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REF611
Applications Manual

ABB REF611 Applications Manual

Manual is about: Relion 611 series Feeder Protection and Control

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Relion

611 series

Feeder Protection and Control

REF611

Application Manual

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Summary of REF611

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Relion ® 611 series feeder protection and control ref611 application manual.
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Copyright this document and parts thereof must not be reproduced or copied without written permission from abb, and the contents thereof must not be imparted to a third party, nor used for any unauthorized purpose. The software or hardware described in this document is furnished under a license and ...
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Disclaimer the data, examples and diagrams in this manual are included solely for the concept or product description and are not to be deemed as a statement of guaranteed properties. All persons responsible for applying the equipment addressed in this manual must satisfy themselves that each intende...
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Conformity this product complies with the directive of the council of the european communities on the approximation of the laws of the member states relating to electromagnetic compatibility (emc directive 2004/108/ec) and concerning electrical equipment for use within specified voltage limits (low-...
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Table of contents section 1 introduction.......................................................................5 this manual........................................................................................ 5 intended audience.......................................................................
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Applications................................................................................. 34 functions.....................................................................................35 default i/o connections.......................................................... 35 predefined disturbanc...
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Section 4 requirements for measurement transformers..............169 current transformers...................................................................... 169 current transformer requirements for non-directional overcurrent protection................................................................
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4.
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Section 1 introduction 1.1 this manual the application manual contains application descriptions and setting guidelines sorted per function. The manual can be used to find out when and for what purpose a typical protection function can be used. The manual can also be used when calculating settings. 1...
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1.3 product documentation 1.3.1 product documentation set planning & purchase engineering installation commissioning operation maintenance decommissioning, deinst allation & dispos al quick start guide quick installation guide brochure product guide operation manual installation manual connection di...
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1.3.3 related documentation name of the document document id modbus communication protocol manual 1mrs757461 iec 61850 engineering guide 1mrs757465 engineering manual 1mrs241255 installation manual 1mrs757452 operation manual 1mrs757453 technical manual 1mrs757454 cyber security deployment guideline...
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1.4.2 document conventions a particular convention may not be used in this manual. • abbreviations and acronyms are spelled out in the glossary. The glossary also contains definitions of important terms. • push button navigation in the lhmi menu structure is presented by using the push button icons....
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Function iec 61850 iec 60617 iec-ansi three-phase directional overcurrent protection, low stage, instance 2 dphlpdoc2 3i> -> (2) 67-1(2) three-phase directional overcurrent protection, high stage, instance 1 dphhpdoc1 3i>> -> (1) 67-2(1) directional earth-fault protection, low stage, instance 1 defl...
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Function iec 61850 iec 60617 iec-ansi logging disturbance recorder rdre1 dr (1) dfr(1) fault recorder fltrfrc1 - fr measurement three-phase current measurement, instance 1 cmmxu1 3i 3i sequence current measurement csmsqi1 i1, i2, i0 i1, i2, i0 residual current measurement, instance 1 rescmmxu1 io in...
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Section 2 ref611 overview 2.1 overview ref611 is a dedicated feeder relay for the protection, control, measurement and supervision of utility substations and industrial power systems including radial, looped and meshed distribution networks with or without distributed power generation. Ref611 is a m...
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2.1.1 product version history product version product history 1.0 product released 2.0 • new configuration c • additions/changes for configuration a and b • high-availablity seamless redundancy (hsr) protocol • parallel redundancy protocol (prp-1) • two selectable indication colors for leds (red or ...
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2.2 operation functionality 2.2.1 optional functions • autoreclosing • modbus tcp/ip or rtu/ascii • ieee 1588 time v2 synchronization • high-availability seamless redundancy protocol (hsr) • parallel redundancy protocol (prp) 2.3 physical hardware the protection relay consists of two main parts: plu...
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Rated values of the current and voltage inputs are basic setting parameters of the protection relay. The binary input thresholds are selectable within the range 16…176 v dc by adjusting the binary input setting parameters. See the installation manual for more information about the case and the plug-...
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Ref611 overcurrent earth-fault phase unbalance thermal overload ar sequence in progress disturb.Rec.Trigged trip circuit failure breaker failure guid-e15422bf-b3e6-4d02-8d43-d912d5ef0360 v1 en figure 2: example of the lhmi 2.4.1 display the lhmi includes a graphical display that supports two charact...
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1 3 4 2 guid-24adb995-439a-4563-aace-1faa193a8ef9 v1 en figure 3: display layout 1 header 2 icon 3 content 4 scroll bar (displayed when needed) 2.4.2 leds the lhmi includes three protection indicators above the display: ready, start and trip. There are also 8 programmable leds on front of the lhmi. ...
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Guid-b681763e-ec56-4515-ac57-1fd5349715f7 v1 en figure 4: lhmi keypad with object control, navigation and command push buttons and rj-45 communication port 2.5 web hmi the whmi allows secure access to the protection relay via a web browser. When the secure communication parameter in the protection r...
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Guid-cd531b61-6866-44e9-b0c1-925b48140f3f v2 en figure 5: example view of the whmi the whmi can be accessed locally and remotely. • locally by connecting the laptop to the protection relay via the front communication port. • remotely over lan/wan. 2.5.1 command buttons command buttons can be used to...
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Name description rejecting changes showing context sensitive help messages error icon clearing events triggering the disturbance recorder manually saving values to txt or csv file format freezing the values so that updates are not displayed receiving continuous updates to the monitoring view deletin...
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Table 6: predefined user categories username user rights viewer read only access operator • selecting remote or local state with (only locally) • changing setting groups • controlling • clearing indications engineer • changing settings • clearing event list • clearing disturbance records • changing ...
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Table 7: audit trail events audit trail event description configuration change configuration files changed firmware change firmware changed firmware change fail firmware change failed attached to retrofit test case unit has been attached to retrofit case removed from retrofit test case removed from ...
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Table 8: comparison of authority logging levels audit trail event authority logging level none configurati on change setting group setting group, control settings edit all configuration change ● ● ● ● ● firmware change ● ● ● ● ● firmware change fail ● ● ● ● ● attached to retrofit test case ● ● ● ● ●...
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Where the highest performance class with a total transmission time of 3 ms is supported. The protection relay meets the goose performance requirements for tripping applications in distribution substations, as defined by the iec 61850 standard. The protection relay can support five simultaneous clien...
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Manag ed eth ernet switch with rstp su pport manag ed eth ernet switch with rstp su pport client a client b network network guid-a19c6cfb-eefd-4fb2-9671-e4c4137550a1 v2 en figure 6: self-healing ethernet ring solution the ethernet ring solution supports the connection of up to 30 protection relays. ...
