O module signals 67 I O modu...

Page 7: ... Read the terminal time 80 Navigate the menus 80 Retrieve the version of installed firmware 81 Navigate the menus 81 Determine the installed modules 82 Navigate the menus 82 I O modules 82 Retrieve the rated values of analog inputs 84 Navigate the menus 84 ...

Page 8: ...1 About this chapter KDSWHU QWURGXFWLRQ KDSWHU QWURGXFWLRQ ERXW WKLV FKDSWHU This chapter introduces you to the operator s manual its purpose and usage ...

Page 9: ... re set alarms The SURWHFWLRQ V VWHP VWDWXV chapter describes how to read service values function values and output signals The WHUPLQDO XQLW VWDWXV chapter describes how to get information about the terminal status The manual does not contain any instructions for commissioning or testing QWHQGHG DXGLHQFH HQHUDO The operator s manual addresses the RSHUDWRU who operates the terminal on a daily ba s...

Page 10: ...serial com munication 3 Configuration and programming tool Circuit breaker 77 Consultative Committee for International Telegraph and Telepho ny A United Nations sponsored standards body within the Interna tional Telecommunications Union 0336 Combined Mega Pulses Per Second R GLUHFWLRQDO Way of transmitting G 703 over a balanced line Involves two twist ed pairs making it possible to transmit inform...

Page 11: ...n duplex channels of digital data over optical fibers Electrical and functional description for digital lines used by local telephone companies Can be transported over balanced and un balanced lines Standard for pulse code modulation of analog signals on digital lines General interrogation command 6 Gas insulated switchgear 36 Global positioning system SURWRFRO High level data link control protoco...

Page 12: ...s Union 1 Local area network Liquid chrystal display Local detection device Light emitting diode 17 LON network tool 21 Local operating network 0 Miniature circuit breaker 030 Main processing module 09 Multifunction vehicle bus Standardized serial bus originally devel oped for use in trains 3 0 Pulse code modulation 3 6 Process interface for sensors actuators 3277 Permissive overreach transfer tri...

Page 13: ...ömberg Protection Acquisition a serial master slave protocol for point to point communication 69 Static VAr compensation 73 73 73 736 Current transformer class according to IEC 8 3 6 Process interface components that delivers measured voltage and current values 87 Coordinated Universal Time A coordinated time scale maintained by the Bureau International des Poids et Mesures BIPM which forms the ba...

Page 14: ...7 About this chapter KDSWHU 6DIHW LQIRUPDWLRQ KDSWHU 6DIHW LQIRUPDWLRQ ERXW WKLV FKDSWHU This chapter lists warnings and cautions that must be followed when handling the ter minal ...

Page 15: ...2SHUDWLQJ WKH WHUPLQDO ZLWKRXW SURSHU HDUWKLQJ PD GDPDJH ERWK WHUPLQDO DQG PHDVXULQJ FLUFXLWU DQG PD FDXVH LQMXULHV LQ FDVH RI DQ DFFLGHQW DUQLQJ 1HYHU UHPRYH DQ VFUHZ IURP D SRZHUHG WHUPLQDO RU IURP D WHUPLQDO FRQQHFWHG WR SRZ HUHG FLUFXLWU 3RWHQWLDOO OHWKDO YROWDJHV DQG FXUUHQWV DUH SUHVHQW DUQLQJ OZD V DYRLG WR WRXFK WKH FLUFXLWU ZKHQ WKH FRYHU LV UHPRYHG 7KH SURGXFW FRQWDLQV HOHFWURQLF FLUFXLW...

Page 16: ...9 About this chapter KDSWHU 2YHUYLHZ KDSWHU 2YHUYLHZ ERXW WKLV FKDSWHU This chapter describes operations an operator may perform on a daily basis or when the need arises ...

Page 17: ...rieve data about the protected object which will give further information when analyzing a fault This implies viewing the mean current voltage power and frequency or primary and secondary measured phasors The operator can check the terminal status at any time In some cases the operator needs to change the way the terminal operates This could be changing the active setting group or a setting parame...

Page 18: ...out this chapter KDSWHU 8QGHUVWDQG WKH XPDQ 0DFKLQH QWHUIDFH KDSWHU 8QGHUVWDQG WKH XPDQ 0DFKLQH QWHUIDFH ERXW WKLV FKDSWHU This chapter describes how the human machine interface works from an operator s view ...

