F-PRO 5100 User Manual v3.0 Rev 2.book
Contents
1. GEZ vez EEZ ez lez OSZ 622 Bez zz 922 SZZ vez Eee zz lez Oe 6lz 8lz Liz gle Giz viz EZ ziz liz ole 602 80z 0z 902 SOZ poz eoz zoz roz ooz 2 FCH 3j ANACO EL E ES ES LY MM E eA c XS Zino 411100 4 Mor Ino 46104 Ws ino NO M9 O 4 Lg ino Ny O 4 Mg 100 4 zino no Keay seug pesnum ndino TTL or ott TIE elt CIT ttt Orr T Tzor T T 70r T T TOT T AZ 6 YN a NL es Wr Wt NL E x I sndu Foaasal roqAseL FOQASZL 1FOQASZL 7H OgdASZL FFOGASZ 1FOQASZL 2T OdASZL TFOGASel 7 eue T pann 3 vavos Tuepow meng 3 pesnun Y 1HOd 1HOd Z1HOd Sont S 1HOd ra La Appendix H 1 Appendix H Rear Panel Drawings Figure H 5 Rear Panel F PRO 5100 User Manual D02416R03 02 Appendix AC Schematic Drawing2. Name Symbol Value Unit Range Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt PL 5 ProLogic 5 ProLogic 5 Disabled Target Enabled Pickup Delay 0 00 seconds 0 00 to 999 00 Dropout Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt PL 6 ProLogic 6 ProLogic 6 Disabled Target Enabled Pickup Delay 0 00 seconds 0 00 to 999 00 Dropout Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 F PRO 5100 User Manual Appendix B 11 Appendix B IED Settings and Ranges Appendix B 12 F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range m Pr M P Yo nn Input E Unused 0 gt PL 7 ProLogic 7 ProLogic 7 Disabled Target Enabled Pickup Delay 0 00 seconds 0 00
3. Channel Address Units Scale Main Va Magnitude 40257 kV 10 Main Va Angle 40258 degrees 10 Main Vb Magnitude 40259 kV 10 Main Vb Angle 40260 degrees 10 Main Vc Magnitude 40261 kV 10 Main Vc Angle 40262 degrees 10 Main la Magnitude 40263 A 1 Main la Angle 40264 degrees 10 Main Ib Magnitude 40265 A 1 Main Ib Angle 40266 degrees 10 Main Ic Magnitude 40267 A 1 Main Ic Angle 40268 degrees 10 Aux la Magnitude 40269 A 1 Aux la Angle 40270 degrees 10 Aux Ib Magnitude 40271 A 1 Aux Ib Angle 40272 degrees 10 Aux Ic Magnitude 40273 A 1 Aux Ic Angle 40274 degrees 10 Line la Magnitude 40275 A 1 F PRO 5100 User Manual Appendix E 5 Appendix E Modbus RTU Communication Protocol Appendix E 6 Channel Address Units Scale Line la Angle 40276 degrees 10 Line Ib Magnitude 40277 A 1 Line Ib Angle 40278 degrees 10 Line Ic Magnitude 40279 A 1 Line Ic Angle 40280 degrees 10 Sync V Magnitude 40281 A 0 Sync V Angle 40282 degrees 10 Real Power P 40283 MW 10 Reactive Power Q 40284 MVAR 10 Pos Seq Voltage 40285 kV 10 Pos Seq Current 40286 A 1 Frequency 40287 Hz 100 THD 40288 100 Active Setting Group Numbers 40289 Demand Real Power Out 40290 MW 10 Demand Real Power In 40291 MW 10 Demand Reactive Power In 40292 MVAR 10 Demand Reactive Power Out 40293 MVAR
4. uonoejoJd eui 10 pesn sindui eBejoA OY ureui 5joeuo ou s 10J pesn 1ndui ebeyoA ou S OV E suoneoijdde snq Bun 104 sjueuno aul jo Jos leI ixne 10 pesn aq ued z sindui 19 Z eui pejoejoud ay jo Buip1ooeiJ JO pue uonoeljoJd JO pesn eq 0 sindu 1D SUI pejoeloJd Jexeaug aur S O aun SyOA OV SHO0A OV SjuaAn aur SjuaJn eur ou g UIelA Ov xny Ov utelN 62 8ZE EEE ZEE LEE OEE LLE OLE 60 80 LOE 90 SOE HOE EOE ZOE 10 00 NIA n o gA VA ic Ol e 91 3 ate 91 z Vile vil LONE OIL gr r gl E VI E VI a a y d e asng vsng og8v ouy n A o A T E Paine Ld Lu Ld uss S d d oV eur mes P f Eo Jeyeorg sur 08v XE Be N g lt L ZG Fe V lt g sn o SOJON Figure 1 6 F PRO AC Schematic F PRO 5100 User Manual Appendix I 1 D02416R03 02 Appendix J DC Schematic Drawing JORIUOD e xNe Jayea1q BIA Bundnaejur Anp Buidduy paje eje sindino Iv uonoun ejaJ Aue uo ejeJedo o peuuurej604d eq ued seja indio Iv Z SOOLZE Bulmesp 1no e jeued seas Qud J uo Ajayesedes umoys suyod wwo pue g D y L SO ON LL GEE SEE LLL GOL ZOL SOL 0L LOL YLL ZLL OLL 80 90L OL ZOL OOL ae 90A 061 06 sinduj jeusarx3 og gH m C se
5. View Only y select lt F2 gt Quit F2 or lt F3 gt to continue System Ee d Nop refreshes AG Screen Yes Invalid No A y System System cancels changes AG AG change atu Ms Any Ke y y y y Settings F PRO 5100 User Manual D02416R03 02 4 22 Settings Saved You can change the active setting group while saving setting changes or load ing settings from Offliner The relay prompts you for a setting group to acti vate you can keep the current setting group or switch to a new setting group following the settings save The following is the flow of events that can occur in the Editing Settings Screen Edit Settings 4 Protection Functions and Specifications View v F3 Quit Enter view Access Level Change or Service Y Select Copy Group Y System Exit SG Screen v CR or Space y System updates Copy SG x to SG y and waits for User I P Y opens Copy Setting Copy System cancels SGxto SGy System copies SGxto SGy Accept Changes Setting Load System Saves all Changes v System asks user for SG to activate Quit Quit without Save Yes Selects Setting Quit B v Accept Changes D02416R03 02 Settings F PRO 5100 U
6. 1 Spare 1 2 Spare 2 3 Spare 3 4 Spare 4 5 Spare 5 6 Spare 6 7 Spare 7 8 Spare 8 9 Spare 9 Output Contact Names Output 1 Spare 1 Output 2 Spare 2 Output 3 Spare 3 Output 4 Spare 4 Output 5 Spare 5 Output 6 Spare 6 Output 7 Spare 7 Output 8 Spare 8 Output 9 Spare 9 Output 10 Spare 10 Output 11 Spare 11 Output 12 Spare 12 Virtual Input Names VI 1 Virtual Input 1 VI2 Virtual Input 2 VI 3 Virtual Input 3 VI4 Virtual Input 4 VI 5 Virtual Input 5 VI 6 Virtual Input 6 VI 7 Virtual Input 7 VI8 Virtual Input 8 VI9 Virtual Input 9 VI 10 Virtual Input 10 VI 11 Virtual Input 11 F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range VI 12 Virtual Input 12 VI 13 Virtual Input 13 VI 14 Virtual Input 14 VI 15 Virtual Input 15 VI 16 Virtual Input 16 VI 17 Virtual Input 17 VI 18 Virtual Input 18 VI 19 Virtual Input 19 VI 20 Virtual Input 20 VI 21 Virtual Input 21 VI 22 Virtual Input 22 VI 23 Virtual Input 23 VI 24 Virtual Input 24 VI 25 Virtual Input 25 VI 26 Virtual Input 26 VI 27 Virtual Input 27 VI 28 Virtual Input 28 VI 29 Virtual Input 29 VI 30 Virtual Input 30 Setting Group N
7. SS SAS S2 Soa SA SHES KY e ee ZA RS eS 36r We O46 0 dU nz 38 te Te Relay Output Relay Contracts repara T ous m Outs Owe nu m outs Duo Oui Oui d RO ION IO SOS OI IS KO KS Sa salsa so NS uS KM RSI LAKY eS KY SA MS KAKA KAKA KAKA KY x eS TE CET CE ER EU TI GS Tuo T PO T Tee my TD GLO AA lain A Aux AC Line Currents AA n a RA 128 2 Nominal SIRC main AC Volts Pes S V a N vA w vc Unused BEIRIS RIRI RIRI 29 29 29 RSA RSRS RIRIRI RI RIRI RIK 34 GU XD s XS 3 3X7 3 35 30 38 3X O35 38 58 37 SH 38 X6 XH XS 3X5 XU Sw 38 3u mw Port 5 10BaseT Ethernet Port Internal Modem optional External clock IRIG B modulated or unmodulated 9 Port 2 Direct Modem RS 232 Port 10 Port 3 SCADA 11 Port 4 unused 12 Case ground 13 9 programmable external inputs 1 to 9 14 This row contains 2 distinct areas from left to right 12 programmable output relay contacts and relay inoperative contact 15 This row contains 3 distinct areas from left to right 6 ac current inputs 4 ac voltage inputs Power
8. ProLogic Setting Functions Name Give the ProLogic a meaningful name Pickup Delay Delay time from pickup to operate Dropout Delay Delay time from dropout to a ProLogic status of low A B C D E Relay elements as input statements Operators Boolean type logic gates F PRO 5100 User Manual D02416R03 02 Breaker Monitoring D02416R03 02 4 Protection Functions and Specifications The F PRO breaker monitoring feature allows you to monitor the feeder break er s in detail An accumulated I I t function and ten user definable logic statements can be used to determine the status of breaker wear and breaker per formance Breaker monitoring can be configured for measuring the clearing time mech anism time trip coil energized time operations count fault operations or other user defined conditions Different users may require different feature sets to monitor the breaker The breaker monitoring functions are realized through the Breaker Logic functions All associated breaker monitoring values are available in the terminal UI and SCADA interfaces You can reset or preset all associated breaker monitoring values from the terminal Ul interface You can only reset all associated breaker monitoring values from the terminal SCADA interfaces Breaker Logic The Breaker Logic function is similar to a ProLogic function but includes some additional features specifically for breaker monitoring allowing different users to design their own brea
9. 4 1 Protection and Recording Functions 4 1 Demand M tricas tee erectas tote cena 4 17 Accumulated Energy kWh kVARh metering 4 20 Recording Functions irte epa De D pe Ru XR 4 26 Logging FUNCION S Rm tai pias 4 28 5 Offliner Settings Software 5 1 Introduction ooooooccccccnnccnccnnncnnnnonnnonononononnnnnnnnnnnonnnonnnnnnnnos 5 1 Installing PC SOfIWAl6 2 eret ort e tertees 5 2 F PRO 5100 User Manual Table of Contents Offliner Features ooocconoccccnnoonccccononnncnnnonnncnnnnannccnrnnnnnnnn 5 2 Handling Backward Compatibility 5 4 RecordBase View Software sssssssss 5 5 Main Branches from the Tree View 5 6 Settings From a Record ssesseseeess 5 19 6 Testing the F PRO Functions 6 1 T Installation ici 7 1 Physical MOUNTING a id Mee b pen t vere ete 7 1 AC and DC Wiring eects 7 1 Communication WIPIg artes siesta ns iii 7 1 Appendix A IED Specifications essessssess A 1 Distance Element Operating Time Curves at Nominal FROQUGN CY e rd A 4 Frequency Element Operating Time Curves A 5 Appendix B IED Settings and Ranges ss B 1 Appendix C Hardware Description sseessssss C 1 Appendix D Event
10. Figure 4 1 50LS Low Set Overcurrent 50 Low Set Overcurrent 50LS Main Enable disable Pickup 0 1 to 50 0 amps 5 A 0 02 to 10 00 amps 1 A Pickup Delay 0 00 to 99 99 seconds 50LS Aux Enable disable Pickup 0 1 to 50 0 amps 5 A 0 02 to 10 00 amps 1 A Pickup Delay 0 00 to 99 99 seconds F PRO 5100 User Manual 4 5 4 Protection Functions and Specifications 50BF Breaker Failure 4 6 There are two sets of breaker failure protection functions SOBF Main and 50BF Auxiliary one for each breaker When breaker failure is initiated by a trip or other internal logic user settable through the output matrix and the breaker current still exists two timers T1 and T2 user settable are started After these timers are timed out and if the current still exists indicating a breaker failure the output of this function is set high Use the two outputs of this function to trip another trip coil or the next level of breakers such as bus breakers The breaker failure protection logic diagram is shown below Phase current supervision is fixed at 4 of I nominal and is shown for a 5 A relay Breaker failure Initiator from Output Matrix 50 IMainA fixed 0 2 amps 50 IMainB fixed 0 2 amps 50 IMainC fixed 0 2 amps Figure 4 2 50BF Main Breaker Failure Breaker failure Initiator from Output Matrix 50 IAuxA fixed 0 2 amps 50 IA
11. T Record Length Faut Record Length 05 y Trend Auto Save Evert Auto Save F PRO Offliner Settings v2 Figure 5 12 Record Length Record Length Fault Record Length 0 2 to 2 0 seconds Trend Auto Save Enable disable Event Auto Save Enable disable The relay has recording and logging functions to analyze faults and to review the operation of the overall protection scheme This item identifies the amount of time that each fault record Prefault is fixed at 10 cycles F PRO 5100 User Manual D02416R03 02 Setting Groups D02416R03 02 5 Offliner Settings Software jnix lk Eie Edt Tools Window Help 18 xl o s a e Haa 2 E Identification E C Relay C Analog Inputs C External Inputs Comments C Output Contacts x C Virtual Inputs C Setting Groups yster Parameters Setting Group 1 Setting Group 1 _ Feeder Parameters E Protection Functions C Demand Trend Metering EL ProLogic Breaker Logic Group Logic Output Matrix zi Settings Summary E2 Setting Group 2 Setting Group 2 El F PRO Offliner Settings v2 Setting Group 1 0 08 Figure 5 13 Setting Groups Comments The relay has eight setting groups 1 to 8 You can change all relay setting pa rameters except the physical connections such as input or output parameters in each setting group Use any one of the 16 available Group Logic Statements pe
12. 27 Va Main __ __ 27 Vb Mein on NIE 27 Vc Main AND Figure 4 9 27 Undervoltage 27 Undervoltage 27 1 Enable disable Gate Switch AND or OR Pickup 1 0 to 120 0 volts Pickup Delay 0 00 to 99 99 seconds 27 2 Enable disable Gate Switch AND or OR Pickup 1 0 to 120 0 volts Pickup Delay 0 00 to 99 99 seconds se vans medos PUT 208 ca 59 VMainB fixed 0 5 PU D Wd Loss of Potential 207 Figure 4 10 60 Loss of Potential This function detects the loss of potential from either one or two phases of a PT and issues an alarm 60 Loss of Potential Enable disable Pickup Delay 10 00 seconds fixed F PRO 5100 User Manual 4 11 4 Protection Functions and Specifications 81 Frequency 4 12 The relay has four frequency devices available Each frequency element can be set to operate either at a fixed level of under frequency a fixed level of over frequency or at a rate of change level df dt The df dt function can be set to operate for a positive rate of change or a negative rate of change Each frequen cy element has a definite time delay setting to create a time delayed output A fixed level of positive sequence voltage of 0 25 pu or 5 volts whichever is greater provides an undervoltage inhibit on each element Four frequency elements are provided settable from over under frequency fixed lev
13. Appendix L F PRO Setting Example El 1 high El 2 low and El 3 high Group Logic 11 Go to Group 6 IV Enabled Name So to Group 6 AND Setting Group to Activate 56 6 Setting Group 6 m Pickup Delay 5 seconds Input A El 1 Selector 1 X Input B El 2 Selector 2 y Input C El 3 Selector 3 y Input D PL 8 Block Group Logic Out Input E El 4 43CS Local Remote Figure L 25 Group Logic 11 lalolo 2 o 2j o 2 o o o EI 1 low El 2 high and El 3 high Group Logic 10 Go to Group 6 IV Enabled Name So to Group 6 AND Setting Group to Activate SG 6 Setting Group 6 Y Pickup Delay 5 seconds Input A El 1 Selector 1 y Input B El 2 Selector 2 y Input C El 3 Selector 3 y Input D PL 8 Block Group Logic Out Input E El 4 43CS LocalRemote y Figure L 26 Group Logic 10 alalolo 2 o 2 o 2 o o o El 1 high El 2 high and El 3 high Group Logic 9 Go to Group 8 Iv Enabled Name Go to Group 8 AND Setting Group to Activate G 8 Setting Group 8 Pickup Delay 5 seconds 0 1 1 Input A El 1 Selector 1 Input B El 2 Selector 2 X Input C El 3 Selector 3 X Input D PL 8 Block Group Logic Y Out Input E El 4 43CS Local Remote Y Figure L 27 Group Logic 9 ajojojo Appendix L 10 F PRO 5100 User Manual D02416R03 02 Usin
14. System Parameters Record Length Setting Croup 1 Setting Group 1 Leeder Parameters Proenchon Funceans Deesand Trenc Metering m 32 Ino JOBDODO oO i am a a wf Fo Pw ep ef ou un Prot age Pp DssmmOoOOOOO0O000000I0 o O O DONIN asa O O OODODOODODDOD o olo Setings Summary geen OOOOOOGOG BDOBlB B DTO3 LO sus2ammL L C C D EJ D C D C D CL OO O 0 Setting Group 3 Seting Group 3 EXER nene O IO OOO O ONO ispgegg Setting Group Semng Group 5 amp eF 3 C Setting Group 6 Saming Group ER LI B C Sottng Croup 4 soting Greup ME 0000000 2 0 0 Ec aS Gon are tau Seriate O C C m jm I J jn 10 yA I jn n g f OODODODO DD D Setting Group Se amp ing Group 7 50 no DO x x ees EEEEEEEEEEEEIER ON swell ODO O 00 2878 0 0 DO O0O00ODOODOO O o o 0000009009001 0 0 0 46 50 Trip f oooi fpoa0000000000 0 0 0 Oy 1 F PAO Offliner Settings v2 Use the space bar to toggle the matrix on off Setting Group lt Figure 5 20 Output Matrix 1 The output contact matrix determines which function initiates which output re lay All output relays have a fixed 0 1 second stretch time Functions can also initiate fault recording recloser blocking recloser initiation and or breaker failure initiation For a partic
15. 0 05 to 10 0 1 A Pickup Delay 0 01 to 99 99 seconds 0 00 to 99 99 non directional 46 51 Enable disable Directional Forward reverse non directional Pickup 0 25 to 50 0 5 A 0 05 to 10 0 1 A Curve Type For details see IEC and IEEE Curves on page 4 1 TMS 0 01 to 10 00 A 0 0010 to 1000 0000 B 0 0000 to 10 0000 p 0 01 to 10 00 TR 0 10 to 100 00 Initiate Fault Location Enable disable ProLogic Control Enable disable 4 4 F PRO 5100 User Manual D02416R03 02 50LS Low Set Overcurrent D02416R03 02 4 Protection Functions and Specifications F PRO provides 2 sets of definite time delay overcurrent protection functions on each breaker SOLS 1 Main 50LS 2 Main 50LS 1 Aux and 50LS 2 Aux You can set the logic gate to either an AND or an OR gate to detect all 3 phases or any phase of the 3 phases overcurrent conditions The definite time delay can be set to 0 0 for a instantaneous trip Auxiliary definite time delay functions are available to monitor main and aux iliary CT currents 50LS 1 Main 50LS 2 Main 50 IMainA 50 IMainA 50 IMainB_ j 100 0 50 IMainB gt 102 0 50 IMainC N T 50 IMainC a T o o 101 o 103 o 50LS 1 Aux 50LS 2 Aux 50 lAuxA 50 IAuxA 50lAuxB 4 104 o 50lAuxB 106 o 50 lAuxC NU M 50 lAuxC Null o o 105 o 107 o
16. 36 9 60 1 748 841 90 93 6 96 97 4 984 99 of Input Peak Demand quantities will be derived from the Demand Trend quantities A total of 7 Peak Demand Quantities will be metered 3 Phase Real Power Out MW 3 Phase Real Power In MW 3 Phase Reactive Power Out MVAR 3 Phase Reactive Power In MVAR A Phase Feeder Current IA A Pri B Phase Feeder Current IB A Pri F PRO 5100 User Manual 4 19 4 Protection Functions and Specifications C Phase Feeder Current IC A Pri The peak demand quantities are available from the front panel display the TUI metering and SCADA Peak Demand quantities can be reset from the front panel TUI or SCADA The peak value of the above quantities and the time of occurrence are displayed Accumulated Energy kWh kVARh metering 4 20 For the accuracy and the consistency the method of the energy calculation is the same regardless of the demand type rolling integration thermal There are four accumulated energy quantities They are 3 Phase real energy OUT MWh 3 Phase real energy IN MWh 3 Phase reactive energy OUT MVARh 3 Phase reactive energy IN MVARh The accumulated energy quantities are calculated by the integration of the av erage power over the elapsed time This calculation is carried out once per min ute however the actual power is sampled every half second and averaged every minute 120 samples The accumulated energy quantities are stored
17. 5 Offliner Settings Software Introduction PC System Requirements D02416R03 02 F PRO Offliner Settings Document 1 JL Bie Edit Tools Window Help Dota e Hea 2 E Setting Group 4 Setting Gre 0 Setting Group 5 Setting Gre C Setting Group 6 Setting Gre Software Setting E identification x z Relay Relay Identification O Analog Inputs DIE External Inputs C Output Contacts Settings Version 2 Virtual Inputs T Ignore Serial Number Setting Groups Serial Number FPRO 5100 000615 or Refer tothe serial number Os y on the back of the relay system Parameters I Relay ID UnitiD Record Length E Setting Group 1 Setting Gre Nominal CT Sec Current 54 v E C Setting Group 2 Setting Gre Nominal System Frequency 60 Hz y E C Setting Group 3 Setting Gre con Comments Setting Group 7 Setting Gre Setting Name Default Settings 56 Setting Group 8 Setting Gre Date CreetediModifiec 1989 10 04 16 21 22 ID xi Bi xi Station Station Name Station Name Station Number 1 Location Location Line D245 _ Settings v2 E 4 Setting Tree Figure 5 1 Opening Screen Setting Area Use the Offliner Settings software to create relay settings on a PC Offliner Set tings provides an easy way to view and manipulate settings Hardware The minimum hardware requirements are e 1 GHz processor 2GB RAM
18. GL L sinduj jenutA 73 xujejw indino 91501518 9 Xue mamo 91607014 S XEN 1ndino sinduj eulajx3 v Xen mamo ne 4 xny AHL 18 09 6S Zz ZE amp XUYEIN mamo 19 9p 05 9b NLS NOS 18 08 Z Xen 1ndino 64 eu DU S 68 22 97 4909 S10S L4 XUWEN dO 9 916031 dnos 91807 dnouc OL 9160301d XEN Mdn 91607014 J 91601 dnog 91607014 OL 91601 sayearg 91607 JayeoJg 91601 JayBaJg d mn aa Buueje pueJj pueuieq 61 SIE suorounJ uonoejoJd NEST all SUA SJejouieleg Japee4 Tayealg 3 by A tebe aa ce g sdnoig Bunies 9 dnoig Bumeg y S 18 KB1eu3 5 4 dnoip Bunes ye d F soweN indu JenulA 9 dnouo Bumes p euredg 1S 9v 05 9b 1c s wey dnolg Bumes G dnoig Bumes spual N pee A s weN 1983002 jndino y dnoig Bumes 6011ue 3 pe ME 649 A2919 SUAS sawen Ndu jeusa xy dnoig Bumes SpJ098y Id 18 06 sawen indu Bojeuy z dnoJe Bumnos oseJ3 3805 juaWWOoD dnoig Bumes S109 Aey SJejouieJed Wa skS OHd 4 snqpo suonoun J uono9jold uoneoynuep j uoneoynuep zl 1 abbo sonsoube
19. Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Breaker Logic 4 BkrLogic 4 BkrLogic 4 Disabled Alarm LED Enabled Message Parameter lt none gt Count Limit 0 z 0 to 99999 Pickup Delay T1 0 00 seconds 0 00 to 999 00 Drop Out Delay T1 0 00 seconds 0 00 to 999 00 Pickup Delay T2 0 00 seconds 0 00 to 999 00 Drop Out Delay T2 0 00 seconds 0 00 to 999 00 Pickup Delay T3 0 00 seconds 0 00 to 999 00 Drop Out Delay T3 0 00 seconds 0 00 to 999 00 Pickup Delay T4 0 00 seconds 0 00 to 999 00 Drop Out Delay T4 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C Unused 0 gt Operator 4 Input D Unused 0 gt Operator 5 F PRO 5100 User Manual Appendix B 15 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range m O Pg ro n e r M s sons e Input E Unused 0 gt Breaker Logic 5 BkrLogic 5 BkrLogic 5 Disabled Alarm LED Enabled Message Parameter lt none gt Count Limit 0 0 to 99999 Pickup Delay T1 0 00 seconds 0 00 to 999 00 Drop Out Delay T1 0 00 seconds 0 00 to 999 00 Pickup D
20. Sampling clocks synchronized with the time source internal or external Overall F PRO Accuracies Current 2 5 of inputs from 0 1 to 1 0 x nominal current In 1 0 of inputs from 1 0 to 20 0 x nominal current In Voltage 1 0 of inputs from 0 01 to 2 00 x nominal voltage Vn Impedance 5 0 of set value from 0 05 to 66 00 ohms secondary 0 25 to 330 00 ohms second ary 1 Amp nominal Directional Phase Angle 2 0 of set value of Positive Sequence Line Angle value from 25 0 to 89 0 Frequency Elements 0 001 Hz fixed level 0 05 Hz s df dt Sync Check Element 0 2 degrees Timers 2 5 ms of set value plus 1 00 to 1 50 cycles of inherent delay Inverse Overcurrent Times 2 5 or 1 cycle of selected curve Definite Overcurrent Timers 2 5 or 1 cycle non directional 2 5 or 1 5 cycle directional Frequency Timers 2 5 of set value plus 1 25 cycles to 1 75 cycles of inherent delay fixed level at 2x pickup error lt 40 ms at 0 1 Hz s above pickup error lt 100 ms Burden AC Voltage Inputs lt 0 15 VA 69 volts AC Current Inputs lt 0 5 VA 5 amps D02416R03 02 F PRO 5100 User Manual Appendix A 3 Appendix A IED Specifications Distance Element Operating Time Curves at Nominal Frequency Figure B 1 F PRO Phase Mho Operating Times Phase to Phase Fault shows the operating times for the F PRO Relay distance elements
21. Sends Static Data in Unsolicited Responses x Never When Device Restarts When Status Flags Change No other options are permitted Default Counter Object Variation x No Counter Reported F PRO 5100 User Manual Counters Roll Over at x No Counters Reported Configurable Configurable Appendix F 1 Appendix F DNP3 Communication Protocol Implementation _ Default Object Default Variation _ Point by point list attached _ 16 Bits 32 Bits Other Value _ Point by point list attached Table Object Request Response Tu Function m i Qualifier Codes Grp Var Description Code Qualifier Codes hex Function Code hex 1 0 Binary Input All Variations 1 read 0x00 0x01 0x06 0x07 29 response 0x00 0x08 0x17 0x28 1 1 Binary Input default 1 read 0x00 0x01 0x06 0x07 29 response 0x00 0x08 0x17 0x28 1 2 Binary Input with Status 1 read 0x00 0x01 0x06 0x07 29 response 0x00 0x08 0x17 0x28 2 0 Binary Input Change All Variations 1 read 0x06 0x07 0x08 29 response 0x17 2 1 Binary Input Change without Time 1 read 0x06 0x07 0x08 29 response 0x17 2 2 Binary Input Change with Time default 1 read 0x06 0x07 0x08 29 response 0x17 2 3 Binary Input Change with Relative Time 1 read 0x06 0x07 0x08 29 response 0x17 10 0 Binary Output All Variations 1
22. System Parameters Input Base MVA 1 0 to 1000 0 MVA primary Phase Rotation ABC or ACB CT Turns Ratio Ring Bus Configuration Aux CT Line Enable disable Main CT Turns Ratio 1 0 to 10000 0 Aux CT Turns Ratio 1 0 to 10000 0 PT Turns Ratio Main PT Turns Ratio 1 0 to 10000 0 Sync PT Turns Ratio 1 0 to 10000 0 Sync PT Phase 0 to 330 degrees Line Line to Line Voltage 1 00 to 500 00 kV Primary Distance Units km or miles Base MVA The base MVA is used for recording purposes F PRO 5100 User Manual 5 11 5 Offliner Settings Software Record Length 5 12 CT Turns Ratio and PT Turns Ratio The CT and PT ratios are specified for the analog inputs All CT and PT ratios are specified with a ratio relative to one i e X amps to 1A The line protection uses the main current and the main voltage to operate When two sets of CTs main and auxiliary are used as line current input e g ring bus application you must enable the ring bus configuration parameter to inform the relay If en abled the currents from the two sets of CTs are added to the relay to form the line current F PRO uses ac volts from the main PTs for its protections and for the metering functions A single phase voltage from the bus is connected to sync ac volts to provide voltage for sync checking capability l0 x llt gdt qois Window tep 18 xi ojeju e tema
23. 20 GB available hard disk space USB port Serial communication port Operating System The following software must be installed and functional prior to installing the applications Microsoft Windows XP Professional Service Pack 3 or Microsoft Windows 7 Professional Service Pack 1 F PRO 5100 User Manual 5 1 5 Offliner Settings Software Installing PC Software Insert the CD ROM in your drive The CD ROM should open automatically Ifthe CD ROM does not open automatically go to Windows Explorer and find the CD ROM usually on D drive Open the F PRO exe file to launch the CD ROM To install the software on your computer click the desired item on the screen The installation program launches automatically Installation may take a few minutes to start To view the F PRO User Manual you must have Adobe Acrobat on your com puter If you need a copy download a copy by clicking on Download Adobe Acrobat Anti virus Anti spyware Software If an anti virus anti spyware software on your local system identifies any of the ERLPhase applications as a potential threat it will be necessary to con figure your anti virus anti software to classify it as safe for its proper oper ation Please consult the appropriate anti virus anti spyware software documentation to determine the relevant procedure Offliner Features 5 2 The Offliner software includes the following menu and system tool bar Help Help Topics A
24. 3 11 5 10 5 13 L 5 Settings 5 18 settings 3 9 settings summary 5 18 setup 3 12 start up 3 1 system parameters 5 11 System requirements 5 1 hardware 5 1 operating system 5 1 T target 3 3 test mode 3 1 3 2 THD alarm 5 14 time 3 12 tool bar 5 2 trend recording 4 26 U utilities 3 12 V version descriptions 3 vii View 3 3 view 3 13 view logs 3 3 virtual inputs 3 9 3 11 3 12 5 9 W watchdog C 1 F PRO 5100 User Manual D02416R03 02
