function ChangeDisplay() { var fSwitchOn = document.getElementById("firstSliderOn"); var fSwitchOff = document.getElementById("firstSliderOff"); var sSwitchOn = document.getElementById("secondSliderOn"); var sSwitchOff = document.getElementById("secondSliderOff"); var imgOn = document.getElementById("firstDisplayON"); var imgOff = document.getElementById("firstDisplayOFF"); var tableOne = document.getElementById("tableOne"); var tableTwo = document.getElementById("tableTwo"); var tableThree = document.getElementById("tableThree"); var buttonsOneTable = document.getElementById("buttonsOneTable"); var buttonsTwoTable = document.getElementById("buttonsTwoTable"); var buttonsThreeTable = document.getElementById("buttonsThreeTable"); var fDisplayOnText = document.getElementById("firstDisplayONText"); var rp3000xtSection = document.getElementById("rp3000xtSection"); if(fSwitchOn.style.display === "pole") { fSwitchOn.style.display = "blokeeri"; fSwitchOff.style.display = "puudub"; sSwitchOn.style.display = "puudub"; sSwitchOff.style.display = "blokeeri"; imgOn.style.display = "blokeeri"; imgOff.style.display = "puudub"; tableOne.style.display = "puudub"; tableTwo.style.display = "blokeeri"; tableThree.style.display = "puudub"; buttonsOneTable.style.display = "puudub"; buttonsTwoTable.style.display = "blokeeri"; buttonsThreeTable.style.display = "puudub"; rp3000xtSection.style.display = "puudub"; fDisplayOnText.style.display = "blokeeri"; } else { fSwitchOn.style.display = "puudub"; fSwitchOff.style.display = "blokeeri"; sSwitchOn.style.display = "puudub"; sSwitchOff.style.display = "puudub"; imgOn.style.display = "puudub"; imgOff.style.display = "blokeeri"; tableOne.style.display = "blokeeri"; tableTwo.style.display = "puudub"; tableThree.style.display = "puudub"; buttonsOneTable.style.display = "blokeeri"; buttonsTwoTable.style.display = "puudub"; buttonsThreeTable.style.display = "puudub"; rp3000xtSection.style.display = "flex"; fDisplayOnText.style.display = "puudub"; } }
function ChangeSecondDisplay() { var sSwitchOn = document.getElementById("secondSliderOn"); var sSwitchOff = document.getElementById("secondSliderOff"); var tableOne = document.getElementById("tableOne"); var tableTwo = document.getElementById("tableTwo"); var tableThree = document.getElementById("tableThree"); var buttonsOneTable = document.getElementById("buttonsOneTable"); var buttonsTwoTable = document.getElementById("buttonsTwoTable"); var buttonsThreeTable = document.getElementById("buttonsThreeTable"); if(sSwitchOn.style.display === "puudub") { sSwitchOn.style.display = "blokeeri"; sSwitchOff.style.display = "puudub"; tableOne.style.display = "puudub"; tableTwo.style.display = "puudub"; tableThree.style.display = "blokeeri"; buttonsOneTable.style.display = "puudub"; buttonsTwoTable.style.display = "puudub"; buttonsThreeTable.style.display = "blokeeri"; } else { sSwitchOn.style.display = "puudub"; sSwitchOff.style.display = "blokeeri"; tableOne.style.display = "puudub"; tableTwo.style.display = "blokeeri"; tableThree.style.display = "puudub"; buttonsOneTable.style.display = "puudub"; buttonsTwoTable.style.display = "blokeeri"; buttonsThreeTable.style.display = "puudub"; } }
Mõõtmine ja kaitse
Mõõtemuundur ja kaitseseade ühe- ja kolmefaasiliste elektrisüsteemide jaoks.
-
- ühendage PLC CAN-siini kaudu
- kasutada releed käskude surumiseks ja kaitselüliti juhtimiseks
Mõõtmine
| easyYprotec 1410 | MFR300 | |
|---|---|---|
| Funktsioonid | ||
| 3 tõelist RMS pinge sisendit | ||
| 3 tegelikku RMS-i voolu sisendit | ||
| Mõõtmistäpsus klass 0,5 | ||
| Konfigureeritavad väljasõidu/juhtimise seadeväärtused | ||
| Konfigureeritavad viitetaimerid individuaalsed häired (0,02 kuni 300,00 s) | ||
| 4 konfigureeritavat releed (üleminek) | 2 | 4 |
| 1 "Kasutamiseks valmis" relee | ||
| Lülitav relee loogika | ||
| 2 kWh loendurid (max 1012 kWh) | ||
| 2 kvarhi loendurit (max 1012 kvarh) | ||
| CANopen / Modbus side | ||
| Konfigureeritav CAN siini / RS-485 kaudu / Teenindusport (USB/RS-232) | ||
| Konfigureeritav teeninduspordi kaudu (USB / RS-232) | ||
| Kaitse | ||
| Üle-/alapinge (59/27) | ||
| Üle-/alasagedus (81O/U) | ||
| Pinge asümmeetria (47) | ||
| Ülekoormus (32) | ||
| Positiivne/negatiivne koormus (32R/F) | ||
| Tasakaalustamata koormus (46) | ||
| Faasi nihe (78) | ||
| Ülevool (50/51) | ||
| df/dt (ROCOF) | ||
| Maandusviga | ||
| QV jälgimine | ||
| Pinge tõus | ||
| Vabalt konfigureeritav ajast sõltuv alapinge jälgimine: FRT (rikke läbisõit) |
MFR-300 Multifunction Relay / Measuring Transducer with CANopen / Modbus Communication
The MFR 300 is a measuring transducer for monitoring single- and three-phase power systems. The MFR 300 has both voltage and current inputs for measuring an electrical power source. A digital processor makes it possible to accurately to measure true RMS values, regardless of harmonics, transients or disturbing pulses. The primary measured and calculated values are transmitted via CANopen / Modbus protocol to a supervisory control system.
The MFR 300 performs monitoring functions for mains decoupling, including four freely configurable time-dependent undervoltage monitoring functions for FRT (fault ride-through).
The primary measured values of voltage and current are used to calculate the real, reactive, and apparent power and the power factor (cosphi) values.
Aksessuaarid
Tööriistakomplekt
konfigureerimine Woodwardi standardse tarkvara tööriistakomplekti kaudu.
USB konfiguratsiooniliides
USB-pordi konfiguratsiooniliides. Arvuti/sülearvuti pool on Woodwardi seadme küljest galvaanilise isolatsiooniga eraldatud.
osa number: 5417-1251
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