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I am working on a DIY leslie made out of a shaded pole ceiling fan motor. I am trying to figure out the best way to control the speed of the motor.
The triac PWM controller method is one method - however, fan motors take a long time to slow down and a short time to speed up. I am not knowledgeable with motors to a great extent, I can't seem to find any good reading online. But I came up with an idea and was wanting it to be analyzed by someone who might be able tell me if it would work or drastically fail.
This is my idea: Have the motor switch between directions (switching hot/neutral) in accordance with a duty cycle adjustable square wave. So - the on time of the square wave corresponds to the motor spinning clockwise, and the off time to counterclockwise. Altering the proportions between each state would control the average amount of force the motor pushes in one direction. If the clockwise is on longer then the counterclockwise, the average momentum of the motor would be in the clockwise. If it is equal, the motor has zero average speed increase. Hopefully, this system will let me "brake" the motor.
SO - I would have a maximum speed, by pushing all the way up on the pedal (controlling the duty cycle) or all the way down. Then I could slow it down by switching to some position towards the other side, the magnitude of the braking force determined by the distance away from the side you went to at first. If you go past the middle, eventually the motor would stop completely and start going the other way. If you land the pedal before going through the middle travel, then the motor just slows down but doesn't stop.
So what do you think? It seems like this plan would allow me to have a fully controllable motor speed with pretty precise control over it's actions, and would alleviate the problem of variances in start up speed and slow down speed.
If this plan falls through, I suppose I can just stick with either triac control or capacitor phase lagging (like they typically do in ceiling fans with 3-4 preset speeds, works wonderfully with a wide range but cant use smooth control, need switches).
ALSO: Anyone have any good electronic motor reading material they can suggest?
The triac PWM controller method is one method - however, fan motors take a long time to slow down and a short time to speed up. I am not knowledgeable with motors to a great extent, I can't seem to find any good reading online. But I came up with an idea and was wanting it to be analyzed by someone who might be able tell me if it would work or drastically fail.
This is my idea: Have the motor switch between directions (switching hot/neutral) in accordance with a duty cycle adjustable square wave. So - the on time of the square wave corresponds to the motor spinning clockwise, and the off time to counterclockwise. Altering the proportions between each state would control the average amount of force the motor pushes in one direction. If the clockwise is on longer then the counterclockwise, the average momentum of the motor would be in the clockwise. If it is equal, the motor has zero average speed increase. Hopefully, this system will let me "brake" the motor.
SO - I would have a maximum speed, by pushing all the way up on the pedal (controlling the duty cycle) or all the way down. Then I could slow it down by switching to some position towards the other side, the magnitude of the braking force determined by the distance away from the side you went to at first. If you go past the middle, eventually the motor would stop completely and start going the other way. If you land the pedal before going through the middle travel, then the motor just slows down but doesn't stop.
So what do you think? It seems like this plan would allow me to have a fully controllable motor speed with pretty precise control over it's actions, and would alleviate the problem of variances in start up speed and slow down speed.
If this plan falls through, I suppose I can just stick with either triac control or capacitor phase lagging (like they typically do in ceiling fans with 3-4 preset speeds, works wonderfully with a wide range but cant use smooth control, need switches).
ALSO: Anyone have any good electronic motor reading material they can suggest?
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