Methods and controllers for operation of electric motors

What is claimed is: 1. A controller for hybrid operation control of an electric motor in an electric motor system, said controller configured to: receive a speed command for operating the electric motor; measure available voltage on an inverter configured to provide conditioned AC voltage to the electric motor; determine a winding phase angle difference based on the received speed command and the measured available inverter voltage by calculating a voltage vector maximum envelope for the voltage operating point of the electric motor; adjust a phase angle difference between winding voltage commands for inverter switches of the inverter using the determined winding phase angle difference; and apply the winding voltage commands including the adjusted phase angle difference to the inverter switches to control the electric motor. 2. The controller of claim 1 , wherein to determine the winding phase angle difference, said controller is further configured to retrieve the winding phase angle from a look-up table stored on a memory device of the controller. 3. The controller of claim 1 , further configured to compute an error value between the voltage vector maximum envelope and the available inverter voltage. 4. The controller of claim 3 , further configured to determine the phase angle difference by processing the computed error value using an input error minimizing algorithm. 5. The controller of claim 1 , wherein to receive the speed command, said controller is further configured to receive the speed command from one of a system controller or a thermostat. 6. A method of controlling an electric motor in an electric motor system, said method comprising: receiving, by a controller coupled to the electric motor, a speed command for operating the electric motor; measuring, by the controller, available voltage on an inverter configured to provide conditioned AC voltage to the electric motor; determining, by the controller, a winding phase angle difference based on the received speed command and the measured available inverter voltage by calculating a voltage vector maximum envelope for the voltage operating point of the electric motor; adjusting, by the controller, a phase angle difference between winding voltage commands for inverter switches of the inverter using the determined winding phase angle difference; and applying, by the controller, the winding voltage commands including the adjusted phase angle difference to the inverter switches to control the electric motor. 7. The method of claim 6 , wherein determining the winding phase angle difference further comprises retrieving the winding phase angle from a look-up table stored on a memory device of the controller. 8. The method of claim 1 , further comprising computing an error value between the voltage vector maximum envelope and the available inverter voltage. 9. The method of claim 8 , further comprising determining the phase angle difference by processing the computed error value using a PI controller. 10. The method of claim 6 , wherein receiving the speed command further comprises receiving the speed command from one of a system controller or a thermostat. 11. A controller for hybrid operation control of an electric motor in an electric motor system, said controller configured to: receive a speed command for operating the electric motor; monitor a motor maximum operating duty cycle applied by an inverter coupled to the electric motor and an estimated motor speed; compare the monitored applied motor maximum duty cycle with a 100% duty cycle or the estimated motor speed with the received motor command; adjust a phase angle difference between winding voltage commands for inverter switches of the inverter based on the speed command and one of the compared duty cycle information or the estimated motor speed by electronically adjusting a phase lag of a duty cycle of each phase of inverter switches of a three-phase inverter to evenly time and distribute operation of the inverter switches when driving a two-phase electric motor; apply the winding voltage commands including the adjusted phase angle difference to the inverter switches to control the electric motor. 12. The controller of claim 11 , wherein to compare the monitored applied motor maximum duty cycle with a 100% duty cycle, said controller is further configured to determine a difference between the applied motor maximum duty cycle and the 100% duty cycle. 13. The controller of claim 11 , wherein to apply the winding voltage commands, said controller is further configured to provide variable speed control of the electric motor between 0% and 100% of a full load of the electric motor. 14. A controller for hybrid operation control of an electric motor in an electric motor system, said controller configured to: receive a speed command for operating the electric motor; monitor a motor maximum operating duty cycle applied by an inverter coupled to the electric motor and an estimated motor speed; compare the monitored applied motor maximum duty cycle with a 100% duty cycle or the estimated motor speed with the received motor command; adjust a phase angle difference between winding voltage commands for inverter switches of the inverter based on the speed command and one of the compared duty cycle information or the estimated motor speed by reducing a phase advance between main and start windings of the electric motor to operate the electric motor at a nominal run speed; and apply the winding voltage commands including the adjusted phase angle difference to the inverter switches to control the electric motor. 15. A controller for hybrid operation control of a permanent split capacitor (PSC) electric motor in an electric motor system, said controller configured to: receive a speed command for operating the PSC electric motor; monitor a motor maximum operating duty cycle applied by an inverter coupled to the PSC electric motor and an estimated motor speed; compare the monitored applied motor maximum duty cycle with a 100% duty cycle or the estimated motor speed with the received motor command; adjust a phase angle difference between winding voltage commands for inverter switches of the inverter based on the speed command and one of the compared duty cycle information or the estimated motor speed; and apply the winding voltage commands including the adjusted phase angle difference to the inverter switches to provide variable speed operation of the PSC electric motor without use of a capacitor in series with one of the windings.