25. 59 995 or 60 005 70 000 Pickup Delay 2 00 seconds 0 05 to 99 99 32 Directional Power 32P Enabled Pickup 3 00 amperes 15 00 0 25 or 0 25 15 00 F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range Pickup Delay 2 00 seconds 0 00 to 99 99 32Q Enabled Pickup 3 00 amperes 15 00 0 25 or 0 25 15 00 Pickup Delay 2 00 seconds 0 00 to 99 99 21P Phase Distance 21P 1 Enabled Forward Reach 10 00 ohms 0 05 to 66 00 Delta Current Supervision 0 2 amperes 0 2 to 50 0 21P 2 Enabled Forward Reach 10 00 ohms 0 05 to 66 00 Delta Current Supervision 0 2 amperes 0 2 to 50 0 THD Total Harmonic Distortion THD Enabled Pickup 10 0 5 0 to 100 0 Demand Metering Demand Metering Disabled Demand Interval 5 minutes 5 to 60 Demand Meter Type Integrating rt I I t Main Disabled External Input or ProLogic for Trip disabled Mt Limit 99999 0 KA 2 s 0 1 to 99999 0 I I t Aux Disabled External Input or ProLogic for Trip disabled I I t Limit 99999 0 KA 2 s 0 1 to 99999 0 PL 1 ProLogic 1 ProLogic 1 Disabled Target Enabled Pickup Delay 0 00 seconds 0 00 to 999 00 Dropout Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A Unused 0 gt Operator 2 Input B lt Unused 0 gt
26. Off inactive On active External Input 7 Change of state latch 10263 0 Off inactive On active External Input 8 Change of state latch 10264 0 Off inactive On active External Input 9 Change of state latch 10265 0 Off inactive On active Virtual Input 1 10513 0 Off inactive On active Virtual Input 2 10514 0 Off inactive On active Virtual Input 3 10515 0 Off inactive On active Virtual Input 4 10516 0 Off inactive On active Virtual Input 5 10517 0 Off inactive On active Virtual Input 6 10518 0 Off inactive On active Virtual Input 7 10519 0 Off inactive On active Virtual Input 8 10520 0 Off inactive On active Virtual Input 9 10521 0 Off inactive On active Virtual Input 10 10522 0 Off inactive On active Virtual Input 11 10523 0 Off inactive On active Virtual Input 12 10524 0 Off inactive On active Virtual Input 13 10525 0 Off inactive On active Virtual Input 14 10526 0 Off inactive On active Virtual Input 15 10527 0 Off inactive On active Virtual Input 16 10528 0 Off inactive On active Virtual Input 17 10529 0 Off inactive On active Virtual Input 18 10530 0 Off inactive On active Virtual Input 19 10531 0 Off inactive On active Virtual Input 20 10532 0 Off inactive On active Virtual Input 21 10533 0 Off inactive On active Virtual Input 22 10534 0 Off inactive On active Virtual Inp
27. Pickup 0 25 to 50 00 5 A 0 05 to 10 00 1 A Curve Type For details see IEC and IEEE Curves on page 4 1 TMS 0 01 to 10 00 A 0 0010 to 1000 0000 B 0 0000 to 10 0000 p 0 01 to 10 00 TR 0 10 to 100 00 Initiate Fault Location Enable disable ProLogic Control Enable disable F PRO 5100 User Manual D02416R03 02 50N 51N 67 Neutral Overcurrent 46 50 51 67 Negative Sequence Overcurrent D02416R03 02 4 Protection Functions and Specifications Neutral overcurrent provides protection for line to ground faults You can de fine forward reverse or non directional control on either SON or 51N func tions All the curve definitions are the same as the phase overcurrent except that this function uses 310 rather than phase current The equation is For 310 gt pickup For 310 lt pickup on snr T 310 TMS amp 310 Ta IPickup The Curve Type selection allows you to use a number of curves available in this menu All of these curve types are generated by the equation shown at the bottom of the screen If you choose a user selectable curve it can be created using the parameters A B and p T 310 TMS A p mons e The characteristic of the overcurrent function can be rescaled by clicking on the characteristics using the right mouse key and by making a box around the area of interest The characteristic can be printed by pressing the Print Graph option 50N 51N Neutral
28. dard RJ 11 connector When an internal modem is installed the relay s Port 2 is used to interface to the modem internally Appropriate Port 2 settings are configured at the factory when the internal modem is installed The factory defaults are M0SOZO amp BI1 for an external modem and MOSO 0 for an internal modem PC with TCP IP 10BaseT TCP IP Network Port 5 RJ 45 Network Figure 2 4 Network Link You can access both the relay s user interface and DNP3 SCADA services si multaneously through the same network port with an optional Ethernet TCP IP LAN link If the Ethernet option has been installed Port 5 on the rear panel will be labelled NETWORK The user interface accessed through the LAN is the same as that available through a direct serial connection or a modem link but requires the use of a Telnet client on your PC The HyperTerminal program which is included in Windows XP and is also available separately as HyperTerminal PE provides Telnet services To select Telnet go to HyperTerminal s Properties dialog box and set the Connect Using field to TCP IP Winsock If this option is not avail F PRO 5100 User Manual D02416R03 02 2 Setup and Communications able in the pick list you require a newer version of HyperTerminal v1 2 or greater Alternatively you can use any Telnet program that fully supports VT 100 terminal emulation and z modem file transfer DNP3 SCADA services can also be acc
29. 0 gt Group Logic 12 Group Logic 12 Group Logic 12 Disabled Setting Group to Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 F PRO 5100 User Manual Appendix B 23 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range PP O Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 13 Group Logic 13 Group Logic 13 Disabled Setting Group to Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 14 Group Logic 14 Group Logic 14 Disabled Setting Group to Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 15 Group Logic 15 Group Logic 15 Disabled Setting Group to Activate lt none gt Pickup Dela
30. 1 Appendix D Event Messages Appendix D 2 F PRO Event Messages 59 1 ABC Trip 59 2 ABC Trip 27 1 ABC Trip 27 2 ABC Trip 60 LOP ABC Alarm 32P ABC Trip 32Q ABC Trip The possible phase information will be oA B Cc oN AB BC CA ABC 81 1 Trip 81 2 Trip 81 3 Trip 81 4 Trip THD Alarm High ProLogic Name PLn ProLogic outputs names are user assigned Where n 1 10 Extern Input Name Eln External input names are user assigned Where n 1 9 BkrLogic Name msgParam BLn Breaker Logic outputs names are user assigned Where msgParam none timers 1 to 4 or count limit Where n 1 10 BkrLogic Name Upper Limit Reset msg Param BLn BkrLogic Name Input Reset msgParam BLn Breaker Logic outputs names are user assigned Where msgParam count limit Where n 1 10 I I t Main Limit 99999 0 I I t Aux Limit 99999 0 MWh IN Count Rollover Reset 9800 MWh OUT Count Rollover Reset 9800 MVARR IN Count Rollover Reset 9800 MVARh OUT Count Rollover Reset 9800 New Settings loaded Active group n Where n 1 8 Manual Settings Load request activate SGn Manual or user initiated settings change Manual Settings Load request completed Completion of user initiated settings change Changed Active Group from x to y Logic n This happens when relay changes setting group Aut
31. 1 lol xl Ek Eile Edit Tools Window Help ixi gj x aloe fm Identification Relay Virtual Input Names Analog Inputs C External Inputs jo 4 Virtual Input 1 44 Virtual Input 11 21 Virtual Input 21 4 2 Virtual Input 2 42 Virtual Input 12 22 Virtual Input 22 system Parameters 3 Virtual input 3 43 Virtual Input 13 23 Virtual Input 23 C Record Length 4 Virtual Input 4 44 Virtual Input 14 24 Virtual Input 24 E1 Setting Group 1 Setting Gre 5 Virtual Input 5 45 Virtual Input 15 25 Virtual Input 25 C Setting Group 2 Setting Gre Wooo rr Virtual Input 26 7 Setting Group 3 Setting crc 6 Vital nete 46 Virtual Input 16 26 Virtual Inpi C Setting Group 4 Setting Gre 7 Virtual Input 7 47 Virtual Input 17 27 Virtual Input 27 E Setting Group 5 Setting Gre g Virtual Input 6 48 Virtual Input 18 28 Virtual Input 28 6 7 Setting Group 6 Setting Gre Virtual Input 9 Virtual Input 19 Virtual Input 29 5 Setting Group 7 Setting Gre letal ne O Medii el amp Setting Group 8 Setting Gre 10 Virtual Input 10 20 Virtual Input 20 30 Virtual Input 30 F PRO Offliner Settings v2 e 7 Figure 5 9 Virtual Inputs Virtual Inputs Virtual Inputs 1 to 30 User defined The relay can control its internal functions and connected devices both locally and remotely Thirty general purpose logic points are accessible via DNP3 and the terminal UI The 30 virtual inputs are
32. 1 00 Lockout Reset Td 25 00 seconds 0 00 to 99 99 Initiate Reset TDI 1 00 seconds 0 00 to 99 99 Block Reset TDB 0 50 seconds 0 00 to 99 99 Sync Control Disabled 59 Overvoltage 59 1 Enabled Gate Switch OR Pickup 70 0 volts 1 0 to 138 0 F PRO 5100 User Manual Appendix B 7 Appendix B IED Settings and Ranges Appendix B 8 F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range AO CE o r ro r Pickup Delay 1 00 seconds 0 00 to 99 99 59 2 Enabled Gate Switch OR Pickup 70 0 volts 1 0 to 138 0 Pickup Delay 1 00 seconds 0 00 to 99 99 27 Undervoltage 27 1 Enabled Gate Switch OR Pickup 20 0 volts 1 0 to 120 0 Pickup Delay 1 00 seconds 0 00 to 99 99 27 2 Enabled Gate Switch OR Pickup 20 0 volts 1 0 to 120 0 Pickup Delay 1 00 seconds 0 00 to 99 99 60 Loss of Potential Alarm 60 Enabled 81 Over Under Frequency 81 1 Disabled Pickup 60 005 Hz 50 000 59 995 or 60 005 70 000 Pickup Delay 2 00 seconds 0 05 to 99 99 81 2 Disabled Pickup 60 005 Hz 50 000 59 995 or 60 005 70 000 Pickup Delay 2 00 seconds 0 05 to 99 99 81 3 Disabled Pickup 59 995 Hz 50 000 59 995 or 60 005 70 000 Pickup Delay 2 00 seconds 0 05 to 99 99 81 4 Disabled Pickup 59 995 Hz 50 000
33. 10 Demand A Phase Voltage 40294 kv 10 Demand B Phase Voltage 40295 kv 10 Demand C Phase Voltage 40296 kv 10 Demand A Phase Current 40297 A 1 Demand B Phase Current 40298 A 1 Demand A Phase Current 40299 A 1 Demand System Frequency 40300 Hz 300 Demand Maximum THD along all current 40301 96 100 3 phase MWh Out 40302 MWh 0 333 3 phase MWh In 40303 MWh 0 333 3 phase MVARh Out 40304 MVARh 0 333 3 phase MVARh In 40305 MVARh 0 333 BkrLogic 1 Coun 40306 1 BkrLogic 2 Coun 40307 1 BkrLogic 3 Coun 40308 1 BkrLogic 4 Coun 40309 1 BkrLogic 5 Coun 40310 1 BkrLogic 6 Coun 40311 1 BkrLogic 7 Coun 40312 1 BkrLogic 8 Coun 40313 1 F PRO 5100 User Manual D02416R03 02 Appendix E Modbus RTU Communication Protocol Channel Address Units Scale BkrLogic 9 Count 40314 1 BkrLogic 10 Count 40315 1 I t Main Accumulated 40316 1 1 t Main for last operation 40317 10 I t Aux Accumulated 40318 1 Pt Aux or last operation 40319 10 D02416R03 02 F PRO 5100 User Manual Appendix E 7 Appendix E Modbus RTU Communication Protocol Read Input Register Function Code 04 No input registers supported Response fron IED indicates ILLEGAL FUNCTION Force Single Coil Function Code 05 Only the hold readings coil can be forced When active this coil locks all coil input and holding register readings simultane ously at their present va
34. Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 6 Group Logic 6 Group Logic 6 Disabled Setting Group to Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 7 Group Logic 7 Group Logic 7 Disabled Setting Group to Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 F PRO 5100 User Manual Appendix B 21 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range SSS SSS Input A Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 8 Group Logic 8 Group Logic 8 Disabled Setting Group to Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input
35. F PRO includes a four shots recloser with sync check supervision After four Recloser tries the recloser is locked out until the feeder returns to normal by manual op eration i e The feeder has been on with a load greater than the low set setting for a certain amount of time 79Main and 79Aux are identical except the inputs are different For device 79 initiate and block functions are defined in the output matrix Ring bus applications provide two separate reclosers 51 Alam 51NAlam pL 04 Sync Control i ee a 0 o 4 setting 79 Initiator output matrix p0 fl 124 125 E 134 ua 142 A Enable 77 o Dex EE E 50lamein n EER e BO Ib rein J12 LOWset 0 2A fixed 128 Ho Ta uS 50 lo main Enable JA 132 T nod 11303 144 immediately Block the Whole Function Enable 10 28 m 79 Block im Crp manny ef eedem oie S T 13738 144 Enable 140 yas S D02416R03 02 Figure 4 7 79 Main Recloser F PRO 5100 User Manual 4 9 4 Protection Functions and Specifications 59 Overvoltage 4 10 79 Recloser 79 Recloser Enable disable Number of Shots 1 to 4 First Reclose T1 0 02 to 99 99 seconds Second Reclose T2 1 00 to 99 99 seconds Third Reclose T3 1 00 to 99 99 seconds Fourth Reclose T4 1 00 to 99 99 seconds Close Time Tp 0 01 to 1 00 seconds Lockout Time TD 0 00 to 99 99 secon
36. Group 1 8 Logic Statements The following Group Logic statements are entered into each of the eight setting groups When the selector switch is rotated to the appropriate position the correspond ing setting group becomes active Each setting group logic can have a specific time delay pickup setting You can also provide two additional logic inputs in each statement to be used to provide qualifiers before switching setting groups We are using a ProLogic statement and an external input as qualifiers For de tails see Using ProLogic to Qualify Group Logic Statements on page Appendix L 11 El 1 low El 2 low and El 3 low Group Logic 16 Go to Group 1 v Enabled Name So to Group 1 AND Setting Group to Activate SG 1 Setting Group 1 e dE al Pickup Delay 5 seconds 0 1 4 wa 1 0 o 1 1 1 Imputa El Selector y Input B Ei2 Selector2 Input C ssteeses E Input E El 4 43CS Local Remote Y Figure L 20 Group Logic 16 El 1 high El 2 low and El 3 low Group Logic 15 Go to Group 2 v Enabled Name So to Group 2 AND Setting Group to Activate 5G 2 Setting Group 2 Rd o o o Pickup Delay 5 seconds 0 1 0 1 0 0 A 1 Input Elt Selector1 gt Input B El 2 Selector 2 Input C El 3 Selector 3 he Input D PL 8 Block Group Logic pe input _ E14 43CS Local Remote Y Figure L 21 Group Logic 15 F PRO 5100 User Manual D02416R03 02 Appendix L 8 D0241
37. Hames Main Voltage A Main Voltage B _ Main Voltage C Main Line Current A Main Line Current B F PRO Offliner Figure 5 21 Settings Summary Select Settings Summary to view and print the relay settings in text form For details see IED Settings and Ranges in Appendix B F PRO 5100 User Manual D02416R03 02 5 Offliner Settings Software Settings From a Record The settings on the relay at the time of a recording are included in every record and can be viewed through the RecordBase View analysis software While viewing a recording in RecordBase View select the View Setting button to dis play the settings RecordBase View will automatically launch F PRO Offliner to display the settings in summary form If the record contains Setting Groups the Offliner displays all Setting Groups in the summary Bold text in the tree view indicates an active Setting Group the Setting Group used at the time the record was captured The setting sum mary is read only To edit the setting file associated with the summary you must use File Save As to save the summary to a file Then close the summary screen and open the setting file for editing F PRO Offliner Settings F_PROV2 2002 11 19_13 12 22 529 FPR 5 x JL File Edt Tools Window Help laj xj D gm seeli C Setting Group 2 Setting Group 2 Setting Group 3 Setting Group 3 F PRO Settings Summary Setting Group 1 Setting Group 1 C Settin
38. Manual D02416R03 02 D02416R03 02 Appendix E Modbus RTU Communication Protocol Read Coil Status Function Code 01 Channel Address Value M Breaker Logic 6 817 0 Off inactive On active Breaker Logic 7 818 0 Off inactive On active Breaker Logic 8 819 0 Off inactive On active Breaker Logic 9 820 0 Off inactive On active Breaker Logic 10 821 0 Off inactive On active 79 Initialize 822 0 Off inactive On active 79 Block 823 0 Off inactive On active 79 Main Lockout 824 0 Off inactive On active 79 Aux Lockout 825 0 Off inactive On active 50BF Initiate 826 0 Off inactive On active Group Logic 1 827 0 Off inactive On active Group Logic 2 828 0 Off inactive On active Group Logic 3 829 0 Off inactive On active Group Logic 4 830 0 Off inactive On active Group Logic 5 831 0 Off inactive On active Group Logic 6 832 0 Off inactive On active Group Logic 7 833 0 Off inactive On active Group Logic 8 834 0 Off inactive On active Group Logic 9 835 0 Off inactive On active Group Logic 10 836 0 Off inactive On active Group Logic 11 837 0 Off inactive On active Group Logic 12 838 0 Off inactive On active Group Logic 13 839 0 Off inact
39. Messages esee D 1 Appendix E Modbus RTU Communication Protocol E 1 Appendix F DNP3 Communication Protocol F 1 Appendix G Mechanical Drawings esesssssss G 1 Appendix H Rear Panel Drawings ssssss H 1 Appendix AC Schematic Drawing seesssss l 1 Appendix J DC Schematic Drawing seessss J 1 Appendix K Function Logic Diagram se K 1 Appendix L F PRO Setting Example L 1 Setting Examples na L 2 Switching Setting GrOUPS occcoccnnccccnnnoonccconannnncnnnnncnnnnos L 5 Inscr Vemm l iv F PRO 5100 User Manual D02416R03 02 Using This Guide This User Manual describes the installation and operation of the F PRO feeder protection relay It is intended to support the first time user and clarify the de tails of the equipment The manual uses a number of conventions to denote special information Example Describes Start gt Settings gt Control Panel Choose the Control Panel submenu in the Set tings submenu on the Start menu Right click Click the right mouse button Recordings Menu items and tabs are shown in italics service User input or keystrokes are shown in bold Text boxes similar to this one Relate important notes and information Indicates more screens p gt Indi
40. Operator 3 Input C Unused 0 gt Operator 4 Input D lt Unused 0 gt F PRO 5100 User Manual Appendix B 9 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range e Operator 5 Input E lt Unused 0 gt PL 2 ProLogic 2 ProLogic 2 Disabled Target Enabled Pickup Delay 0 00 seconds 0 00 to 999 00 Dropout Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D Unused 0 gt Operator 5 Input E lt Unused 0 gt PL 3 ProLogic 3 ProLogic 3 Disabled Target Enabled Pickup Delay 0 00 seconds 0 00 to 999 00 Dropout Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt PL 4 ProLogic 4 ProLogic 4 Disabled Target Enabled Pickup Delay 0 00 seconds 0 00 to 999 00 Dropout Delay 0 00 seconds 0 00 to 999 00 Operator 1 Appendix B 10 F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1
41. PRO Setting Example Appendix L 4 Re Strike Monitoring Definition The fault current appears through the breaker within a set time af ter fault clearing Desired Behavior Alarm if the fault current appears quicker than the settling time as defined by timer T1 drop out delay after fault clearing has taken place Timer T2 drop out delay is set to one second for creating the desired Alarm pulse width The message parameter setting is used to define the event log mes sage this example you do not need any additional information to be included with the event message therefore the message parameter setting equals none The Alarm LED Enabled setting is used to tell the F PRO to turn on the front panel led In this example T2 drop out timer is set for creating the desired Alarm pulse width An alternative setting could be applied with a latch gate to keep the alarm condition present until Virtual Input 1 is pulsed high Breaker Logic 3 25CB51 RS V Enabled Name 250851 RS v Alarm LED Enabled Count Limit m Message Parameter mn y o n T2 T3 14 Pickup Delay s 0 00 ooo 000 ooo Dropout Delay sy 011 100 000 ooo Input A El Trip Coil 25CB51 Input B 50 Trip X Input C 50 Trip X Input D lt Unused 0 gt Y Input E Unused 0 gt v This symbol denotes a function which has not been enabled and is treated as a logic zero input o o 0 1 Ep Ta 2 o oj o Figure L 12 B
42. The diagrams show operating times at each test point including output contact operate time Faults were applied at a location representing a percentage of the Zone 1 relay reach setting Tests were performed for source impedance ratios SIR of 0 1 1 0 10 0 and 30 0 No pre trigger load current or fault resistance was included Operating times are the same for both 50 Hz and 60 Hz F PRO Phase Mho Operating Times Phase to Phase Faults N 1 1 8 1 6 14 2 12 e SIR 30 gt 1 s SIR 10 2 SIR 1 08 SIR 0 1 E 0 6 0 4 0 2 0 0 20 40 60 80 100 Fault Location of Z1 Reach Figure B 1 F PRO Phase Mho Operating Times Phase to Phase Fault Appendix A 4 F PRO 5100 User Manual D02416R03 02 Appendix A IED Specifications Frequency Element Operating Time Curves Figure B 2 Time delay Error at 2 Seconds Figure B 3 Time Delay Error at 1 Second and Figure B 4 Time Delay Error at 10 Seconds show operating times for the F PRO frequency rate of change elements at different time delay set tings and rate of change settings The diagrams show operating times at each test point including output contact operate time Operating times are the same for both 50 Hz and 60 Hz Time Delay Error 0 2s 165 150 135 120 a amp 90 1 Hz s a
43. Trend Recording Primary Real Power MW In and Out Reactive Power MVAR In and Out 3 Phase Voltages Va Vb Vc 3 Phase Currents la Ib Ic Real Energy MWh In and Out Reactive Energy MVARh In and Out THD Level 96 System Frequency Fault Recording 4 Voltages 6 Currents 97 Unique Events Figure 1 1 F PRO Line Diagram F PRO 5100 User Manual Metering Front Display Primary Pos Sequence Volts Amps Primary Watts and VARs Frequency THD Total Harmonic Distortion PF Power Factor Primary Phase Voltage Current Phase Angle A B C Peak Demand MW MVAR In and Out Phase Currents Energy Values MWh In and Out MVARR In and Out 310 D02416R03 02 1 Overview Front View Model 5100 Feeder Protection Relay amp Relay Functional 2000 Jan 07 11 49 54 9 ori Service Required Date amp View View Previous Next Clear Target Test Mode 606 O 1 Front display of time alarms relay target and metering 2 Relay target LED red 3 LEDs indicating status of relay 4 Communications serial Port 1 for laptop computer 5 Clear target push button 6 Push buttons to manipulate information on LCD display Figure 1 2 F PRO Front View Back View Port 4 Unused B Port 2 Port 3 1 x 125Vde 425Vde 125Vde 125Vde 128Vde 125Vdo t25Vdo 125Vdo 125Vde i DirectiModem SCADA
44. Virtual Input 6 91 N A 0 12 Virtual Input 7 92 N A 0 12 Virtual Input 8 93 N A 0 12 Virtual Input 9 94 N A 0 12 Virtual Input 10 95 N A 0 12 Virtual Input 11 96 N A 0 12 Virtual Input 12 97 N A 0 12 Virtual Input 13 98 N A 0 12 Virtual Input 14 99 N A 0 12 Virtual Input 15 100 N A 0 12 Virtual Input 16 101 N A 0 12 Virtual Input 17 102 N A 0 12 Virtual Input 18 103 N A 0 12 Virtual Input 19 104 N A 0 12 Virtual Input 20 105 N A 0 12 Virtual Input 21 106 N A 0 12 Virtual Input 22 107 N A 0 12 Virtual Input 23 108 N A 0 12 Virtual Input 24 109 N A 0 12 F PRO 5100 User Manual Appendix F 7 Appendix F DNP3 Communication Protocol Name Point Index SMS Object Group Virtual Input 25 110 N A 0 12 Virtual Input 26 111 N A 0 12 Virtual Input 27 112 N A 0 12 Virtual Input 28 113 N A 0 12 Virtual Input 29 114 N A 0 12 Virtual Input 30 115 N A 0 12 I I t Main Breaker Reset 116 N A 0 12 1 I t Aux Breaker Reset 117 N A 0 12 Reset Energy 118 N A 0 12 Reset Breaker Logic 1 119 N A 0 12 Reset Breaker Logic 2 120 N A 0 12 Reset Breaker Logic 3 121 N A 0 12 Reset Breaker Logic 4 122 N A 0 12 Reset Breaker Logic 5 123 N A 0 12 Reset Breaker Logic 6 124 N A 0 12 Reset Breaker Logic 7 125 N A 0 12 Reset Breaker Logic 8 126 N A 0 12 Reset Breaker Logic 9 127 N A 0 12 Reset Breaker Logic 10 128 N A 0 12 Demand Reset 129 N A 0 12 Peak Demand Reset 13
45. a crossover and a gender change Alternatively you can use the ERLPhase modem port adapter provided with the relay to make Port 2 appear the same as a PC s serial port A standard modem to PC serial cable can then be used to connect the modem and the relay for pin out details see Communication Port Details on page 2 9 Connect the modem to an analog telephone line or switch using a standard RJ 11 connector To work with a modem the relay s Port 2 must be appropriately configured Log into the relay through a direct serial link go to the Utilities Setup Ports screen and set the Port 2 Modem option to Yes The Baud Rate should be set as high as possible most modems will handle 57 600 bps The Initialize set ting lets you set the control codes sent to the modem at the start of each con nection session The factory defaults are MOSO 0 amp B1 for an external modem and MOSO 0 for an internal modem F PRO 5100 User Manual 2 3 2 Setup and Communications Modem Link Internal Network Link 2 4 Analog Analog Telephone Telephone Line Desktop Computer Figure 2 3 Internal Modem Link The relay s user interface can also be accessed through a telephone link be tween the relay and your computer using an optional internal modem If the modem has been installed Port 5 on the rear panel will be labelled INTER NAL MODEM Connect the relay s Port 5 to an analog telephone line or switch using a stan
46. automatically by the selected SCADA protocol Modbus ASCII uses 7 data bits Modbus RTU and DNP Serial use 8 data bits All protocols use 1 stop bit except in the case where either Modbus protocol is used with no parity this uses 2 stop bits as defined in the Modbus standard Protocol monitor utilities are available to assist in resolving SCADA commu nication difficulties such as incompatible baud rate or addressing The utilities can be access through the Maintenance user interface for details see Mainte nance Menu on page 2 12 F PRO 5100 User Manual D02416R03 02 Communication Port Details D02416R03 02 2 Setup and Communications Port Location Function 1 Front Panel RS 232 Data Communication Equipment DCE female DB9 Used for user interface access through a direct serial connection Default Setting 38 400 baud 8 data bits no parity 1 stop bit 2 Rear Panel RS 232 DCE female DB9 Used for User interface access through a direct serial connection User interface access through an external modem The optional ERLPhase Modem Adapter converts this port to a Data Termi nal Equipment DTE to simplify connection to an external modem Default Setting 9 600 baud 8 data bits no parity 1 stop bit Port 2 is disabled if the relay is equipped with an internal modem see Port 5 3 Rear Panel RS 232 DCE female DB9 Used for SCADA communication Default Setting 9 600 baud 8 data bits no
47. baud rate The new rate is in effect at the next connection The relay supports four user access levels that control what relay functions are available to you The current access level is always shown in the centre of the Main Menu heading To change the Access Level either login again using the desired access level as your login name or use the Main Menu gt Access menu Access Level Allowed actions view lowest View settings on line readings and logs and to list and upload records At this level you cannot affect the operation of the control ler breaker minimal Do all of the above plus reset breaker monitoring values This level doesn t allow you to change settings change middle Do all of the above plus change the settings and delete records service highest Do all of the above two categories plus calibrate the analog inputs manually control output auxiliary relays and modify passwords Service access is only available through a local front port connec tion Individual passwords for the view breaker and change access levels are avail able to prevent or limit remote access to the relay Passwords are not required for the service level This level is only available at the front of the local relay through serial Port 1 You can only change the passwords from the service level through the Access menu minimizing the chance that a password is changed casually and provides a