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Iec 62439-3:2012 cancels and replaces the first edition published in 2010. These standard versions are also referred to as iec 62439-3 edition 1 and iec 62439-3 edition 2. The protection relay supports iec 62439-3:2012 and it is not compatible with iec 62439-3:2010. Prp each prp node, called a doubl...
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• via an external redundancy box (redbox) or a switch capable of connecting to prp and normal networks • by connecting the node directly to lan a or lan b as san • by connecting the node to the protection relay's interlink port hsr hsr applies the prp principle of parallel operation to a single ring...
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Section 3 ref611 standardized configurations 3.1 standardized configurations ref611 is available in three alternative configurations. To increase the user-friendliness of the configurations and to emphasize the relay's simplicity of usage, only the application-specific parameters need setting within...
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Function iec 61850 a b c three-phase thermal protection for feeders, cables and distribution transformers t1pttr 1 1 1 circuit breaker failure protection ccbrbrf 1 1 1 three-phase inrush detector inrphar 1 1 1 master trip trpptrc 2 2 2 switch onto fault cbpsof 1 1 1 control circuit-breaker control c...
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Programming is easily implemented with three switch group functions including input switch group iswgapc, output switch group oswgapc and selector switch group selgapc. Each switch group has several instances. Connections of binary inputs to functions, goose signals to functions, functions to functi...
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Guid-1efa82d5-f9e7-4322-87c2-cdadd29823bd v1 en figure 10: output switch group oswgapc 3.2.3 selector switch group selgapc the selector switch group selgapc has a number of inputs and outputs. Every input and output has a read-only description. Each output can be set to be connected with one of the ...
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3.3 connection diagrams ref611 1) optional 2) the ied features an automatic short-circuit mechanism in the ct connector when plug-in unit is detached 16 17 19 18 x100 6 7 8 9 10 11 12 13 15 14 2 1 3 4 5 22 21 23 24 so2 tcs2 po4 so1 tcs1 po3 po2 po1 irf + - u aux 20 x130 1 2 3 4 5 6 bi 4 bi 3 bi 2 bi...
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Ref611 16 17 19 18 x100 6 7 8 9 10 11 12 13 15 14 2 1 3 4 5 22 21 23 24 so2 tcs2 po4 so1 tcs1 po3 po2 po1 irf + - u aux 20 x130 1 2 3 4 5 6 bi 4 bi 3 bi 2 bi 1 bi 6 bi 5 8 9 7 x130 12 10 11 15 13 14 18 16 17 so3 so2 so1 1) optional 2) the ied features an automatic short-circuit mechanism in the ct c...
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Ref611 16 17 19 18 x100 6 7 8 9 10 11 12 13 15 14 2 1 3 4 5 22 21 23 24 so2 tcs2 po4 so1 tcs1 po3 po2 po1 irf + - u aux 20 l1 l2 l3 s1 s2 p1 p2 p2 p1 s1 s2 da dn a n n a positive current direction 1) the ied features an automatic short-circuit mechanism in the ct connector when plug-in unit is detac...
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3.4 configuration a 3.4.1 applications configuration a for non-directional overcurrent and directional earth-fault protection is mainly intended for cable and overhead-line feeder applications in isolated and resonant-earthed distribution networks. The protection relay with a standardized configurat...
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3.4.2 functions remarks optional function no. Of instances alternative function to be deﬁned when ordering or 3× io/uo calculated value condition monitoring and supervision control and indication 1) measurement - i, io, uo - limit value supervision - symmetrical components feeder protection relay st...
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Table 12: default connections for binary outputs binary input description connector pins x100-po1 close circuit breaker x100:6-7 x100-po2 circuit breaker failure protection trip to upstream breaker x100:8-9 x100-po3 open circuit breaker/trip coil 1 x100:15-19 x100-po4 open circuit breaker/trip coil ...
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The analog channels have fixed connections towards the different function blocks inside the protection relay’s configuration. Exceptions from this rule are the eight analog channels available for the disturbance recorder function. These channels are freely selectable and a part of the disturbance re...
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Blocking the function or multiplying the active settings for any of the described protection function blocks. All operate signals are connected to the master trip and to the alarm led 1. Section 3 1mrs757456 d ref611 standardized configurations 38 ref611 application manual.
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Led 2 earth-fault protection double (cross-country) earth-fault protection directional earth-fault protection intermittent earth-fault protection deflpdef1 io>->(1) 67n-1(1) block start operate io ena_mult uo rca_ctl deflpdef2 io>->(2) 67n-1(2) block start operate io ena_mult uo rca_ctl defhpdef1 io...
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A dedicated non-directional earth-fault protection block efhptoc is intended for protection against double earth-fault situations in isolated or compensated networks. This protection function uses the calculated residual current originating from the phase currents. All operate signals are connected ...
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Led 3 unbalance protection nsptoc1 i 2 >(1) 46(1) block start operate 3i ena_mult nsptoc2 i 2 >(2) 46(2) block start operate 3i ena_mult oswgapc10 or out in_13 in_14 in_15 selgapc4 in_12 out_3 pdnsptoc1 i 2 /i 1 (1) 46pd(1) block start operate 3i guid-a367fc04-f391-48e9-9cbf-599ac625c7ff v1 en figur...
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X120-bi2 x100 po2 led 8 phiptoc1_operate phhptoc2_operate phlptoc1_operate phhptoc1_operate defhptoc1_operate or deflptoc1_operate deflptoc2_operate selgapc3 out_2 in_4 oswgapc15 out in_5 led 4 thermal overload protection circuit breaker failure protection selgapc4 out_8 in_17 oswgapc11 out in_1 sel...
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X120-bi3 led 5 deflpdef1_operate or deflpdef2_operate deflpdef1_start or deflpdef2_start nsptoc2_operate nsptoc1_operate cbxcbr1_selected phiptoc1_operate or pdnsptoc1_operate intrptef1_operate autoreclosing (optional) always true selgapc1 out_3 in_3 out_6 in_10 oswgapc12 out in_7 selgapc4 out_5 in_...
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3.4.3.2 functional diagrams for disturbance recorder and trip circuit supervision rdre1 c1 c2 c3 c4 c5 c6 c7 c8 c9 c10 c11 c12 c13 c14 c15 c16 c17 c18 c19 c20 c21 c22 c23 c24 c25 c26 c27 c28 c29 c30 c31 c32 or c33 c34 c35 c36 c37 c38 c39 c40 or or or triggered led 6 disturbance recorder phlptoc1_ope...
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Channel number channel id text level trigger mode binary channel 10 rovptov2_start 1=positive or rising binary channel 11 rovptov3_start 1=positive or rising binary channel 12 intrptef1_start 1=positive or rising binary channel 13 nsptoc1_start 1=positive or rising binary channel 14 nsptoc2_start 1=...
