Pulse modulated control with field weakening for improved motor efficiency

What is claimed is: 1. A method comprising: operating the motor in a pulsed mode if a received torque demand is less than a threshold; and applying field weakening to the motor if back electromagnetic force (BEMF) of the motor is more than a supply voltage applied to a power inverter used to excite the motor. 2. The method of claim 1 , further comprising during a period of time between pulses when operating in the pulse mode: (a) maintaining the inverter activated, but demanding no torque, when applying the field weakening to the motor; and (b) deactivating the inverter when no field weakening is applied. 3. The method of claim 1 , further comprising applying no field weakening to the motor when the BEMF of the motor is less than the supply voltage when the motor is operating in the pulsed mode. 4. The method of claim 1 , further comprising: operating the motor in a continuous mode if the received torque demand exceeds the threshold; and applying no field weakening to the motor when the BEMF of the motor is less than the supply voltage applied to the power inverter during the continuous mode. 5. The method of any of claim 1 , further comprising ascertaining a duty cycle and a magnitude for pulses when operating the motor in the pulse mode, the duty cycle and the magnitude for the pulses sufficient to meet the requested torque demand. 6. The method of claim 1 , further comprising using a sigma-delta modulation to modulate pulses when operating the motor in the pulse mode. 7. The method of claim 1 , further comprising preventing or mitigating the motor from generating a retarding torque when the field weakening is applied to the motor. 8. The method of claim 1 , wherein operating the motor in the pulsed mode further comprises interspersing pulses in which the motor is generating torque at or above the threshold with periods in which the motor is generating little or no toque during periods of time between the pulses, wherein the pulses in which the motor is operating have a duty cycle and a magnitude sufficient for an average torque output of the motor during the pulses to meet the requested torque demand. 9. The method claim 1 , further comprising ascertaining if the received torque demand exceeds the threshold of the motor for a given motor speed by accessing an efficiency torque map for the motor, wherein the efficiency torque map is derived from one or more loss map(s) for one or more operational parameters of the motor selected from the group including a hysteresis loss map, an eddy current loss map, a copper loss map, an inverter loss map or a motor shaft loss map. 10. The method of claim 9 , further comprising ascertaining if the BEMF of the motor is less than the supply voltage and deactivating the inverter during periods between pulses when the BEMF of the motor is less than the supply voltage. 11. The method of claim 1 , wherein the threshold is dependent on a current speed of the motor and is the same as or is derived from a peak efficiency torque for the motor. 12. A motor assembly configured to: operate a motor in a pulse mode wherein the motor: (a) generates substantially no torque between on pulses; and (b) generates sufficient torque during the on pulses to meet a torque demand; and apply field weakening during the pulsed mode operation of the motor when back electromagnetic force (BEMF) of the motor exceeds a supply voltage provided to an inverter that is used to excite the motor. 13. The motor assembly of claim 12 , further comprising: maintaining the inverter activated during periods of time between on pulses during pulsed operation when field weakening is applied, but with zero demanded torque; and when field weakening is not applied, maintaining the inverter in a deactivated state during the periods of time between the on pulses. 14. The motor configuration of claim 12 , further comprising a torque modulation decision module configured to: receive the torque demand for the motor; operate the motor in a continuous mode if the received torque demand exceeds a threshold torque; and operate the motor in the pulsed mode if the received torque demand is less than the threshold torque. 15. The motor assembly of claim 14 , wherein the torque modulation decision module is further configured to provide a waveform to the inverter indicative of either continuous operation of the motor in the continuous mode or pulse operation in the pulsed mode depending on if the received torque demand exceeds or is less than the threshold torque of the motor respectively. 16. The motor assembly claim 15 , wherein the waveform is indicative of a duty cycle for the on pulses when operating the motor in the pulse mode. 17. The motor assembly claim 12 , wherein the inverter further includes a field weakening module to either (a) apply the field weakening when the BEMF of the motor exceeds the supply voltage provided to the inverter or (b) not apply the field weakening when the BEMF is less than the supply voltage provided to the inverter. 18. The motor assembly 12 , further comprising a sigma-delta torque modulation module configured to use sigma delta modulation to generate a modulated waveform for the inverter to control pulsing of the motor during the pulsed mode operation. 19. The motor assembly claim 12 , wherein the motor is selected from the group including the following types of motors: internal permanent magnet motors; surface permanent magnet motors, induction motors, synchronous reluctance motors, permanent assisted synchronous reluctance motors, separately excited induction motors, flux switching motors, and switch reluctance motors. 20. The motor assembly of claim 12 , further arranged to also apply field weakening during continuous operation of the motor when the BEMF of the motor exceeds a supply voltage provided to the inverter that is used to excite the motor. 21. The motor assembly of claim 12 , wherein the motor is capable of reducing the BEMF in response to the field weakening by weakening a magnetic field associated with the motor. 22. The motor assembly of claim 12 , wherein the motor is an electric machine capable of operating as a generator. 23. The motor assembly of claim 12 , wherein the inverter is deactivated during the pulsed operation when field weakening is not required for mitigating or eliminating generation of a retarding motor torque when the BEMF does not exceeds the supply voltage. 24. The motor assembly claim 14 , wherein the threshold torque is dependent on a speed of the motor and is the same or is derived from a peak efficiency torque for the motor. 25. A motor assembly configured to operate in multiple modes, including: (a) a first pulsed mode with an inverter used to excite the motor is deactivated during periods between pulses when (i) a torque demand is less than a threshold torque and (ii) back electromagnetic force (BEMF) of the motor is less than a supply voltage provided to the inverter; and (b) a second pulsed mode with the inverter turned activated, but no torque is demanded during periods between pulses when (i) the torque demand is less than a threshold torque and (ii) back electromagnetic force BEMF of the motor is more than the supply voltage provided to the inverter. 26. The motor assembly of claim 25 , further configured to operate in (c) a continuous mode when a torque demand requested for the motor exceeds the thres