Difference between revisions of "Determining motor pole count"

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(Created page with "3 phase AC/BLDC motor winding schemes. A, B and C represent the phase wires coming out of motor. If magnetic pole count of permanent magnet AC/BLDC...")
 
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#Rotate motor shaft by hand or tool and count the distinct snapping positions per one revolution.
 
#Rotate motor shaft by hand or tool and count the distinct snapping positions per one revolution.
 
#Motor pole count is twice as much as the number of snapping positions found in the previous step. I.e. if motor snaps 2 times per revolution, it means that motor has 4 magnetic poles.
 
#Motor pole count is twice as much as the number of snapping positions found in the previous step. I.e. if motor snaps 2 times per revolution, it means that motor has 4 magnetic poles.
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Tips:
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*If motor is too stiff to rotate, reduce current.
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*If snaps can't be felt, increase current to make them stronger.
  
 
[[category:Troubleshooting]]
 
[[category:Troubleshooting]]

Revision as of 19:53, 1 September 2013

3 phase AC/BLDC motor winding schemes. A, B and C represent the phase wires coming out of motor.

If magnetic pole count of permanent magnet AC/BLDC motor is unknown, there is an easy way to determine it experimentally.

Needed items:

  1. 3 phase AC/BLDC motors
  2. Adjustable lab DC power supply

Procedure:

  1. Wire DC power supply + and - wires between any of two leads of the motor. I.e. + to A and - to B while C is not connected.
  2. Use the PSU to drive some DC current to the windings. Don't exceed motor's current rating. A good starting value may be 20-30% of motor continuous current. Now motor should start holding position as the rotor's magnets snap to the driven windings.
  3. Rotate motor shaft by hand or tool and count the distinct snapping positions per one revolution.
  4. Motor pole count is twice as much as the number of snapping positions found in the previous step. I.e. if motor snaps 2 times per revolution, it means that motor has 4 magnetic poles.

Tips:

  • If motor is too stiff to rotate, reduce current.
  • If snaps can't be felt, increase current to make them stronger.