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A controller is provided for transitioning a drive signal to a single phase motor between a square wave and pulse width modulation modes, wherein the drive signal is in square wave mode at low motor frequencies and in pulse width modulation mode during normal operation. The transitioning includes us

A controller is provided for transitioning a drive signal to a single phase motor between a square wave and pulse width modulation modes, wherein the drive signal is in square wave mode at low motor frequencies and in pulse width modulation mode during normal operation. The transitioning includes using a real time motor model to effectuate transition of the drive signal between the modes, and a sampling rate for sampling the real time motor model during the transitioning. The sampling rate is automatically modified during the transitioning, wherein acceleration of the motor includes transitioning the drive signal from square wave mode to pulse width modulation mode, including periodically increasing the sampling rate during the transitioning. Conversely, when transitioning from pulse width modulation mode to square wave mode, the controller automatically deaccelerates the sampling rate during the transitioning.

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1. A method for controlling a single phase motor comprising:(i) driving a single phase motor using a motor drive signal in a first mode, the first mode comprising one of a square wave mode and a pulse width modulation mode;(ii) transitioning the motor drive signal from the first mode to a second mod

1. A method for controlling a single phase motor comprising:(i) driving a single phase motor using a motor drive signal in a first mode, the first mode comprising one of a square wave mode and a pulse width modulation mode;(ii) transitioning the motor drive signal from the first mode to a second mode, wherein the second mode comprises the other of the square wave mode and the pulse width modulation mode, and wherein the transitioning commences after motor speed reaches a first centrifugal switch limit for the motor, the first centrifugal switch limit comprising a lower centrifugal switch limit when the first mode comprises the square wave mode, and an upper centrifugal switch limit when the first mode comprises the pulse width modulation mode, wherein the transitioning includes employing a real time motor model to effectuate transition of the motor drive signal from the first mode to the second mode, and a sampling rate for sampling the real time motor model;(iii) modifying the sampling rate for the real time motor model during the transitioning; and(iv) driving the single phase motor using the motor drive signal in the second mode after motor speed has reached a second centrifugal switch limit, the second centrifugal switch limit comprising the other of the lower centrifugal switch limit and the upper centrifugal switch limit.2. The method of claim 1, wherein the driving (i) comprises accelerating motor speed using the motor drive signal in the first mode, the first mode being the square wave mode, and wherein the transitioning (ii) includes initializing the real time motor model upon motor speed reaching the lower centrifugal switch limit and setting the sampling rate to an initial sampling frequency.3. The method of claim 2, wherein the modifying (iii) comprises increasing the sampling rate during the transitioning (ii).4. The method of claim 3, wherein the increasing of the sampling rate includes calculating an acceleration constant and adding the acceleration constant to the sampling rate and increasing motor speed by the acceleration constant.5. The method of claim 4, wherein the acceleration constant is determined as: where:PWM carrier frequency=carrier frequency of the motor drive signal in second mode, the second mode being pulse width modulation mode,upper limit=upper centrifugal switch limit frequency; andlower limit=lower centrifugal switch limit frequency.6. The method of claim 3, further comprising discontinuing the transitioning (ii) and the modifying (iii) once motor speed reaches the upper centrifugal switch limit.7. The method of claim 1, wherein the driving (i) comprises deaccelerating motor speed using the motor drive signal in the first mode, the first mode being the pulse width modulation mode, and wherein the transitioning (ii) includes initializing the real time motor model upon motor speed reaching the upper centrifugal switch limit and setting the sampling rate to an initial sampling frequency.8. The method of claim 7, wherein the modifying (iii) comprises decreasing the sampling rate during the transitioning (ii).9. The method of claim 8, wherein the decreasing of the sampling rate includes calculating a deacceleration constant and subtracting the deacceleration constant from the sampling rate and decreasing motor speed by the deacceleration constant.10. The method of claim 8, further comprising discontinuing the transitioning (ii) and the modifying (iii) once motor speed reaches the lower centrifugal switch limit.11. A system for controlling a single phase motor comprising:(i) means for driving a single phase motor using a motor drive signal in a first mode, the first mode comprising one of a square wave mode and a pulse width modulation mode;(ii) means for transitioning the motor drive signal from the first mode to a second mode, wherein the second mode comprises the other of the square wave mode and the pulse width modulation mode, and wherein the transitioning commences after motor speed reaches a first centrifugal switch limit for the motor, the first centrifugal switch limit comprising a lower centrifugal switch limit when the first mode comprises a square wave mode, and an upper centrifugal switch limit when the first mode comprises the pulse width modulation mode, wherein the means for transitioning includes means for employing a real time motor model to effectuate transition of the motor drive signal from the first mode to the second mode, and a sampling rate for sampling the real time motor model;(iii) means for modifying the sampling rate for the real time motor model during the transitioning of the motor drive signal; and(iv) means for driving the single phase motor using the motor drive signal in the second mode after motor speed has reached a second centrifugal switch limit, the second centrifugal switch limit comprising the other of the lower centrifugal switch limit and the upper centrifugal switch limit.12. The system of claim 11, wherein the means for driving (i) comprises means for accelerating motor speed using the motor drive signal in the first mode, the first mode being the square wave mode, and wherein the means for transitioning (ii) includes means for initializing the real time motor model upon motor speed reaching the lower centrifugal switch limit and for setting the sampling rate to an initial sampling frequency.13. The system of claim 12, wherein the means for modifying (iii) comprises means for increasing the sampling rate during the transitioning.14. The system of claim 13, wherein the means for increasing of the sampling rate includes means for