No.
If the motor runs backwards, swap any two phases to reverse the rotation, like this:
Old wiring:
phase A - brown wire - motor lead T1
phase B - yellow wire - motor lead T2
phase C - orange wire - motor lead T3
New wiring:
phase A - brown wire - motor lead T2
phase B - yellow wire - motor lead T1
phase C - orange wire - motor lead T3
The breaker should be sized to 250% of the motor's full load amperage.
Tripping is caused by excessive current, which is usually the result of a fault in cable or equipment. The circuit breaker is there for safety and it trips to prevent a possible fire starting.
The selection of overload protection for motors is taken from a table in the electrical code book. It is based on the full load current rating of the motor.
When a motor starts the circuit breaker sees an almost dead short. Until the motor starts generating a back EMF , which opposes the current flow when rotation starts, the current is high. If the breaker is sized to the motors full load amperage, each time the motor is started, the breaker will trip.
please you give me reply to answer.
The circuit breaker is sized to the full load amps of the motor times 250%.
The breaker should be sized to 250% of the motor's full load amperage.
Tripping is caused by excessive current, which is usually the result of a fault in cable or equipment. The circuit breaker is there for safety and it trips to prevent a possible fire starting.
The motor relay circuit breaker may be found on the driver's side of the vehicle, on or near the fender apron. There is a cable that runs from it to the battery.
The selection of overload protection for motors is taken from a table in the electrical code book. It is based on the full load current rating of the motor.
16A
No, a 27 amp start-up on a 15 amp circuit breaker can potentially overload the circuit and cause it to trip. It's recommended to use a circuit breaker that can handle the full current draw of the device to prevent tripping and ensure safety.
When a motor starts the circuit breaker sees an almost dead short. Until the motor starts generating a back EMF , which opposes the current flow when rotation starts, the current is high. If the breaker is sized to the motors full load amperage, each time the motor is started, the breaker will trip.
if the the motor is good you need to check the circuit breaker because the circuit breaker might be the problem. window doesnt go bad my dude the motor goes bad check it again
An overloaded circuit breaker for a refrigerator can be caused by multiple factors, such as a malfunctioning compressor drawing more current than normal, a damaged power cord or outlet, or a short circuit within the refrigerator's electrical components. It is important to have a qualified technician inspect the refrigerator to identify and address the specific cause of the overloading.
please you give me reply to answer.
A breaker is a current activated device. New to these forums so, not sure on the etiquette of improving the answer above. I didn't see a button to provide a second answer. That being said; While the breaker reacts to current and not Voltage, Voltage drop to a motor load will cause that motor to draw more current, which can trip the breaker. The higher current draw will also create more Voltage drop, etc. Your best bet is just to stay within the industry standard of 3% drop for feeders, 5% for branch circuits. If this question doesn't involve motors, then Voltage drop outside tolerance will eventually cause the device to malfunction, depending on the severity of the drop, but won't effect the circuit breaker.