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X120-bi3 or led 7 trip circuit supervision selgapc1 out_3 in_3 trpptrc1_trip trpptrc2_trip tcsscbr1 block alarm tcsscbr2 block alarm selgapc4 out_7 in_16 oswgapc14 or out in_3 in_4 selgapc2 out_1 in_2 out_2 cb open position guid-50b079d8-ae34-4d47-bd5f-accbbec0ec18 v2 en figure 23: trip circuit supe...
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3.4.3.3 functional diagrams for control or x100 po3 oswgapc1 or in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 out in_12 in_13 in_15 in_14 x100 po4 master trip #1 or selgapc3 out_6 in_2 selgapc3 out_5 in_1 oswgapc2 or in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 out in_12 in_13...
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Darrec1_open_cb are connected directly to the output contact po3 (x100:15-19). Trpptrc1 and 2 provide the lockout/latching function, event generation and the trip signal duration setting. One binary input through selgapc1 can be connected to the rst_lkout input of the master trip. If the lockout ope...
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X100 so1 x100 so2 common alarm indication 1 & 2 phlptoc1_operate phhptoc1_operate phhptoc2_operate phiptoc1_operate deflpdef1_operate deflpdef2_operate defhpdef1_operate rovptov1_opertae nsptoc1_operate nsptoc2_operate pdnsptoc1_operate rovptov2_opertae rovptov3_opertae efhptoc1_opetate intrptef1_op...
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3.4.4 switch groups in configuration a, the switch group function blocks are organized in four groups: binary inputs, internal signal, goose as well as binary outputs and leds. Goose binary inputs protection and control goose goose goose binary inputs (1...3, 4...9*) received goose (0...19) iswgapc3...
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Selgapc1 iswgapc1 blocking 1 iswgapc5 basic angle control deflpdef1_rca_ctl deflpdef2_rca_ctl defhpdef1_rca_ctl 1） optional binary inputs phlptoc1_block phhptoc1_block phhptoc2_block phiptoc1_block efhptoc1_block deflpdef1_block deflpdef2_block defhpdef1_block rovptov1_block rovptov2_block rovptov3_...
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Selgapc1 blocking 1 ccbrbrf1_posclose cbxcbr1_posclose selgapc2_in_1 cb closed position cb open position darrec1_cb_pos cbxcbr1_posopen selgapc2_in_2 basic angle control cbxcbr1_ena_close cb close enable darrec1_cb_ready external trip protection_bi_sg_2 setting group 2 blocking 2 protection_bi_sg_3 ...
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Iswgapc1 in out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_9 out_10 out_11 out_12 out_13 out_14 out_15 out_16 blocking 1 selgapc1_out_1 phlptoc1_block phhptoc1_block phhptoc2_block phiptoc1_block efhptoc1_block deflpdef1_block deflpdef2_block defhpdef1_block rovptov1_block rovptov2_block rovpto...
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Blocking 2 selgapc1_out_13 iswgapc2 in out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_9 out_10 out_11 out_12 out_13 out_14 out_15 out_16 phlptoc1_block phhptoc1_block phhptoc2_block phiptoc1_block efhptoc1_block deflpdef1_block deflpdef2_block defhpdef1_block rovptov1_block rovptov2_block rovpt...
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Iswgapc3 is used to configure which protection function enables the current multiplier if the inrphar1 function detects inrush. Iswgapc4 is used to configure the cooperation between the autoreclose function and the protection functions. The autoreclose function darrec1 can block protection functions...
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Iswgapc3 in out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_9 out_10 out_11 inrphar1_blk2h phlptoc1_ena_mult phhptoc1_ena_mult phhptoc2_ena_mult phiptoc1_ena_mult efhptoc1_ena_mult deflpdef1_ena_mult deflpdef2_ena_mult defhpdef1_ena_mult nsptoc1_ena_mult nsptoc2_ena_mult t1pttr1_ena_mult guid-cc...
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The circuit breaker, tcsscbr2 needs to be blocked by the circuit breaker close position (out_2 connection=in_1). Selgapc2 in_1 in_2 out_1 out_2 tcsscbr1_block tcsscbr2_block selgapc1_out_2 selgapc1_out_3 cb closed position cb open position guid-4e5f2683-ed84-45ab-8636-023584763783 v1 en figure 36: s...
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3.4.4.3 binary outputs and leds in configuration a, signals are routed to binary outputs and leds are configured by oswgapc. The 16 oswgapc instances are categorized in four groups, including two master trip, four start, four trip and six alarm signals. The oswgapc output is connected with binary ou...
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Master trip 1 oswgapc2 master trip 2 trip 1 trip 2 trip 3 trip 4 t1pttr1_alarm rdre_triggered tcsscbr1_alarm tcsscbr2_alarm ccbrbrf1_trbu ccbrbrf1_trret darrec1_inpro darrec1_locked darrec1_prot_crd darrec1_unsuc_recl darrec1_ar_on darrec1_ready selgapc1_out_9 trpptrc1_cl_lkout trpptrc2_cl_lkout osw...
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Master trip 1 oswgapc2 master trip 2 trip 1 trip 2 trip 3 trip 4 t1pttr1_alarm rdre_triggered tcsscbr1_alarm tcsscbr2_alarm ccbrbrf1_trbu ccbrbrf1_trret darrec1_inpro darrec1_locked darrec1_prot_crd darrec1_unsuc_recl darrec1_ar_on darrec1_ready selgapc1_out_9 trpptrc1_cl_lkout trpptrc2_cl_lkout osw...
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Trip and alarm signals are connected to selgapc3 via tpgapc. Tpgapc are timers and used for setting the minimum pulse length for the outputs. Selgapc3 outputs are connected to x100 binary outputs. If x130 optional card is taken into use, selgapc3 outputs also connected to the x130 binary outputs. Se...
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Selgapc4 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 in_14 in_15 in_16 in_17 in_18 led1 led2 led3 led4 led5 led6 led7 led8 start 1 start 2 start 3 start 4 trip 1 alarm 1 trip 2 trip 3 trip 4 alarm 2 alarm 3 alarm 4 alarm 5 alar...
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Oswgapc2 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out efhptoc1_operate deflpdef1_operate rovptov2_operate rovptov3_operate intrptef1_operate phlptoc1_operate nsptoc1_operate phiptoc1_operate deflpdef2_operate defhpdef1_operate rovptov1_operate phhptoc2_operate phhptoc1_op...
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Oswgapc2 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out efhptoc1_operate deflpdef1_operate rovptov2_operate rovptov3_operate intrptef1_operate phlptoc1_operate nsptoc1_operate phiptoc1_operate deflpdef2_operate defhpdef1_operate rovptov1_operate phhptoc2_operate phhptoc1_op...