calculating an acceleration constant and for adding the acceleration constant to the sampling rate and for increasing motor speed by the acceleration constant.15. The system of claim 14, wherein the acceleration constant is determined as: where:PWM carrier frequency=carrier frequency of the motor drive signal in second mode, the second mode being pulse width modulation mode,upper limit=upper centrifugal switch limit frequency; andlower limit=lower centrifugal switch limit frequency.16. The system of claim 13, further comprising means for discontinuing the means for transitioning (ii) and the means for modifying (iii) once motor speed reaches the upper centrifugal switch limit.17. The system of claim 11, wherein the means for driving (i) comprises means for deaccelerating motor speed using the motor drive signal in the first mode, the first mode being the pulse width modulation mode, and wherein the means for transitioning (ii) includes means for initializing the real time motor model upon motor speed reaching the upper centrifugal switch limit and for setting the sampling rate to an initial sampling frequency.18. The system of claim 17, wherein the means for modifying (iii) comprises means for decreasing the sampling rate during the transitioning.19. The system of claim 18, wherein the means for decreasing of the sampling rate includes means for calculating a deacceleration constant and for subtracting the deacceleration constant from the sampling rate and for decreasing motor speed by the deacceleration constant.20. The system of claim 18, further comprising means for discontinuing the means for transitioning (ii) and the means for modifying (iii) once motor speed reaches the lower centrifugal switch limit.21. A single phase motor system comprising:a single phase motor having a centrifugal switch;a drive circuit for driving the single phase motor; anda controller for controlling driving of the single phase motor by the drive circuit, the controller comprising logic for:(i) driving the single phase motor using a motor drive signal in a first mode, the first mode comprising one of a square wave mode and a pulse width modulation mode;(ii) transitioning the motor drive signal from the first mode to a second mode, wherein the second mode comprises the other of the square wave mode and the pulse width modulation mode, and wherein the transitioning commences after motor speed reaches a first centrifugal switch limit for the motor, the first centrifugal switch limit comprising a lower centrifugal switch limit when the first mode comprises the square wave mode, and an upper centrifugal switch limit when the first mode comprises the pulse width modulation mode, wherein the transitioning includes employing a real time motor model to effectuate transition of the motor drive signal from the first mode to the second mode, and a sampling rate for sampling the real time motor model;(iii) modifying the sampling rate for the real time motor model during the transitioning; and(iv) driving the single phase motor using the motor drive signal in the second mode after motor speed has reached a second centrifugal switch limit, the second centrifugal switch limit comprising the other of the lower centrifugal switch limit and the upper centrifugal switch limit.22. At least one program storage device readable by a machine, tangibly embodying at least one program of instructions executable by the machine to perform a method of controlling a single phase motor, the method comprising:(i) driving a single phase motor using a motor drive signal in a first mode, the first mode comprising one of a square wave mode and a pulse width modulation mode;(ii) transitioning the motor drive signal from the first mode to a second mode, wherein the second mode comprises the other of the square wave mode and the pulse width modulation mode, and wherein the transitioning commences after motor speed reaches a first centrifugal switch limit for the motor, the first centrifugal switch limit comprising a lower centrifugal switch limit when the first mode comprises the square wave mode, and an upper centrifugal switch limit when the first mode comprises the pulse width modulation mode, wherein the transitioning includes employing a real time motor model to effectuate transition of the motor drive signal from the first mode to the second mode, and a sampling rate for sampling the real time motor model;(iii) modifying the sampling rate for the real time motor model during the transitioning; and(iv) driving the single phase motor using the motor drive signal in the second mode after motor speed has reached a second centrifugal switch limit, the second centrifugal switch limit comprising the other of the lower centrifugal switch limit and the upper centrifugal switch limit.23. The at least one program storage device of claim 22, wherein the driving (i) comprises accelerating motor speed using the motor drive signal in the first mode, the first mode being the square wave mode, and wherein the transitioning (ii) includes initializing the real time motor model upon motor speed reaching the lower centrifugal switch limit and setting the sampling rate to an initial sampling frequency.24. The at least one program storage device of claim 23, wherein the modifying (iii) comprises increasing the sampling rate during the transitioning (ii).25. The at least one program storage device of claim 24, wherein the increasing of the sampling rate includes calculating an acceleration constant and adding the acceleration constant to the sampling rate and increasing motor speed by the acceleration constant.26. The at least one program storage device of claim 25, wherein the acceleration constant is determined as: where:PWM carrier frequency=carrier frequency of the motor drive signal in second mode, the second mode being pulse width modulation mode,upper limit=upper centrifugal switch limit frequency; andlower limit=lower centrifugal switch limit frequency.27. The at least one program storage device of claim 25, further comprising discontinuing the transitioning (ii) and the modifying (iii) once motor speed reaches the upper centrifugal switch limit.28. The at least one program storage device of claim 22, wherein the driving (i) comprises deaccelerating motor speed using the motor drive signal in the first mode, the first mode being the pulse width modulation mode, and wherein the transitioning (ii) includes initializing the real time motor model upon motor speed reaching the upper centrifugal switch limit and setting the sampling rate to an initial sampling frequency.29. The at least one program storage device of claim 28, wherein the modifying (iii) comprises decreasing the sampling rate during the transitioning (ii).30. The at least one program storage device of claim 29, wherein the decreasing of the sampling rate includes calculating a deacceleration constant and subtracting the deacceleration constant from the sampling rate and decreasing motor speed by the deacceleration constant.31. The at least one program storage device of claim 29, further comprising discontinuing the transitioning (ii) and the modifying (iii) once motor speed reaches the lower centrifugal switch limit.