Induction motor control

The invention claimed is: 1. A respiratory therapy device comprising: a housing; a blower located in the housing and configured to produce a flow of air at a positive pressure to deliver respiratory therapy to a patient, the blower comprising an impeller and an induction motor including a rotor, wherein the impeller is coupled to the rotor via a shaft; and a control system for the induction motor configured to adjust a slip frequency of the induction motor based on a measured characteristic of the flow of air produced by operation of the rotor with the impeller, wherein the measured characteristic of the flow of air produced by operation of the rotor with the impeller is compared to a set level of the characteristic of the flow of air to be produced by operation of the rotor with the impeller to determine an error, and wherein the slip frequency is adjusted based on the error. 2. The respiratory therapy device of claim 1 , wherein the impeller is configured to rotate with the rotor to produce the flow of air. 3. The respiratory therapy device of claim 1 , wherein speed of the rotor is predetermined based on a set level of the characteristic of the flow of air to be produced by operation of the rotor with the impeller. 4. The respiratory therapy device of claim 1 , wherein the slip frequency is adjusted to minimize or eliminate the error. 5. The respiratory therapy device of claim 1 wherein a stator frequency is adjusted based on the slip frequency. 6. The respiratory therapy device of claim 5 , wherein the stator frequency is adjusted by adjusting a level of a frequency and voltage supplied to a stator. 7. The respiratory therapy device of claim 1 , wherein the measured characteristic is a pressure of the flow of air. 8. The respiratory therapy device of claim 7 , wherein the pressure is measured using a pressure sensor configured at the flow of air produced by operation of the rotor with the impeller. 9. The respiratory therapy device of claim 1 , wherein the measured characteristic is a flow rate of the flow of air. 10. The respiratory therapy device of claim 9 wherein the flow rate is measured using a flow rate sensor configured at the flow of air produced by operation of the rotor with the impeller. 11. The respiratory therapy device of claim 1 , wherein the error is input to a compensator that determines the slip frequency from the error. 12. A respiratory therapy device comprising: a housing; a blower located in the housing and configured to produce a flow of positively pressurized air to deliver respiratory therapy to a patient, the blower comprising an impeller and an induction motor including a rotor, wherein the impeller is coupled to the rotor via a shaft; and a sensor to provide a signal indicative of a measure of a characteristic of the pressurized air generated by the blower; and a controller configured to receive the signal and determine the measure of the characteristic of the pressurized air being generated, the controller configured to compare the determined measured characteristic with a predetermined level of the characteristic and to adjust a slip frequency of the induction motor as a function of the comparison. 13. The respiratory therapy device according to claim 12 , further comprising adjusting a frequency and voltage supplied to a stator of the induction motor based on the adjusted slip frequency. 14. The respiratory therapy device of claim 12 , wherein the controller compares the determined measure of the characteristic of the pressurized air with the predetermined level of the characteristic of the pressurized fluid air to determine an error. 15. The respiratory therapy device of claim 14 , wherein the controller adjusts the slip frequency as a function of the error. 16. The respiratory therapy device of claim 13 , wherein the frequency and voltage supplied to the stator is determined as a function of the slip frequency and a set rotor frequency. 17. The respiratory therapy device of claim 16 , wherein a desired rotor speed of the induction motor is determined as a function of the predetermined level of the characteristic. 18. The respiratory therapy device of claim 17 , wherein the desired rotor speed is determined from a look-up table that is stored in a memory of the controller. 19. The respiratory therapy device of claim 13 , wherein if the measured characteristic is greater than the predetermined level of the characteristic a frequency and voltage supplied to the stator is reduced. 20. The respiratory therapy device of claim 13 , wherein if the measured characteristic is less than the predetermined level of the characteristic a frequency and voltage supplied to the stator is increased. 21. The respiratory therapy device of claim 12 , wherein the characteristic of the pressurized air generated by the blower is a pressure of the air. 22. The respiratory therapy device of claim 12 , wherein the characteristic of the pressurized air generated by the blower is a flow rate of the air. 23. The respiratory therapy device according to claim 12 , wherein the comparison produces an error, and wherein the error is input to a compensator that determines the slip frequency from the error. 24. A method of controlling a rotor speed of an induction motor in a respiratory therapy device by determining a slip frequency based on a measured characteristic of a flow of air produced by a rotor of the induction motor and adjusting a stator frequency as a function of the determined slip frequency, wherein the slip frequency is determined as a function of a difference between the measured characteristic of the flow of air produced by the rotor and a pre-set level of the characteristic of the flow of air to be produced by the rotor. 25. The method according to claim 24 wherein the characteristic of the flow of air is a pressure of the flow of air. 26. The method according to claim 24 wherein the characteristic of the flow of air is a flow rate of the flow of air. 27. A method of controlling a speed of an induction motor in a blower of respiratory therapy device configured to provide a supply of pressurized air, the method comprising: setting a desired pressure level of the supply of air to be provided by the blower; determining a desired rotor speed based on the set pressure level; determining a slip frequency and stator frequency based on the desired rotor speed; providing frequency and voltage to the stator based on the determined stator frequency to induce rotation of the rotor; measuring a pressure of the pressurized supply of air generated by the blower; comparing the measured pressure and the set pressure to determine a pressure error; and adjusting the slip frequency based on the determined pressure error to minimize the pressure error and adjust the rotor speed of the blower. 28. A method of controlling a rotor speed of an induction motor in a respiratory therapy device by determining a slip frequency based on a measured characteristic of a flow of air produced by a rotor of the induction motor and adjusting a stator frequency as a function of the determined slip frequency, wherein the measured characteristic of the flow of air produced by operation of the rotor is compared to a set level of the characteristic of the flow of air to be produced by operation of the rotor to determine an error, and wherein the error is input to a compe