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Oswgapc3 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_start deflpdef1_start rovptov2_start rovptov3_start intrptef1_start phlptoc1_start nsptoc1_start phiptoc1_start deflpdef2_start defhpdef1_start rovptov1_start phhptoc2_start phhptoc1_start ns...
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Oswgapc4 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_start deflpdef1_start rovptov2_start rovptov3_start intrptef1_start phlptoc1_start nsptoc1_start phiptoc1_start deflpdef2_start defhpdef1_start rovptov1_start phhptoc2_start phhptoc1_start ns...
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Oswgapc5 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_start deflpdef1_start rovptov2_start rovptov3_start intrptef1_start phlptoc1_start nsptoc1_start phiptoc1_start deflpdef2_start defhpdef1_start rovptov1_start phhptoc2_start phhptoc1_start ns...
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Oswgapc6 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_start deflpdef1_start rovptov2_start rovptov3_start intrptef1_start phlptoc1_start nsptoc1_start phiptoc1_start deflpdef2_start defhpdef1_start rovptov1_start phhptoc2_start phhptoc1_start ns...
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Oswgapc7 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_operate deflpdef1_operate rovptov2_operate rovptov3_operate intrptef1_operate phlptoc1_operate nsptoc1_operate phiptoc1_operate deflpdef2_operate defhpdef1_operate rovptov1_operate phhptoc2_o...
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Oswgapc8 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_operate deflpdef1_operate rovptov2_operate rovptov3_operate intrptef1_operate phlptoc1_operate nsptoc1_operate phiptoc1_operate deflpdef2_operate defhpdef1_operate rovptov1_operate phhptoc2_o...
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Oswgapc9 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_operate deflpdef1_operate rovptov2_operate rovptov3_operate intrptef1_operate phlptoc1_operate nsptoc1_operate phiptoc1_operate deflpdef2_operate defhpdef1_operate rovptov1_operate phhptoc2_o...
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Oswgapc10 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_operate deflpdef1_operate rovptov2_operate rovptov3_operate intrptef1_operate phlptoc1_operate nsptoc1_operate phiptoc1_operate deflpdef2_operate defhpdef1_operate rovptov1_operate phhptoc2_...
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Oswgapc11 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_9 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc12 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_9 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc13 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_9 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc14 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_9 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc15 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_9 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc16 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_9 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Cbxcbr1_blk_close cbxcbr1_blk_open goosercv_bin:1 goosercv_bin:0 or iswgapc9 goose blcoking goosercv_bin:3 goosercv_bin:2 or goose external trip goosercv_bin:5 goosercv_bin:4 goosercv_bin:19 or iswgapc10 goose block cb phlptoc1_block phhptoc1_block phhptoc2_block phiptoc1_block efhptoc1_block deflpd...
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Iswgapc9 in out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_9 out_10 out_11 out_12 out_13 out_14 out_15 out_16 phlptoc1_block phhptoc1_block phhptoc2_block phiptoc1_block efhptoc1_block deflpdef1_block deflpdef2_block defhpdef1_block rovptov1_block rovptov2_block rovptov3_block intrptef1_block n...
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3.5 configuration b 3.5.1 applications configuration b for non-directional overcurrent and non-directional earth-fault protection is mainly intended for cable and overhead-line feeder applications in isolated and resonant-earthed distribution networks. The protection relay with a standardized config...
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3.5.2 functions remarks optional function no. Of instances alternative function to be deﬁned when ordering or 3× io/uo calculated value condition monitoring and supervision control and indication 1) measurement - i, io - limit value supervision - symmetrical components feeder protection relay standa...
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Table 17: default connections for binary outputs binary input description connector pins x100-po1 close circuit breaker x100:6-7 x100-po2 circuit breaker failure protection trip to upstream breaker x100:8-9 x100-po3 open circuit breaker/trip coil 1 x100:15-19 x100-po4 open circuit breaker/trip coil ...
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The analog channels have fixed connections towards the different function blocks inside the protection relay’s configuration. Exceptions from this rule are the seven analog channels available for the disturbance recorder function. These channels are freely selectable and a part of the disturbance re...
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Led 2 earth-fault protection selgapc4 out_2 in_11 oswgapc9 or out in_5 in_6 in_7 in_8 eflptoc1 io>(1) 51n-1(1) block start operate io ena_mult eflptoc2 io>(2) 51n-1(2) block start operate io ena_mult efiptoc1 io>>>(1) 50n(1) block start operate io ena_mult efhptoc1 io>>(1) 51n-2(1) block start opera...
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Led 3 unbalance protection nsptoc1 i 2 >(1) 46(1) block start operate 3i ena_mult nsptoc2 i 2 >(2) 46(2) block start operate 3i ena_mult selgapc4 in_12 out_3 oswgapc10 or out in_9 in_10 in_11 pdnsptoc1 i 2 /i 1 (1) 46pd(1) block start operate 3i guid-4cfbca74-5d5e-4c39-87de-18ee2be86c19 v1 en figure...
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X120-bi2 x100 po2 led 8 selgapc3 out_2 in_4 oswgapc15 out in_5 led 4 thermal overload protection circuit breaker failure protection selgapc4 out_8 in_17 oswgapc11 out in_1 selgapc4 out_4 in_13 selgapc1 out_2 in_2 phiptoc1_operate phhptoc2_operate phlptoc1_operate phhptoc1_operate efhptoc1_operate or...
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X120-bi3 led 5 or autoreclosing (optional) always true oswgapc12 out in_7 selgapc4 out_5 in_14 phhptoc2_operate phlptoc1_operate eflptoc2_operate efhptoc1_operate phlptoc1_start eflptoc2_start eflptoc1_operate phhptoc1_operate nsptoc2_operate nsptoc1_operate cbxcbr1_selected efiptoc1_operate pdnspto...
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3.5.3.2 functional diagrams for disturbance recorder and trip circuit supervision led 6 disturbance recorder oswgapc13 out in_2 selgapc4 out_6 in_15 o r o r or phlptoc1_operate phhptoc1_operate phhptoc2_operate phiptoc1_operate efhptoc1_operate eflptoc1_operate eflptoc2_operate nsptoc1_operate nspto...
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Channel number channel id text level trigger mode binary channel 12 t1pttr1_start 1=positive or rising binary channel 13 phxptoc_operate 4=level trigger off binary channel 14 efxptoc_operate 4=level trigger off binary channel 15 nsptoc1/2_operate 4=level trigger off binary channel 16 pdnsptoc1_opera...