Page 19: ...erator HVLJQ The human machine interface consists of the human machine interface LCD HMI module the LED HMI module LJXUH 7KH ILJXUH VKRZV WKH 0 XSSHU DQG WKH 0 ORZHU RFDO XPDQ 0DFKLQH QWHUIDFH 0 The HMI module is a ELGLUHFWLRQDO PHDQV RI FRPPXQLFDWLQJ This means that events may occur that activates for instance a LED in purpose to draw your atten tion to something that has occured and needs some s...

Page 20: ... the user The buttons normally have more than one function depending on actual dialogue Pressing any button in idle mode will activate the HMI display The C button has three main functions DQFHO any operation in a dialogue window 1 Status indication LEDs 2 LCD unit example of main menu 3 DQFHO and QWHU buttons 4 Navigation buttons 5 Optical connector E C 5HDG 5 9HU 4XLW QWHU PHQX 6WDUW 7ULS 2 3 1 ...

Page 21: ...rameter setting Move between leafs within the same menu branch Move between the confirmation alternatives yes no and cancel in a command window The up and down arrow buttons have three functions Move between selectable branches of the menu tree This function also scrolls the menu tree when it contains more branches than shown on the display Move between the confirmation alternatives in a command w...

Page 22: ...15 Human Machine Interface KDSWHU 8QGHUVWDQG WKH XPDQ 0DFKLQH QWHUIDFH LJXUH 7KH LQGLFDWLRQ PRGXOH 0 1 Three color LEDs 2 Descriptive label user exchangeable xx00000406 vsd 1 2 ...

Page 23: ...ernal failure startup is in progress Flashing yellow LED Terminal in test mode Steady yellow LED Disturbance report trigged Steady red LED A binary signal normally a TRIP command has been activated Which binary signal s that are supposed to activate the red LED is defined in the disturbance report Flashing red LED Terminal blocked or in configuration mode en00000422 vsd E C 5HDG 5 9HU 4XLW QWHU PH...

Page 24: ...17 About this chapter KDSWHU 8QGHUVWDQG WKH 0 WUHH KDSWHU 8QGHUVWDQG WKH 0 WUHH ERXW WKLV FKDSWHU This chapter describes the different Menu trees ...

Page 25: ...uman machine in terface HMI The menu tree includes menus for Disturbance report Service report Settings Terminal report Configuration Command Test Use SMS or SCS to activate or deactivate menus on the local human machine interface HMI 1RWH W LV RQO SRVVLEOH WR FRPSOHWHO WXUQ RII SDUWV RI WKH PHQX WUHH E XVLQJ 606 RU 6 6 ...

Page 26: ...s I O DisturbReport ActiveGroup Time 6HWWLQJV 7HUPLQDO5HSRUW DisturbReport Functions ChangeActGrp Time SelfSuperv IdentityNo Modules AnalogInput RQILJXUDWLRQ AnalogInputs I O modules DiffFunction TerminalCom Time LocalHMI Identifiers SelectLanguage RPPDQG CD01 CD02 CD03 CD04 CD05 CD06 CD07 CD08 CD09 CD10 CD11 7HVW TestMode ConfigMode 0DLQ 0HQX ThermReset xx00000721 vsd ...

Page 27: ...e and time when the first triggering signal started the disturbance recording 7KH WULJ VLJQDO which started the recording QGLFDWLRQV activated during the fault duration Indications to be recorded are se lected during the terminal configuration procedure The fault locator will also report DXOW ORFDWLRQ provides information about the distance to the fault and the fault loop used for the calculation ...

Page 28: ...line OHDU LVW5HS The disturbance report has a dedicated storage memory sufficient enough to save the ten latest disturbances The memory operates by the first in first out principle FIFO This means that when the memory is full the oldest recorded disturbance will be delet ed from memory when a new disturbance occurs After clearing the entire disturbance memory will be empty ...

Page 29: ...ts and voltages XQFWLRQV Presents the presently measured values and other information of the different parame ters for included functions 2 Displays present logical values of all binary inputs and outputs of all installed I O mod ules in the REx 5xx terminal LVWXUE5HSRUW Provides information about the below listed items concerning the disturbance record ing Used memory for disturbance recording Th...

Page 30: ... The current internal time for the REx 5xx terminal can be viewed here The time is dis played in the form YYYY MMM DD and hh mm ss All values but the month are pre sented with digits The month is presented with the first three letters in current month ...

Page 31: ...t shall be set DXOW ORFDWRU VHWWLQJV shall be done here It includes measurement duration and presentation of the result XQFWLRQV Settings of the parameters for the included protection and control functions are done here Four separate setting groups are avaible First select desired group and then de sired function KDQJH FW US To set the internal time in the REx 5xx terminal The time is set in the f...