48. eration and field software upgrades Settings are stored in non volatile memory Floating point DSP for fast capture and manipulation of data Standard RS 232 serial communications ports High speed link between DSP and 486 processors Time synchronism processor with automatic detection of modulated and unmodulated IRIG B Sophisticated fault detection and watchdog recovery hardware A 486 class CPU provides data storage information management housekeep ing and communications for the relay The 486 runs a real time operating sys tem optimized for high speed high precision computing The 486 provides F PRO 5100 User Manual Appendix C 1 Appendix C Hardware Description Front Panel Board Appendix C 2 sophisticated facilities for communications and field software updates Local and wide area networking is supported by providing the relay with a path to fu ture networking capability A highly reliable solid state flash disk on the CPU board provides the operat ing software for the 486 and stores the relay s recordings The Front Panel Board provides visual indication of the status of the relay an alphanumeric display and keypad for system monitoring and a front panel RS 232 port Relay Output and DC Analog Input Board External Input DC Analog Inputs are optional and Comm Board only used on T PRO Power Supply Board AC Analog Input Board PC 104 CPU Board Main Processor Board Front Pa
49. in the non volatile memory to avoid the data loss on power down When the accumulated energy quantities exceed 98000 MWh MVARh they are reset to zero A reset on one energy quantity will only reset it S own value not the other energy quantities All reset actions will be logged in the event log F PRO 5100 User Manual D02416R03 02 Group Logic D02416R03 02 4 Protection Functions and Specifications Group Logic Control Statements The F PRO relay has eight setting groups SG You can change all relay set ting parameters except the physical connections such as input or output param eters in each setting group Setting group changes are performed by using any one of the 16 available Group Logic statements per setting group The Group Logic statements are similar to the ProLogic statements with the following ex ceptions the sole function is to activate one of the eight setting groups and the processing is in a slower half second cycle Group Logic input statements are driven from ProLogic any external input previous Group Logic statements or virtual inputs Each Group Logic statement includes five inputs with Boolean statements one latch state and one pickup delay timer The active setting group ASG is viewed from the Terminal Mode the front panel or from a re cord stored by the relay the active setting group is stored with the record Group Logic Processing The sixteen Group Logic statements reside in a slower processing t
50. individually controlled and include a set reset and pulse function The latch state is retained during setting changes and relay power down conditions The 30 virtual inputs conform to DNP3 standards Use the DNP3 functions such as SBO select before operate Direct Operate or Direct Operate with no acknowledge to control virtual inputs Use virtual inputs to control circuit breakers enable or disable reclosing enable or disable under frequency load shedding change setting groups provide interlocking between local remote supervisory control D02416R03 02 F PRO 5100 User Manual 5 9 5 Offliner Settings Software 5 10 Setting Groups F PRO Offliner Settings Document 1 ER lk File Edit Tools Window Help a 18 xl aja Setting Group Names Setting Group 1 Setting Groupt Setting Group 2 Setting Group2 Setting Group 3 Setting Group3 Setting Group 4 Setting Groups Setting Group 5 Setting Groups Setting Group 6 Setting Group 6 Setting Group 7 Setting Group7 ETC Identification Relay O Analog Inputs External Inputs C Output Contacts virtu m8 System Parameters C Record Length E Setting Group 1 Setting Group 1 C Feeder Parameters E Protection Functions C Demand Trend Metering Jere Setting Group 8 Setting Group 8 E ProLogic E Breaker Logic H Group Logic Output Matrix C Settings Summary E Setting Group 2 Setting Gro
51. is required To perform a calibration you must be logged into the relay in Terminal Mode at the Service access level Select Utilities gt Maintenance gt Calibrate The Cal ibrate menu leads you through every analog input and prompts you to apply the appropriate quantity FPRO Unit ID UnitID Util Maintenance User Access Level SERVICE 2000Mar04 20 15 prev menu Outputs Control Virtual Inputs Erase AE Main VB Main VC Main IA Main IB Main IC flux IA Aux IB flux IC Syne Y_ KFJ Quit Enter Calibrate F2 Save Calibration Figure 6 1 Enter actual applied signal level F PRO 5100 User Manual 6 1 6 Testing the F PRO Functions Testing the External Inputs Testing the Output Relay Contacts 6 2 rFPRO Unit ID UnitID Util Maintenance User flccess Level SERVICE 2012Mar02 13 28 prev menu Outputs Control Virtual Inputs Erase rCalibration Main Vfl Main VB Main VC EHI Calibrate AC Input Channel MrStatus Message Calibrate error Gain reading 0 86 out of range 4 00 to 6 00 any key A A A KENTER gt Calibrate lt F2 gt Accept lt F3 gt Quit Figure 6 2 Calibration error out of range For example when you select voltage VA for calibration a prompt appears which asks you which quantity the relay should try to calibrate If a 66 volt phase to neutral quantity is applied to the back VA terminals 66 0 volts would be indicated as
52. only if a fault causes the positive sequence memory voltage to be above 2 volts secondary within the relay If the positive sequence memory voltage goes below 2 volts the directional control of the overcurrent reverts to a non directional characteristic allowing it to operate and trip For system faults that are not bolted three phase faults that cause all phase to neutral voltages to go to zero directional control are maintained because the positive sequence volt age does not go to zero The relay can bring in voltages from both line and bus PTs The Sync Check function if enabled looks at the voltage steady state angle between the bus and the line PT voltage If this angle is within a plus minus specified value 1 to 50 degree magnitude range of setting available the function enables a def inite time delay pickup user selectable 0 to 99 99 seconds after which time an output is produced The line sync reference voltage is taken from a bus and or a line source F PRO uses one single phase to neutral voltage Settings within the relay allow the single phase quantity to be offset from Phase A of the line PT by 0 to 330 degrees in 30 degree increments The Dead Main Live Sync Live Main Dead Sync and Dead Main Dead Sync logic functions can use fixed values of main and sync positive secondary voltages to determine the sync check condition The voltage is fixed at 20 volts secondary voltages be low 20 volts are declared a dead state and vol
53. parity 1 stop bit 4 Rear Panel Not used 5 Rear Panel RJ 11 RJ 45 receptacle When equipped with optional internal modem Used for user interface access through modem When equipped with optional internal Ethernet card User interface access DNP SCADA access Default Ethernet IP address 192 168 1 100 F PRO 5100 User Manual 2 9 2 Setup and Communications 2 10 Signal Name Direction Pin on the Relay PC lt gt Relay Port DCD c 1 RxD c 2 TxD gt 3 DTR gt 4 Common 5 DSR 6 RTS E 7 CTS c 8 No connection 9 Notes Relay is DCE PC is DTE Pins 1 and 6 are tied together internal to the relay Male DB 9 Cable End for Relay Female DB 9 Cable End for Port Computer Port Pin on Cable Pin on Cable 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 F PRO 5100 User Manual D02416R03 02 D02416R03 02 2 Setup and Communications Signal Name Direction Pin on the Modem Modem lt gt Relay Adapter DCD 3 4 RxD gt 2 TxD c 3 DTR e 4 Common 5 DSR gt 6 RTS lt 7 CTS gt 8 No connection 9 Notes Relay with modem adapter is DTE modem is DCE Pins 1 and 6 are tied together internal to the relay F PRO 5100 User Manual 2 11 2 Setup and Communications Maintenance Menu 2 12 The relay has a Maintenance Menu that can be accessed by connection through a VT 10
54. referenced to this signal No settings are re quired to differentiate between modulated or unmodulated signals this is au tomatically detected by the relay You enable or disable the IEEE 1344 extension in the terminal mode settings Utilities gt Setup gt Time for details see Utilities on page 3 12 The enabled mode allows the year to be received from the IRIG B signal If the available IRIG B signal has no year extension this setting should be disabled F PRO 5100 User Manual 2 1 2 Setup and Communications Communicating with the Relay IED You can connect to the relay to access its user interface and SCADA services direct serial link user interface and SCADA external or internal modem link user interface only ethernet network link user interface and SCADA Direct Serial Link 2 2 Relay Port 1 or rear Port 2 to PC Serial Port Laptop PC Figure 2 1 Direct Serial Link The relay has three serial ports that provide direct access to its user interface and SCADA services All of the relay s serial ports Ports 1 2 and 3 are configured as EIA RS 232 Data Communications Equipment DCE devices with female DB9 connec tors This allows them to be connected directly to a PC serial port with a stan dard straight through male to female serial cable for pin out for details see Communication Port Details on page 2 9 The relay s user interface is accessed through a standard VT 100 terminal em
55. secondary values magnitude and angle of the voltage and current analog inputs Analog Line Quantities Displays the positive sequence L L voltage positive sequence line current real and reactive power positive sequence voltage frequency THD power factor and 3IO current All values are in primary quantities These are also available from the front panel Analog Demand Demand Displays the current values of the demand metering quantities Includes MW In Out MVAR In Out ABC phase voltages ABC phase currents frequency and THD as well as time of last reset Analog Demand Energy Displays the current value of accumulated MWh and MVARb as well as the date of the last preset reset Analog Demand Peak Displays the peak value of the following quantities MW In Out MVAR In Out ABC phase feeder currents as well as the time of occurence Analog I I t Displays the valus of It for the last breaker operation the total accumulated Pt the last preset reset It value and the accumulated I t set limit for both the main and auxiliary breakers 3 14 F PRO 5100 User Manual D02416R03 02 D02416R03 02 3 Using the IED Getting Started 1 0 Displays the status of all external inputs and output contacts Logic Protection Displays the status of all internal logic including alarm and trip states of all the relay elements Logic ProLogic Displays the status of all ProLogic Logic Setting Groups Displays the current act
56. seconds 0 00 to 999 00 Pickup Delay T2 0 00 seconds 0 00 to 999 00 Drop Out Delay T2 0 00 seconds 0 00 to 999 00 Pickup Delay T3 0 00 seconds 0 00 to 999 00 Drop Out Delay T3 0 00 seconds 0 00 to 999 00 Pickup Delay T4 0 00 seconds 0 00 to 999 00 Drop Out Delay T4 0 00 seconds 0 00 to 999 00 Operator 1 Input A Unused 0 gt Operator 2 Input B Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Breaker Logic 3 BkrLogic 3 BkrLogic 3 Disabled Alarm LED Enabled Message Parameter lt none gt Count Limit 0 0 to 99999 Pickup Delay T1 0 00 seconds 0 00 to 999 00 Drop Out Delay T1 0 00 seconds 0 00 to 999 00 Appendix B 14 F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range Pickup Delay T2 0 00 seconds 0 00 to 999 00 Drop Out Delay T2 0 00 seconds 0 00 to 999 00 Pickup Delay T3 0 00 seconds 0 00 to 999 00 Drop Out Delay T3 0 00 seconds 0 00 to 999 00 Pickup Delay T4 0 00 seconds 0 00 to 999 00 Drop Out Delay T4 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2
57. sixteen Group Logic statements reside in a slower processing thread with in the relay protection algorithms The processing cycle happens once every half second 0 5 s When using ProLogic statements you must keep in mind that a latch or dropout timer should be used if the initiating condition does not last at least 0 5 seconds F PRO Offliner Settings Document 1 4 LE KL File Edit Tools window Help 18 x osa ea o SH 2 O Identification O Relay O Analog Inputs O External Inputs Group Logic Summary v GL 1 Group Logic 1 L Output Contacts Iv oL2 des Tae 4 Virtual inputs I GL 3 Group Logic 3 L Setting Groups GL 4 Group Logic 4 C System Parameters GL 5 Group Logic 5 C Record Length GL 6 Group Logic 6 H 0 Setting Group 1 Setting Group 1 GL 7 Group Logic 7 r GL8 Group Logic 8 Feeder Parameters I GL 9 Group Logic 9 Protection Functions GL 10 Group Logic 10 Demand Trend Metering Deu Group Logic 11 Pt GL 12 Group Logic 12 ProLogic GL 13 Group Logic 13 Breaker Logic TT GL 14 Group Logic 14 gic GL 15 Group Logic 15 GL 16 Group Logic 16 L C Settings Summary C Setting Group 2 Setting Group 2 C Setting Group 3 Setting Group 3 L Setting Group 4 Settina Group 41 zl F PRO Offliner Settings v2 Figure 5 19 Group Logic Output Matrix A Te oe oe Ee Sen Be 18 x D g m eB zelam e Identification
58. the ProLogic pickup delay which was set to 10 seconds Setting Group 1 Logic Statements When setting group one becomes active either through a setting group change or is the default group after relay power up ProLogic 9 becomes high after the 10 00 second delay if EI 1 is low ProLogic 9 is set for a 0 26 second dropout time to be used with ProLogic 10 dropout timer allowing for the slower pro cessing thread where Group Logic is processed and providing a definite timed pulse to the group logic ProLogic 9 ProLogic 9 v Enabled Name ProLogic 9 AND Pickup Delay 10 00 seconds ROSNUS Dropout Delay 026 seconds 1 E 1 1 v Target Enabled Out Input A El 1 Selector 1 Y Figure L 14 ProLogic 9 F PRO 5100 User Manual Appendix L 5 Appendix L F PRO Setting Example Prologic 10 has no intentional delay and becomes high for the combined drop out time of ProLogic 9 and 10 equalling 0 52 seconds ProLogic 10 ProLogic 10 V Enabled Name ProLogic 10 AND Pickup Delay 0 00 seconds 0 1 0 0 Dropout Delay 0 28 seconds E 0 1 HUA arn ES gp JV Target Enabled Input 4 El 1 Selector 1 m Out Input B PL 9 ProLogic 9 X Figure L 15 ProLogic 10 Group Logic 1 is used to switch to the new setting group there is no intentional delay You can also provide four additional logic inputs to be used to provide qualifiers before switching setting groups The example uses a P
59. the desired calibration In a similar way you are prompted to go through all ac analog quantities and provide the information about the injected calibration quantities You must have a test source to perform the function Only the magnitude of the analog input requires calibration not the angle When an input analog channel is calibrated verify the quantity measured by selecting the Metering menu and the Analog Quantity submenu The VA of the ac voltage input is used as a reference quantity by your relay Therefore if it is absent there is not a locked valid relationship among all of the analog quanti ties To test the external inputs the relay is connected to a laptop in the Terminal Mode in service level in the I O sub menu This screen displays the status of the Event Input and the Output Contacts Placing a voltage of 125 Vdc nom 150 V maximum to each of the external inputs in turns causes the input to change from Low to High status These inputs are polarity sensitive This screen has a 0 5 second update rate The output relays are tested to verify their integrity using the terminal mode Utilities menu and the Output Contacts sub menu At this stage the output con tacts can be closed by pressing Enter key This toggles the output contact from Open to Closed Pressing the Enter key again toggles the contact status to Open again The output contact status is verified using an ohmmeter When you exit this sub menu all contact sta
60. 0 N A 12 Analog Inputs Obj 30 31 Static Points Change Event Points Object Group 30 32 Object Variation 1 32 bit Analog Input 1 Analog Input Change 32 bit without Time 2 16 bit Analog Input 2 Analog Input Change 16 bit without Time default 3 32 bit Analog Input without flag 3 Analog Input Change 32 bit with Time 4 16 bit Analog Input without flag 4 Analog Input Change 16 bit with Time default Class 0 2 Note Analog Inputs are scanned with 500 ms resolution Note Nominal is based on 69 V secondary voltage PT ratio for voltage channels and either 1A or 5A secondary current CT ratio for current channels dependent upon the format of CT installed in the F PRO Change Event Buffer Size 100 Appendix F 8 F PRO 5100 User Manual D02416R03 02 Appendix F DNP3 Communication Protocol Name And Units Scale eee is Deadband Main Va Mag 0 kV 10 2 2 nominal Main Va Ang 1 degrees 10 2 0 5 degrees Main Vb Mag 2 kV 10 2 2 nominal Main Vb Ang 3 degrees 10 2 0 5 degrees Main Vc Mag 4 kV 10 2 2 nominal Main Vc Ang 5 degrees 10 2 0 5 degrees Main la Mag 6 A 1 2 2 nominal Main la Ang 7 degrees 10 2 0 5 degrees Main Ib Mag 8 A 1 2 2 nominal Main Ib Ang 9 degrees 10 2 0 5 degrees Main Ic Mag 0 A 1 2 2 nominal Main Ic Ang 1 degrees 10 2 0 5 degre
61. 0 terminal emulator such as the HyperTerminal program Using ei ther direct serial or modem connection 1 Use the terminal program to connect to the serial port either through direct serial link or modem 2 Select Enter the relay responds with a login prompt 3 Login as maintenance in lower case A menu appears as below NxtPhase System Utility v1 3 NxtPhase Customer support 204 477 0591 support amp nxtphase com Modify IP Address subnet mask and default gateway if applicable View system diagnostics Retrieve system diagnostics Restore ALL default settings including calibration Restore only default configuration settings channel definitions device se Restore only default system setup ports time settings Force hardware reset View network statistics if applicable 9 Monitor SCADA Endble Disapls Internal Modem if one exists Exit Please enter a command 1 11 Figure 2 5 Maintenance Menu Commands 1 4 5 6 7 and 10 are Port 1 access only F PRO 5100 User Manual D02416R03 02 2 Setup and Communications Modify IP address Modifies the LAN IP address when equipped with an optional internal 10BaseT Ethernet card View system diagnostic Displays the internal status log Retrieve system diagnostics Automatically packages up the internal status log plus set ting and setup information and downloads it in compressed form to your computer This file c
62. 02416R03 02 The F PRO has a demand metering feature which calculates the following quantities 3 phase real power send MW 3 phase real power receive MW 3 phase reactive power send MVAR 3 phase reactive power receive MVAR A Phase Current A Pri B Phase Current A Pri C Phase Current A Pri A Phase Voltage V Pri L N B Phase Voltage V Pri L N C Phase Voltage V Pri L N Frequency in Hz THD in You can select from three calculation types integrating rolling and thermal They are described in detail below Demand Trend Metering I Enabled Demand Interval minutes 5 el Demand Meter Type Figure 4 16 Integrating Demand Meter Integrating demand meter is a linear average of the quantity over the demand interval Each new value only becomes available at the end of each time inter val The average is calculated from samples taken every 0 5 seconds during the demand interval Therefore the equation for calculating what the demand quantity will be is based on the following equation New demand value Sum of the samples during the demand interval 120 Demand Interval Setting 1 0 PU T T T T T time minutes 0 1 2 3 4 5 Figure 4 17 Step Power Input F PRO 5100 User Manual 4 17 4 Protection Functions and Specifications Rolling Demand Meter 4 18 1 0 PU T I T T T time minutes 0 1 2 3 4 5 Figure 4 18 Integrating Demand Met
63. 1 Hz s 4 10 Hz s 8 Delay error ms Hz s Pickup Multiple Figure B 2 Time delay Error at 2 Seconds Time Delay Error 1s 2 8 a 1 Hz s 4 10 Hz s e 8 Time Delay Error ms y a 2 8 a amp 9 0 1 Hz s E 8 Multiple of Hz s Pickup Figure B 3 Time Delay Error at 1 Second D02416R03 02 F PRO 5100 User Manual Appendix A 5 Appendix A IED Specifications Time Delay Error 10s 9 0 1 Hz s 8 1 Hz s Time Delay Error ms Multiple of Hz s Pickup Figure B 4 Time Delay Error at 10 Seconds Appendix A 6 F PRO 5100 User Manual D02416R03 02 Appendix B IED Settings and Ranges D02416R03 02 When a setting has been completed in the F PRO Offliner Settings software it can be printed along with the ranges available for these settings This is a view only option that is if you want to change settings you must go back into the settings portion dealing with that setting to make changes The summary is however a quick way of having a look at all the settings in a very compact form The top part of the settings summary identifies the date that the settings were done the relay identification the station that the relay is applied and the loca tion The setting summary provides a list of all the current and vo
64. 250 Vdc nominal on a per input basis The External Input and Comm Board also provides the relay with two rear panel RS 232 ports IRIG B time synchronization input and optional network or telephone connection The RS 232 ports are female DB 9S connectors IRIG B is a male BNC and network or telephone is a female RJ 45 modular jack The Relay Output Board provides 12 normally open contact outputs for relay ing alarms and control 1 normally closed output contact for indicating proper relay operation The power supply operates from 40 to 300 Vdc or 120 Vac 20 at 50 60 Hz This wide operating range provides easier installation by eliminating pow er supply ordering options The AC Analog Input Board has 6 current transformer inputs and 4 potential transformer inputs On board anti aliasing filters provide accurate and secure digitization of the ac input signals The MPB has analog data acquisition high speed digital signal processing for triggering and data conversion communications and interface logic to perform the core functions of the relay The Digital Signal Processor DSP on the MPB performs the protective relay ing functions of the relay separate from the 486 CPU It has its own flash mem ory and self checking for fully independent operation The Main Processor Board has 24 channels of high speed 12 bit plus sign analog to digital conversion Re programmable flash memory for the DSP allows independent relay op
65. 32 0x31 0x20 hu 40533 0x54 0x72 TY 40534 0x69 0x70 i p 40535 0x20 0x41 TA 40536 0x42 0x20 BB 40537 0x31 0x2E qu 40538 0x30 Ox6B 0 K 40539 0x6D 0x0 m Appendix E 10 F PRO 5100 User Manual D02416R03 02 Appendix F DNP3 Communication Protocol Device Profile D02416R03 02 Vendor Name ERLPhase Corporation Device Name Relay Model Highest DNP Level Supported For Requests 2 For Responses 2 Device Function _ Master x Slave Maximum Data Link Frame Size octets Transmitted 292 Received 292 Maximum Application Fragme Size octets Transmitted 2048 Received 2048 Maximum Data Link Re tries _ None x Fixed at 3 Configurable range to __ Maximum Application Layer Re tries x None Configurable range to Requires Data Link Layer Confirmation Never Always Sometimes x Configurable either always or never Requires Application Layer Confirmation Never Always not recommended x When reporting Event Data Slave x When sending multi fragment responses Slave Maximum number of control objects per request 16 Notes Control Trip Close Code Combination supported Latch On NUL Latch Off NUL Pulse On NUL Pulse duration fixed at 1 s Sometimes Configurable Timeouts in seconds while waiting for Data Link Confirm None x Fixedat2 Variable Configurable Complete Application Fragment x None F
66. 39 N A 81 2 Trip 40 N A 81 3 Trip 41 N A 81 4 Trip 42 N A THD Alarm 43 N A Auxillary Alarm 44 N A ProLogic 1 45 N A ProLogic 2 46 N A ProLogic 3 47 N A ProLogic 4 48 N A ProLogic 5 49 N A ProLogic 6 50 N A ProLogic 7 51 N A ProLogic 8 52 N A ProLogic 9 53 N A ProLogic 10 54 N A Breaker Logic 1 55 N A Breaker Logic 2 56 N A Breaker Logic 3 57 N A Breaker Logic 4 58 N A Breaker Logic 5 59 N A Breaker Logic 6 60 N A Breaker Logic 7 61 N A Breaker Logic 8 62 N A Breaker Logic 9 63 N A Breaker Logic 10 64 N A 79 Initialize 65 N A 79 Block 66 N A 79 Main Lockout 67 N A 79 Aux Lockout 68 N A 50BF Initiate 69 N A Group Logic 1 70 N A 10 Group Logic 2 71 N A 10 Group Logic 3 72 N A 10 F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix F DNP3 Communication Protocol Name Point Index bog rd Object Group Group Logic 4 73 N A 0 Group Logic 5 74 N A 0 Group Logic 6 75 N A 0 Group Logic 7 76 N A 0 Group Logic 8 77 N A 0 Group Logic 9 78 N A 0 Group Logic 10 79 N A 0 Group Logic 11 80 N A 0 Group Logic 12 81 N A v Group Logic 13 82 N A 0 Group Logic 14 83 N A 0 Group Logic 15 84 N A 0 Group Logic 16 85 N A 0 Virtual Inpu 86 N A 0 12 Virtual Input 2 87 N A 0 12 Virtual Input 3 88 N A 0 12 Virtual Input 4 89 N A 0 12 Virtual Input 5 90 N A 0 12
67. 6R03 02 Appendix L F PRO Setting Example El 1 low El 2 high and EI 3 low Group Logic 14 Go to Group 3 V Enabled Name So to Group 3 AND Setting Group to Activate SG 3 Setting Group 3 y Pickup Delay 3 seconds input E11 Selector F mua E21seectora v mute El3isetectora Input PL 8 Block Group Logic y Out Input E El 4 43CS Local Remote y Figure L 22 Group Logic 14 2 2 olo 2 o 2 o alojojo El 1 high El 2 high and El 3 low Group Logic 13 Go to Group 4 Iv Enabled Name Goto Group 4 AND Setting Group to Activate 56 4 Setting Group 4 0 Pickup Delay D seconds 0 1 4 Input A El 1 Selector 1 Y Input B El 2 Selector 2 h Input C El 3 Selector 3 hd Input PL Block Group Logic v D gt j Out Input E El 4 43CS Local Remote Y Figure L 23 Group Logic 13 2 o 2 o 2 o o o El 1 low El 2 low and El 3 high Group Logic 12 Go to Group 5 Iv Enabled mgs Go to Group 5 AND Setting Group to Activate 5G 5 Setting Group 5 E 0 Pickup Delay 5 seconds 0 1 1 input f E11 Selector 1 m Input B El 2 Selector 2 x Input C El 3 Selector 3 Input D PL 8 Block Group Logic y Out Input E El 4 43CS Local Remote Figure L 24 Group Logic 12 alol lo alojojo F PRO 5100 User Manual Appendix L 9