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3.5.3.3 functional diagrams for control or x100 po3 trip cl_lkout block rst_lkout trpptrc1 operate x100 po4 master trip #1 master trip #2 or or trip cl_lkout block rst_lkout trpptrc2 operate selgapc3 out_6 in_2 selgapc3 out_5 in_1 selgapc1 out_4 in_4 selgapc1 out_4 in_4 oswgapc2 or in_1 in_2 in_3 in...
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Trpptrc1 and trpptrc2 provide the lockout/latching function, event generation and the trip signal duration setting. One binary input through selgapc1 can be connected to the rst_lkout input of master trip. If the lockout operation mode is selected, it is used to enable the external reset. X120-bi2 x...
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X100 so1 x100 so2 common alarm indication 1 & 2 selgapc3 out_3 in_5 out_4 in_9 tpgapc1 in1 out1 tpgapc3 in1 out1 oswgapc3 or in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 out phlptoc1_operate phhptoc1_operate phhptoc2_operate phiptoc1_operate eflptoc2_operate efhptoc1_operate efipotc1_ope...
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Goose binary inputs protection and control goose goose goose binary inputs (1...4, 5...10*) received goose (0...19) * optional function binary outputs and leds oswgapc2 oswgapc1 oswgapc16 oswgapc15 oswgapc14 oswgapc13 oswgapc12 oswgapc11 selgapc4 leds selgapc3 binary outputs oswgapc10 oswgapc9 oswga...
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Selgapc1 selgapc1 has inputs from protection relay binary inputs. In_1...In_4 are binary inputs from x100. In_5...In_10 can be used while x130 optional card is taken into use. An always true signal is connected to in_11. Selgapc1 outputs are used to route inputs to different functions. By setting se...
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Iswgapc1 in out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_9 out_10 out_11 out_12 blocking 1 selgapc1_out_1 phlptoc1_block phhptoc1_block phhptoc2_block phiptoc1_block eflptoc1_block eflptoc2_block efhptoc1_block efiptoc1_block nsptoc1_block nsptoc2_block pdnsptoc1_block t1pttr1_block out_13 cb...
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Iswgapc2 in out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_9 out_10 out_11 out_12 blocking 2 selgapc1_out_12 phlptoc1_block phhptoc1_block phhptoc2_block phiptoc1_block eflptoc1_block eflptoc2_block efhptoc1_block efiptoc1_block nsptoc1_block nsptoc2_block pdnsptoc1_block t1pttr1_block out_13 c...
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Iswgapc3 phlptoc1_ena_mult phhptoc1_ena_mult phhptoc2_ena_mult phiptoc1_ena_mult eflptoc1_ena_mult eflptoc2_ena_mult efhptoc1_ena_mult efiptoc1_ena_mult nsptoc1_ena_mult nspto c2_ena_mult t1pttr1_ena_mult iswgapc4 phlptoc1_block phhptoc1_block phhptoc2_block eflptoc1_block eflptoc2_block efhptoc1_bl...
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Iswgapc3 in out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_9 out_10 out_11 inrphar1_blk2h phlptoc1_ena_mult phhptoc1_ena_mult phhptoc2_ena_mult phiptoc1_ena_mult eflptoc1_ena_mult eflptoc2_ena_mult efhptoc1_ena_mult efiptoc1_ena_mult nsptoc1_ena_mult nsptoc2_ena_mult t1pttr1_ena_mult guid-0fb9b...
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Closing the circuit breaker, tcsscbr2 needs to be blocked by the circuit breaker close position (out_2 connection=in_1). Selgapc2 in_1 in_2 out_1 out_2 tcsscbr1_block tcsscbr2_block selgapc1_out_2 selgapc1_out_3 cb closed position cb open position guid-d390241c-1f0f-4ae7-a803-86931e1e0bef v1 en figu...
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3.5.4.3 binary outputs and leds in configuration b, signals are routed to binary outputs and leds are configured by oswgapc. The 16 oswgapc instances are categorized in four groups, including two master trip, four start, four trip and six alarm signals. The oswgapc output is connected to binary outp...
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Master trip 1 oswgapc2 master trip 2 trip 1 trip 2 trip 3 trip 4 t1pttr1_alarm rdre_triggered tcsscbr1_alarm tcsscbr2_alarm ccbrbrf1_trbu ccbrbrf1_trret darrec1_inpro darrec1_locked darrec1_prot_crd darrec1_unsuc_recl darrec1_ar_on darrec1_ready selgapc1_out_8 trpptrc1_cl_lkout trpptrc2_cl_lkout osw...
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Master trip 1 oswgapc2 master trip 2 trip 1 trip 2 trip 3 trip 4 oswgapc1 oswgapc3 oswgapc11 alarm 1 trpptrc1 trpptrc2 selgapc4 oswgapc8 oswgapc7 oswgapc10 oswgapc9 start 1 start 2 oswgapc4 oswgapc5 start 3 start 4 oswgapc6 led1 led2 led3 led4 led5 led6 led7 led8 oswgapc12 alarm 2 oswgapc13 alarm 3 ...
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Selgapc3 outputs are connected with the x100 binary outputs. If the x130 optional card is taken into use, selgapc3 outputs are also connected to the x130 binary outputs. Selgapc3 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_...
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Selgapc4 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 in_14 in_15 in_16 in_17 in_18 led1 led2 led3 led4 led5 led6 led7 led8 start 1 start 2 start 3 start 4 trip 1 alarm 1 trip 2 trip 3 trip 4 alarm 2 alarm 3 alarm 4 alarm 5 alar...
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Oswgapc1 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out eflptoc1_operate eflptoc2_operate nsptoc2_operate pdnsptoc1_operate t1pttr1_operate phlptoc1_operate ccbrbrf1_trret phiptoc1_operate efhptoc1_operate efiptoc1_operate nsptoc1_operate phhptoc2_operate phhptoc1_operate t...
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Oswgapc2 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out eflptoc1_operate eflptoc2_operate nsptoc2_operate pdnsptoc1_operate t1pttr1_operate phlptoc1_operate ccbrbrf1_trret phiptoc1_operate efhptoc1_operate efiptoc1_operate nsptoc1_operate phhptoc2_operate phhptoc1_operate t...
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Tpgapc1_in1 selgapc4_in_5 start 1 oswgapc3 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 out eflptoc1_start eflptoc2_start nsptoc2_start pdnsptoc1_start t1pttr1_start phlptoc1_start phiptoc1_start efhptoc1_start efiptoc1_start nsptoc1_start phhptoc2_start phhptoc1_start guid-37adcac...
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Tpgapc2_in1 selgapc4_in_7 start 3 oswgapc5 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 out eflptoc1_start eflptoc2_start nsptoc2_start pdnsptoc1_start t1pttr1_start phlptoc1_start phiptoc1_start efhptoc1_start efiptoc1_start nsptoc1_start phhptoc2_start phhptoc1_start guid-dc9b187...