Page 32: ...warning signal will be activated Use the self supervision report to get information about detected faults The self supervision report can also be used to check the status of each installed module as well as CPU memory and clock operation GHQWLW 1R The terminal identity feature contains information as serial number and the software version installed in the terminal 0RGXOHV This menu includes inform...

Page 33: ...ls for the analog inputs and for the measured measured current voltage active reactive and apparent power and frequency 2 PRGXOHV In this menu it is possible to reconfigure added or replaced I O modules set the level for blocking of oscillating binary inputs 7HUPLQDO RP HQHUDO Use this menu to configure the REx 5xx terminal communication buses if any connect ed Choose between availale communicatio...

Page 34: ...nctions for address setting during in stallation ServicePinMSG LON configuration reset LONDefault and session timers are also available 5HPRWH WHUPLQDO FRPPXQLFDWLRQ Use this menu to configure the 56 64 kbit data communication to remote terminal This communication requires a certain data communication module The parameters to set are the local terminal identity the remote terminal identity the bit...

Page 35: ...cation of and to define a terminal within the power system All identifier names are typed as strings maximum 16 characters and the identity numbers are typed with digits Typical usage are name and number of the station name and number of the bay or object name and number of the actual REx 5xx terminal 6HOHFW ODQJXDJH Use this menu to select language on the local HMI if a second language beside Eng...

Page 36: ...lect and execute any single or multiple signal command as defined from the configuration menu or the CAP configuration tool The signal s can be connected to any internal function or to a binary output of the terminal It is pos sible to assign a user defined name to these binary signals ...

Page 37: ...control functions selectable during test operation Blocking of one or several event functions selectable during test operation Setting the disturbance report and the disturbance summary to On or Off during test operation Special test mode to facilitate the testing of the line differential protection function This Diff TestMode disables the trip out from the remote terminal and enables test from on...

Page 38: ...31 About this chapter KDSWHU DQGOH WKH GLVWXUEDQFHV KDSWHU DQGOH WKH GLVWXUEDQFHV ERXW WKLV FKDSWHU This chapter describes how to handle disturbances ...

Page 39: ...most recent disturbances are automatically scrolled on the display in the following manner 1 The most recent disturbance is summarized The heading DistSummary1 is dis played The heading remains on the second display row while related data are dis played 2 The date and time the disturbance occurred are displayed 3 The indications list is automatically scrolled signal by signal 4 The fault loop and ...

Page 40: ...DW WKH WLPH 6HOHFW WKH RQH WR EH YLHZHG 9LHZ WKH LQGLFDWLRQV OLVW Navigate the menus to LVWXUE5HSRUW LVWXUEDQFHV LVWXUEDQFHQ QGLFDWLRQV Q is the disturbance order of occurrence Q 1 meaning the most re cent and Q 10 the oldest 6FUROO WKURXJK WKH DYDLODEOH VLJQDO LQGLFDWLRQV Signals activated during the fault time of the disturbance recording are listed ...

Page 41: ...HG DW WKH WLPH 6HOHFW WKH RQH WR EH YLHZHG 9LHZ SUHIDXOW YDOXHV Navigate the menus to LVWXUE5HSRUW LVWXUEDQFHV LVWXUEDQFHQ 7ULS9DOXHV 3UH DXOW Q is the disturbance order of occurrence Q 1 meaning the most re cent and Q 10 the oldest 6FUROO WKURXJK WKH DYDLODEOH YROWDJHV DQG FXUUHQWV Use the HIW and or 5LJKW arrow buttons to scroll between values 9LHZLQJ IDXOW YDOXHV 3URFHGXUH 2QO RQH GLVWXUEDQFH F...

Page 42: ... GLVWXUEDQFHV LVWXUE5HSRUW LVWXUEDQFHV LVWXUEDQFHQ 7ULS9DOXHV DXOW Q is the disturbance order of occurrence Q 1 meaning the most re cent and Q 10 the oldest 6FUROO WKURXJK WKH DYDLODEOH YROWDJHV DQG FXUUHQWV Use the HIW and or 5LJKW arrow buttons to scroll between values ...

Page 43: ...rigger level in voltage input U1 U1 Undervoltage trigger level in voltage input U1 U2 Overvoltage trigger level in voltage input U2 U2 Undervoltage trigger level in voltage input U2 U3 Overvoltage trigger level in voltage input U3 U3 Undervoltage trigger level in voltage input U3 U4 Overvoltage trigger level in voltage input U4 U4 Undervoltage trigger level in voltage input U4 U5 Overvoltage trigg...