68. 8 250 Vdc 120 Vac Full Operating Range 40 300 Vdc Memory Settings and records are stored in non Records are stored in a circular buffer volatile memory Protection Functions IEEE Dev 50LS 50BF 50 51 67 50N 51N 67 46 50 51 67 25 27 59 27 32 59 60 79 81 21P THD Alarm Feeder protection takes in 6 currents and 4 voltages 10 ProLogic statements provide flexible solutions 10 Breaker Logic statements provide flexible breaker condition monitoring Recording Fault 96 s c oscillography of all analog and Records up to the 25th harmonic external input channels Viewing software provides waveform Capacity up to 15 x 2 second records symmetrical components and harmonic analysis Trend MW In and Out MVAR In and Out I V Available in front panel and SCADA PF Frequency THD Capacity 30 to 360 ports as metering quantities days Events 250 events Circular event log A D Resolution 13 bits 8192 counts full scale peak to peak Input amp Output Analog Input Channels 10 6 currents 4 voltages Rating In 5 Aor 1 A Vn 69 V Continuous 3x In 2x Vn One Second 20x In without distortion One Minute 3x Vn once per hour Sampling Resolution 12 bits plus sign amplitude measure ment accuracy 0 5 for 54 to 66 Hz Burden ac input voltage lt 0 15 VA 67 V ac input current lt 0 50 VA 5A Analog Input Sampling Sample rate 96 samples cyc
69. 9 ERL F PRO Feeder Protection Relay Model 5100 User Manual Version 3 1 Rev 0 Preface Information in this document is subject to change without notice 2013 ERLPhase Power Technologies Ltd All rights reserved Reproduction in any manner whatsoever without the written permission of ERLPhase Power Technologies Ltd is strictly forbidden This manual is part of a complete set of product documentation that includes detailed drawings and operation Users should evaluate the information in the context of the complete set of product documentation and their particular applications ERLPhase assumes no liability for any incidental indirect or consequential damages arising from the use of this documentation While all information presented is believed to be reliable and in accordance with accepted engineering practices ERLPhase makes no warranties as to the completeness of the information All trademarks used in association with B PRO F PRO iTMU L PRO ProLogic S PRO T PRO TESLA TESLA Control Panel Relay Control Panel RecordGraph and RecordBase are trademarks of ERLPhase Power Technologies Ltd Windows is a registered trademark of the Microsoft Corporation HyperTerminal is a registered trademark of Hilgraeve Modbus is a registered trademark of Modicon Contact Information D02416R03 02 ERLPhase Power Technologies Ltd Website www erlphase com Email info erlphase com Technical Support Email s
70. 9 Pickup Delay 2 1 50 seconds 0 01 to 99 99 50 51 Phase Overcurrent 50 Enabled Directional Control forward Pickup 10 00 amperes 0 25 to 50 00 Pickup Delay 1 00 seconds 0 01 to 99 99 51 Enabled Directional Control forward Pickup 10 00 amperes 0 25 to 50 00 F PRO 5100 User Manual Appendix B 5 Appendix B IED Settings and Ranges Appendix B 6 F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range PP SS ee Curve Type User defined TMS 0 50 5 0 01 to 10 00 A 13 5000 5 0 0010 to 100 0 B 0 0000 0 0 to 10 0 p 1 00 gt 0 01 to 10 0 TR 21 60 7 0 10 to 100 0 Initiate Fault Location Enabled ProLogic Control Disabled 50N 51N Neutral Overcurrent 50N Enabled Directional Control forward Pickup 10 00 amperes 0 25 to 50 00 Pickup Delay 1 00 seconds 0 01 to 99 99 51N Enabled Directional Control forward Pickup 10 00 amperes 0 25 to 50 00 Curve Type IEC very inverse TMS 0 50 0 01 to 10 00 A 13 5 3 B 0 0 p 1 0 z E TR 21 60 E Initiate Fault Location Enabled ProLogic Control Disabled 46 50 51 Negative Sequence Overcurrent 46 50 Enabled Directional Control forward Pickup 10 00 amperes 0 25 to 50 00 Pickup Delay 1 00 seconds 0 01 to 99 99 46 51 Enabled Directional Control forward Pickup 10 00 amperes 0 25 to 50 00 Curve Type IEC very inv
71. Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 3 Group Logic 3 Group Logic 3 Disabled Setting Group to Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 4 Group Logic 4 Group Logic 4 Disabled Setting Group to Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Appendix B 20 F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range Input C Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 5 Group Logic 5 Group Logic 5 Disabled Setting Group to Activate lt none gt Pickup
72. D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 9 Group Logic 9 Group Logic 9 Disabled Setting Group to Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 10 Group Logic 10 Appendix B 22 F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range Group Logic 10 Disabled Setting Group to Activate none Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 11 Group Logic 11 Group Logic 11 Disabled Setting Group to Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused
73. Dropout Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Breaker Logic 1 BkrLogic 1 BkrLogic 1 Disabled Alarm LED Enabled Message Parameter lt none gt Count Limit 0 0 to 99999 Pickup Delay T1 0 00 seconds 0 00 to 999 00 Drop Out Delay T1 0 00 seconds 0 00 to 999 00 Pickup Delay T2 0 00 seconds 0 00 to 999 00 Drop Out Delay T2 0 00 seconds 0 00 to 999 00 Pickup Delay T3 0 00 seconds 0 00 to 999 00 Drop Out Delay T3 0 00 seconds 0 00 to 999 00 Pickup Delay T4 0 00 seconds 0 00 to 999 00 Drop Out Delay T4 0 00 seconds 0 00 to 999 00 Operator 1 Input A Unused 0 gt F PRO 5100 User Manual Appendix B 13 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range Se ee Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Breaker Logic 2 BkrLogic 2 BkrLogic 2 Disabled Alarm LED Enabled Message Parameter lt none gt Count Limit 0 2 0 to 99999 Pickup Delay T1 0 00 seconds 0 00 to 999 00 Drop Out Delay T1 0 00
74. Input E lt Unused 0 gt Breaker Logic 7 BkrLogic 7 BkrLogic 7 Disabled Alarm LED Enabled Message Parameter lt none gt Count Limit 0 i 0 to 99999 Pickup Delay T1 0 00 seconds 0 00 to 999 00 Drop Out Delay T1 0 00 seconds 0 00 to 999 00 Pickup Delay T2 0 00 seconds 0 00 to 999 00 Drop Out Delay T2 0 00 seconds 0 00 to 999 00 Pickup Delay T3 0 00 seconds 0 00 to 999 00 Drop Out Delay T3 0 00 seconds 0 00 to 999 00 Pickup Delay T4 0 00 seconds 0 00 to 999 00 Drop Out Delay T4 0 00 seconds 0 00 to 999 00 Operator 1 Input A Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Breaker Logic 8 BkrLogic 8 BkrLogic 8 Disabled Alarm LED Enabled Message Parameter lt none gt Count Limit 0 7 0 to 99999 Pickup Delay T1 0 00 seconds 0 00 to 999 00 F PRO 5100 User Manual Appendix B 17 Appendix B IED Settings and Ranges Appendix B 18 Name F PRO Settings Summary Setting Group 1 Setting Group 1 Symbol Value Unit Range Drop Out Delay T1 0 00 second 0 00 to 999 00 Pickup Delay T2 0 00 second 0 00 to 999 00 Drop Out Delay T2 0 00 second 0 00 to 999 00 Pickup Delay
75. Overcurrent 50N Enable disable Directional Forward reverse non directional Pickup 0 25 to 50 00 5 A 0 05 to 10 00 1 A Pickup Delay 0 01 to 99 99 seconds 0 00 to 99 99 non directional 51N Enable disable Directional Forward reverse non directional Pickup 0 25 to 50 00 5 A 0 05 to 10 00 1 A Curve Type For details see IEC and IEEE Curves on page 4 1 TMS 0 01 to 10 00 A 0 0010 to 1000 0000 B 0 0000 to 10 0000 p 0 01 to 10 00 TR 0 10 to 100 00 Initiate Fault Location Enable disable ProLogic Control Enable disable Negative Sequence Overcurrent provides protection for any unbalanced faults Functions 46 50 46 51 67 are similar to 50N 51N 67 except they use negative F PRO 5100 User Manual 4 3 4 Protection Functions and Specifications sequence current to drive their algorithms You can define forward reverse or non directional control on either 46 50 or 46 51 functions All the curve defi nitions are the same as the Phase Overcurrent The only difference is that this function uses the negative sequence current I2 rather than phase current The equation is For L pickup For I pickup T I2 TMS B A y Pickup i T2 TMS LE y Pickup B 46 50 46 51N Negative Sequence Overcurrent 46 50 Enable disable Directional Forward reverse non directional Pickup 0 25 to 50 0 5 A
76. T3 0 00 second 0 00 to 999 00 Drop Out Delay T3 0 00 second 0 00 to 999 00 Pickup Delay T4 0 00 second 0 00 to 999 00 Drop Out Delay T4 0 00 second 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Breaker Logic 9 BkrLogic 9 BkrLogic 9 Disabled Alarm LED Enabled Message Parameter lt none gt Count Limit 0 0 to 99999 Pickup Delay T1 0 00 second 0 00 to 999 00 Drop Out Delay T1 0 00 second 0 00 to 999 00 Pickup Delay T2 0 00 second 0 00 to 999 00 Drop Out Delay T2 0 00 second 0 00 to 999 00 Pickup Delay T3 0 00 second 0 00 to 999 00 Drop Out Delay T3 0 00 second 0 00 to 999 00 Pickup Delay T4 0 00 second 0 00 to 999 00 Drop Out Delay T4 0 00 second 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Valu
77. a settings file 5 4 creating a setting file from an older version 5 5 CT turns ratio 5 12 D date amp time 3 3 demand 3 10 demand trend metering 5 14 diagnostics 3 12 E erase 3 12 event log 3 11 4 28 external inputs 3 9 5 8 testing 6 2 F PRO 5100 User Manual Index F fault locator 4 13 feeder parameters 5 13 5 14 front display 3 1 3 2 G graphing protection functions 5 3 grounding 2 1 group logic 4 21 5 16 5 17 L 11 l I I t 4 16 5 15 I O 3 10 ID 3 9 identification 5 6 inputs AC current and voltage 2 1 external 1 4 IRIG B time 2 1 Installation software 5 2 Irig B 3 2 L LED lights 3 2 line quantities 3 10 list 3 11 load from Offliner 3 9 logic 3 10 M maintenance 3 12 maintenance menu 2 12 Metering 3 10 metering 3 10 Modbus 3 12 modbus 3 12 O Offliner settings 3 1 5 1 output contacts 3 9 5 8 output matrix 5 17 output relay contacts 1 4 testing 6 2 P parameters System 5 11 passwords 3 5 3 13 physical mounting 7 1 ports 3 12 power supply 2 1 ProLogic 3 11 4 14 5 14 5 16 Index PT turns ratio 5 12 Q quit 3 13 R record duration and extension 4 27 initiation 4 26 storage retrieval and analysis 4 27 record length 5 12 RecordBase View 5 5 recording 4 26 records 3 11 relay functional 3 1 3 2 relay inoperative alarm 1 4 retrieve to Offliner 3 10 S SCADA 3 12 sending a new setting file 5 4 service 3 13 service required 3 2 Setting groups 3 9
78. abled 50LS 2 Aux Enabled 50BF Main Enabled 50BF Aux Disabled 50 Enabled 51 Enabled 50N Enabled 51N Enabled 46 50 Enabled 46 51 Enabled 25 Sync Check Enabled 25 Dead Main Live Sync Enabled 25 Live Main Dead Sync Enabled 25 Dead Main Dead sync Enabled 79 Main Enabled 79 Aux Enabled 59 1 Enabled 59 2 Enabled 27 1 Enabled 27 2 Enabled 60 Enabled 81 1 Disabled 81 2 Disabled 81 3 Disabled F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range 81 4 Disabled 32 P Enabled 32Q Enabled 21P 1 Enabled 21P 2 Enabled THD Enabled 50LS Low Set Overcurrent 50LS 1 Main Enabled Gate Switch OR Pickup 10 0 amperes 0 1 to 50 0 Pickup Delay 0 00 seconds 0 00 to 99 99 50LS 2 Main Enabled Gate Switch OR Pickup 10 0 amperes 0 1 to 50 0 Pickup Delay 0 00 seconds 0 00 to 99 99 50LS 1 Aux Enabled Gate Switch OR Pickup 10 0 amperes 0 1 to 50 0 Pickup Delay 0 00 seconds 0 00 to 99 99 50LS 2 Aux Enabled Gate Switch OR Pickup 10 0 amperes 0 1 to 50 0 Pickup Delay 0 00 seconds 0 00 to 99 99 50BF Breaker Failure 50BF Main Enabled Pickup Delay 1 0 50 seconds 0 01 to 99 99 Pickup Delay 2 1 50 seconds 0 01 to 99 99 50BF Aux Disabled Pickup Delay 1 0 50 seconds 0 01 to 99 9
79. age Size of Current Event Mes Function Code 3 address 40516 Indicates the number of 16 bit registers used to contain the current event Event data is stored with two characters per register A reading of zero indi cates that there are no unacknowledged events available in the current set NB The Refresh Event List function can be used to check for new events that have occurred since the last Refresh Event List Function Code 3 address 40517 Identifies fault location events These events are identified by FL in this register Non fault location events contain in this location D02416R03 02 F PRO 5100 User Manual Appendix E 9 Appendix E Modbus RTU Communication Protocol Read Event Message Function Code 3 addresses 40518 40576 Contains the current event message Two ASCII characters are packed into each 16 bit register All unused registers in the set are set to 0 Register Value Meaning High Byte Low Byte 40516 0x00 0x1B Event text size 27 0x1B hex 40517 0x46 0x4C FL Fault locator event 40518 0x32 0x30 2 0 40519 0x30 0x30 0 0 40520 0x53 0x65 S e 40521 0x70 0x32 p 2 40522 0x31 0x20 E 40523 0x32 0x30 2 0 40524 Ox3A 0x31 ane be 40525 0x36 Ox3A e 40526 0x31 0x36 1 6 40527 0x2E 0x39 y 9 40528 0x36 0x36 6 6 40529 0x20 Ox3A Bond 40530 0x20 0x35 UO 40531 0x30 0x2D oO 405
80. age 3 5 3 Select the desired baud rate for the appropriate port by toggling through the options using the Space or Enter keys Save the new setting with the F2 key The message New communications settings loaded will appear The new baud rate will be used on that port the next time you log in to it To change the baud rate on your computer s serial port From within HyperTerminal bring up the Properties dialogue press the Configure button and set the baud rate field to the desired value 2 Save the changes Unlike a direct serial link the baud rates for a modem link do not have to be the same on your computer and on the relay The modems automatically nego tiate an optimal baud rate for their communication The baud rate set on the relay only affects the rate at which the relay commu nicates with the modem Similarly the baud rate set in HyperTerminal only af fects the rate at which your computer communicates with its modem Details on how to set these respective baud rates are described above except that you modify the Port 2 baud rate on the relay and the properties of the modem in Hy perTerminal F PRO 5100 User Manual 2 7 2 Setup and Communications Accessing the Relay s SCADA Services Protocol Selection Communication Parameters Diagnostics 2 8 The relay supports DNP3 Level 2 and Modbus SCADA protocols as a stan dard feature on all relays DNP3 is available through a direct serial link or the E
81. ames Setting Group 1 Setting Group 1 Setting Group 2 Setting Group 2 Setting Group 3 Setting Group 3 Setting Group 4 Setting Group 4 Setting Group 5 Setting Group 5 Setting Group 6 Setting Group 6 Setting Group 7 Setting Group 7 Setting Group 8 Setting Group 8 System Parameters Base MVA 100 0 MVA Pri 1 0 to 1000 0 Phase Rotation ABC Ring Bus Configuration Aux CT Line Disabled Input Main CT Turns Ratio 240 0 1 0 to 10000 0 Aux CT Turns Ratio 240 0 1 0 to 10000 0 Main PT Turns Ratio 1000 0 1 0 to 10000 0 Sync PT Turns Ratio 1000 0 0 to 10000 0 Sync PT Phase 0 degrees Line to Line Voltage 115 00 kV 00 to 500 00 F PRO 5100 User Manual Appendix B 3 Appendix B IED Settings and Ranges Appendix B 4 F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range A eee Distance Unit Selection km Record Length Fault Record Length 0 5 seconds 0 2 to 2 0 Trend Auto Save Disabled Event Auto Save Disabled Feeder Parameters Feeder Length 100 00 km 1 00 to 1000 00 Positive Sequence Impedance 14 40 ohms 0 05 to 66 00 Positive Sequence Angle 80 0 degrees 25 0 to 89 0 Zero Sequence Impedance 80 00 ohms 0 05 to 200 00 Zero Sequence Angle 70 0 degrees 25 0 to 89 0 Protection Functions 50LS 1 Main Enabled 50LS 1 Aux Enabled 50LS 2 Main En
82. an then be sent to our cus tomer support to help diagnose a problem Restore settings Use this menu to force the system back to default values if you suspect a problem due to the unit s settings calibration and or setup parameters Force hardware reset Manually initiates a hardware reset Note that the communi cation link is immediately lost and cannot be re established until the unit completes its start up View network statistics View IP TCP and UDP statistics when equipped with inter nal 10BaseT Ethernet card Monitor SCADA Shows real time display of SCADA data Enable disable Modem Enables or disables the internal modem Firmware Update The relay has an update login that can be accessed by a connection through a VT100 terminal emulator such as HyperTerminal This login is available D02416R03 02 only from Port 1 1 Use the terminal program to connect to Port 1 2 Select Enter the terminal responds with a login prompt 3 Login as update in lower case The firmware update is used to update the relay s software with maintenance or enhancement releases Please see the F PRO Firmware Update Procedure documentation that comes with the firmware update for instructions on how to update the firmware on the relay F PRO 5100 User Manual 2 13 3 Using the IED Getting Started F PRO Feeder Protection Relay OO Relay Functional IRIG B Functional Service Required Test Mo
83. are delay The relay does not reset any ProLogic Group Logic or Virtual Input latch func tions during the setting save or active group change Retaining latch status al lows the relay continuous access to specific latched logic states This is useful when the relay has ProLogic Group Logic or Virtual Input functions used to block protection or ancillary functions for specific operating conditions The relay resets all the events that are currently high and reports states of all the events that remain high after a setting change To view the active setting group and status of the group logic functions in real time via the terminal UI enter the Metering Logic Setting Group menu choice To view a snapshot of the group logic data enter the Settings Active Group menu choice View the active setting group with the relay front panel display There is no ca pability to change active setting group with the front panel The front panel dis plays two lines of data the first line contains the Active Setting Group x where x is the current setting group and flashes The second line of data dis plays the user defined setting name for the current setting group To view the active setting group press the Previous or Next buttons to cycle through the time date indication and the serial port settings The flash memory on the main processor board is capable of approximately one hundred thousand erases The retention of the active setting group cau
84. ate all 10 analog ac Requires service access level Outputs close and open output contacts independent of the asso ciated relay functions Requires service access level Control Virtual Inputs set re set and pulse virtual inputs Pulse width is 1 second Latched virtual inputs reset after pulse command has executed Requires change or access level Erase use submenus Records and Event Logs to erase these records from the relay memory Reset Demand Metering It and Breaker Logic counts Requires change or service access level Diagnostics Transfer Diagnostics transfers relay diagnostic file to the PC The diagnostic file can be sent to us for analysis Modbus allows Modbus Communications to enter its Diagnostic Mode Follow directions on the screen Programming done using the Modicon Modbus Protocol Reference Guide PI MBUS 300 Rev G published by Modicon Inc dated November 1994 For details see Modbus RTU Communication Protocol in Appendix E F PRO 5100 User Manual D02416R03 02 3 Using the IED Getting Started Access Quit Breaker Login Breaker Log Metering Reset Quit D02416R03 02 Submenus View Access BREAKER Access CHANGE Access Password view Changes the access level to view Allows you read only access to relay information breaker Changes the access level to breaker change Changes the access level to change Allows you to modif
85. becomes non directional The fault location allows the function to initiate a fault location if it operates Device 51 provides three IEC inverse time curve types three IEEE inverse time curve types of overcurrent protection and one user defined curve The equation and the parameters of Device 50 51 67 are listed below ProLogic control can be used to supervise the inverse time integration of the 51 Table 4 1 IEC and IEEE Curves Characteristic A B p TR 1 IEC Standard Inverse 0 14 0 0 02 13 50 2 IEC Very Inverse 13 5 0 1 0 47 30 3 IEC Extremely Inverse 80 0 0 2 0 80 00 4 IEEE Moderately Inverse 0 0103 0 0228 0 02 0 97 5 IEEE Very Inverse 3 922 0 0982 2 0 4 32 6 IEEE Extremely Inverse 5 64 0 0243 2 0 5 82 7 edad 0 001to 0 0to 0 01 to 0 1 to 100 0 10 0 10 0 100 0 These constants are copied from the IEEE standards they are not given in the IEC standard F PRO 5100 User Manual 4 1 4 Protection Functions and Specifications 4 2 For I gt pickup For I lt pickup TU TMS B a Pickup TMS TR TD zu 50 51 Phase Overcurrent 50 Enable disable Directional Forward reverse non directional Pickup 0 25 to 50 00 5 A 0 05 to 10 00 1 A Pickup Delay 0 01 to 99 99 seconds 0 00 to 99 99 non directional 51 Enable disable Directional Forward reverse non directional
86. bout F PRO Settings l File Edit Tools Window Help Ole l E EE Y New Save Copy Print About Setting Open Cut Paste Copy Group Show or Hide Graph Left Hand Side Tree Figure 5 2 Top Tool Bar Tool Bar Windows Menu Icon Restore minimize close File New open close save save as print setup Edit Undo cut copy paste Tools Display and print only enabled protection devices Window Cascade tile arrange icons F PRO 5100 User Manual D02416R03 02 Graphing Protection Functions D02416R03 02 5 Offliner Settings Software Help Help Topics About F PRO Settings Settings Program Icons New Create new default settings file Open Open any valid settings file Save Save current settings file Cut Edit function Copy Edit function Paste Edit function Undo Edit function Copy Graph Copy to clipboard Copy Setting Copy from Setting Group X to Setting Group Y Group Print Print from Output Matrix any graph or Settings Summary Show or Hide Left Show or Hide Left Hand Side Tree Hand Side Tree About Version number Grid On Grid Off The graph can be viewed with the grid on or off by clicking the Grid On or Grid Off button A right click on the trace of the curve gives you the x and y coor dinates Print Graph To print a particular graph click the Print Graph button Zoom on Graphs Graphs can be z
87. bove options must be specified at the time of ordering F PRO 5100 User Manual D02416R03 02 2 Setup and Communications Power Supply Case Grounding V A wide range power supply is standard The nominal operating range is 48 250 Vdc 120 Vac 50 60 Hz To protect against possible short circuit in the supply use an inline fuse or circuit breaker with a 5 A rating Make the chassis ground connection to ensure proper operation and safety There are no power switches on the relay When the power supply is connect ed the relay starts its initialization process and takes about 40 seconds to com plete showing the green Relay Functional LED You must ground the relay to station ground using the case grounding terminal at the back of the relay for details see for details see Figure 1 3 F PRO Back View on page 1 3 WARNING To ensure safety and proper operation you must connect the relay to the station ground using the rear grounding terminal on the relay Ground the relay even when testing Do not rely on the rack mounting screws to provide case grounding IRIG B Time Input D02416R03 02 The relay is equipped to handle modulated or unmodulated GPS satellite time IRIG B signals The IRIG B time signal is connected to the BNC connection on the back of the relay When the IRIG B signal is provided to the relay and is enabled in the settings through the user interface the IRIG B functional LED comes on and the relay clock is
88. cates further drop down menu click to dis play list Y Indicates a warning D02416R03 02 F PRO 5100 User Manual V Version Compatibility D02416R03 02 This chart indicates the versions of Offliner Settings RecordBase View and the User Manual which are compatible with different versions of F PRO firm ware RecordBase View and Offliner Settings are backward compatible with all ear lier versions of records and setting files You can use RecordBase View to view records produced by any version of F PRO firmware and Offliner Settings can create and edit older setting file versions Minor releases designated with a letter suffix e g v3 1a maintain the same compatibility as their base version For example F PRO firmware v3 1c and Offliner Settings v3 1a are compatible F PRO Firmware Software Compatibility Guide Vidc s dad Compatible Offliner Settings v3 0 2 4000 v1 0 or greater v3 0 2 v3 0 or greater v2 0a 2 v2 0 or greater v2 0 2 v2 0 or greater v1 0d 1 v1 0b or greater v1 0c 1 v1 0a or greater v1 0b 1 v1 0a or greater v1 0a 1 v1 0a or greater v1 0 1 v1 0 or greater Please contact ERLPhase Customer Service for complete Revision History F PRO 5100 User Manual vii 1 Overview D02416R03 02 The F PRO model 5100 is a microprocessor based relay providing compre hensive directional overcurrent protection reclosing metering breaker moni toring and recor
89. date Notes Serial and modem connections have a 60 minute inactivity timeout Usernames and passwords are case sensitive login Instructions on logging in and running the user interface are given in Terminal Mode on page 3 5 If you see incorrect characters on a direct serial connection it may mean there is a mismatch between the relay s baud rate and that of the PC Use the Quit function in the relay s user menu to end a session This will close the interface and require the next user to log in to the relay The relay automatically ends a session when it detects the disconnecting of a direct serial cable or a modem hang up For other types of connections e g se rial switches or Ethernet you are advised to use the Quit function to ensure the interface is closed and login protection is activated F PRO 5100 User Manual D02416R03 02 2 Setup and Communications Setting the Baud Rate Direct Serial Link Modem Link D02416R03 02 The baud rate of the relay s serial ports can be shown on the relay s front panel display From the main Date amp Time display press the Next button For a direct serial connection both the relay and your computer must be set to the same baud rate To change the baud rate of a relay serial port 1 Access the relay s user interface through any of the available ports 2 Log in to the user interface and go to the Utilities Setup Ports menu for details see Terminal Mode on p
90. de Alarm Offline Mode Settings Software Online Mode Terminal Mode Start up Sequence The following initialization sequence takes place Test Mode red LED on 2 seconds after power applied Relay Functional green LED on 5 seconds after power applied Front Display on 30 seconds after power applied Test Mode ted LED off 40 seconds after power applied When the relay is powered up the normal sequence of LED operation is Test Mode followed by Relay Functional and IRIG B Functional if available dis play on then Test Mode off The entire sequence takes about 40 seconds Ways to interface with F PRO Front panel display Terminal Mode Offliner Settings software D02416R03 02 F PRO 5100 User Manual 3 1 3 Using the IED Getting Started Front Panel Display View or change settings using Terminal Mode or loading a setting file from Offliner Setting The front panel display is the fastest and easiest way of getting information from the relay Date amp Time LED Lights Target 000000 Previous Next Clear Target Push Buttons Figure 3 1 Front Panel Display The line display the six LED lights and the six push buttons provide selective information about the relay LED Lights Relay Functional Indicates when the relay is functional When the Relay Functional green LED goes on the rear Relay Inoperative contact changes to an open and the protective functions becom