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Trip oswgapcs oswgapc instances 7...10 are used to configure the protection operate signals which belong to the trip group. These four oswgapcs have the same inputs from the operate signals of the protection functions. The output is routed to selgapc3 via the tpgapc timer and to selgapc4 directly. T...
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Tpgapc3_in2 selgapc4_in_10 trip 2 oswgapc8 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 out eflptoc1_operate eflptoc2_operate nsptoc2_operate pdnsptoc1_operate t1pttr1_operate phlptoc1_operate phiptoc1_operate efhptoc1_operate efiptoc1_operate nsptoc1_operate phhptoc2_operate phhpt...
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Tpgapc4_in1 selgapc4_in_11 trip 3 oswgapc9 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 out eflptoc1_operate eflptoc2_operate nsptoc2_operate pdnsptoc1_operate t1pttr1_operate phlptoc1_operate phiptoc1_operate efhptoc1_operate efiptoc1_operate nsptoc1_operate phhptoc2_operate phhpt...
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Tpgapc4_in2 selgapc4_in_12 trip 4 oswgapc10 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 out eflptoc1_operate eflptoc2_operate nsptoc2_operate pdnsptoc1_operate t1pttr1_operate phlptoc1_operate phiptoc1_operate efhptoc1_operate efiptoc1_operate nsptoc1_operate phhptoc2_operate phhp...
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Oswgapc11 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_8 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc12 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_8 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc13 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_8 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc14 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_8 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc15 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_8 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc16 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_8 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Cbxcbr1_blk_close cbxcbr1_blk_open goosercv_bin:1 goosercv_bin:0 or iswgapc9 goose blcoking goosercv_bin:3 goosercv_bin:2 or goose external trip goosercv_bin:5 goosercv_bin:4 goosercv_bin:19 or iswgapc10 goose block cb phlptoc1_block phhptoc1_block phhptoc2_block phiptoc1_block eflptoc1_block eflpto...
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Goosercv_bin:0_out goosercv_bin:1_out iswgapc9 in out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_9 out_10 out_11 out_12 phlptoc1_block phhptoc1_block phhptoc2_block phiptoc1_block eflptoc1_block eflptoc2_block efhptoc2_block efiptoc1_block nsptoc1_block nsptoc1_block pdnsptoc1_block t1pttr1_blo...
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The protection relay with a standardized configuration is delivered from the factory with default settings and parameters. The end-user flexibility for incoming, outgoing and internal signal designation within the protection relay enables this configuration to be further adapted to different primary...
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3.6.2.1 default i/o connections table 21: default connections for binary inputs binary input description connector pins x120-bi1 blocking of overcurrent instantaneous stage x120:1-2 x120-bi2 circuit breaker closed position indication x120:3,2 x120-bi3 circuit breaker open position indication x120:4,...
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3.6.2.2 predefined disturbance recorder connections table 24: predefined analog channel setup channel description 1 il1 2 il2 3 il3 4 io 5 uo 6 u1 7 u2 8 u3 additionally, all the digital inputs that are connected by default are also enabled with the setting. Default triggering settings are selected ...
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X120-bi1 led 1 iswgapc1 out_4 in selgapc4 out_1 in_10 oswgapc8 or out in_1 in_2 in_3 in_4 overcurrent protection and inrush indication dphlpdoc1 3i>(1) 51p-1(1) block start operate 3i ena_mult dphlpdoc2 3i>(2) 51p-1(2) block start operate 3i ena_mult dphhpdoc1 3i>>(1) 51p-2(1) block start operate 3i...
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Led 2 earth-fault protection double (cross-country) earth-fault protection directional earth-fault protection intermittent earth-fault protection deflpdef1 io>->(1) 67n-1(1) block start operate io ena_mult uo rca_ctl deflpdef2 io>->(2) 67n-1(2) block start operate io ena_mult uo rca_ctl defhpdef1 io...
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A dedicated non-directional earth-fault protection block efhptoc is intended for protection against double earth-fault situations in isolated or compensated networks. This protection function uses the calculated residual current originating from the phase currents. All operate signals are connected ...
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Led 3 unbalance protection nsptoc1 i 2 >(1) 46(1) block start operate 3i ena_mult nsptoc2 i 2 >(2) 46(2) block start operate 3i ena_mult oswgapc10 or out in_13 in_14 in_15 selgapc4 in_12 out_3 pdnsptoc1 i 2 /i 1 (1) 46pd(1) block start operate 3i guid-33b6922d-228d-4d26-98af-6043981814c0 v1 en figur...
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X120-bi2 x100 po2 led 8 phiptoc1_operate dphhpdoc1_operate dphlpdoc1_operate dphlpdoc2_operate defhpdef1_operate or deflpdef1_operate deflpdef2_operate selgapc3 out_2 in_4 oswgapc15 out in_5 led 4 thermal overload protection circuit breaker failure protection selgapc4 out_8 in_17 oswgapc11 out in_1 ...
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X120-bi3 led 5 deflpdef1_operate or deflpdef2_operate deflpdef1_start or deflpdef2_start nsptoc2_operate nsptoc1_operate cbxcbr1_selected phiptoc1_operate or pdnsptoc1_operate intrptef1_operate autoreclosing (optional) always true selgapc1 out_3 in_3 out_6 in_10 oswgapc12 out in_7 selgapc4 out_5 in_...
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3.6.3.2 functional diagrams for disturbance recorder and trip circuit supervision rdre1 c1 c2 c3 c4 c5 c6 c7 c8 c9 c10 c11 c12 c13 c14 c15 c16 c17 c18 c19 c20 c21 c22 c23 c24 c25 c26 c27 c28 c29 c30 c31 c32 or c33 c34 c35 c36 c37 c38 c39 c40 or or or triggered led 6 disturbance recorder dphlpdoc1_op...
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Channel number channel id text level trigger mode binary channel 10 rovptov2_start 1=positive or rising binary channel 11 rovptov3_start 1=positive or rising binary channel 12 intrptef1_start 1=positive or rising binary channel 13 nsptoc1_start 1=positive or rising binary channel 14 nsptoc2_start 1=...
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X120-bi3 or led 7 trip circuit supervision selgapc1 out_3 in_3 trpptrc1_trip trpptrc2_trip tcsscbr1 block alarm tcsscbr2 block alarm selgapc4 out_7 in_16 oswgapc14 or out in_3 in_4 selgapc2 out_1 in_2 out_2 cb open position guid-4b00f529-72f7-418f-b0eb-d3dcc80007f9 v2 en figure 113: trip circuit sup...
