KC868-E16 V2 DIN Rail Relay Module
Inside relay model : OMRON G2R-1-E SPDT every channel output : COM,NO,NC Coil voltage: 12V MAX current: 16A at 250VAC Operation Temperature: -40~55 ℃ Relay consumption: 0.53W/each Mechanical life: more…
Inside relay model : OMRON G2R-1-E SPDT every channel output : COM,NO,NC Coil voltage: 12V MAX current: 16A at 250VAC Operation Temperature: -40~55 ℃ Relay consumption: 0.53W/each Mechanical life: more…
WiFi DIN Rail switch module made by TUYA wifi module, use TUYA mobile phone application. support iPhone and android phone. work voltage AC110V or AC220V. You can use this wifi…
we have designed KC868-E16S ESP32 home automation extend relay module. it’s based on ESP32 , Ethernet + RS485 + 4CH analog input + 16CH digital input ( include manual control…
Inside relay model : OMRON G2R-1-E SPDT every channel output : COM,NO Coil voltage: 12V MAX current: 16A at 250VAC Operation Temperature: -40~55 ℃ Relay consumption: 0.53W/each Mechanical life: more…
AC contactor specifications coin work voltage: AC220V 1 phase power Load: AC220V MAX load current: 25A how to wire with KinCony’s smart relay controller and RC snubber:
DC contactor specifications Coin work voltage: DC12V-24V 1 phase power Load: AC220V MAX load current: 25A how to wire with KinCony’s smart controller
DC contactor specifications coin work voltage: DC24V 1 phase power Load: AC220V MAX load current: 100A how to wire with KinCony’s smart controller
DC contactor specifications coin work voltage: DC24V 3 phase power Load: AC380V MAX load current: 45A
DC contactor specifications coin work voltage: DC24V 1 phase power Load: AC220V MAX load current: 32A how to wire with KinCony’s smart controller
Inside relay model : OMRON G2R-1-E SPDT every channel output : COM,NO Coil voltage: 12V MAX current: 16A at 250VAC Operation Temperature: -40~55 ℃ Relay consumption: 0.53W/each Mechanical life: more…
RC absorption circuit module used on protecting the relay or thyristor because it can avoid damage that from inductive electromotive force generated by the inductive load when on or off.…