91. ding functions suitable for medium and low voltage lines F PRO has two working modes online and offline In the online mode you can use any communication software package e g Procomm or HyperTermi nal to connect to the F PRO using VT100 terminal emulation In online mode you can change and review relay settings view event and metering information initiate and retrieve recordings and retrieve settings In offline mode you can use Offliner Settings and RecordBase View software to create and review relay settings analyze fault waveforms store records F PRO Feeder Protection Relay Relay Functional IRIG B Functional Service Required Test Mode Offline Mode Settings Software Online Mode Terminal Mode In addition to the protection functions F PRO provides fault recording 96 sample cycle to facilitate analysis of the power system after a disturbance has taken place The triggers for fault recording are established by programming the output matrix and allowing any internal relay function or any external input to initiate recording The primary protection provided is overcurrent based A library for these overcurrent functions provides commonly used IEEE and IEC inverse curves Because the curves are equation driven you can choose to enter an equation parameter directly creating other overcurrent shapes as needed All overcurrent functions are provided with directional control if required usin
92. ds Initial Reset TDI 0 00 to 99 99 seconds Block Reset TDB 0 00 to 99 99 seconds Sync Control Enabled Enable disable The F PRO has a definite time delay main overvoltage function This function looks at all three phase to neutral voltages to determine an overvoltage condi tion The logic gate can be set to either AND or OR gate to detect all 3 phase or any phase of the 3 phases overvoltage conditions The definite time delay can be set to 0 0 for a instantaneous trip Gate Switch Setting 59 Va Main 59 Vb Main 59 Vc Main DS AND Figure 4 8 59 Overvoltage 59 Overvoltage 59 1 Enable disable Gate Switch AND or OR Pickup 1 0 to 138 0 volts Pickup Delay 0 00 to 99 99 seconds 59 2 Enable disable Gate Switch AND or OR Pickup 1 0 to 138 0 volts Pickup Delay 0 00 to 99 99 seconds F PRO 5100 User Manual D02416R03 02 27 Undervoltage 60 Loss of Potential D02416R03 02 4 Protection Functions and Specifications The F PRO has a definite time main undervoltage function The function looks at the phase to neutral voltage of all three phases to make a determination of an undervoltage condition The logic gate can be set to either AND or OR gate to detect all 3 phase or any phase of the 3 phases undervoltage conditions The definite time delay can be set to 0 0 for a instantaneous trip Gate Switch Setting
93. e Note Binary outputs are scanned with 500 ms resolution No change buffer F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix F DNP3 Communication Protocol Name Point Index grange veni Object Group Output Contact 1 0 N A Output Contact 2 1 N A Output Contact 3 2 N A Output Contact 4 3 N A Output Contact 5 4 N A Output Contact 6 5 N A Output Contact 7 6 N A Output Contact 8 7 N A Output Contact 9 8 N A Output Contact 10 9 N A Output Contact 11 10 N A Output Contact 12 11 N A 50LS 1 Main Trip 12 N A 50LS 2 Main Trip 13 N A 50LS 1 Aux Trip 14 N A 50LS 2 Aux Trip 15 N A 50BF 1 Main Trip 16 N A 50BF 2 Main Trip 17 N A 50BF 1 Aux Trip 18 N A 50BF 2 Aux Trip 19 N A 25 27 59 Output 20 N A 79 Main Output 21 N A 79 Aux Output 22 N A 50 Trip 23 N A 51 Alarm 24 N A 51 Trip 25 N A 50N Trip 26 N A 51N Alarm 27 N A 51N Trip 28 N A 46 50 Trip 29 N A 46 51 Alarm 30 N A 46 51 Trip 31 N A 32P Trip 32 N A 32Q Trip 33 N A 59 1 Trip 34 N A 59 2 Trip 35 N A F PRO 5100 User Manual Appendix F 5 Appendix F DNP3 Communication Protocol Appendix F 6 Name Point Index gaange Event Object Group 27 1 Trip 36 N A 27 2 Trip 37 N A 60 Alarm 38 N A 81 1 Trip
94. e uue v Tes Jer LZZ ue qty Gic Jer LLZ que Ter SoZ f Jo LOZ L i Ez hee luz biz liz Biz liz bo bo boz Eo oog VE ZHNO LHNOOLNO 6inO 8NO ZNO 9io SMO HNO EMO ZMO LnOsjnejsdou sjoejuo Aejay 1ndino Aejay OQAO0SZ 0v gH m Figure J 7 F PRO DC Schematic F PRO 5100 User Manual Appendix J 1 D02416R03 02 Appendix K Function Logic Diagram Diagram in plastic sleeve D02416R03 02 F PRO 5100 User Manual Appendix K 1 Appendix L F PRO Setting Example Protection Timers and I O Status Latch Status Event Status Reset Viewing Active Setting Group Front Panel Active Setting Group Flash Memory Write D02416R03 02 The relay does not block any protection functions or external inputs during the setting save or active group change but the external output contacts are reset for one cycle The relay applies the setting parameters resets all protection functions resets all timers and continues to process the protection algorithms but does not apply any action to the output contacts for one cycle For close in heavy fault con ditions that occur at the time of a setting change the relay performance has a maximum increase in output delay of one cycle For light fault conditions the relay performance does not have a noticeable change There is normally a one cycle decision making process The relay algorithms have been processing and when the one cycle blocking ends and the contacts are closed immediately 3ms hardw
95. e 3 14 Analog Analog Inputs Provides secondary values of the ac analog voltages and currents Line Quantities Provides primary voltage kV phase to phase of each line Demand Demand Energy Peak I I t Displays the accumulated I t value and 1 I t value for the last oper ation 1 0 Displays the state of the external inputs and the output contacts Logic F PRO 5100 User Manual D02416R03 02 3 Using the IED Getting Started Protection Protection Functions ProLogic Provides the present status of the internal logic states When a logic level becomes active its state changes from low to high Setting Group Displays current active Setting Group and Group Logic Virtual Inputs Provides the present status of the virtual input logic states When a logic level becomes active its state changes from low to high Records Submenus List Fault Recording Trend Recording and Event Recording Contains the means for initiating and examining recordings List Lists all records Fault Recording Creates fault records Trend Recording Creates trend records Event Recording Creates event records Retrieve Records from the Relay To retrieve records from the relay do the following 1 Navigate to Records gt List and press Enter a records list appears 2 Select Records using the space bar and select R You can also press Enter to retrieve a record directly Th
96. e Unit Range Operator 5 Input E lt Unused 0 gt Breaker Logic 10 BkrLogic 10 BkrLogic 10 Disabled Alarm LED Enabled Message Parameter lt none gt Count Limit 0 0 to 99999 Pickup Delay T1 0 00 seconds 0 00 to 999 00 Drop Out Delay T1 0 00 seconds 0 00 to 999 00 Pickup Delay T2 0 00 seconds 0 00 to 999 00 Drop Out Delay T2 0 00 seconds 0 00 to 999 00 Pickup Delay T3 0 00 seconds 0 00 to 999 00 Drop Out Delay T3 0 00 seconds 0 00 to 999 00 Pickup Delay T4 0 00 seconds 0 00 to 999 00 Drop Out Delay T4 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 1 Group Logic 1 Group Logic 1 Disabled Setting Group to Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 F PRO 5100 User Manual Appendix B 19 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range uu e Hr i n EES Input E Unused 0 gt Group Logic 2 Group Logic 2 Group Logic 2 Disabled Setting Group to
97. e functional IRIG B Functional Indicates the presence of a valid IRIG B time signal Service Required Indicates the relay needs service This LED can be the same state as the Relay Functional LED or can be of the opposite state depending on the nature of the problem The following items bring up this LED DSP failure protection difficulties within the relay Communication failure within the relay Internal relay problems Test Mode Occurs when the relay output contacts are intentionally blocked Possible reasons are Relay initialization on start up User interface processor has reset and is being tested You cannot communicate with the relay through the ports until the front display becomes active and the Test Mode LED goes out Normally the red Target LED remains off after this start up unless the relay had unviewed target messages Output contacts are controlled from the Utilities menu 3 2 F PRO 5100 User Manual D02416R03 02 Push Buttons D02416R03 02 3 Using the IED Getting Started ALARM Occurs when an enabled relay function picks up The red Alarm LED should be off if there are no inputs to the relay If the Alarm LED is on check the event log messages on the front dis play by pressing the View Logs button Target Indicates that a fault has taken place An event message with date and time is presented in the display Date amp Time P
98. e record will be saved in the directory spec ified by the terminal emulation program When using HyperTerminal if Use receiving protocol is set to Z modem with Crash Recovery file transfers are skipped by Hyper Terminal if the record already exists in the downloads folder When using HyperTerminal use Z modem no crash recovery files are received and auto incremented Delete Records from the Relay To delete records from the relay do the following 1 Navigate to Records List and press Enter 2 Select the records for deletion with the space bar and select D The selected records will be deleted Event Log The event log lists events stored in the relay A complete list of the types of events logged is available for details see Event Messages in Appendix D If an event triggered a record then an R is displayed by the event D02416R03 02 F PRO 5100 User Manual 3 11 3 Using the IED Getting Started Utilities 3 12 Sub menus Setup Maintenance Diagnostics Setup Time set manual time IRIG B skew control Requires change or service access level Ports change Baud rates on communication ports Requires change or service access level SCADA select which SCADA protocol Modbus or DNP3 to run on the SCADA port Configure parameters for the selected protocol Such as address or timeout Requires change or service access level Maintenance Calibrate calibr
99. el to rate of change Frequency m _ A I Figure 4 11 Frequency Fixed Level df dt Mme Figure 4 12 Frequency Rate of Change 81 Over Under Frequency 81 1 Disabled Fixed Level Rate of Change Pickup 50 000 to 59 995 or 60 005 to 70 000 fixed level 10 0 to 0 1 or 0 1 to 10 0 rate of change Pickup Delay 0 05 to 99 99 seconds fixed level 0 20 to 99 99 seconds rate of change 81 2 Disabled Fixed Level Rate of Change Pickup 50 000 to 59 995 or 60 005 to 70 000 fixed level 10 0 to 0 1 or 0 1 to 10 0 rate of change Pickup Delay 0 05 to 99 99 seconds fixed level 0 20 to 99 99 seconds rate of change 81 3 Disabled Fixed Level Rate of Change Pickup 50 000 to 59 995 or 60 005 to 70 000 fixed level 10 0 to 0 1 or 0 1 to 10 0 rate of change Pickup Delay 0 05 to 99 99 seconds fixed level 0 20 to 99 99 seconds rate of change 81 4 Disabled Fixed Level Rate of Change Pickup 50 000 to 59 995 or 60 005 to 70 000 fixed level 10 0 to 0 1 or 0 1 to 10 0 rate of change Pickup Delay 0 05 to 99 99 seconds fixed level 0 20 to 99 99 seconds rate of change F PRO 5100 User Manual D02416R03 02 32P 32Q Directional Power 21P Phase Distance THD Alarm Fault Locator D02416R03 02 4 Protection Functions and Specifications F PRO provides directional real power and reactive power protection Set the pickup setting to a positive value trip on forward power flo
100. elay T2 0 00 seconds 0 00 to 999 00 Drop Out Delay T2 0 00 seconds 0 00 to 999 00 Pickup Delay T3 0 00 seconds 0 00 to 999 00 Drop Out Delay T3 0 00 seconds 0 00 to 999 00 Pickup Delay T4 0 00 seconds 0 00 to 999 00 Drop Out Delay T4 0 00 seconds 0 00 to 999 00 Operator 1 Input A Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Breaker Logic 6 BkrLogic 6 BkrLogic 6 Disabled Alarm LED Enabled Message Parameter none Count Limit 0 0 to 99999 Pickup Delay T1 0 00 seconds 0 00 to 999 00 Drop Out Delay T1 0 00 seconds 0 00 to 999 00 Pickup Delay T2 0 00 seconds 0 00 to 999 00 Drop Out Delay T2 0 00 seconds 0 00 to 999 00 Pickup Delay T3 0 00 seconds 0 00 to 999 00 Drop Out Delay T3 0 00 seconds 0 00 to 999 00 Pickup Delay T4 0 00 seconds 0 00 to 999 00 Drop Out Delay T4 0 00 seconds 0 00 to 999 00 Operator 1 Appendix B 16 F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range Input A Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5
101. er Figure 4 17 Step Power Input on page 4 17 shows the input signal which is a magnitude of zero and then suddenly goes to an instantaneous level of 1 0 per unit i e a step change function Figure 4 18 Integrating Demand Meter on page 4 18 shows the integrating de mand meter i e the demand value will not be calculated or updated until the end of the demand interval setting it s 5 minutes for this example The re sponse for integrating demand meter is shown in the following table Time min 1 2 3 4 5 6 Demand of Input 0 0 0 0 100 100 Rolling demand also called sliding window is a process by which intervals are divided into a fixed number of subintervals Instead of calculating demand only at the end of each interval the calculation is performed at the end of each subinterval and totaled and averaged for the interval The subintervalis 1 min ute fixed in F PRO relay The calculation is the same as the Integrating De mand Meter Figure 4 19 Rolling Demand Meter on page 4 18 shows the rolling demand meter response to the input of Figure 4 17 Step Power Input on page 4 17 The demand value is calculated and updated on each subinterval one minute The average calculation is performed over the demand internal setting equal 5 minutes for this example The response to the input shown in figure 1 for roll ing demand meter is shown in the following table Time min 1 2 3 4 5 6 Demand
102. ers Feeder Parameters Line Line to Line Voltage Fixed from System Parameters F PRO 5100 User Manual 5 13 5 Offliner Settings Software Feeder Length 1 0 to 1000 0 km or 0 62 to 621 37 miles Feeder Impedance Positive Sequence Impedance 0 05 to 66 00 ohms Positive Sequence Angle 25 0 to 89 0 degrees Zero Sequence Impedance 0 05 to 200 00 ohms Zero Sequence Angle 25 0 to 89 0 degrees Feeder Parameters permit a parameter entry related to the line voltage CT ra tio PT ratio line length line secondary positive and zero sequence impedance The relay internally calculates Ko from these values Feeder parameters are entered in secondary quantities Protection For detailed descriptions of the protection functions see Protection Functions Functions and Specifications on page 4 1 Demand Trend Metering Demand Trend Metering v Enabled Demand Interval minutes 5 E Demand Meter Type Integrating Y Figure 5 15 Demand Trend Metering Demand Trend Metering Demand Trend Metering Enable disable Demand Interval minutes 5 to 60 minutes with increments of 5 Demand Meter Type Integrating rolling or thermal 5 14 F PRO 5100 User Manual D02416R03 02 5 Offliner Settings Software It rrt Main IV Enabled External Input or ProLogic for Trip disabled m Pit Limit 99999 0 kA 2 s Aux v Enabled External Input o
103. erse TMS 0 50 0 01 to 10 00 A 13 5 2 E B 0 0 x p 1 0 a a TR 21 60 F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range Initiate Fault Location Disabled ProLogic Control Disabled 25 27 59 Sync Check 25 Sync Check Enabled Maximum Voltage 70 0 volts 60 0 to 138 0 Minimum Voltage 60 0 volts 40 0 to 69 9 Angle Difference 20 0 degrees 1 0 to 50 0 Pickup Delay 0 02 seconds 0 00 to 99 99 Dead Main Live Sync DMLS Enabled Live Main Dead Sync LMDS Enabled Dead Main Dead Sync DMDS Enabled 79 Recloser Main Enabled Number of Shots 4 First Reclose T1 1 00 seconds 0 02 to 99 99 Second Reclose T2 5 00 seconds 1 00 to 99 99 Third Reclose T3 10 00 seconds 1 00 to 99 99 Fourth Reclose T4 20 00 seconds 1 00 to 99 99 Close Time Tp 0 20 seconds 0 01 to 1 00 Lockout Reset Td 25 00 seconds 0 00 to 99 99 Initiate Reset TDI 1 00 seconds 0 00 to 99 99 Block Reset TDB 0 50 seconds 0 00 to 99 99 Sync Control Disabled Aux Enabled Number of Shots 4 First Reclose T1 1 00 seconds 0 02 to 99 99 Second Reclose T2 5 00 seconds 1 00 to 99 99 Third Reclose T3 10 00 seconds 1 00 to 99 99 Fourth Reclose T4 20 00 seconds 1 00 to 99 99 Close Time Tp 0 20 seconds 0 01 to
104. es Aux la Mag 2 A 1 2 2 nominal Aux la Ang 3 degrees 10 2 0 5 degrees Aux lb Mag 4 A 1 2 2 nominal Aux Ib Ang 5 degrees 10 2 0 5 degrees Aux Ic Mag 6 A 1 2 2 nominal Aux Ic Ang 7 degrees 10 2 0 5 degrees Line la Mag 8 A 1 2 2 nominal Line la Ang 9 degrees 10 2 0 5 degrees Line Ib Mag 20 A 1 2 2 nominal Line Ib Ang 21 degrees 10 2 0 5 degrees Line Ic Mag 22 A 1 2 2 nominal Line Ic Ang 23 degrees 10 2 0 5 degrees Sync V Mag 24 kV 10 2 296 nominal Sync V Ang 25 degrees 10 2 0 5 degrees Real Power P 26 MW 10 2 4 nominal Reactive Power Q 27 MVAR 10 2 496 nominal Pos Seq Voltage 28 kV 10 2 2 nominal Pos Seq Current 29 A 1 2 295 nominal Frequency 30 Hz 100 2 0 05 Hz THD 31 96 100 2 0 2596 Active Setting Group Number 32 1 2 1 Demand Real Power Out 33 MW 10 2 0 5 Demand Real Power In 34 MW 10 2 0 5 Demand Reactive Power Out 35 MVAR 10 2 0 5 D02416R03 02 F PRO 5100 User Manual Appendix F 9 Appendix F DNP3 Communication Protocol Appendix F 10 Name pori Units Scale E s Deadband Demand Reactive Power In 36 MVAR 10 2 0 5 Demand A phase Voltage 37 kV 10 2 296 nominal Demand B phase Voltage 38 kV 10 2 296 nominal Demand C phase Voltage 39 kV 10 2 295 nominal Demand A phase Current 40 A 1 2 296 nominal Demand B phase Current 41 A 1 2 296 nominal Demand C phase Current 42 A 1 2 296 nominal Demand System Frequency 43 Hz 300 2 0 05 Hz Demand Max
105. essed over the LAN for details see Accessing the Relay s SCADA Services on page 2 8 Connect Port 5 to the Ethernet LAN using an appropriate 10BaseT cable with an RJ 45 connector The relay supports 10 Mbit Ethernet although a dual speed 10 100 Ethernet hub or switch can be used By default the relay is assigned an IP address of 192 168 1 100 If this address is not suitable it may be modified using the relay s Maintenance Menu for de tails see Using HyperTerminal to Access the Relay s User Interface on page 2 5 Using HyperTerminal to Access the Relay s User Interface Change settings view measured values and retrieve data from the relay using its user interface This section describes how to configure a standard Windows VT 100 terminal program on your PC for use with the relay The computer must be connected to the relay by one of its serial modem or Ethernet communication ports for details see Communicating with the Relay IED on page 2 2 The relay user interface is accessed using a standard VT 100 terminal style program on your computer eliminating the need for specialized user interface software Any terminal program that fully supports VT 100 emulation and pro vides z modem file transfer services can be used The HyperTerminal program is used here as an example Configure your terminal program as described in the table below and link it to the appropriate serial port modem or TCP IP socket on your co
106. f inactive On active 46 51 Alarm 787 0 Off inactive On active 46 51 Trip 788 0 Off inactive On active 32P Trip 789 0 Off inactive On active 32Q Trip 790 0 Off inactive On active 59 1 Trip 791 0 Off inactive On active 59 2 Trip 792 0 Off inactive On active 27 1 Trip 793 0 Off inactive On active 27 2 Trip 794 0 Off inactive On active 60 Alarm 795 0 Off inactive On active 81 1 Trip 796 0 Off inactive On active 81 2 Trip 797 0 Off inactive On active 81 3 Trip 798 0 Off inactive On active 81 4 Trip 799 0 Off inactive On active THD Alarm 800 0 Off inactive On active Auxillary Alarm 801 0 Off inactive On active ProLogic 1 802 0 Off inactive On active ProLogic 2 803 0 Off inactive On active ProLogic 3 804 0 Off inactive On active ProLogic 4 805 0 Off inactive On active ProLogic 5 806 0 Off inactive On active ProLogic 6 807 0 Off inactive On active ProLogic 7 808 0 Off inactive On active ProLogic 8 809 0 Off inactive On active ProLogic 9 810 0 Off inactive On active ProLogic 10 811 0 Off inactive On active Breaker Logic 1 812 0 Off inactive On active Breaker Logic 2 813 0 Off inactive On active Breaker Logic 3 814 0 Off inactive On active Breaker Logic 4 815 0 Off inactive On active Breaker Logic 5 816 0 Off inactive On active F PRO 5100 User
107. g the ERLPhase method of positive sequence control F PRO 5100 User Manual 1 1 1 Overview To provide a complete package of protection and control F PRO provides oth er functions such as ring bus capability to protect and monitor lines connected to ring schemes Current inputs are labelled Main and Aux inputs to denote the breaker ring current inputs Use F PRO with straight single breaker line schemes by us ing the main current inputs breaker failure detection and monitoring 2 completely dedicated four shot reclosers devices 79 Main and 79 Aux to control line reclosing needs along with device 25C Sync Check Dead Bus Dead Line supervision low set overcurrent functions for each breaker as well as for the summated line currents that include phase neutral and negative sequence functions Watt VAR flow detectors as well as undervoltage overvoltage and over under frequency functions Freq ROC to provide protection for issues such as inter tie protection needs ProLogic provide a flexible way to address special protection needs Ten ProLogic statements are provided Breaker Logic Group Logic Demand Metering Ring Bus Aux Protected Feeder Feeder PT 1 ph Feeder PT 3 ph Source Analog Inputs 4 Analog Voltages 1 Three phase Input 1 Single phase Input 6 Analog Currents 2 Three phase Inputs 1 2 Outputs 12 Output Contacts 1 Relay Inoperative Alarm Contact Inputs 9 External Inputs
108. g Group 4 Setting Group 4 Setting Group 5 Setting Group 5 Setting Group 6 Setting Group 6 O Setting Group 7 Setting Group 7 Hame Symbol Value C Setting Group 8 Setting Group 8 Settings Summary papa Man Relay Identification Settings Version 2 Ignore Serial Number Ves Serial Number FPRO 5100 000615 01 Unit iD F_PROv2 Nominal CT Secondary Current Sa Nominal System Frequency 60 Hz Comments E Comments setting Name Defaut Settings Date Created Modified 02 Nov 19 10 19 47 Station Name Station Name Station Number n Location Location Line 0245 Setting Group 1 Setting Group 1 Setting Group Comments 4 sp Ls F PRO Offliner Settings v2 Setting Group 1 Figure 5 22 View Setting Summary in RecordBase View D02416R03 02 F PRO 5100 User Manual 5 19 6 Testing the F PRO Functions Calibration D02416R03 02 Testing is required to determine if your relay performs correctly after the set tings are complete or to determine verification of relay settings needed In most cases a simple test using three voltage sources and three current sources is ad equate The relay is calibrated when it leaves the factory but if component changes are made within the relay you may need to do a re calibration Establish the accuracy of equipment used to calibrate the relay be fore a new calibration is attempted A source quality of 0 5 or better
109. g ProLogic to Qualify Group Logic Statements D02416R03 02 Appendix L F PRO Setting Example You can select from any available ProLogic inputs to make specific blocking logic to be used as a qualifier for any group logic decisions In this example we use either the 50 or 50N elements to drive the Block Group Logic statement There is no intentional pickup delay and 0 5 second drop out delay to hold the block on after the block condition has reset ProLogic 1 ProLogic 1 IV Enabled Name ProLogic 1 Pickup Delay 000 s Ana ERE Dropout Delay 9 99 s 1 1 V Target Enabled gE Tops Input A 50 Trip Ed Dut Input B SON Trip Input C Unused 0 gt Figure L 28 ProLogic 8 F PRO 5100 User Manual Appendix L 11 Index D02416R03 02 Numerics 21P phase distance 4 13 5 14 25 27 59 sync check 4 8 27 undervoltage 4 11 32 directional power 4 13 5 14 46 50 46 51 67 negative sequence overcurrent 4 3 50 51 67 phase overcurrent 4 7 50BF breaker failure 4 6 50CT overcurrent 4 7 50LS low set overcurrent 4 5 50N 51N 67 neutral overcurrent 4 3 59 overvoltage 4 10 60 loss of potential 4 11 79 recloser 4 9 81 frequency 4 12 A ac and dc wiring 7 1 access 3 13 alarm 3 3 analog inputs 3 10 5 7 B backward compatibilty 5 4 baud rate modem link 2 7 breaker logic 5 16 breaker monitoring 4 6 C calibrate 3 12 6 1 calibration 6 1 change 3 13 clear target 3 3 communication wiring 7 1 converting
110. he directory which was set before transfer to an appropriate directory e g HyperTerminal s default receive di rectory is set through the its Transfer menu When transferred the record name remains unchanged and the file extension indicates the record type fpr for fault fpe and fpt for trend When the transfer has taken place you can choose to delete the record or leave a copy on the relay Logging Functions Event Log 4 28 The F PRO maintains a log of events in a 250 entry circular log Each entry contains the time of the event plus an event description Logged events include trips alarms external input assertions plus internal events such as setting changes Fault location and classification information is included in event messages where appropriate For example the event log en try for a device trip might be 2000 Nov 21 15 34 19 832 51 ABC 112 3 km Trip The event log can be viewed in two ways Front Panel The front panel display shows events in abbreviated form Trip and Alarm events only Terminal User Interface The full event log is available through the Event Log menu of the terminal user interface This display is a snapshot of the event list which must be manually refreshed to display new events that occur while the display is up There is a list of the F PRO event messages For details see Event Messages in Appendix D F PRO 5100 User Manual D02416R03 02
111. hread with in the relay protection algorithms The processing cycle happens once every half second 0 5 second When using ProLogic statements remember that a latch or dropout timer should be used if the initiating condition does not last at least 0 5 seconds In the example following we will create a definite pulse length using ProLogic For details see F PRO Setting Example in Appendix L Default Setting Group The relay uses Setting Group 1 as the factory default setting group and retains the current active setting group in memory This allows the relay to use the last active setting group prior to interruption of relay power as the default setting group following power up F PRO 5100 User Manual 4 21 4 Protection Functions and Specifications Change Active Group You can at any time change the active setting group When you initiate a set ting group change this change takes precedence over an automatic setting group change The terminal UI is used to change the active setting group To view a snapshot of the group logic data select F2 prior to making any modifi cation to the Active Setting Group input The following is the flow of events that can occur in the Active Group Screen Active Group Screen Access Level view Change or Service Ser Decisio