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3.6.3.3 functional diagrams for control or x100 po3 x100 po4 master trip #1 master trip #2 or or selgapc3 out_6 in_2 selgapc3 out_5 in_1 trip cl_lkout block rst_lkout trpptrc1 operate trip cl_lkout block rst_lkout trpptrc2 operate selgapc1_rst_lkout darrec1_open_cb cbxcbr1_exe_op selgapc1_rst_lkout ...
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The operate signals from the protections and an external trip are connected to the two trip output contacts po3 (x100:15-19) and po4 (x100:20-24) via the corresponding master trips trpptrc1 and trpptrc2. Open control commands to the circuit breaker from local or remote cbxcbr1_exe_op or from the aut...
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X100 so1 x100 so2 common alarm indication 1 & 2 oswgapc3 or out oswgapc7 or out selgapc3 out_3 in_5 out_4 in_9 tpgapc1 in1 out1 tpgapc3 in1 out1 dphlpdoc1_start dphlpdoc2_start dphhpdoc1_start phiptoc1_start deflpdef1_start deflpdef2_start defhpdef1_start rovptov1_start nsptoc1_start nsptoc2_start p...
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3.6.4 switch groups in configuration c, the switch group function blocks are organized in four groups: binary inputs, internal signal, goose as well as binary outputs and leds. Binary outputs and leds goose binary inputs protection and control goose goose goose binary inputs (1...3, 4...9*) received...
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Selgapc1 iswgapc1 blocking 1 iswgapc5 basic angle control deflpdef1_rca_ctl deflpdef2_rca_ctl defhpdef1_rca_ctl dphlpdoc1_block dphlpdoc2_block dphhpdoc1_block phiptoc1_block efhptoc1_block deflpdef1_block deflpdef2_block defhpdef1_block rovptov1_block rovptov2_block rovptov3_block intrptef1_block n...
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Selgapc1 blocking 1 ccbrbrf1_po sclose cbxcbr1_posclose selgapc2_in_1 cb closed position cb o pen position darrec1_cb_po s cbxcbr1_po sopen selgapc2_in_2 basic angle control cbxcbr1_ena_close cb close enable darrec1_cb_ready external trip protection_bi_sg_2 setting group 2 blocking 2 protection_bi_s...
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Iswgapc1 in out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_9 out_10 out_11 out_12 out_13 out_14 out_15 out_16 blocking 1 selgapc1_out_1 dphlpdoc1_block dphlpdoc2_block dphhpdoc1_block phiptoc1_block efhptoc1_block deflpdef1_block deflpdef2_block defhpdef1_block rovptov1_block rovptov2_block rov...
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Blocking 2 selgapc1_out_13 iswgapc2 in out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_9 out_10 out_11 out_12 out_13 out_14 out_15 out_16 dphlpdoc1_block dphlpdoc2_block dphhpdoc1_block phiptoc1_block efhptoc1_block deflpdef1_block deflpdef2_block defhpdef1_block rovptov1_block rovptov2_block ro...
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Autoreclose function darrec1 can block protection functions according to the application. Selgapc2 is used to configure tcs blocking from the circuit breaker open or close position. Oswgapc17 is used for connecting switch onto fault function cbpsof. The inputs are start signals routed from the prote...
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Iswgapc3 in out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_9 out_10 out_11 inrphar1_blk2h dphlpdoc1_ena_mult dphlpdoc2_ena_mult dphhpdoc1_ena_mult phiptoc1_ena_mult efhptoc1_ena_mult deflpdef1_ena_mult deflpdef2_ena_mult defhpdef1_ena_mult nsptoc1_ena_mult nsptoc2_ena_mult t1pttr1_ena_mult guid...
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Breaker close position (out_1 connection=in_1). If x100-po4 is used for closing the circuit breaker, tcsscbr2 needs to be blocked by the circuit breaker close position (out_2 connection=in_1). Selgapc2 in_1 in_2 out_1 out_2 tcsscbr1_block tcsscbr2_block selgapc1_out_2 selgapc1_out_3 cb closed positi...
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Two master trip, four start, four trip and six alarm signals. The oswgapc output is connected with binary outputs and leds via selgapc3 and selgapc4. • selgapc3 is used to configure oswgapc signals to the protection relay's binary outputs. Selgapc4 is used to configure oswgapc signals to leds. • osw...
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Master trip 1 oswgapc2 master trip 2 trip 1 trip 2 trip 3 trip 4 t1pttr1_alarm rdre_triggered tcsscbr1_alarm tcsscbr2_alarm ccbrbrf1_trbu ccbrbrf1_trret darrec1_inpro darrec1_locked darrec1_prot_crd darrec1_unsuc_recl darrec1_ar_on darrec1_ready selgapc1_out_9 trpptrc1_cl_lkout trpptrc2_cl_lkout osw...
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Master trip 1 oswgapc2 master trip 2 trip 1 trip 2 trip 3 trip 4 t1pttr1_alarm rdre_triggered tcsscbr1_alarm tcsscbr2_alarm ccbrbrf1_trbu ccbrbrf1_trret darrec1_inpro darrec1_locked darrec1_prot_crd darrec1_unsuc_recl darrec1_ar_on darrec1_ready selgapc1_out_9 trpptrc1_cl_lkout trpptrc2_cl_lkout osw...
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Selgapc3 outputs are connected to x100 binary outputs. Selgapc3 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out_1 out_2 out_3 out_4 out_5 out_6 in_14 in_15 in_16 in_17 in_18 x100 po1 x100 po2 x100 so1 x100 so2 x100 po3 x100 po4 st art 1 st art 2 st art 3 st art 4 trip 1 alar...
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Selgapc4 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 in_14 in_15 in_16 in_17 in_18 led1 led2 led3 led4 led5 led6 led7 led8 start 1 start 2 start 3 start 4 trip 1 alarm 1 trip 2 trip 3 trip 4 alarm 2 alarm 3 alarm 4 alarm 5 alar...
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Oswgapc1 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out efhptoc1_operate deflpdef1_operate rovptov2_operate rovptov3_operate intrptef1_operate dphlpdoc1_operate nsptoc1_operate phiptoc1_operate deflpdef2_operate defhpdef1_operate rovptov1_operate dphhpdoc1_operate dphlpdoc2...
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Oswgapc2 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out efhptoc1_operate deflpdef1_operate rovptov2_operate rovptov3_operate intrptef1_operate dphlpdoc1_operate nsptoc1_operate phiptoc1_operate deflpdef2_operate defhpdef1_operate rovptov1_operate dphhpdoc1_operate dphlpdoc2...
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Oswgapc3 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_start deflpdef1_start rovptov2_start rovptov3_start intrptef1_start dphlpdoc1_start nsptoc1_start phiptoc1_start deflpdef2_start defhpdef1_start rovptov1_start dphhpdoc1_start dphlpdoc2_start...