Page 44: ...put I3 I3 Undercurrent trigger level in current input I3 I4 Overcurrent trigger level in current input I4 I4 Undercurrent trigger level in current input I4 I5 Overcurrent trigger level in current input I5 I5 Undercurrent trigger level in current input I5 9LHZHG GDWD GHIDXOW ODEHOV XVHG HVFULSWLRQ RI WULJJHU ...

Page 45: ...QGOH WKH GLVWXUEDQFHV 9LHZ GLVWXUEDQFH VHTXHQFH QXPEHU 1DYLJDWH WKH PHQXV This procedure describes how to view in consecutive order disturbance sequence num ber 9LHZ WKH VHTXHQFH QXPEHU Navigate the menus to 6HUYLFH5HSRUW LVWXUE5HSRUW 6HTXHQFH1R ...

Page 46: ...H The fault loop and distance to fault are displayed RZ WKH GLVWDQFH WR IDXOW LV GLVSOD HG The calculated distance to fault is displayed in the following manner either in the dis turbance summary or when the distance is manually recalculated OW RRS RRS LVW 4XDOLILHU 4XDOLILHU LVWDQFH YDOXH 8QLW The first row identifies the fault loop used for calculation The second row qualifies the calculated dat...

Page 47: ...e to fault KDSWHU DQGOH WKH GLVWXUEDQFHV 7DEOH 4XDOLILHU 6 PERO 0HDQLQJ Blank no symbol The calculated distance value has high accuracy The distance has low accuracy E Error There was not enough data to perform the calculation ...

Page 48: ...bes how to manually trigger the disturbance recording LVSOD WKH PDQXDO WULJJHU GLDORJ Navigate the menus to LVWXUE5HSRUW 0DQXDO7ULJ RQILUP WKH PDQXDO WULJJHU Select HV by using the HIW and or 5LJKW arrow buttons of not al ready highlighted Press the button to assert the manual trigger Select 1R and press the button to avoid asserting a manual trig ger ...

Page 49: ...y size KDSWHU DQGOH WKH GLVWXUEDQFHV 9LHZ WKH XVHG GLVWXUEDQFH PHPRU VL H 1DYLJDWH WKH PHQXV This procedure describes how to read the used disturbance memory size 9LHZ WKH VL H Navigate the menus to 6HUYLFH5HSRUW LVWXUE5HSRUW 0HPRU 8VHG ...

Page 50: ...set LED s after evaluating the reasons of an indica tion in order to prepare for new indications 0DNH VXUH WKH EDVLF WHUPLQDO GLDORJ LV GLVSOD HG You may need to press the button repeatedly to return to the ba sic terminal dialog from the displayed menu branch or leaf 3UHVV WKH EXWWRQ WR UHVHW LQGLFDWLRQV All LED s are reset ...

Page 51: ...H EXWWRQ WR VHOHFW SDUDPHWHU 6HOHFW WHVW PRGH Use the 8S or RZQ arrow button to select HV to prepare for the test to start RQILUP WHVW PRGH Press the button to confirm the selection 3UHVV WKH EXWWRQ WR HQWHU WKH VDYH GLDORJ 6DYH WHVW PRGH FKDQJHV DQG VWDUW WHVW The Save test mode dialog is displayed Save the change by select ing HV and press the button again The LED test is started 6WRS WKH PRGXOH...

Page 52: ...8S or RZQ arrow button to select 1R to prepare for the test to stop RQILUP WHVW PRGH Press the button to confirm the selection 3UHVV WKH EXWWRQ WR HQWHU WKH VDYH GLDORJ 6DYH WHVW PRGH FKDQJHV DQG VWRS WHVW The Save test mode dialog is displayed Save the change by select ing HV and press the button again The LED test is stopped ...

Page 53: ...46 Test the LEDs of the LED module KDSWHU DQGOH WKH GLVWXUEDQFHV ...

Page 54: ...47 About this chapter KDSWHU 9LHZ WKH VHUYLFH UHSRUW KDSWHU 9LHZ WKH VHUYLFH UHSRUW ERXW WKLV FKDSWHU This chapter describes operations an operator may perform on a daily basis or when the need arises ...

Page 55: ...UYLFH9DOXHV 6FUROO WKH DYDLODEOH VHUYLFH YDOXHV WR UHDG PHDQ YDOXHV Use the HIW and or 5LJKW arrow buttons to scroll between values YDLODEOH 0 VHUYLFH YDOXHV Each service value may be displayed using custom labels 7DEOH YDLODEOH VHUYLFH YDOXHV 9LHZHG GDWD GHIDXOW ODEHOV XVHG GDWD LV H DPSOH YDOXHV 6HUYLFH YDOXH U 0 000 kV Mean RMS voltage of voltage input channels 1 3 I 0 000 A Mean RMS current of...