112. iliary breaker The Pt value is accumulated for every oper ation and stored in the non volatile memory the write time interval will be 0 5 seconds A fixed maximum write time of 20 seconds prevents the Pt function from constantly writing to non volatile memory Therefore if the start signal is held on for longer than 20 seconds the accumulator will stop accumulating and stop writing to the flash memory The output Pt function will only be available in the event log the output is not available in the output matrix or in the Pro Logic input list The terminal UI and SCADA interfaces will show the accumulated value of each breaker 1 t function and value of last operation The terminal UI will also include the time of last reset preset The following figure shows the Pt function s logic diagram The accumulation is started when the trip coil of the breaker is energized breaker starts to open and will be stopped when the trip coil of the breaker is de energized The cur rent that is used for accumulation is the maximum current among Phase A B and C An event message will be generated when the accumulated Pt value is above the limit EI PL For Trip Coil Energization enable accumulation I 2T Accumulator lA IB B J Read ite plo I Logic 1 enables accumulation to occur Figure 4 15 I I t F PRO 5100 User Manual D02416R03 02 4 Protection Functions and Specifications Demand Metering D
113. imum THD among 44 96 100 2 0 2596 all current 3 phase MWh Out 45 MWh 1 3 2 0 5 3 phase MWh In 46 MWh 1 3 2 0 5 3 phase MVARh Out 47 MVARh 1 3 2 0 5 3 phase MVARh In 48 MVARh 1 3 2 0 5 BkrLogic 1 Coun 49 1 2 1 BkrLogic 2 Coun 50 1 2 1 BkrLogic 3 Coun 51 1 2 1 BkrLogic 4 Coun 52 1 2 1 BkrLogic 5 Coun 53 1 2 1 BkrLogic 6 Coun 54 1 2 1 BkrLogic 7 Coun 55 1 2 1 BkrLogic 8 Coun 56 1 2 1 BkrLogic 9 Coun 57 1 2 1 BkrLogic 10 Count 58 1 2 1 I t Main Accumulated 59 1 2 1 12t Main for last operation 60 10 2 1 I t Aux Accumulated 61 1 2 1 I t Aux for last operation 62 10 2 1 Object 110 111 Octet String for Event Log access Object 110 and Object 111 are Octet String objects used to provide access to the Event Log text of the F PRO These objects are described in Technical Bul letin 9701 004 zip 71 available from the DNP user group web page www dnp org Object 110 always contains the most recent event in the F PRO Object 111 is the corresponding change event object As stated in the DNP technical bulletin the variation of the response object represents the length of the string The string represents the ASCII values of the event text The first 2 characters in the string can be used to quickly identify fault location events Fault locator events begin with the characters FL 0x46 0x44 hex F PRO 5100 User Manual D02416R03 02 Appendix F DNP3 Communication Protocol The following example shows a fault distance eve
114. in software is to retain voltage in formation even if the voltage is severely depressed by a fault Fault Voltage a e Memory Voltage Figure 4 5 Effect of the Ring Filter X Line Impedance Line Z Angle Figure 4 6 Directional Element F PRO 5100 User Manual 4 7 4 Protection Functions and Specifications 25 27 59 Sync Check 4 8 The principle of the directional element is shown above If Z mem falls into the light gray area Forward it indicates a forward fault and if it falls into the dark gray Reverse area a reverse fault is declared This directional element is used for directional overcurrent protection No user settings are needed for this function Directional Control for Overcurrent Functions in F PRO The positive sequence memory voltage is also used to provide directional con trol to the overcurrent functions within the F PRO relay In this case the pos itive sequence memory voltage and the positive sequence line current difference angles are compared to determine the directionality For example if the relay is set to directional mode it allows the overcurrent function to operate if fault currents are towards the line and directions within 90 degrees of the line angle For details see Figure 4 6 Directional Element on page 4 7 For the directional control used on the overcurrent relays a 30 cycle memory action is used on the positive sequence voltage This memory action takes place
115. inal mode program appears on your screen the following prompt should appear If it doesn t appear press Enter Log in using one of the following usernames view read only access to settings and readings change read write access to settings and readings service full access to all functions Port 1 access only breaker access to breaker monitor menu maintenance access to the maintenance menu update to load a firmware update Notes Serial and modem connections have a 60 minute inactivity timeout Usernames and passwords are case sensitive login 4 Iflogin is successful the Main Menu appears F PRO Unit ID Your ID entered earlier Main Menu User Access Level VIEW 2000 Jun 08 11 53 ID Settings Metering Records Event Log Utilities Access Quit view Change Or service or F PRO Unit ID Your ID entered earlier Main Menu User Access Level BREAKER 2003 Jun O8 11 53 Breaker Log Metering Reset Quit Breaker F PRO 5100 User Manual 3 5 3 Using the IED Getting Started Passwords 3 6 If the box around the menu does not appear as above change the font in your terminal program to one that supports line draw charac ters e g terminal fonts If there are incorrect characters in the display improper line feeds or unerased portions the baud rate is too high for the quality of the com munication link Use the Utilities gt Setup gt Ports menu to reduce the re lay s
116. ive On active Group Logic 14 840 0 Off inactive On active Group Logic 15 841 0 Off inactive On active Group Logic 16 842 0 Off inactive On active Read Input Status Function Code 02 Channel Address Value External Input 1 10001 0 Off inactive On active External Input 2 10002 0 Off inactive On active External Input 3 10003 0 Off inactive On active External Input 4 10004 0 Off inactive On active External Input 5 10005 0 Off inactive On active External Input 6 10006 0 Off inactive On active External Input 7 10007 0 Off inactive On active External Input 8 10008 0 Off inactive On active External Input 9 10009 0 Off inactive On active F PRO 5100 User Manual Appendix E 3 Appendix E Modbus RTU Communication Protocol Read Input Status Function Code 02 External Input 1 Change of state latch 10257 0 Off inactive On active External Input 2 Change of state latch 10258 0 Off inactive On active External Input 3 Change of state latch 10259 0 Off inactive On active External Input 4 Change of state latch 10260 0 Off inactive On active External Input 5 Change of state latch 10261 0 Off inactive On active External Input 6 Change of state latch 10262 0
117. ive setting group as well as the current state of all the group logics Logic Virtual Inputs Displays the current state of all virtual inputs Logic Breaker Logic Displays the state of all breaker logics as well as the operation count Also dis plays the last time the count was preset reset F PRO 5100 User Manual 3 15 4 Protection Functions and Specifications Protection and Recording Functions 50 51 67 Phase Overcurrent D02416R03 02 This section describes the equations and algorithms that define the F PRO pro tection functions The inverse time overcurrent functions have an alarm output where their pickup level has been exceeded Devices 27 59 SOLS SOBE 81 50 50N 46050 32 and ProLogic have user settable intentional delay When an alarm occurs the front alarm LED turns on and an output contact closes if you have selected this option in the output matrix settings The alarm indica tion resets when the function is allowed to reset Phase Overcurrent provides protection to the line You can define forward re verse or non directional control on either 50 or 51 functions You can apply inverse and instantaneous overcurrent protection on the line currents with this function If ac current inputs are applied to the relay from ring bus breakers this current is summated to represent the total line current and is used with this overcurrent function You can set directional control of 50 51 If voltage is lost the element
118. ixedat2 Variable Configurable Application Confirm None x Fixed at 5 Variable _ Configurable Complete Application Response x None __Fixed at 2 __ Variable _ Configurable Others Select to execute delay None x Fixedat10 Variable Configurable Sends Executes Control Operations WRITE Binary Outputs x Never Always Sometimes _ Configurable SELECT OPERATE Never x Always Sometimes Configurable DIRECT OPERATE Never x Always Sometimes _ Configurable DIRECT OPERATE No ACK Never x Always Sometimes _ Configurable Count 1 x Never Always Sometimes _ Configurable Pulse On Never x Always Sometimes Configurable Pulse Off x Never Always Sometimes Configurable Latch On Never x Always Sometimes _ Configurable Latch Off Never x Always Sometimes _ Configurable Queue x Never Always Sometimes Configurable Clear Queue x Never Always Sometimes Configurable Report Binary Input Change Events when no spe cific variation requested Never Only time tagged x Only non time tagged _ Configurable to send both one or the other Reports time tagged Binary Input Change Events when no specific variation requested __Never x Binary Input Change with Time Binary Input Change with Relative Time Configurable Sends Unsolicited Response x Never Configurable Only certain objects Sometimes _ ENABLE DISABLE UNSOLICITED Function codes supported
119. ker monitoring features by building different breaker logic statements Breaker Logic has additional timers on every output of the logic statement a total of four timers are available a counter including settable count limit is available in the last logic gate position The front panel Alarm LED can be enabled and the logged message can be configured either when one of the four timers has expired or when the counter limit has been ex ceeded A total of 10 Breaker Logic functions are available in the F PRO The terminal UI and SCADA interfaces shows the status of each breaker logic and associated counter The terminal UI also includes the time of last reset pre set v Enabled Name BkrLogic 1 COUNTER MV AlarmLED Enabled Count Limit Message Parameter Count Limt 250 Se n T2 T3 T4 Pickup Delay s 99 00 999 00 999 00 999 00 a Dropout Delay s 999 00 999 00 999 00 999 00 Input A EEE input E12 Spare2 H Input C Eistspares y Le LD mptp El4 sparea y LLL dise note estores El Figure 4 14 Breaker Logic For examples of breaker condition monitoring using Breaker Logic see Set ting Examples in Appendix L F PRO 5100 User Manual 4 15 4 Protection Functions and Specifications 4 16 I I t F PRO has an accumulated It function used for monitoring the wear of the breaker due to fault interruption This function is available for both the main breaker and the aux
120. l or ProLogic and Group Logic statements names front panel target light activation rules and record initiation rules The protection processor does not have any interruption in service Automatic Settings Change Relay configuration changes during a relay initiated setting change does not disrupt the relay protection functions Since the relay setting file does not change the interface processor uses the new setting group ancillary setting in formation at the same time as the protection processor switches to the new set ting group An event is logged to show when the new setting group is in service F PRO 5100 User Manual 4 25 4 Protection Functions and Specifications Recording Functions Fault Recording Trend Recording Record Initiation 4 26 The F PRO has recording and logging functions to allow you to analyze faults and to review the operation of the overall protection scheme The F PRO provides high quality fault recording capturing input signal wave forms and external digital input states at a rate of 96 samples per cycle Each record also contains the timing of the internal logic produced by the relay e g 51 trip The quantities recorded are 10 analog channels 4 voltages and 6 currents 96 samples cycle up to the 25th harmonic frequency response 9 external digital inputs 96 samples cycle relay internal logic signals 8 samples cycle summation channels The trend recording provide
121. le for recording 8x cycle for protection External Inputs 9 isolated inputs Optional 48 to 125 or 125 to 250 Vdc nominal externally wetted Burden Burden resistance 10 k ohms Isolation Internal optical isolation D02416R03 02 F PRO 5100 User Manual Appendix A 1 Appendix A IED Specifications Model 5100 Specifications Sample Rate 1 ms resolution Output Relays contacts 12 programmable outputs 12 relay trip 1 relay inoperative Make 30 A as per IEEE C37 90 Carry 8 A Break 0 9 A at 125 Vdc 0 35 A at 250 Vdc Interface amp Communication Front Display 2 lines x 24 characters fluorescent Exceptional visibility in all ambient light conditions Front Panel Indicators 6 LEDs Target Relay Functional IRIG B Func tional Service Required Test Mode Alarm Serial Front and rear RS 232 ports to 57 6 K baud Rear port can support an external modem Internal Modem 33 6 Kbps V 32 bis Optional internal modem Network 10 Base T Ethernet port Optional Ethernet card SCADA Interface DNP3 RS 232 or Ethernet or Modbus RS 232 Rear port Time Sync IRIG B BNC connector Modulated or unmodulated auto detect Self Checking Relay Inoperative 1 contact Closed when relay inoperative Terminal User Interface VT100 terminal emulation Accessible via serial modem or network interface Environme
122. lq Jejsuei sBumes Od Sj ejuo2 1ndino sonsoubeiq 91507 16xeeug mnes Odd syndy enulA ADU S sdnouo Bumes UR Ol al vi xnv xeed oiBo10Jd 6 MCA uipJooo OI al view ases Abieug uonoejoud lus 3 y 99119 Y OA SA WA UIEN piomssed S ndu JenuA Jou023 pueuieg 9160 ayesquleo sindino pueuag JeuiHo SSe20y ejeuqieo Lll Duip1o2eH UJ0JJ JONVHO eoueuejuie A pueuieq puss peo I onsouBeiq sengueno eur 1 91607 SS990y T s ndu Bojeuy 6 sul H UlpJo2e es H3MV3Hg8 vavos Bojeuy Ip y V sod 92ueuejure nea O I SS890y oun l dnoig MAIA dnes T dnas sn Bojeuy SAY uno ssa00V soniunn B0 1u8 3 SspJo2oM Bula sbumes PI Figure 3 3 Terminal Mode Menus D02416R03 02 F PRO 5100 User Manual 3 8 3 Using the IED Getting Started View Change or Service Login Settings D02416R03 02 The Main Menu display for view change or service login is ID Settings Metering Records Event Log Utilities Access Quit Provides the device serial number software version required settings version nominal system values and external input board rating There are no user set tings here Submenus Active Group Settings Load from Offliner Retrieve to Offliner Allows input of all the setting information for the relay Includes all the sub menus to change relay settings related to protection functions when settings are changed they are not saved until you c
123. ltage analog input quantity names used for line protection and used for recording External Inputs and Output contact names are also identified on this summary F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range Relay Identification Settings Version 2 Ignore Serial Number No Serial Number FPRO 5100 000615 01 Unit ID UnitID Nominal CT Secondary Current 5A Nominal System Frequency 60 Hz Comments Comments Setting Name Default Settings Date Created Modified 1999 10 04 16 21 22 Station Name Station Name Station Number 1 Location Location Line D245 Setting Group 1 Setting Group 1 Setting Group Comments Analog Input Names MVA Main Voltage A MVB Main Voltage B MVC Main Voltage C 1A1 Main Line Current A IB1 Main Line Current B IC1 Main Line Current C 1A2 Aux Line Current A F PRO 5100 User Manual Appendix B 1 Appendix B IED Settings and Ranges Appendix B 2 F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range sy s m s m T 7r D u IB2 Aux Line Current B Ic2 Aux Line Current C SV Sync Voltage Sync Voltage External Input Names
124. lues When inactive coil input and holding register values will read their most recently available state Channel Type Address Value Hold Readings Read Write 01 0000 Readings update normally inactive FF00 Hold readings active Energy Reset 257 Reset Breaker Logic 1 258 Reset Breaker Logic 2 259 Reset Breaker Logic 3 260 Reset Breaker Logic 4 261 Reset Breaker Logic 5 262 Reset Breaker Logic 6 263 Reset Breaker Logic 7 264 Reset Breaker Logic 8 265 Reset Breaker Logic 9 266 Reset Breaker Logic 10 267 12t Main Reset 268 1 t Aux Reset 269 Demand Reset 270 Peak Demand Reset 271 Preset Single Register Function Code 06 Channel Address Value Scaled Up By Event Message Control See below for details of use Refresh event list 40513 No data required N A Acknowledge the cur 40514 No data required N A rent event and get the next event Appendix E 8 F PRO 5100 User Manual D02416R03 02 Appendix E Modbus RTU Communication Protocol Get the next event without acknowl edge 40515 No data required N A Diagnostic Subfunctions Function Code 08 Return Query Data Subfunction 00 This provides an echo of the submitted message Restart Comm Option Subfunction 01 This restarts the Modbus communications process Force Listen Only Mode Subfunction 04 No response is returned IED enters Listen Only mode This mode can o
125. m Files ERLPhase F PRO Offliner Settings or you can choose the path during the Offliner software installa tion If an older version of F PRO Offliner was previously installed on your PC then the default directory may be C Program Files APT F PRO Of fliner Settings 2 Open a sample file of the desired version Use File Save As to save the sam ple file to a new file name Then edit the setting file and the serial number save it and load it into the relay RecordBase View Software D02416R03 02 AAA aid xi P e Gah Meme Se tere ie umma gt 35m ajae mij xj eel mj tle aj sj 10 mle alo fm RNIPS3 2000 04 30 00 01 54 48 T39 2000 04 x 4 4C gw Ae e herve See Secondary Figure 5 4 RecordBase View Use RecordBase View to analyze the records from a relay 1 Set the receive directory on your terminal program to point to a convenient directory on your PC s hard disk or network For example with HyperTer minal select Transfer Receive File to set the receive directory 2 Select one or more records on the relay using the List function in the Ter minal Mode s Records menu 3 Initiate transfer of the selected records by selecting R on the keyboard 4 Start the RecordBase View program and use the File Open menu command to open the downloaded record files located in the receive directory speci fied in step 1 For further instructions refer to the RecordBase View Manual at the back
126. means of resolving situations where a password has been forgotten F PRO 5100 User Manual D02416R03 02 Terminal Mode Menus D02416R03 02 3 Using the IED Getting Started Use the right and left arrow keys and the enter key to move around in the ter minal mode screen The mouse does not work in VT100 terminal mode Items from the menu are selected by moving the highlight to the desired item and ac tivating it using the Enter key As a short cut use the first letter of the menu item to access it directly Key Function F2 Accept or Freeze or Execute F3 Quit or Exit F4 Copy Group Esc Back to previous menu level The menu tree consists of a series of sub menus for details see Figure 3 3 Terminal Mode Menus on page 3 8 The Enter key allows you to toggle through a list of selections i e enabled dis abled The Enter key toggles forward through the list while the space bar moves backward through the list In this manner you do not have to scroll through the entire list to get back to a previous selection you can use the space bar For certain lists a pick box appears when there is a long list of selections to chose from for example ProLogic inputs You can scroll though these boxes with the arrow keys or the Enter key Use the F2 key to make a selection or F3 to leave F PRO 5100 User Manual 3 7 3 Using the IED Getting Started O 91 sinduj jenurA 8 xurew 1ndino
127. mputer Terminal Program Setup Baud rate For a direct serial link the baud rate must match that of the relay serial port For a modem link the baud rate refers only to the link between your computer and its own modem Refer to Setting the Baud Rate on page 2 7 for further information Data bits 8 Parity None Stop bits 1 Flow control Hardware or Software Hardware flow control is recommended The relay automatically supports both on all its serial ports Function arrow and control keys Terminalikeys D02416R03 02 F PRO 5100 User Manual 2 5 2 Setup and Communications Ending a User Interface Session 2 6 Terminal Program Setup Emulation VT100 Font Use a font that supports line drawing e g Terminal or MS Line Draw If the menu appears outlined in odd characters the font you have selected is not supporting line drawing characters To initiate the connection with the relay use HyperTerminal s Call gt Connect function When the connection is established press Enter in the terminal window to bring up the following login prompt Log in using one of the following usernames view read only access to settings and readings change read write access to settings and readings service full access to all functions Port 1 access only breaker access to breaker monitor menu maintenance access to the maintenance menu update to load a firmware up
128. nel Board F PRO 5100 User Manual D02416R03 02 Appendix D Event Messages D02416R03 02 F PRO Event Messages Event Log Message Notes 50LS 1 Main ABC Trip 50LS 2 Main ABC Trip 50LS 1 Aux ABC Trip 50LS 2 Aux ABC Trip 50BF 1 Main ABC Trip 50BF 2 Main ABC Trip 50BF 1 Aux ABC Trip 50BF 2 Aux ABC Trip The possible phase information will be A B Cc oN AB BC CA ABC 51 ABC 1234 5km Alarm 50 ABC 1234 5km Trip 51 ABC 1234 5km Trip Fault Location will be included if enabled The possible phase information will be oA B Cc oN AB BC CA ABC 51N 1234 5km Alarm 50N 1234 5km Trip 51N 1234 5km Trip 46 51 1234 5km Alarm 46 50 1234 5km Trip 46 51 1234 5km Trip Fault Location will be included if enabled 252759 Sync Check High 79 Initiated High Recloser is initiated 79 Main Lockout High Recloser shot count has expired and reclosing attempts are blocked 79 Aux Lockout High Recloser shot count has expired and reclosing attempts are blocked 79 Main Reclose shot n Recloser Main circuit breaker close attempt where n equals the shot count 79 Aux Reclose shot n Recloser Aux circuit breaker close attempt where n equals the shot count 79 Block High Recloser is blocked by an external signal F PRO 5100 User Manual Appendix D
129. nly be exited by the Restart Comm Option com mand Report Slave ID Function Code 17 0x11 A fixed response is returned by the IED including system model version and issue numbers Channel Type Bytes Value Model Number Read Only 0 and 1 0 x 13EC 5100 decimal Version Number Read Only 2 and 3 Version number Issue Number Read Only 4and5 Issue number The F PRO IED model number is 5100 Version and issue will each be positive integers say X and Y The F PRO is defined as Model 5100 Version X Issue B Accessing F PRO Event Information All F PRO detector event messages displayed in the Event Log are available via Modbus This includes fault location information The following controls are available Refresh Event List Function Code 6 address 40513 Fetches the latest events from the F PRO s event log and makes them available for Modbus access The most recent event becomes the current event available for reading and Get Next Event Acknowledge Current Event Function Code 6 address 40514 Clears the current event from the read registers and places the next event into them An acknowledged event is no longer available for reading Get Next Event Function Code 6 address 40515 Places the next event in the read registers without acknowledging the current event The current event will reappear in the list when Refresh Event List is used s
130. nt returned through either of the octet string objects DNP Example Event Message PL2000Sep21 20 16 16 966 50 1 Trip AB 1 0km DNP Octet string object contents 0x46 0x4C 0x32 0x30 0x30 0x30 0x53 0x65 0x70 0x32 0x31 0x20 0x32 0x30 Ox3A 0x31 0x36 Ox3A 0x31 0x36 Ox2E 0x39 0x36 0x36 0x20 Ox3A 0x20 0x35 0x30 0x2D 0x31 0x20 0x54 0x72 0x69 0x70 0x20 0x41 0x42 0x20 0x31 Ox2E 0x30 0x6B Ox6D D02416R03 02 F PRO 5100 User Manual Appendix F 11 Appendix G Mechanical Drawings Side View Panel cut out hole 17 19 x 5 17 Figure G 3 Mechanical Drawing D02416R03 02 F PRO 5100 User Manual Appendix G 1 Appendix G Mechanical Drawings ie ied FS 0 Dif i E o amp Q 5 Led E ae 5 ORL O 5 O R Y gt wo E Y Y o a A Figure G 4 Cut out Template Appendix G 2 F PRO 5100 User Manual D02416R03 02 Gee pee EEE ZEE lee OEE 6ze 8ZE ZZE 92 SZE vet eze ZZE IZE OZE GIE BIE le gle SIE ble ele ZIE lle Ole 608 80 LOE 90 soe POE EOE ZOE Log 00 a
131. ntact Open inactive Contact Closed active Output Contact 10 522 0 Contact Open inactive Contact Closed active Output Contact 11 523 0 Contact Open inactive Contact Closed active Output Contact 12 524 0 Contact Open inactive Contact Closed active 50LS 1 Main Trip 769 0 Off inactive On active 50LS 2 Main Trip 770 0 Off inactive On active 50LS 1 Aux Trip 771 0 Off inactive On active 50LS 2 Aux Trip 772 0 Off inactive On active 50BF 1 Main Trip 773 0 Off inactive On active 50BF 2 Main Trip 774 0 Off inactive On active 50BF 1 Aux Trip 775 0 Off inactive On active 50BF 2 Aux Trip 776 0 Off inactive On active 25 27 59 Sync Check 777 0 Off inactive On active 79 Main Reclose 778 0 Off inactive On active 79 Aux Reclose 779 0 Off inactive On active F PRO 5100 User Manual Appendix E 1 Appendix E Modbus RTU Communication Protocol Appendix E 2 Read Coil Status Function Code 01 Channel Address Value Ea 50 Trip 780 0 Off inactive On active 51 Alarm 781 0 Off inactive On active 51 Trip 782 0 Off inactive On active 50N Trip 783 0 Off inactive On active 51N Alarm 784 0 Off inactive On active 51N Trip 785 0 Off inactive On active 46 50 Trip 786 0 Of
132. ntal Ambient Temperature Range 40 C to 85 C IEC 60068 2 1 IEC 60068 2 2 Humidity Up to 95 without condensation IEC 60068 2 30 Insulation Test Hi Pot Power supply analog inputs external inputs output contacts 1 5 kV 50 60 Hz 1 minute IEC 60255 5 Electrical Fast Fault ANSI IEEE C37 90 1 1989 Oscillatory Fault ANSI IEEE C37 90 1 1989 RFI Susceptibility ANSI IEEE C37 90 2 IEC 255 22 3 Shock and Bump IEC 60255 21 2 Class 1 Sinusoidal Vibration 10Hz to 150Hz 0 15mm or 20m s 10 IEC 60068 2 6 Sweep cycles Physical Weight 11 1kg 24 47 lbs Dimensions 13 3 cm 3U high 5 25 48 3 cm rack mount 19 rack mount 30 5 cm deep 12 deep Appendix A 2 F PRO 5100 User Manual D02416R03 02 Appendix A IED Specifications Model 5100 Specifications Time Synchronization and Accuracy External Time Source The F PRO relay is synchronized using IRIG B input modulated or unmodu lated auto detect Free Running Accuracy In the absence of an external time source the relay maintains time with a maximum 15 min utes drift per year over the full operating temperature range and maximum 90 seconds drift per year at a constant tem perature of 25 C The relay can detect loss or re establishment of external time source and automatically switch between internal and external time Synchronization Accuracy
