- 1). Attempt to start the induction motor. In there is a malfunction, the motor hums but does not start.
- 2). Rule out malfunction of the centrifugal starter switch by spinning the rotor shaft by hand. If the shaft is frozen the problem is in the switch, and it most be replaced.
- 3). If the rotor shaft rotates freely by hand, attempt to start the motor. If it starts the switch is either defective or stuck in the closed position, and the motor will stop running. Use electrical contact cleaner to clean the switch. Replace the switch if cleaning fails to correct problem.
- 4). Rule out a malfunctioning centrifugal switch as above before assuming a failed capacitor function.
Once the switch has been ruled out, a motor that continues to hum (has current) but is too weak or otherwise fails to start may be the result of a short or open circuit in the capacitor. - 1
Motor mounted capacitor
Locate the capacitor, which is usually mounted on the side of the induction engine. - 2). Remove electrical wires from the two male contacts on the front of the capacitor.
- 3
Capcitor terminals
Set the volt ohmmeter to the RX 100 scale and connect the positive and negative leads from the volt ohmmeter to the two contacts of the capacitor. - 4). Observe the meter reading. If the needle jumps immediately to zero ohms and gradually drifts back to a high ohm reading, the capacitor is functional and is not the problem.
- 5
Volt-Ohm Steady Ohms Reading
A meter reading that registers steady zero ohms or steady high ohms indicates the capacitor is malfunctioning and should be replaced. - 6). Double check meter results by reversing meter leads to the capacitor and re-checking the readings.
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