Page 56: ... MVA Mean apparent power of voltage and current chan nels 1 3 f 50 00 Hz Mean frequency of voltage input channels 1 3 INegSeq 0 000 A Mean RMS negative sequence current of current input channels 1 3 9LHZHG GDWD GHIDXOW ODEHOV XVHG GDWD LV H DPSOH YDOXHV 6HUYLFH YDOXH ...

Page 57: ...3ULPDU 6FUROO WKURXJK WKH DYDLODEOH YDOXHV WR UHDG SKDVRUV Use the HIW and or 5LJKW arrow buttons to scroll between values 3URFHGXUH 9LHZ WKH VHFRQGDU SKDVRUV LVSOD WKH VHFRQGDU SKDVRUV PHQX Navigate the menus to 6HUYLFH5HSRUW 3KDVRUV 6HFRQGDU 6FUROO WKH DYDLODEOH YDOXHV WR UHDG SKDVRUV Use the HIW and or 5LJKW arrow buttons to scroll between values YDLODEOH SULPDU SKDVRUV Primary and secondary ph...

Page 58: ...tation documentation to find the configured labels 7DEOH DPSOH RI SULPDU SKDVRU H SODQDWLRQ RI YLHZHG GDWD 9LHZHG GDWD GHIDXOW ODEHOV DUH XVHG GDWD LV H DPSOH YDOXHV 3KDVRU U1 0 000 kV 0 0 deg Measured analog quantity phasor Magnitude of a measured phasor Phase angle of a measured phasor Phasor U2 and U3 utilize phasor U1 as refer ence ...

Page 59: ...FWLRQ EORFN WR YLHZ Use table of the following section to find the function block to view LVSOD WKH OLVW RI RXWSXWV Navigate the menus to 6HUYLFH5HSRUW XQFWLRQV QDPH RI IXQFWLRQ EORFN XQF2XWSXWV 6FUROO WKH RXWSXW YDOXHV Use the HIW and or 5LJKW arrow buttons to scroll between values 9LHZ WKH YDOXHV RI IXQFWLRQ EORFN YDULDEOHV 3URFHGXUH GHQWLI WKH IXQFWLRQ EORFN DQG YDULDEOH WR YLHZ Use table of th...

Page 60: ...VFULSWLRQ HMI LED HLED LED module indication function InstantOC IOC Instantaneous overcurrent protection TimeDelayOC TOC Time delayed overcurrent protection InvTimeDelayOC TOC2 Two step time delayed phase overcurrent protection DirInvTDelayOC TOC3 Two step time delayed directional phase overcurrent protection OverLoad OVLD Overload supervision ThermOverLoad THOL Thermal phase overload Stub STUB St...

Page 61: ...Internal events Test TEST Test mode Time TIME Time synchronisation HVLJQDWLRQ XQFWLRQ HVFULSWLRQ PhaseSelection PSL Phase selection logic HighSpeedBO HSBO High speed binary output Zone1 ZM1 Distance protection zone 1 Zone2 ZM2 Distance protection zone 2 Zone3 ZM3 Distance protection zone 3 ComLocal ZCLC Local acceleration logic ZCommunication ZCOM Scheme communication logic ComIRevWEI ZCAL Current...

Page 62: ...rotection ComIRevWei EFCA Current reversal and weak end infeed logic HVLJQDWLRQ XQFWLRQ HVFULSWLRQ SuddenChangeC SCC1 Sudden change in phase current SuddenChangeRC SCRC Sudden change in residual current SuddenChangeV SCV Sudden change in voltage OverCurrentP OCP Phase overcurrent protection UnderCurrentP UCP Phase undercurrent protection ResidOverCP ROCP Residual overcurrent protection OverVoltage...

Page 63: ... SynchroCheck2 SYN2 HVLJQDWLRQ XQFWLRQ HVFULSWLRQ MI11 Error Error signal for input 1 on module 1 if present MI21 Error Error signal for input 1 on module 2 if present MI31 Error Error signal for input 1 on module 3 if present MI41 Error Error signal for input 1 on module 4 if present MI51 Error Error signal for input 1 on module 5 if present MI61 Error Error signal for input 1 on module 6 if pres...