133. nual Appendix D 3 Appendix E Modbus RTU Communication D02416R03 02 Protocol The SCADA port supports DNP3 and Modicon Modbus protocols All meter ing values available through the terminal user interface are also available via the Modbus protocol Additionally the Modbus protocol support the reading of the unit time and time of the readings and provides access to trip and alarm events include fault location information A Hold Readings function is available to freeze all metering readings into a snapshot see Force Single Coil function address 0 Read Coil Status Function Code 01 Channel Address Value Hold Readings 1 0 Readings not held Readings held Reserved 257 Reserved Reserved Output Contact 1 513 0 Contact Open inactive Contact Closed active Output Contact 2 514 0 Contact Open inactive Contact Closed active Output Contact 3 515 0 Contact Open inactive Contact Closed active Output Contact 4 516 0 Contact Open inactive Contact Closed active Output Contact 5 517 0 Contact Open inactive Contact Closed active Output Contact 6 518 0 Contact Open inactive Contact Closed active Output Contact 7 519 0 Contact Open inactive Contact Closed active Output Contact 8 520 0 Contact Open inactive Contact Closed active Output Contact 9 521 0 Co
134. of Input 20 40 60 80 100 100 1 0 cul l l l time minutes 0 1 2 3 4 5 Figure 4 19 Rolling Demand Meter F PRO 5100 User Manual D02416R03 02 Thermal Demand Meter Peak Demand Quantities D02416R03 02 4 Protection Functions and Specifications The thermal demand meter is described in this section Again use the step change power input from Figure 4 17 Step Power Input on page 4 17 as an ex ample A 1 0 PU 0 90 PU l l l l T T T 1T gt time minutes 5 0 1 2 3 4 Figure 4 20 Thermal Demand R ANN vin c x Vout Figure 4 21 RC Circuit Figure 4 20 Thermal Demand on page 4 19 shows the thermal model of de mand calculation It acts like a RC circuit as shown in Figure 4 21 RC Circuit on page 4 19 The output voltage will never reach the final value until the time goes to infinity however we define it in this way it will reach the 90 of the input when the elapsed time is equal to the Demand Interval 5 minutes for this example The thermal demand will reach 99 of the input when the time is twice of the demand interval as shown in the table below The equation for this response is Vout Vin 1 e t t where 1 is the time constant and it is equal to 2 17147241 minutes The thermal demand meter data will be calculated and updated every half second The following table shows the response of the ther mal demand Time min 1 2 3 4 5 6 7 8 9 10 Demand
135. of the printed version of this manual F PRO 5100 User Manual 5 5 5 Offliner Settings Software Main Branches from the Tree View Identification The first screen presents all the menu items in the left menu tree Access the menu items by clicking on item on the left menu tree Relay RHS Information relating to specific menu Item LHS Menu Tree accessed by LHS menu or top tabs F PRO Dlfliner Settings Document 1 ln x AL Bie ER Took Window Help a8 x osla eleli CREE Relay Identification Sarai ge i seni mmo vues aran Soltera Saing Unique relay serial Nominal System Nominal CT Sec number Frequency set to Current set to either either 50 Hz or 60 Hz 1Aor5A Figure 5 5 Identification Identification Settings Version Indicates the settings version number fixed Ignore Serial Number Bypass serial number check if enabled Serial Number Available at back of each relay Unit ID User defined up to 20 characters Nominal CT Format 5Ao0r1A Nominal System Frequency 60 Hz or 50 Hz Comments User defined up to 20 characters Setting Software Setting Name User defined up to 20 characters Date Created Modified Indicates the last time settings were entered Station Station Name User defined up to 20 characters Station Number User defined up to 20 characters Location User defined up to 20 characters Line User defined
136. omatic group logic initiated set ting group change User changed Active Group from x to y This happens when the relay changes set ting group User initiated setting group change Unit Recalibrated Unit restarted User logged In F PRO 5100 User Manual D02416R03 02 Appendix D Event Messages Details of Failure Modes F PRO Relay U ser Inputs DSP X86 Digital Signal Micro DU PM Outputs Processor processor Watch dog Watch dog System Failure DSP Failure N_ SERVICE REQUIRED DSP to X86 on front panel goes Communication from off to red v 7 RELAY FUNCTIONAL Failure on front panel goes Z from green to off l Aux_Failure_Alarm to user selectable The Master Relay is de aux output relay 3 energized Two of its contacts close contacts open discon necting all power to the other auxiliary relays A ner separate contact labelled I RELAY INOPERATIVE on the rear panel closes to activate a remote alarm The watch dog repeatedly attempts to re start the DSP for diagnostic purposes The green light stays off and the relays remain de energized even for a successful re start Only a power down power up will reset the LED to green and re energize the relays Note For either of the above cases the DSP controller functions con tinue with normal auxiliary relay outputs provided that DSP failure has not occurred D02416R03 02 F PRO 5100 User Ma
137. onfirm the changes Save and Load Setting Changes Now y n Settings Includes all the submenus to create a relay settings pertaining to protection functions When these settings are made or changed you can load them into the relay Allows input of all settings information Settings submenus Identification F PRO System Parameters Setting Group 1 to 8 Recording Identification Relay Serial Number Software Version Relay ID Line Name Station Name Station Number and Location Comments Enter any appropriate comment Analog Input Names Name inputs Main VA VB VC Main IA IB IC Aux IA IB IC Sync V External Inputs Name external inputs 1 to 9 Names Output Contact Name auxiliary relay output contacts 1 to 12 Names Setting Group Names Name setting groups 1 to 8 Virtual Input Names Name virtual inputs 1 to 30 66 99 The following characters are not allowed in the above setting parameters nd SP ud x mt up Een EC and ES Load From Offliner You can download the settings file into the relay using the terminal mode menu 1 On the Window s desktop double click F PRO Offliner Settings icon The initial Offliner Settings screen appears 2 Enter the required settings 3 Save the settings to a file on your PC F PRO 5100 User Manual 3 9 3 Using the IED Getting Started Metering 3 10 4 Start the Terminal Mode of F PRO login as change or service then acces
138. oomed to bring portions of the traces into clearer display Left click on any graph and drag to form a small box around the graph area When you release the mouse the trace assumes a new Zoom position determined by the area of the zoom coordinates To undo the zoom on the graph click the Refresh button F PRO 5100 User Manual 5 3 5 Offliner Settings Software Handling Backward Compatibility Offliner Settings displays the version number in the second pane on the bottom status bar The settings version is a whole number v1 v2 v3 v4 etc The Offliner Settings is backward compatible Open and edit older settings files and convert older settings files to a newer version Offliner Settings han dles forward conversion only it converts an older setting file to a newer setting file Converting a 1 Open the setting file you wish to convert Settings File 2 Inthe File menu select Convert to and then select the version x where x is the newer version A dialog box pops up prompting Offliner for a new file name Use either the same file name or enter a new file name The con version process inserts default values for any newly added devices in the new setting file When the conversion is complete Offliner Settings dis plays the new file open la Look in y F PRO Offliner Settings de c E3 File name visamplefps Files of type ESAS Cancel Figure 5 3 Converting Setting Files Sending a New 1 Make su
139. r ProLogic for Trip disabled m PIE Limit 99999 0 kA 2 s Figure 5 16 I I t Pit Main Enable disable External Input or ProLogic for Trip Disable or External Input or ProLogic It Limit 0 1 to 99999 0 KA s Aux Enable disable External Input or ProLogic for Trip Disable or External Input or ProLogic It Limit 0 1 to 99999 0 KA s D02416R03 02 F PRO 5100 User Manual 5 15 5 Offliner Settings Software ProLogic Breaker Logic 5 16 Figure 5 17 ProLogic Apply ProLogic to multiple inputs to create an output based on qualified in puts ProLogic enables up to 10 ProLogic control statements and programs those logics to output contacts You can name the function being created and set a pickup and dropout delay Start with input A by selecting any of the relay functions using the list for up to 5 possible inputs Put these inputs into AND OR NAND NOR and exclusive logics and latches by clicking on the gate In vert the input by clicking on the input line The output of ProLogic 1 can be nested into ProLogic 2 and so forth If desired you can illuminate the front target LED on operation of this function by en abling this feature The operation of the ProLogic statements are logged on the events listing This logic shows on the view fault records TIEL 10 Bit ogc 101 Figure 5 18 Breaker Logic F PRO 5100 User Manual D02416R03 02 5 Offliner Settings Software Group Logic The
140. r setting group to perform Setting Group changes The Group Logic state ments are similar to the ProLogic statements with the following exceptions the sole function is to activate one of the eight setting groups and the processing is in a slower half second cycle Group Logic inputs statements can be driven from ProLogic any external input previous Group Logic statements or virtual inputs Each Group Logic statement includes five inputs with Boolean state ments one latch state and one pickup delay timer View the active setting group from the Terminal Mode from the front panel or from a record stored by the relay the active setting group is stored with the record Feeder Parameters ixi KL Eie Edt Tools Window Help l lx olsa 2 0 Identification O Relay C Analog Inputs C External Inputs C Output Contacts O Virtual Inputs Setting Groups O System Parameters C Record Length 0 Feeder Parameters Line Line to Line Voltage 115 00 ky Pri Feeder Length 100 00 km r Feeder Impedance Positive Sequence Impedance 1440 ohm Positive Sequence Angle 80 0 geg Zero Sequence Impedance 80 00 ohm Zero Sequence Angle 70 0 deg Demand Trend Meter J itt amp ProLogic amp Breaker Logic C Group Logic D Output Matrix ull gt F PRO Offliner Settings v2 Setting Group 1 A Figure 5 14 Feeder Paramet
141. rcuit breaker 52a contact Timer T2 drop out delay is set to one second for creating the desired Alarm pulse width The message parameter setting is used to define the event log message The Alarm LED Enabled setting is used to tell the F PRO to turn on the front panel led In this example T2 drop out timer is set for creating the desired Alarm pulse width An alternative setting could be applied with a latch gate to keep the alarm condition present until Virtual Input 1 is pulsed high Breaker Logic 2 25CB51 Cnt M Enabled Name 25CB51 Cnt COUNTER V Alarm LED Enabled Count Limit EE Message Parameter Count Limit 250 T T2 T3 T4 Pickup Delay s 0 00 0 00 0 00 Dropout Delay s 0 00 1 00 0 00 0 00 Input amp El 1 Trip Coil 25CB51 Input B lt Unused 0 3 1 gt i Input C VI 1 Reset CB Alarms Input D Unused 0 gt X Input E lt Unused 0 gt o This symbol denotes a a function s which has not been enabled and is treated as a logic zero input Figure L 10 Breaker Logic 2 FPRO Unit ID F PROv2 Main Menu User Access Level CHANGE 2082Novi8 88 88 ID Settings Metering Records Utilities Access Quit Event Log ME EVENT 25CB51 Cnt 251 BL2 lt R gt Nov18 a 59 41 5 Trip Coil 25CB51 EI1 20802Nov18 07 59 41 508 ABC Trip F3 Quit C UP amp C DOWN move one line Figure L 11 Event Log D02416R03 02 F PRO 5100 User Manual Appendix L 3 Appendix L F
142. rds and are included as part of the normal record length A trend recording is for a 30 day period at one sample 5 minutes You do not need triggers to create a trend record The F PRO automatically extends a record as required to capture consecutive triggers that are close together If a trigger occurs while a recording is in prog ress the record is stretched to include the full post trigger time of subsequent triggers up to a maximum length 2 0 seconds for fault records If a trigger occurs before the end of a record caused by a previous trigger but too late to allow sufficient post trigger time in a maximum extended record a new over lapping record is created The normal record lengths settings are accessible under the Recording heading of the relay settings and can be set from either the terminal user interface or the Offliner Settings software The event recording provides permanent storage of the event log An event re cord can be created automatically or manually When the event auto save is en abled an event record is created approximately every 230 events A recording can also be initiated manually through the terminal user interface The command nitiate Event Recording is available under the Records menu The F PRO compresses records on the fly achieving a typical lossless com pression rate of 4 1 As a result the F PRO can store up to 30 seconds of fault recordings and a minimum of 30 days of trend recordings in non vola
143. re the settings version and the serial number of the relay in the set Relay ile to the ting file match The relay will reject the setting file if either the serial num ber or the settings version do not match A serial number discrepancy message may appear This is to en sure that you are aware of the exact relay in which settings are to be loaded If this happens check the relay serial number using the terminal mode ID menu item Type this serial number into the F PRO Serial No box in the Identification tab display area of Offliner Settings Alternately you may check the Ignore Serial Number check box to bypass serial number supervision 2 Check the serial number and the settings version of the relay for details see ID on page 3 9 The Device Serial Number and Required Settings Ver sion on the Identification screen indicate the serial number and the settings version of the relay 5 4 F PRO 5100 User Manual D02416R03 02 5 Offliner Settings Software Creating a Setting File from an Older Version 1 Offliner Settings displays a default setting file on start up showing the set tings version in the bottom status bar As an example F PRO Offliner is shipped with a set of default sample files of older settings versions The sample file is v1 sample fps The sample file contains default values of an older settings version For a new installation these sample files are placed in the default directory C Progra
144. read 0x00 0x01 0x06 0x07 29 response 0x00 0x08 0x17 0x28 10 2 Binary Output Status default 1 read 0x00 0x01 0x06 0x07 29 response 0x00 0x08 0x17 0x28 12 1 Control Relay Output Block 3 select 0x00 0x01 0x07 0x08 29 response echo of request 4 operate 0x17 0x18 5 direct op 6 direct op no ack 30 0 Analog Input All Variations 1 read 0x00 0x01 0x06 0x07 29 response 0x01 0x08 0x17 0x28 30 1 32 bit Analog Input 1 read 0x00 0x01 0x06 0x07 29 response 0x01 0x08 0x17 0x28 30 2 16 bit Analog Input 1 read 0x00 0x01 0x06 0x07 29 response 0x01 0x08 0x17 0x28 30 3 32 bit Analog Input without flag 1 read 0x00 0x01 0x06 0x07 29 response 0x01 0x08 0x17 0x28 30 4 16 bit Analog Input without flag default 1 read 0x00 0x01 0x06 0x07 29 response 0x01 0x08 0x17 0x28 32 0 Analog Input Change Event All Variations 1 read 0x06 0x07 0x08 29 response 0x28 32 1 Analog Input Change Event 32 bit without 1 read 0x06 0x07 0x08 29 response 0x28 Time 32 2 Analog Input Change Event 16 bit without 1 read 0x06 0x07 0x08 29 response 0x28 Time default 32 3 Analog Input Change Event 32 bit with Time 1 read 0x06 0x07 0x08 29 response 0x28 32 4 Analog Input Change Event 16 bit with Time 1 read 0x06 0x07 0x08 29 response 0x28 51 1 Time and Data CTO 29 response 0x07 quantity 1 52 1 Time Delay Coarse 29 response 0x07 quantity 1 60 1 Class 0 Data 1 read 0x06 60 2 Cla
145. reaker Logic 3 Main Menu User Access Leve 1 SERUICE 20802Nov208 16 3 FPRO Unit ID F PROv2 ts Settings Metering Records Utilities Access Quit 38 41 362 58 ABC Trip 20802Nov280 16 38 41 362 25CB51 RS B 104s BL3 R5 2082Nov28 16 38 40 931 Trip Coil 25CB51 EI1 R5 20802Nov28 16 38 40 927 58 ABC Trip F3 Quit C UP C DOWN move one line Figure L 13 Event Log F PRO 5100 User Manual D02416R03 02 Appendix L F PRO Setting Example Switching Setting Groups Using One External Input to Toggle Setting Group D02416R03 02 You can program a total of sixteen Group Logic statements per setting group to cause a setting change from one group to another Create settings using the Offliner setting software or by using the Terminal Mode An example of pulsing an external input and an example of a solid initiate to activate setting group changes are shown below Use one external input connected to a SCADA output contact to toggle be tween two or more setting groups In this example we connect external input one EI 1 to the SCADA control output contact and switch between group one and group two If you wanted to switch through all setting groups group logic two would switch to setting group three and so forth If the contact input to switch setting groups becomes welded shut or the SCADA system has a prob lem the relay will only switch to the new logic and stay in that logic until the input has been de energized for
146. ressing the Date amp Time button displays the date and time stored on the relay If the time is incorrect connect to a PC in Terminal Mode and go to Utilities gt Setup gt Time to make the change or connect to the IRIG B plug at the back of the relay The front display time and date is auto matically updated The green IRIG B Functional LED comes on The relay accepts either modulated or unmodulated IRIG B signals automatically Options using IRIG B such as time skew for different time zones are available when you establish communication with the PC View Readings Pressing the View Readings button obtains metering information about the feeder for details see Display on page 3 4 View Logs Pressing the View Logs button displays the target information if a relay operation has occurred for details see Display on page 3 4 Previous Next Scroll through the menu by pressing Previous and Next Clear Target When a fault takes place the red target light appears You can select a setting option to reset the target light after a short time delay Use the Clear Target button to view all target information If many faults have been stored you may need to push this button several times Clearing the target light does not clear the target information from the relay log The relay holds all target messages during a power supply shutdown and restart Pressing the Clear Target push button displays any targets no
147. roLogic state ment and an external input as qualifiers see example Using ProLogic to Qualify Group Logic Statements on page Appendix L 11 Group Logic 1 Group Logic 1 v Enabled Name Group Logic 1 AND Setting Group to Activate SG 2 Setting Group 2 y Enron pu beet Pickup Delay seconds L 0 a alt 9 UE RO AO EMERE Input A PL 10 ProLogic 10 m Input B PL 8 Block Group Logic Y Out Input C El 4 43CS LocalRemote Y Figure L 16 Group Logic 1 Setting Group 2 Logic Statements When setting group two becomes active either through a setting group change or is the default group after relay power up ProLogic 9 becomes high after the 10 00 second delay if external input one is low The example shows ProLogic 9 set for a 0 26 second dropout time to be used with ProLogic 10 dropout timer allowing for the slower processing thread where Group Logic is processed and providing a definite timed pulse to the group logic ProLogic 9 ProLogic 9 v Enabled Name ProLogic 9 AND Pickup Delay 10 00 seconds Dropout Delay 026 seconds v Target Enabled Out Input A El 1 Selector 1 Figure L 17 ProLogic 9 ex lel eed m Seas 2 o 2 o ojojo AAA eod Appendix L 6 F PRO 5100 User Manual D02416R03 02 Using Three External Inputs to Toggle Setting Group D02416R03 02 Appendix L F PRO Setting Example Prologic 10 has no intentional dela
148. rough 50 51 50N 51N and 46 50 51 respectively Define the func tions initiating the fault location when setting F PRO 5100 User Manual 4 13 4 Protection Functions and Specifications ProLogic 4 14 ProLogic Control Statements Using ProLogic F PRO can pick any of the protection functions or external in puts and place them into Boolean like statements ProLogic handles up to five functions to generate one ProLogic statement ten statements are possible The results from these statements are mapped to output contacts using the output matrix Special ProLogic inputs are Output relay 12 as an input to ProLogic The ProLogic control statements are used to create Boolean like logic The F PRO can use any of the protection functions or external inputs combined with logic gates to create a ProLogic control statement The possible gates are AND NAND OR NOR XOR NXOR and LATCH The control can be time delay pickup and or time delay dropout and can drive the front panel target LED Ten ProLogic control statements outputs are available and can be used in the output matrix to customize the relay to your specific needs Inputs to ProLogic are all the elements plus previous ProLogic statements for logic nesting usage The example shows A to E inputs are status points of devices that are user se lectable Each ProLogic output can be given a specific name pickup and reset time delay E Figure 4 13 ProLogic
149. s the Settings menu and activate Load from Offliner function 5 Reply Yes to the Ready to load remote setting prompt 6 In your terminal program initiate transfer of the setting file created in step 2 above For example with Window s HyperTerminal you would select Transfer then Send File Browse to find the file then select Open and fi nally Send 7 When the file has been transferred verified and loaded a message New settings loaded and secure is displayed A serial number discrepancy message may appear This is to en sure that you are aware of the exact relay to which the settings are being loaded If this happens check the relay serial number using the terminal mode ID menu item Type this serial number into the F PRO Serial No box in the Identification tab display area of Offlin er Settings Alternately you may check the Ignore Serial Number check box to bypass serial number supervision Retrieve To Offliner To transfer the relay s current settings to the PC do the following 1 Navigate to Settings Retrieve To Offliner 2 Select Enter 3 Therelay asks you if you wish to continue Select Y for yes 4 The file is sent to the directory defined by the HyperTerminal menu Trans fer Receive File When using HyperTerminal use Z modem no crash recovery files are received and auto incremented Submenus Analog I O Logic for more details about metering see Metering Data on pag
150. s continuous slow speed recording of P Q Ener gy V I Freq and THD of the feeder with an adjustable sample period from 5 to 60 minutes per sample This same global trend sampling rate is applied to all the trend quantities The relay stores a fixed number of samples At the nominal sample period of 5 minutes per sample the F PRO stores one month of trend records with automatic overwrite of the oldest Sample Interval Trend Record Length 5 minute 30 days 10 minute 60 days 30 minute 180 days 60 minute 360 days Recording can be initiated automatically by the relay when a fault or abnormal condition is detected You can set the relay to initiate a fault record upon acti vation of any of its trip or alarm functions or on assertion of any external digital inputs The assignment of fault record initiation to the various relay functions is done through the relay s Output Matrix settings A recording can also be initiated manually through the terminal user interface The command nitiate Fault Recording is available under the Records menu F PRO 5100 User Manual D02416R03 02 Record Duration and Extension Event Recording Record Storage Retrieval and Analysis D02416R03 02 4 Protection Functions and Specifications The length of each record is determined by the Record Length setting Fault re cord lengths can be set between 0 2 and 2 0 seconds Pre trigger times are fixed at 10 cycles for fault reco
151. ser Manual 4 23 4 Protection Functions and Specifications The following is the flow of events that can occur in the Load Settings Screen Load Settings Access Level View System opens Change or Service Load Setting Screen System receives user file System processes user file v System Saves all Changes File Correct Yes No y 4 24 Settings F PRO 5100 User Manual D02416R03 02 D02416R03 02 4 Protection Functions and Specifications Manual Settings Change Relay configuration changes during a user initiated manual setting the change does not disrupt the relay protection functions The relay logs an acceptance of the change request and puts the new setting file in service When the new set ting file is queued the relay loads the new setting configuration for protection functions to the protection processor The relay loads the new name definitions for indication and recording functions to the interface processor When the re lay has completed loading the ancillary settings for indication purposes to the interface processor an event is logged to show completion of the request There is some lag time during the load request and the completion of the re quest where the interface processor associates ancillary functions with the pre vious setting file for approximately five seconds The ancillary setting information includes channe