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Oswgapc4 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_start deflpdef1_start rovptov2_start rovptov3_start intrptef1_start dphlpdoc1_start nsptoc1_start phiptoc1_start deflpdef2_start defhpdef1_start rovptov1_start dphhpdoc1_start dphlpdoc2_start...
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Oswgapc5 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_start deflpdef1_start rovptov2_start rovptov3_start intrptef1_start dphlpdoc1_start nsptoc1_start phiptoc1_start deflpdef2_start defhpdef1_start rovptov1_start dphhpdoc1_start dphlpdoc2_start...
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Oswgapc6 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_start deflpdef1_start rovptov2_start rovptov3_start intrptef1_start dphlpdoc1_start nsptoc1_start phiptoc1_start deflpdef2_start defhpdef1_start rovptov1_start dphhpdoc1_start dphlpdoc2_start...
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Oswgapc7 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_operate deflpdef1_operate rovptov2_operate rovptov3_operate intrptef1_operate dphlpdoc1_operate nsptoc1_operate phiptoc1_operate deflpdef2_operate defhpdef1_operate rovptov1_operate dphhpdoc1...
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Oswgapc8 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_operate deflpdef1_operate rovptov2_operate rovptov3_operate intrptef1_operate dphlpdoc1_operate nsptoc1_operate phiptoc1_operate deflpdef2_operate defhpdef1_operate rovptov1_operate dphhpdoc1...
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Oswgapc9 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_operate deflpdef1_operate rovptov2_operate rovptov3_operate intrptef1_operate dphlpdoc1_operate nsptoc1_operate phiptoc1_operate deflpdef2_operate defhpdef1_operate rovptov1_operate dphhpdoc1...
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Oswgapc10 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 in_16 efhptoc1_operate deflpdef1_operate rovptov2_operate rovptov3_operate intrptef1_operate dphlpdoc1_operate nsptoc1_operate phiptoc1_operate deflpdef2_operate defhpdef1_operate rovptov1_operate dphhpdoc...
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Oswgapc11 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_9 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc12 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_9 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc13 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_9 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc14 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_9 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc15 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_9 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Oswgapc16 in_1 in_2 in_3 in_4 in_5 in_6 in_7 in_8 in_9 in_10 in_11 in_12 in_13 out in_14 in_15 ccbrbrf1_trbu ccbrbrf1_trret darrec1_unsuc_recl darrec1_ar_on darrec1_ready t1pttr1_alarm selgapc1_out_9 tcsscbr2_alarm darrec1_inpro darrec1_locked darrec1_prot_crd tcsscbr1_alarm rdre_triggered trpptrc1_...
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Cbxcbr1_blk_close cbxcbr1_blk_open goosercv_bin:1 goosercv_bin:0 or iswgapc9 goose blcoking goosercv_bin:3 goosercv_bin:2 or goose external trip goosercv_bin:5 goosercv_bin:4 goosercv_bin:19 or iswgapc10 goose block cb dphlpdoc1_block dphlpdoc2_block dphhpdoc1_block phiptoc1_block efhptoc1_block def...
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Iswgapc9 in out_1 out_2 out_3 out_4 out_5 out_6 out_7 out_8 out_9 out_10 out_11 out_12 out_13 out_14 out_15 out_16 dphlpdoc1_block dphlpdoc2_block dphhpdoc1_block phiptoc1_block efhptoc1_block deflpdef1_block deflpdef2_block defhpdef1_block rovptov1_block rovptov2_block rovptov3_block intrptef1_bloc...
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168.
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Section 4 requirements for measurement transformers 4.1 current transformers 4.1.1 current transformer requirements for non-directional overcurrent protection for reliable and correct operation of the overcurrent protection, the ct has to be chosen carefully. The distortion of the secondary current ...
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Of the ct is distorted and it might have severe effects on the performance of the protection relay. In practise, the actual accuracy limit factor (f a ) differs from the rated accuracy limit factor (f n ) and is proportional to the ratio of the rated ct burden and the actual ct burden. The actual ac...
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The adequate performance of the ct should be checked when the setting of the high set stage overcurrent protection is defined. The operate time delay caused by the ct saturation is typically small enough when the overcurrent setting is noticeably lower than f a . When defining the setting values for...
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A071142 v1 en figure 151: example of three-stage overcurrent protection the maximum three-phase fault current is 41.7 ka and the minimum three-phase short circuit current is 22.8 ka. The actual accuracy limit factor of the ct is calculated to be 59. The start current setting for low-set stage (3i>) ...
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Section 5 protection relay's physical connections 5.1 inputs 5.1.1 energizing inputs 5.1.1.1 phase currents the protection relay can also be used in single or two-phase applications by leaving one or two energizing inputs unoccupied. However, at least terminals x120:7-8 must be connected. Table 27: ...
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5.1.1.4 phase voltage table 31: phase voltage inputs included in configuration c terminal description x130:11-12 u1 x130:13-14 u2 x130:15-16 u3 5.1.2 auxiliary supply voltage input the auxiliary voltage of the protection relay is connected to terminals x100:1-2. At dc supply, the positive lead is co...
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Binary inputs of slot x130 are optional for configurations a and b. Table 34: binary input terminals x130-1...9 terminal description x130:1 bi1, + x130:2 bi1, - x130:2 bi2, - x130:3 bi2, + x130:4 bi3, + x130:5 bi3, - x130:5 bi4, - x130:6 bi4, + x130:7 bi5, + x130:8 bi5, - x130:8 bi6, - x130:9 bi6, +...
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Table 36: output contacts terminal description x100:6 po1, no x100:7 po1, no x100:8 po2, no x100:9 po2, no x100:15 po3, no (tcs resistor) x100:16 po3, no x100:17 po3, no x100:18 po3 (tcs1 input), no x100:19 po3 (tcs1 input), no x100:20 po4, no (tcs resistor) x100:21 po4, no x100:22 po4, no x100:23 p...
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Terminal description x130:14 so2, no x130:15 so2, nc x130:16 so3, common x130:17 so3, no x130:18 so3, nc 5.2.3 irf the irf contact functions as an output contact for the self-supervision system of the protection relay. Under normal operating conditions, the protection relay is energized and the cont...
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178.
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Section 6 glossary 611 series series of numerical protection and control relays for low-end protection and supervision applications of utility substations, and industrial switchgear and equipment cb circuit breaker csv comma-separated values ct current transformer dan doubly attached node dc 1. Dire...
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Unique ip address that specifies the location for the tcp/ip protocol. Irig-b inter-range instrumentation group's time code format b lan local area network lc connector type for glass fiber cable, iec 61754-20 lcd liquid crystal display led light-emitting diode lhmi local human-machine interface mac...
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181.
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