Page 64: ...gates part 1 OR2A Onnn OR gates part 2 XOR1 XOnn Exclusive OR gates INV IVnn Inverters SR SRnn Set reset flip flops Timer TMnn Timers TimerLong TLnn Timers long delay Pulse TPnn Pulse timers part 1 Pulse2 TPnn Pulse timers part 2 PulseLong1 TQnn Pulse timers long pulse part 1 PulseLong2 TQnn Pulse timers long pulse part 2 ContrGates1 GTnn Controllable gates TimerSet1 TSnn Settable timers SRWithMem...

Page 65: ...o 6HUYLFH5HSRUW XQFWLRQV PSHGDQFH HQHUDO PS9DOXHV 6FUROO WKH OLVW WR YLHZ HDFK LPSHGDQFH YDOXH Use the HIW and or 5LJKW arrow buttons to scroll between values DOFXODWHG LPSHGDQFH YDOXHV 7DEOH DOFXODWHG LPSHGDQFH YDOXHV 9LHZHG GDWD GHIDXOW ODEHOV XVHG GDWD LV H DPSOH YDOXHV PSHGDQFH YDOXH XL1 144 Ohm phase Positive sequence reactance measured in phase L1 RL1 193 Ohm phase Positive sequence resistan...

Page 66: ...UYLFH5HSRUW XQFWLRQV PSHGDQFH HQHUDO PS LUHFWLRQ 6FUROO WKH OLVW WR YLHZ GLUHFWLRQ IRU HDFK SKDVH Use the HIW and or 5LJKW arrow buttons to scroll between values RL2 192 Ohm phase Positive sequence resistance measured in phase L2 XL3 143 Ohm phase Positive sequence resistance measured in phase L3 RL3 194 Ohm phase Positive sequence resistance measured in phase L3 9LHZHG GDWD GHIDXOW ODEHOV XVHG GD...

Page 67: ...QV LIIHUHQWLDO LII9DOXHV 6FUROO WKH OLVW WR YLHZ HDFK YDOXH Use the HIW and or 5LJKW arrow buttons to scroll between values DOFXODWHG GLIIHUHQWLDO YDOXHV Path in local HMI ServiceReport Functions Differential DiffValues 9LHZHG GDWD GHIDXOW ODEHOV XVHG GDWD LV H DPSOH YDOXHV LUHFWLRQ YDOXH L1 None Displays the direction of measured impedance in each respective phase loop Values may be forward for f...

Page 68: ... in phase L1 IBiasL1 0 734 A The highest value of Bias currents in phase L1 or 1 2 of Bias current in L2 or 1 2 of Bias current in L3 max IbiasL1 or 0 5xIbiasL2 or 0 5IbiasL3 IDiffL2 0 004 A Measured actual value of differential current in phase L2 IBiasL2 0 733 A The highest value of Bias currents in phase L2 or 1 2 of Bias current in L1 or 1 2 of Bias current in L3 max IbiasL2 or 0 5xIbiasL1 or ...

Page 69: ...mDelay 0 345 ms One half of measured loop time delay in transmission of communication telegram NoOfShlnterr 199 Recorded number of short interruptions in communication to the remote terminal 20 50 ms NoOfMedlnterr 12 Recorded number of medium interruptions in communication to the remote terminal 50 200 ms NoOfLonglnterr 2 Recorded number of long interruptions in communication to the remote termina...

Page 70: ...H OLVW WR YLHZ HDFK YDOXH Use the HIW and or 5LJKW arrow buttons to scroll between values 7KHUPDO RYHUORDG WHPSHUDWXUHV Path in local HMI ServiceReport Functions ThermOverLoad Temperature 7DEOH 7KHUPDO RYHUORDG WHPSHUDWXUHV 7 2 7 2 9LHZ WKH DXWRPDWLF UHFORVHU FRXQWHUV This procedure describes how to read automatic recloser counters 9LHZ WKH DYDLODEOH FRXQWHU GDWD Navigate the menus to 9LHZHG GDWD ...

Page 71: ...OXHV 5 5 9LHZ WKH V QFKURFKHFN YDOXHV This procedure describes how to read synchrocheck values 9LHZHG GDWD GHIDXOW ODEHOV XVHG GDWD LV H DPSOH YDOXHV RXQWHU YDOXH 1ph Shot1 12 Recorded number of first single pole reclosing attempts 3ph Shot1 331 Recorded number of first three pole reclosing attempts 3ph Shot2 124 Recorded number of second three pole reclosing attempts 3ph Shot3 55 Recorded number ...

