DC73
Well-known member
In the near future, I'm going to be helping a friend with some power quality issues. I'm trying to resurrect some brain cells and get my head around home AC compressor motor operation.
1) Is a home AC compressor motor a constant load motor? A motor that serves a constant load will see increased current when the voltage drops and if the drop is enough, the motor could see too much current and overheat. I want to determine if that is a possibility with a home AC compressor. As an example, a garage door opener motor is a constant load motor. A box fan motor is not as if it sees lower voltage the fan speed drops accordingly.
2) Does the answer change if the AC compressor is a scroll type variable speed compressor?
3) What is the purpose of the contactor?
4) If the contactor is failing (burned contacts), what are the likely causes?
5) If the wiring specs on a home AC compressor say to use a "30-35" amp breaker, is there any reason to favor a 30 amp breaker over a 35 or vice versa?
6) If a home AC compressor motor is NOT a constant load motor, are there any consequences of low voltage other than the unit just won't cool as quickly?
Thanks much,
DC
1) Is a home AC compressor motor a constant load motor? A motor that serves a constant load will see increased current when the voltage drops and if the drop is enough, the motor could see too much current and overheat. I want to determine if that is a possibility with a home AC compressor. As an example, a garage door opener motor is a constant load motor. A box fan motor is not as if it sees lower voltage the fan speed drops accordingly.
2) Does the answer change if the AC compressor is a scroll type variable speed compressor?
3) What is the purpose of the contactor?
4) If the contactor is failing (burned contacts), what are the likely causes?
5) If the wiring specs on a home AC compressor say to use a "30-35" amp breaker, is there any reason to favor a 30 amp breaker over a 35 or vice versa?
6) If a home AC compressor motor is NOT a constant load motor, are there any consequences of low voltage other than the unit just won't cool as quickly?
Thanks much,
DC


Just kidding, I owe you one too.