152. ses 2 bytes to be written to a memory block in the flash Each memory block writes about 65 Kbytes before an erase is performed on the flash memory An average of 14 setting group changes per day for the 25 year life of a relay results in the flash memory being erased only four times Latch states from ProLogic and Group Logic also performs writes to the flash memory increasing the number of erases performed on the flash F PRO 5100 User Manual Appendix L 1 Appendix L F PRO Setting Example Setting Examples Breaker Monitor Examples Using Breaker Logic Appendix L 2 Clearing Time Monitoring Definition The breaker clearing time is the elapsed time from trip coil ener gized until last phase current is zero Desired Behavior Alarm if the elapsed time is greater than the Clearing Time Pickup Threshold T1 and the current flowing through the breaker had dropped below the 50LS setting The logged event message includes the actual clearing time Timer 1 accumulated run time When the final output goes high the run time associated with all the timers is available and can be record ed in the event log The message parameter setting is used to define the event log message The Alarm LED Enabled setting is used to tell the F PRO to turn on the front panel led In this example a latch gate is used to keep the alarm condition pres ent until Virtual Input 1 is pulsed high An alternative setting could be applied where no latch gate is
153. ss 1 Data 1 read 0x06 0x07 0x08 Appendix F 2 F PRO 5100 User Manual D02416R03 02 Appendix F DNP3 Communication Protocol Object Request Response 60 3 Class 2 Data 1 read 0x06 0x07 0x08 80 1 Internal Indications 2 write 0x00 index 7 110 0 Octet String 1 read 0x06 129 response 0x07 111 0 Octet String Change Event 1 read 0x06 129 response 0x07 No Object 14 warm restart Point List Binary Inputs Obj 1 2 Static Points Change Event Points Object Group 1 2 Object Variation 1 Binary Input default 1 Binary Input Change without Time 2 Binary Input with Status 1 Binary Input Change with Time default 3 Binary Input Change with Relative Time Class 0 1 Note Binary inputs are scanned with 1 ms resolution Change Event Buffer Size 100 Name Point Index Change Event Class External Input 1 0 External Input 2 1 External Input 3 2 External Input 4 3 External Input 5 4 External Input 6 5 External Input 7 6 External Input 8 7 External Input 9 8 Binary Outputs Obj 10 12 Static Points Control Points D02416R03 02 F PRO 5100 User Manual Appendix F 3 Appendix F DNP3 Communication Protocol Appendix F 4 Binary Outputs Obj 10 12 Object Group 10 12 Object Variation 2 Binary Output Status default 1 Control Relay Output Block Class 0 Not Applicabl
154. supply Figure 1 3 F PRO Back View D02416R03 02 F PRO 5100 User Manual 1 3 1 Overview AC Current and Voltage Inputs External Inputs Output Relay Contacts Relay Inoperative Alarm Output F PRO is provided with terminal blocks for up to 6 ac currents and 4 phase to neutral voltages Each of the current input circuits has polarity marks A complete schematic of current and voltage circuits is shown for details see AC Schematic Drawing in Appendix I and DC Schematic Drawing in Appendix J The F PRO relay contains 9 programmable external inputs External dc voltage of either 48 125 volts or 125 250 volts nominal are possible depending on the range provided The F PRO relay has 12 output relay contacts Each contact is programmable and has breaker tripping capability All output contacts are isolated from each other The output contacts are closed for a minimum of 100 ms after operation If the relay is in self check program or becomes inoperative then the Relay In operative Alarm output contact closes and all tripping functions are blocked Model Options Ordering 1 4 F PRO is available as a horizontal mount for details see Mechanical Draw ings in Appendix G F PRO is available with an internal modem card or internal network card The CT inputs are 1 A nominal or 5 A nominal The external inputs are 48 125 Vde or 125 250 Vdc The system base frequency is either 50 Hz or 60 Hz All of the a
155. t previously viewed on the front display and clears the Target LED after the last target has been viewed Peak Demand Reset Energy Reset F PRO 5100 User Manual 3 3 3 Using the IED Getting Started Display 3 4 Target 000000 Date amp View View Previous Next Clear Time Readings Logs Target View Readings 0 0 KV ph ph 0 0 A line View Logs 2000Jun28 19 34 31 331 50LS 1 Main ABC Trip Figure 3 2 Line Display Examples Line Display Messages PRIV I P Q Va la magnitude and angle Vb Ib magnitude and angle Vc lc magnitude and angle 310 magnitude and angle Frequency and THD Power Factor Fault location trip date and time of all functions involved Peak Demand Energy In and Out F PRO 5100 User Manual D02416R03 02 3 Using the IED Getting Started Terminal Mode D02416R03 02 Establish terminal mode connection for details see Using HyperTerminal to Access the Relay s User Interface on page 2 5 2 Login as one of view breaker change or service lower case These four login names provide differing levels of permission The relay supports the optional use of passwords A pop up dia logue box appears after login has taken place If you have forgotten the password go to Access gt Passwords in Terminal Mode for details see Passwords on page 3 6 3 When connection is established and the term
156. tages above 20 volts are declared a live state When enabled this function checks that the voltage angle between the Main ac volts PT and bus sync ac volts PT voltages are within a specified value Use this function to ensure that closing a line to a system results in acceptable pow er flow The function uses three voltages from the Main PT and a single voltage from the Sync PT to make the angle measurement The dead main dead sync logic is based on fixed voltages less than 20 volt sec onds i e The line or bus is declared dead if its voltage is less than that value The Sync PT Phase is settable in System Parameters from 0 to 330 degrees in steps of 30 degrees F PRO 5100 User Manual D02416R03 02 4 Protection Functions and Specifications 25 27 59 Sync Check 25 Sync Check Enable disable Maximum Voltage 60 0 to 138 0 volts secondary Minimum Voltage 40 0 lt Minimum Voltage lt Maximum Voltage 0 1 lt 115 volts secondary Angle Difference 1 0 to 50 0 degrees Pickup Delay 0 00 to 99 99 seconds Main Aux Enable Dead Main Live Aux DMLA Enable disable Enable Live Main Dead Aux LMDA Enable disable Enable Dead Main Dead Aux DMDA Enable disable 79Main 79Aux
157. thernet LAN on top of either TCP or UDP protocols The Modbus implemen tation supports both RTU binary or ASCII modes and is available through a direct serial link The relay s Port 3 is dedicated for use with Modbus or DNP3 serial protocols Port 3 uses standard RS 232 signalling An external RS 232 lt gt RS 485 con verter can also be used to connect to an RS 485 network For details on connecting to serial Port 3 see Communicating with the Relay IED on page 2 2 and Communication Port Details on page 2 9 The DNP3 protocol can also be run across the optional Ethernet LAN Both DNP over TCP and DNP over UDP are supported For details on connecting to the Ethernet LAN see Network Link on page 2 4 Complete details on the Modbus and DNP3 protocol services can be found in the Appendices Modbus RTU Communication Protocol in Appendix E and DNP3 Communication Protocol in Appendix F respectively To select the desired SCADA protocol login to the relay s user interface and access the Utilities gt Setup gt SCADA menu Select the protocol and set the cor responding parameters The DNP3 LAN WAN TCP and UDP options are only available if the unit has an optional Ethernet LAN port installed Port 3 s communication parameters are set using the Utilities Setup Ports menu in relay s user interface Both the baud rate and the parity bit can be con figured The number of data bits and stop bits are determined
158. tile stor age If the storage is full new records automatically overwrite the oldest en suring that the recording function is always available A listing of stored records is available through the terminal user interface under the Records menu The listing provides the means to transfer records to a con nected PC and to delete them from storage Example FPRO 2100 990726 04 2000 06 09 13 17 16 000 Fault Records are named by combining the Relay ID setting with the date and time of the initiating record trigger In the record list the record type fault or swing is shown To delete a record from storage use the up down cursor keys to select the re cord then press D You can also do group deleting and group transferring To select multiple records 1 Select a record 2 Press the spacebar a asterisk will appear to the left of the record to indicate it is selected 3 Continue selecting and pressing the spacebar until all desired records are selected 4 Press D A message asks Delete all selected files shown above Select Y for Yes and the files are deleted F PRO 5100 User Manual 4 27 4 Protection Functions and Specifications To transfer a record to your PC use the up down cursor keys to select the re cord then press r The record is automatically transferred to your PC using the PC terminal program s z modem file transfer protocol The record is placed in your terminal program s default to receive t
159. to 999 00 Dropout Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt PL 8 ProLogic 8 ProLogic 8 Disabled Target Enabled Pickup Delay 0 00 seconds 0 00 to 999 00 Dropout Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt PL 9 ProLogic 9 ProLogic 9 Disabled Target Enabled Pickup Delay 0 00 seconds 0 00 to 999 00 Dropout Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A Unused 0 gt F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt PL 10 ProLogic 10 ProLogic 10 Disabled Target Enabled Pickup Delay 0 00 seconds 0 00 to 999 00
160. tus reverts to the open position F PRO 5100 User Manual D02416R03 02 7 Installation Physical Mounting Standard 3U The relay is 3 rack units or 5 25 inches high and approximately 12 25 inches deep The standard relay is designed for a 19 inch rack A complete mechani cal drawing is shown for details see Mechanical Drawings in Appendix G To install the relay you need the following 19 inch rack 4 10 screws AC and DC Wiring For details see AC Schematic Drawing in Appendix I and DC Schematic Drawing in Appendix J Communication Wiring EIA 232 Ethernet Modem IRIG B Wiring D02416R03 02 All of the relay s serial ports Ports 1 2 and 3 are configured as EIA RS 232 Data Communications Equipment DCE devices with female DB9 connec tors This allows them to be connected directly to a PC serial port with a stan dard straight through male to female serial cable for pin out for details see Communication Port Details on page 2 9 The relay has an RJ 45 receptacle for accepting a 10BaseT Ethernet connector or an RJ 11 connector The IRIG B connector on the back of the relay is BNC type F PRO 5100 User Manual 7 1 Appendix A IED Specifications Model 5100 Specifications Item Quantity Specs Note General Nominal Frequency 50 or 60 Hz Including relay output operation Sampling Rate 96 samples cycle Records up to 25th harmonic Power Supply Nominal Range 4
161. ual 5 7 5 Offliner Settings Software External Inputs F PRO Offliner Settings Document 1 PEE olaja ejej ol E Identification Relay Analog Inputs mETITISIS O Output Contacts O Virtual Inputs O Setting Groups System Parameters Record Length Setting Group 1 Setting Group 1 Setting Group 2 Setting Group 2 Setting Group 3 Setting Group 3 Setting Group 4 Setting Group 4 Setting Group 5 Setting Group 5 Setting Group 6 Setting Group 6 Setting Group 7 Setting Group 7 Setting Group 8 Setting Group 8 Figure 5 7 External Inputs The External Inputs screen allows you to define meaningful names for nine ex ternal inputs External Input Names 1to9 User defined Output Contacts F PRO Offliner Settings Document 1 Identification L Relay Analog Inputs External Inputs Wl Output Contacts Virtual Inputs Setting Groups O System Parameters Figure 5 8 Output Contacts The Output Contact Names screen allows you to define meaningful names to the 12 output contacts Output Contact Names Outputs 1 to 12 User defined F PRO 5100 User Manual D02416R03 02 5 Offliner Settings Software Virtual Inputs F PRO Offliner Settings Document
162. ular function to operate correctly it must be enabled and must also have its logic output assigned to at least one output contact if it is involved in a tripping function D02416R03 02 F PRO 5100 User Manual 5 17 5 Offliner Settings Software Settings Summary 5 18 Print the entire output matrix by selecting File gt Print Summary This printout is produced on two pages F PRO Offliner Settings Document 1 tie Edt Tools Window Help 101 xj 181 xi E C Identification C System Parameters C Record Length E C Setting Group 1 Setting Group 1 C Feeder Parameters 0 Protection Functions Demand Trend Metering Pot E ProLogic H Breaker Logic Group Logic C Output LI C Setting Group 3 Setting Group 3 C Setting Group 4 Setting Group 4 FL Setting Group 5 Setting Group 5 He Setting Group 6 Setting Group 6 1 Setting Group 7 Setting Group 7 C Setting Group 8 Setting Group 8 celta x ase Rs ofa 2 Settings Summary Jour Matrix F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Relay Identification Settings Version 2 flgnore Serial Number NO Serial Number FPRO 5100 000615 01 Nominal CT Secondary Current 5 A Nominal System Frequency 60 Hz Relay ID Uniti Comments Comments Date Created Modified 1999 10 04 16 21 22 Station Name Station Name Station Number 1 Location Location Line D245 Analog Input
163. ulation program running on a PC To create a direct serial link between the re lay and your computer connect the serial cable provided between your computer s serial port and Port 1 on the relay s front panel Port 2 on the relay s back panel can also be used for direct serial access provided the port is not configured for modem use When connected run the terminal emulation soft ware on your computer to establish the communication link for details see Using HyperTerminal to Access the Relay s User Interface on page 2 5 The relay s Modbus and DNP3 SCADA services can be accessed via a direct serial link to Port 3 on the relay s back panel for details see Accessing the Re lay s SCADA Services on page 2 8 F PRO 5100 User Manual D02416R03 02 Modem Link External D02416R03 02 2 Setup and Communications Modem Cable as supplied with modem Analog Modem Adapter T liri gu L Analog Port 2 Direct Modem Telephone Line p mug J Modem M Modem Adapter Supplied by ERLPhase DB 9 Male Male Figure 2 2 External Modem Link The relay s user interface can also be accessed through a telephone link be tween the relay and your computer using an external modem Connect the serial port on the external modem to the Port 2 on the relay s back panel Both devices are configured as RS 232 DCE devices with female con nectors so the cable between the relay and the modem requires
164. up 2 H Setting Group 3 Setting Group 3 C Setting Group 4 Setting Group 4 E Setting Group 6 Setting Group 6 F PRO Offliner Settings v2 Figure 5 10 Setting Groups The Setting Group Names screen allows you to define meaningful names to the 8 setting groups Setting Groups F PRO 5100 User Manual Setting Groups 1 to 8 User defined D02416R03 02 System Parameters D02416R03 02 5 Offliner Settings Software F PRO Offliner Settings Document 1 e ei x Ju File Edit Tools Window Help xj oleja e mena 2 i Identification Relay System Parameters O Analog Inputs External Inputs Bese MVA 100 0 Output Contacts Virtual Inputs Phase Rotation ABC v CT Turns Ratio Ring Bus Configuration Aux CT Line Input Main CT Turns Ratio 2400 1 C Setting Group 1 Setting Group 1 00 ae amp amp Setting Group 2 Setting Group 2 Aux CT Turns Ratio 2400 3 Setting Group 3 Setting Group 3 E Setting Group 4 Setting Group 4 PT Turns Ratio H O Setting Group 5 Setting Group 5 Main PT Turns Ratio 1000 0 ia bia bebes gt se ind E Sync PT Turns Ratio 1000 0 6 7 Setting Group ing Group t Setting Group 8 Setting Group 8 Sync PT Phase 0 deg Line Line to Line Voltage 115 00 ky Pri Distance Unit km m F PRO Offliner Settings v2 2 Figure 5 11 System Parameters
165. up to 20 characters 5 6 F PRO 5100 User Manual D02416R03 02 5 Offliner Settings Software Important Note Nominal CT Sec Current can be set to either 5 A or 1 A Nominal System Frequency can be set to either 60 Hz or 50 Hz Ensure setting selection matches that of target F PRO The serial number of the relay must match the one in the setting file or the setting will be rejected by the relay This feature ensures that the correct setting file is applied to the right relay In Settings Version 2 or greater you can choose to ignore the serial number enforcement in the identification screen The relay only checks for proper relay type and setting version if the ignore serial number has been chosen requires relay firmware version 2 0 or greater Analog Inputs lolx Be dt Look window eb 218 x olsa xum sje fr vj E O Medfedon fe Analog Input Names Moin Voltage Main Current Sync Voltage lag Man Line Current A Sy Syre votez Bt v 1er wen ine Ausilory Current F PNO Offliner Settings v2 Figure 5 6 Analog Inputs Analog Inputs screen identifies all the ac voltage and current inputs to the re lay These names appear in any fault disturbance records the F PRO produces Analog Inputs Main Voltage MVA MVB MVC Main Current IA1 IB1 IC1 Aux Current IA2 IB2 IC2 Sync Voltage SV D02416R03 02 F PRO 5100 User Man
166. upportCOerlphase com Tel 1 204 477 0591 F PRO 5100 User Manual Table of Contents D02416R03 02 laci Contact Information eee oer error senecta nt uaa i Table Oft CONS EE iii Using This Guide s oio EC E eee eo tU cette V Version CompatibIlby cis t rx eterna re eae vii Uem Mn 1 1 Front Wo as 1 3 Back VIeW ein te ERE dar i dx ERR dez tac 1 3 Model Options Ordering eese 1 4 2 Setup and Communications 2 1 Power Supply c Eraser prater litis 2 1 IRIG B Time Input erret tette 2 1 Communicating with the Relay IED 2 2 Using HyperTerminal to Access the Relay s User Igizjarie c EE 2 5 Setting the Baud Rate ooooccononicccnnncccccnnononcccnnnannncnnnnnnnnnnn 2 7 Accessing the Relay s SCADA Services 2 8 Communication Port Details sssesesss 2 9 Maintenance Menu uae ir orent tie Rees t dade 2 12 Firmware Update ssssssssese 2 13 3 Using the IED Getting Started 3 1 Start up Sequence esses 3 1 Front Panel Display ona is 3 2 Terminal Mode ocoooccccccccccccnnncnnncnnncnnnonnncnnnnnnncnnnnnnnnoos 3 5 View Change or Service Login sssssss 3 9 Breaker Loglrt iec cera EOS Po uva ctp tate 3 13 Metering Data idad eta Ro Lo ein 3 14 4 Protection Functions and Specifications
167. used and T2 drop out timer is set for creating the desired Alarm pulse width Breaker Logic 1 Clearing Tm IV Enabled Name Clearing Tm LATCH V Alarm LED Enabled Count Limit 0 o prev Message Parameter Run Timer 1 hd TONENE DEA S n T2 T3 T4 Ta ESTEE Pickup Delay xl TES 0 00 0 00 0 00 Dropout Delay x 0 10 0 00 0 00 0 00 Input A El 1 Trip Coil 25CB51 y Ms Input B SOLS Main 1 Trip A b o J T2 Input C SOLS Main 1 Trip X aem El dm Input D VI 1 Reset CB Alarms m Input E lt Unused 0 gt o This symbol denotes a function which has not been enabled and is treated as a logic zero input Figure L 8 Breaker Logic 1 Main Menu User Access Level CHANGE 2082Novi5 15 26 FPRO Unit ID UnitID ie Settings Metering Records Utilities Access Quit Event Log TIME EUENT 2882Novi5 15 26 27 648 Clearing Tm 654s BL1 lt R gt 2082Novi5 15 26 27 498 ProLogic 1 PL1 2082Novi5 15 26 26 994 Trip Coil 25CB51 Eli 2 02Nov15 15 26 26 988 50 ABC Trip F3 Quit C UP C DOWN move one line U gt D page down T Top Figure L 9 Event Log F PRO 5100 User Manual D02416R03 02 Appendix L F PRO Setting Example Operations Count Monitoring Definition The breaker operations count since last reset preset Desired Behavior Alarm if the counter is greater than the Count Limit Pick up Timer T1 pickup delay is used to provide a de bounce time for the ci
168. ut 23 10535 0 Off inactive On active Virtual Input 24 10536 0 Off inactive On active Virtual Input 25 10537 0 Off inactive On active Virtual Input 26 10538 0 Off inactive On active Virtual Input 27 10539 0 Off inactive On active Virtual Input 28 10540 0 Off inactive On active Virtual Input 29 10541 0 Off inactive On active Virtual Input 30 10542 0 Off inactive On active Read Holding Registers Function Code 03 Channel Units Scale F PRO Clock Time UTC Read all in same query to ensure consistent time reading data Milliseconds Now 40001 0 999 1 Seconds Now 40002 0 59 1 Minutes Now 40003 0 59 1 Appendix E 4 F PRO 5100 User Manual D02416R03 02 D02416R03 02 Appendix E Modbus RTU Communication Protocol Read Holding Registers Function Code 03 Channel Units Scale SARA Hours Now 40004 0 23 1 Day of Year Now 40005 1 365 up to 366 if leap year 1 Years since 1900 40006 90 137 1 Sync d to IRIG B 40007 0 No 1 Yes 1 Time of Acquisition UTC Read all in same query to ensure consistent time reading data North America is negative Milliseconds Now 40008 0 999 1 Seconds Now 40009 0 59 1 Minutes Now 40010 0 59 1 Hours Now 40011 0 23 1 Day of Year Now 40012 1 365 up to 366 if leap year 1 Years since 1900 40013 90 137 1 Sync d to IRIG B 40014 0 No 1 Yes 1 Milliseconds Now 40015 2 s complement half hours 1
169. uxB fixed 0 2 amps 50 IAuxC fixed 0 2 amps Figure 4 3 50BF Aux Breaker Failure 109 gt Output1 j 0 111 m gt Output2 gt Output1 i 0 m gt Output2 50BF Breaker Failure Main Enable disable Pickup Delay 1 0 01 to 99 99 seconds Pickup Delay 2 0 01 to 99 99 seconds Auxiliary Enable disable Pickup Delay 1 0 01 to 99 99 seconds Pickup Delay 2 0 01 to 99 99 seconds F PRO 5100 User Manual D02416R03 02 Directional Element D02416R03 02 4 Protection Functions and Specifications The directional element of F PRO uses the memory polarized voltage based positive sequence impedance Zoos mem to determine the fault direction This impedance is defined as Vrosmem posmem Tros where V mem 1s the memorized positive sequence voltage calculated from the polarization voltage signals Figure 4 5 Effect of the Ring Filter on page 4 7 and is the positive sequence line current 1 Finer Ve polarization Va Filter Va polarization gt Sequence Vb gt PE Vb polarization Component Vpos mem IF Filter Fiter Le polarization Vc Bre Vc_polarization Figure 4 4 Vpos_mem Calculation The effect of the Ring Filter implemented
170. w away from bus or a negative value trip on reverse power flow into bus You can set either a real 32P and a reactive 32Q direction The values are set by specifying the pickup current This value is set to positive values to de tect power flow from the bus and to negative values to detect power flow into the bus 32 Directional Power 32P Enable disable Pickup 15 00 0 25 to 15 00 0 25 A real Pickup Delay 0 00 to 99 99 s 32Q Enable disable Pickup 15 00 0 25 to 15 00 0 25 A reactive Pickup Delay 0 00 to 99 99 s The relay has two mho phase distance elements Each element includes a for ward reach and delta current supervisor setting The element output is only available as a ProLogic 21 Phase Distance 21P Enable disable Forward Reach 0 05 to 66 00 ohms 0 2 to 50 0 A Delta Current Supervision This function checks and picks the highest THD in any of the six current inputs if ring bus configuration is enabled It only checks the three main current in puts for highest THD if ring bus configuration is disabled THD Alarm THD Alarm Enable disable Pickup 5 0 to 100 0 When a fault occurs and the line trips the fault locator calculates the fault type and the distance to the fault This information is available from the front dis play of the relay or through terminal UI or SCADA Enable or disable the fault locator th
171. y 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Appendix B 24 F PRO 5100 User Manual D02416R03 02 Appendix B IED Settings and Ranges F PRO Settings Summary Setting Group 1 Setting Group 1 Name Symbol Value Unit Range Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt Group Logic 16 Group Logic 16 Group Logic 16 Disabled Setting Group to Activate lt none gt Pickup Delay 0 00 seconds 0 00 to 999 00 Operator 1 Input A lt Unused 0 gt Operator 2 Input B lt Unused 0 gt Operator 3 Input C lt Unused 0 gt Operator 4 Input D lt Unused 0 gt Operator 5 Input E lt Unused 0 gt D02416R03 02 F PRO 5100 User Manual Appendix B 25 Appendix C Hardware Description External Input and Comm Board Relay Output Board Power Supply Board BS Analog Input oard Main Processor Board MPB 486 CPU Board D02416R03 02 The F PRO relay has 9 channels of external input provided by the External In put and Comm Board Inputs are optically isolated factory pre set to the cus tomer s requested voltage level Two dual range user selectable external input voltage level model of the External Input and Comm Board are available This allows you to select between 48 Vdc and 125 Vdc or 125 Vdc and
172. y and becomes high for the combined drop out time of ProLogic 9 and 10 equalling 0 52 seconds ProLogic 10 ProLogic 10 IV Enabled Name ProLogic 10 AND Pickup Delay 0 00 seconds 0 DRE Dropout Delay 025 seconds JV Target Enabled Input amp El 1 Selector 1 y Input B PL afrrologies y Figure L 18 ProLogic 10 Group Logic 1 is used to switch to the new setting group there is no intentional delay Group Logic 1 Group Logic 1 IV Enabled Name Group Logic 1 AND Setting Group to Activate sc 2 Setting Group 2 zi 010 0 Pickup Delay D seconds 0 1 li 0 1 0 0 i d d Input A PL10frroLogie1o v Input B PL8 Block Group Loic Y Input C El 4 43CS Local Remote Y Figure L 19 Group Logic 1 Three external inputs connected to an eight position selector switch The out put contact is used to build a truth table to toggle between eight setting groups In this example we connect EI 1 EI 2 and EI3 to the selector switch output contacts pena Input States Setting Group to Activate El 3 El 2 El 1 1 0 0 0 Setting Group 1 2 0 0 1 Setting Group 2 3 0 1 0 Setting Group 3 4 0 1 1 Setting Group 4 5 1 0 0 Setting Group 5 6 1 0 1 Setting Group 6 7 1 1 0 Setting Group 7 F PRO 5100 User Manual Appendix L 7 Appendix L F PRO Setting Example Selector Switch Input States Setting Group to Activate Setting
173. y settings and delete records service Changes the access level to service Allows you full access to cali bration manual control of the auxiliary relays and modification of passwords available via local Port 1 connection only Passwords Allows you to read and change passwords Requires service access level Selecting this option ends serial port communication with the relay The Main Menu display for the breaker login is ae ae a Breaker Log Metering Reset Quit The breaker log provides a log of breaker monitoring events The metering quantities provided are breaker logic and I I t For an explana tion of those quantities see Breaker Logic on page 4 15 and I I t on page 4 16 Use Reset to preset reset the breaker logic count and the I I t Selecting this option ends serial port communication with the relay F PRO 5100 User Manual 3 13 3 Using the IED Getting Started Metering Data Front Panel The quantities provided on the front panel display include Metering Positive sequence L L voltage Positive sequence line current Line MW MVAR Positive sequence frequency THD Power Factor Primary line to neutral voltages and currents Primary 3IO current Peak MW In Out MVAR In Out Ia Ib Ic MWh In Out MVARh In Out All quantities are in primary unless otherwise noted TUI Metering The TUI provides the following metering quantities Analog Analog Inputs Displays all
Download Pdf Manuals
Related Search