Reactive Relays - Federal Elektrik - #10

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Untitled table.main {} tr.row {} td.cell {} div.block {} div.paragraph {} .font0 { font:4.00pt "Arial", sans-serif; } .font1 { font:5.00pt "Arial", sans-serif; } .font2 { font:7.00pt "Arial", sans-serif; } .font3 { font:8.00pt "Arial", sans-serif; } .font4 { font:11.00pt "Arial", sans-serif; } .font5 { font:16.00pt "Arial", sans-serif; } .font6 { font:12.00pt "Georgia", serif; } .font7 { font:4.00pt "Impact", sans-serif; } .font8 { font:4.00pt "Lucida Sans Unicode", sans-serif; } .font9 { font:5.00pt "Trebuchet MS", sans-serif; } REACTIVE RELAYS Register Map for FPA50-FPA100-FPA120-FAA200-FKR240 Devices: The device is designed in accordance with IEEE 754 standard, 32-bit floating, comma number standard. In this context, communication protocol has been arranged in compliance with 16-bit MODBUS structure. Curve information have différent byte lengths and reading request should be made for bytes with similar lengths at the same time! Applicable MODBUS commands are 3 and 16. Orange areas are the registers used in compensation relay. Reg. No: Number of Bytes Functlon Description W/R Reg. No: Number of Bytes Functlon Description W/R 1 4 U1 Phasel neutral voltaqe R 53 a BNK1 Hidder (compensation) R 2 4 U2 Phase2 neutral voltaqe R Hiriner (compensation) R 3 4 U3 Phase3 neutral voltaae R i'.'-MK :: .. ■ <:<•■ .■. :': R 4 4 U12 Phasel. Phase2 voltaae R 3NK-1 Hiduer (compensation} R 5 4 U23 Phase2, Phase3 voltaae R 54 4 KOND1 ■ ■ r.i*ar) R 6 4 U31 Phase3, Phasel voltaae R 55 a KOND2 " r» 7 4 11 Phase 1 Current R 56 a KONÛ3 R 8 4 12 Phase 2 Current R 57 4 KONEJ4 ■ : : ■■•■■■■r.c-; '■ H g 4 13 Phase 3 Current R bà 4 KOND5 Hidoor (compensations step power) :: 10 4 kW1 Phasel Active power R 59 4 KONr 6 Hidder (corn;.; ■ ■ nwer) R 11 4 kW2 Phase2 Active power R 6C a KOND7 Hidder (cornoensaliori7 step powei ) R 12 4 kW3 Phase3 Active power R fil a r ■ )ND8 1 iidaer (compensation*) step cower) R 13 4 kR1 Phasel Reactive power R 62 a KOND9 1 lidder (compensations step prwer) R 14 4 kR2 Phase2 Reactive power R 63 a KOND10 Hiriner (compensation 10 sreo power} n 15 4 kR3 Phase3 Reactive power R :y- a K3ND1: Hidder (compensation 11 steo power} R 16 4 cos 1 Phase1-I1 skip R 65 n KON )I2 Hiduër (compensation^ JdLeo power :■ hr 17 4 cos 2 Phasel -12 skip R 66 4 KOND1s hlnJutr (compensation 13 si eu power} R 18 4 cos 3 Phasel-13 skip R 67 4 K.ONi."'-^ Hidden {compensation 14 sleo power) R 19 4 PF 1 Phasel power factor R 68 £ KONG 1b Hidden (compensation! 5 steo power) R 20 4 PF2 Phase2 power factor R 69 a Hidocr (compensation Ifï steo power ï R 21 4 PF 3 Phase3 power factor R 70 a KOND17 Hidoor (compensation 17 steo power) R 22 4 kVA1 Phasel apparent power R 71 a KONDIfc Hidder (compensation 18 steo power} R 23 4 kVA2 Phase2 apparent power R 72 a KOND19 Hidder (compensation! a steo power) R 24 4 kVA3 Phase3 apparent power R 73 a KON D 20 R 25 4 kW1e Phasel export power R 74 4 KOND2 1 lidoer (compensation,^ steo power} R 26 4 kW2e Phase2 export power R 7b 4 KO.--jr.K-:::- Hirioer (compensation?? steo power) :- 27 4 kW3e Phase3 export power R /□ a i- ■ Hidder (compensations stso power) R 28 4 EW Total power R 77 a KONDS4 HiUut.i- fc un ip en talion 24 ;;teu uowerl R 29 4 EWi Total import power R R 30 4 EWe Total export power R R 31 4 ERI Total inductive power R 91 128 U1.I1 U1,I1,...U127,I127 sipned char R 32 4 ERo Total capacitive power R 92 128 U2.I2 U1,I1,...U127,I127 siqned char R 33 4 Er Total reactive power R 93 128 U3.I3 U1.I1....U127.I127 siqned char R 34 4 Ecos Average phase skip R 35 4 EPF Average power factor R 36 4 F + Inp. 2 byte FRK/10+1 byte:128 inp1,32 inp2,1 byte hidden R 37 4 kWhil Phasel energy import R 101 4 VT+CT Integer voltage transformer rate , integer current transformer rate W/R 38 4 kWhi2 Phase2 energy import R 102 4 SUHË Hidden (enablemanl duralion 1.disab!ame<i! ' .■■■rial.ilv'-i.jii' J-j'--.-!.. ■ 1 disal..bitk'-iI 'linal r,r W/R 39 4 kWhi3 Phase3 energy import R 103 4 B. AD, MODE Hidden (bank number 1. 3ar;k numbaf 3, modall) W/R 40 4 kWhel Phasel energy import R 104 4 ILK KVAr Hidoer first capacitor power (Monopnase] W/R 41 4 kWhe2 Phase2 energy import R 105 4 ll_K KVAr Hidden tirst caoacitoi power (Th'eephasa) W/R 42 4 kWhe3 Phase3 energy import R 106 4 Min Gos 1 Hidoer rrin, mono-pnase cos value sna:' bc divideo into long 100TJ W/R 43 4 kRLhl Phasel inductive energy R 107 4 Max Cos 1 Hidden max. rmno-phasB cos value shaiibedividedintoiong 1000 W/R 44 4 kRLh2 Phase2 inductive energy R 108 4 Min Cos 3 1 lidder. rrin. trphase cos value s'ns" be diwiaed inîo long 1C00 W/R 45 4 kRLh3 Phase3 inductive energy R 109 4 Max Cos 3 Hldaen max. triphasé cos value shall be divlnedlnio long 1000 W/R 46 4 kRChl Phasel capacitive energy R 110 4 P+R+G integer PORT + Restart (komp!) + GPRS mode W/R 47 4 kRCh2 Phase2 capacitive energy R 111 4 IP IP1 + IP2 + IP3 + IP4 W/R 48 4 kRCh3 Phase3 capacitive energy R 112 4 T+B+Cn Integer Timeout (x10ms) + BAUD + Device no (1-250) W/R 49 4 EWhi Total import energy R 50 4 EWhe Total export energy R 121 4 BANK ari/olf Hidoen eacri byte rrgrit 6 bit X 4 capeoitor ON/OFF W/R 51 4 ELh Total inductive energy R 122 4 OUTPUT 1. byte 3=1. relay on 4=2.relay on 5=1. and 2. relayon W/R 52 4 ECh lotal capacitive energy R ^FEDERAL ■17/8