Page 72: ...to scroll between values 6 QFKURFKHFN YDOXHV 7DEOH 6 QFKURFKHFN YDOXHV 9LHZ WKH HYHQW FRXQWHU YDOXHV This procedure describes how to read pulse counter values 9LHZ WKH DYDLODEOH FRXQWHU GDWD Navigate the menus to 9LHZHG GDWD GHIDXOW ODEHOV XVHG GDWD LV H DPSOH YDOXHV 6 QFKURFKHFN GDWD UDiff 0 3455 ofU1b Measured voltage difference between mea sured and reference voltage FreqDiff 0 0231 Hz Measured...

Page 73: ...HQW FRXQWHU YDOXHV 7DEOH YHQW FRXQWHU YDOXHV 9LHZHG GDWD GHIDXOW ODEHOV XVHG GDWD LV H DPSOH YDOXHV RXQWHU YDOXH Counter1 23 Recorded number of pulses by counter no 1 Counter2 456 Recorded number of pulses by counter no 2 Counter3 12 Recorded number of pulses by counter no 3 Counter4 7456 Recorded number of pulses by counter no 4 Counter5 0 Recorded number of pulses by counter no 5 Counter6 0 Reco...

Page 74: ...RGXOH QDPH XQF2XWSXWV 6FUROO WKH OLVW WR YLHZ HDFK LQGLYLGXDO VLJQDO Use the HIW and or 5LJKW arrow buttons to scroll between values 2 PRGXOHV I O modules are always addressed by references to the slot in which the module resides the module type and its order number that is which one of several modules of the same kind is to be addressed The names are constructed in the following way 6ORW VORW QXP...

Page 75: ...w the I O function block signals KDSWHU 9LHZ WKH VHUYLFH UHSRUW 7DEOH 2 PRGXOH VKRUWKDQGV 0RGXOH 0RGXOH VKRUWKDQG Binary input module BIM Binary output module BOM Binary I O module IOM Milliampere module MIM ...

Page 76: ...up KDSWHU 9LHZ WKH VHUYLFH UHSRUW HWHUPLQH WKH DFWLYH VHWWLQJ JURXS 1DYLJDWH WKH PHQXV This procedure describes how to determine the active setting group 3URFHGXUH HWHUPLQH WKH DFWLYH JURXS Navigate the menus to 6HUYLFH5HSRUW FWLYH URXS ...

Page 77: ...70 Determine the active setting group KDSWHU 9LHZ WKH VHUYLFH UHSRUW ...

Page 78: ...71 About this chapter KDSWHU OHDU WKH FRXQWHUV KDSWHU OHDU WKH FRXQWHUV ERXW WKLV FKDSWHU This chapter describes operations an operator may perform on a daily basis or when the need arises ...

Page 79: ...UV GLDORJ Navigate the menus to 6HUYLFH5HSRUW XQFWLRQV XWR5HFORVHU XWR5HFORVHUQ RXQWHUV OHDU RXQWHUV where Q is the number of the autorecloser to be viewed numbers 1 6 RQILUP FOHDULQJ WKH FRXQWHUV Select HV by using the HIW and or 5LJKW arrow buttons if not al ready highlighted Press the E button to confirm Counters are cleared Select 1R and press the button to leave the counters at their present ...

Page 80: ...rential communication counters 3URFHGXUH LVSOD WKH FOHDU FRXQWHUV GLDORJ Navigate the menus to 6HUYLFH5HSRUW XQFWLRQV LIIHUHQWLDO LII RP OHDU RXQWHUV RQILUP FOHDULQJ WKH FRXQWHUV Select HV by using the HIW and or 5LJKW arrow buttons of not al ready highlighted Press the E button to confirm Counters are cleared Select 1R and press the button to leave the counters at their present value ...

Page 81: ...unters LVSOD WKH FOHDU FRXQWHUV GLDORJ Navigate the menus to 6HUYLFH5HSRUW XQFWLRQV RXQWHUV RXQW OHDU RXQWHUV RQILUP FOHDULQJ WKH FRXQWHUV Select HV by using the HIW and or 5LJKW arrow buttons if not al ready highlighted Press the E button to confirm Counters are cleared Select 1R and press the button to leave the counters at their present value ...

Page 82: ...out this chapter KDSWHU 9LHZ WKH WHUPLQDO XQLW VWDWXV KDSWHU 9LHZ WKH WHUPLQDO XQLW VWDWXV ERXW WKLV FKDSWHU This chapter describes operations an operator may perform on a daily basis or when the need arises ...

Page 83: ... Use the HIW and or 5LJKW arrow buttons to scroll between values 6HOI VXSHUYLVLRQ 0 GDWD 7DEOH 2XWSXW VLJQDOV IRU WKH VHOI VXSHUYLVLRQ IXQFWLRQ QGLFDWHG UHVXOW 3RVVLEOH UHDVRQ 3URSRVHG DFWLRQ InternFail OK No problem detected None InternFail Fail A failure has occurred Check the rest of the indicated results to find the fault InternWarning OK No problem detected None InternWarning Warning A warnin...

