Funktion 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 === "none") {fSwitchOn.style.display = "blockieren"; fSwitchOff.style.display = "keine"; sSwitchOn.style.display = "keine"; sSwitchOff.style.display = "blockieren"; imgOn.style.display = "blockieren"; imgOff.style.display = "keine"; tableOne.style.display = "keine"; tableTwo.style.display = "blockieren"; tableThree.style.display = "keine"; buttonsOneTable.style.display = "keine"; buttonsTwoTable.style.display = "blockieren"; buttonsThreeTable.style.display = "none"; rp3000xtSection.style.display = "keine"; fDisplayOnText.style.display = "blockieren"; } Else {fSwitchOn.style.display = "none"; fSwitchOff.style.display = "blockieren"; sSwitchOn.style.display = "keine"; sSwitchOff.style.display = "keine"; imgOn.style.display = "keine"; imgOff.style.display = "blockieren"; tableOne.style.display = "blockieren"; tableTwo.style.display = "none"; tableThree.style.display = "keine"; buttonsOneTable.style.display = "blockieren"; buttonsTwoTable.style.display = "none"; buttonsThreeTable.style.display = "none"; rp3000xtSection.style.display = "flex"; fDisplayOnText.style.display = "keine"; } }
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 === "none") { sSwitchOn.style.display = "blockieren"; sSwitchOff.style.display = "keine"; tableOne.style.display = "keine"; tableTwo.style.display = "none"; tableThree.style.display = "blockieren"; buttonsOneTable.style.display = "keine"; buttonsTwoTable.style.display = "none"; buttonsThreeTable.style.display = "blockieren"; } Else { sSwitchOn.style.display = "none"; sSwitchOff.style.display = "blockieren"; tableOne.style.display = "keine"; tableTwo.style.display = "blockieren"; tableThree.style.display = "keine"; buttonsOneTable.style.display = "keine"; buttonsTwoTable.style.display = "blockieren"; buttonsThreeTable.style.display = "none"; } }
Messung und Schutz
Messumformer und Schutzgerät für ein- und dreiphasige Netze.
-
- Anbindung einer SPS über CAN-Bus
- Verwenden Sie Relais, um Befehle weiterzuleiten und einen Leistungsschalter zu steuern
Messung
| EASYPROTEC 1410 | MFR300 | |
|---|---|---|
| Funktionen | ||
| 3 Effektivwert Spannungsmesseingänge | ||
| 3 Effektivwert Strommesseingänge | ||
| Messgenauigkeit Klasse 0,5 | ||
| Konfigurierbare Auslöse-/Steuersollwerte | ||
| Konfigurierbare Verzögerungstimer für individuelle Alarme (0,02 bis 300,00 s) | ||
| 4 konfigurierbare Relais (Wechsler) | 2 | 4 |
| 1 Relais „Betriebsbereit“. | ||
| Schaltbare Relaislogik | ||
| 2 kWh Zähler (max. 1012 kWh) | ||
| 2 kvarh Zähler (max. 1012 kvarh) | ||
| CANopen / Modbus-Kommunikation | ||
| Konfigurierbar über CAN-Bus / RS-485 / Serviceanschluss (USB/RS-232) | ||
| Konfigurierbar über Service Port (USB / RS-232) | ||
| Schutz | ||
| Über-/Unterspannung (59/27) | ||
| Über-/Unterfrequenz (81O/U) | ||
| Spannungsasymmetrie (47) | ||
| Überlast (32) | ||
| Positive/negative Last (32R/F) | ||
| Schieflast (46) | ||
| Phasenverschiebung (78) | ||
| Überstrom (50/51) | ||
| df/dt (ROCOF) | ||
| Erdfehler | ||
| Q(u)-Überwachung | ||
| Spannungserhöhung | ||
| Frei konfigurierbare zeitabhängige Unterspannungsüberwachung für: FRT (Fault Ride-Through) |
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.
Zubehör
Toolkit
Konfiguration über die Woodward standard software Toolkit.
USB-Konfigurationsschnittstelle
USB-Port-Konfigurationsschnittstelle. Die PC/Laptop-Seite ist von der Woodward-Geräteseite durch galvanische Trennung getrennt.
Teilenummer: 5417-1251
German 
English 
Afrikaans 
Arabic 
Bulgarian 
Chinese 
Czech 
Danish 
Dutch 
Estonian 
Finnish 
French 
Greek 
Hebrew 
Hindi 
Hungarian 
Icelandic 
Italian 
Indonesian 
Japanese 
Korean 
Latvian 
Norwegian 
Polish 
Portuguese (Portugal) 
Portuguese (Brazil) 
Romanian 
Russian 
Slovak 
Slovenian 
Spanish 
Swedish 
Thai 
Turkish 
Ukrainian