Electric motor drive apparatus and method therefor

What is claimed is: 1. An electric motor drive apparatus comprising: a voltage converter component arranged to receive a supply voltage signal; a motor driver component, the motor driver component is arranged to: receive a bus voltage signal and generate at least one drive signal for an electric motor from the bus voltage signal, the at least one drive signal provided to an inverter circuit connected to the electric motor; wherein: the motor driver component is arranged to output a bus voltage feedback signal directly to a bus voltage proportional-integral (PI) controller of the voltage converter component wherein the bus voltage feedback signal is derived from a maximum voltage control value for the at least one electric motor drive signal; and wherein the bus voltage feedback signal is further derived from a current error value for the at least one electric motor drive signal and a voltage control value for the at least one electric motor drive signal output by a current PI controller, the current error value being a difference between a desired current value and a measured current value for the at least one electric motor drive signal, the desired current output by a speed PI controller which adjusts the desired current output in response to a motor speed error value defined by mixing a desired speed value of the electric motor and measured speed value of the electric motor, wherein the current PI controller receives as input the current error value; a power factor correction component coupled between the voltage converter component and the inverter circuit, the power factor correction component arranged to output a bus voltage signal to the inverter circuit; the voltage converter component is arranged to regulate a voltage level of the bus voltage signal based on the bus voltage feedback signal mixed with the bus voltage signal output by the power factor correction component. 2. The electric motor drive apparatus of claim 1 , wherein the motor driver component is arranged to output the bus voltage feedback signal comprising an indication of a power aspiration for the at least one electric motor drive signal. 3. The electric motor drive apparatus of claim 2 , wherein the voltage converter component is arranged to: increase the voltage level of the bus voltage signal upon the bus voltage feedback signal indicating an increased power aspiration for the at least one electric motor drive signal; and decrease the voltage level of the bus voltage signal upon the bus voltage feedback signal indicating a reduced power aspiration for the at least one electric motor drive signal. 4. The electric motor drive apparatus of claim 1 , wherein the motor driver component is arranged to perform pulse-width modulation of the bus voltage signal to generate the at least one electric motor drive signal. 5. The electric motor drive apparatus of claim 1 , wherein the motor driver component is arranged to generate at least one of: multi-phase drive signal; a single phase drive signal; and a DC drive signal. 6. The electric motor drive apparatus of claim 1 , wherein the voltage converter component is arranged to: derive a desired current amplitude signal for the bus voltage signal based at least partly on the bus voltage feedback signal; receive a measured current value for the bus voltage signal; derive a current error value for the bus voltage signal based at least partly on the desired current amplitude signal for the bus voltage signal and the measured current value for the bus voltage signal; and regulate the voltage level of the bus voltage signal based on the derived current error value. 7. The electric motor drive apparatus of claim 6 , wherein the voltage converter component is arranged to: derive a desired bus voltage signal based at least partly on the bus voltage feedback signal; receive a measured bus voltage signal; derive a bus voltage error signal based at least partly on the desired bus voltage signal and the measured bus voltage signal; derive the desired current amplitude signal for the bus voltage signal based at least partly on the bus voltage error signal. 8. The electric motor drive apparatus of claim 1 , wherein the voltage converter component is arranged to perform power factor correction on the regulated bus voltage signal. 9. The electric motor drive apparatus of claim 8 , wherein the motor control module is further arranged to output the bus voltage feedback signal. 10. The electric motor drive apparatus of claim 1 wherein the at least one control signal is a multi-phase control signal. 11. The electric motor drive apparatus of claim 1 wherein the voltage converter component comprises: a voltage regulator unit arranged to receive the supply voltage signal and to generate therefrom the regulated bus voltage signal; and a controller module arranged to receive the bus voltage feedback signal and to control the voltage regulator unit to regulate the voltage level of the bus voltage signal based at least partly on the bus voltage feedback signal. 12. The electric drive motor apparatus of claim 1 , wherein the bus voltage feedback signal is determined by the motor driver component based on the maximum voltage control value being mixed with an absolute value of the voltage control value to produce a mixed maximum voltage control value and the mixed maximum voltage control value being mixed with an absolute value of the current error value to produce the bus voltage feedback signal. 13. A method of generating at least one drive signal for an electric motor, the method comprising: generating a bus voltage feedback signal indicative of a power aspiration for the at least one electric motor drive signal, wherein the bus voltage feedback signal is derived from a maximum voltage control value for the at least one electric motor drive signal; generating a bus voltage signal in a power factor correction component coupled between a voltage converter and an inverter circuit; regulating a voltage level of the bus voltage signal based at least partly on the bus voltage feedback signal mixed with the bus voltage signal; generating at least one current feedback signal indicative of a current of the at least one electric motor drive signal; generating at least one control signal based on the at least one current feedback signal; providing the at least one control signal to the inverter circuit; and generating the at least one electric motor drive signal from the regulated bus voltage signal and the at least one control signal, the at least one drive signal provided to the inverter circuit connected to the electric motor; and wherein the bus voltage feedback signal is further derived from a current error value for the at least one electric motor drive signal and a voltage control value for the at least one electric motor drive signal output by a current proportional-integral (PI) controller, the current error value being a difference between a desired current value and a measured current value for the at least one electric motor drive signal, the desired current output by a speed PI controller which adjusts the desired current output in response to a motor speed error value defined by mixing a desired speed value of the electric motor and measured speed value of the electric motor, wherein the current PI controller receives as input the current error value, the bus voltage feedback signal is provided by a motor driver component directly to a bus voltage PI controller of the voltage converter. 14. The method of claim 13 , wherein the method comprises: increasing the voltage level of the bus voltage signal upon the b