Page 84: ...ce Slot04BIM1 Fail Example data see following section for details I O module has failed Check that the I O module has been config ured and connected to the IOP1 block If the problem persists contact your ABB representative for service RealTimeClock OK No problem detected None RealTimeClock Warning The real time clock has been reset Set the clock TimeSync OK No problem detected None TimeSync Warnin...

Page 85: ... PHQX Navigate the menus to RQILJXUDWLRQ GHQWLILHUV 6FUROO WKH DYDLODEOH LGHQWLILHUV Use the HIW and or 5LJKW arrow buttons to scroll between values YDLODEOH LGHQWLILHUV Path in local HMI Configurations Identifiers 7DEOH 6HW SDUDPHWHUV IRU WKH JHQHUDO WHUPLQDO SDUDPHWHUV IXQFWLRQ 3DUDPHWHU 5DQJH HIDXOW 8QLW HVFULSWLRQ Station Name 0 16 Station Name char Identity name for the station Station No 0 9...

Page 86: ... WKH WHUPLQDO XQLW VWDWXV Object No 0 99999 0 Identity number for the protected object Unit Name 0 16 Unit Name char Identity name for the terminal Unit No 0 99999 0 Identity number for the terminal 3DUDPHWHU 5DQJH HIDXOW 8QLW HVFULSWLRQ ...

Page 87: ... terminal time KDSWHU 9LHZ WKH WHUPLQDO XQLW VWDWXV 5HDG WKH WHUPLQDO WLPH 1DYLJDWH WKH PHQXV This procedure describes how to read the terminal time 9LHZ WKH GDWH DQG WLPH Navigate the menus to 6HUYLFH5HSRUW 7LPH ...

Page 88: ...f installed firmware KDSWHU 9LHZ WKH WHUPLQDO XQLW VWDWXV 5HWULHYH WKH YHUVLRQ RI LQVWDOOHG ILUPZDUH 1DYLJDWH WKH PHQXV 3URFHGXUH 9LHZ WKH ILUPZDUH YHUVLRQ IURP WKH WHUPLQDO UHSRUW Navigate the menus to 7HUPLQDO5HSRUW GHQWLW 1R ...

Page 89: ...RGXOHV I O modules are always addressed by references to the slot in which the module resides the module type and its order number that is which one of several modules of the same kind is to be addressed The name is constructed in the following way 6ORW VORW QXPEHU PRGXOH W SH DUWLFOH QXPEHU For the first binary input module BIM mounted in slot 14 the name will be 6ORW 0 05 where xx varies dependi...

Page 90: ...83 Determine the installed modules KDSWHU 9LHZ WKH WHUPLQDO XQLW VWDWXV Binary output module BOM Binary I O module IOM Milliampere module MIM 0RGXOH W SH 0RGXOH W SH DEEUHYLDWLRQ ...

Page 91: ...J QSXWV 6FUROO WKH OLVW WR YLHZ YDOXHV Use the HIW and or 5LJKW arrow buttons to scroll between values 7DEOH 5DWHG LQSXW YDOXHV 9LHZHG GDWD GHIDXOW ODEHOV XVHG GDWD LV H DPSOH YDOXHV 9DOXH Ur 110 000 V Rated AC voltage of a terminal Ir 5 0000 A Rated AC current of a terminal U1r 63 509 V Rated phase voltage of a channel U1 U2r 63 509 V Rated phase voltage of a channel U2 U3r 63 509 V Rated phase v...

Page 92: ... A Rated phase current of a channel I1 I2r 5 0000 A Rated phase current of a channel I2 I3r 5 0000 A Rated phase current of a channel I3 I4r 5 0000 A Rated phase current of a channel I4 I5r 5 0000 A Rated phase current of a channel I5 9LHZHG GDWD GHIDXOW ODEHOV XVHG GDWD LV H DPSOH YDOXHV 9DOXH ...

Page 93: ...86 Retrieve the rated values of analog inputs KDSWHU 9LHZ WKH WHUPLQDO XQLW VWDWXV ...

Page 94: ...oducts AB Substation Automation SE 721 59 Västerås Sweden Telephone 46 0 21 34 20 00 Facsimile 46 0 21 14 69 18 Internet www abb com substationautomation 1MRK 506 181 UEN Printed on recycled and ecolabelled paper at Elanders Novum ...

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