Method and apparatus for controlling an electric machine

The invention claimed is: 1. A method for controlling an inverter electrically operatively connected to an electric machine and in communication with a controller, wherein the inverter is electrically connected to a high-voltage DC power bus, the method comprising: monitoring, via the controller, a rotational speed of the electric machine while operating the inverter in an over-modulation mode; commanding operation of the inverter in a linear modulation mode when the rotational speed is within a speed range associated with objectionable audible noise generated by operating the electric machine in the over-modulation mode; monitoring, via the controller, a torque command and a voltage level of the high-voltage DC power bus; determining a commanded quadrature current based upon the torque command, the rotational speed of the electric machine, and the voltage level of the high-voltage DC power bus; determining an initial direct current based upon the torque command, the rotational speed of the electric machine, and the voltage level of the high-voltage DC power bus; determining an initial modulation index based upon the rotational speed of the electric machine; determining a modulation index; determining a feedback current command based upon the initial modulation index and the modulation index; determining a final commanded direct current based upon the initial direct current and the feedback current command; and determining operating commands for controlling the inverter based upon the commanded quadrature current and the final commanded direct current. 2. The method of claim 1 , wherein the modulation index is determined based upon a peak fundamental phase voltage level of electric power supplied to the inverter and a maximum available bus voltage level from the high-voltage DC power bus. 3. The method of claim 1 , wherein determining the initial modulation index based upon the rotational speed of the electric machine comprises selecting a magnitude for the initial modulation index that is associated with controlling the inverter in the linear modulation mode when the rotational speed falls within the speed range associated with objectionable audible noise generated by operating the electric machine in the over-modulation mode, wherein the speed range is defined by a first speed level and a second speed level. 4. The method of claim 1 , wherein determining the initial modulation index based upon the rotational speed of the electric machine comprises selecting a magnitude for the initial modulation index that is associated with an over-modulation mode for controlling the inverter when the rotational speed falls outside a speed range defined by a first speed level and a second speed level. 5. The method of claim 1 , wherein determining the operating commands for controlling the inverter based upon the commanded quadrature current and the final commanded direct current comprises employing final commanded direct current and the commanded quadrature current to generate inverter commands to control the inverter in the linear modulation mode. 6. The method of claim 1 , wherein determining the operating commands for controlling the inverter based upon the commanded quadrature current and the final commanded direct current comprises employing the final commanded direct current and the commanded quadrature current to generate inverter commands to control the inverter in the over-modulation mode. 7. The method of claim 1 , wherein the objectionable audible noise generated by operating the electric machine in the over-modulation mode is defined by a sound frequency spectrum and an associated noise level measured in decibels. 8. The method of claim 1 , wherein operating the inverter in the over-modulation mode comprises controlling switch pairs of the inverter to cycle through each of six non-zero states once per cycle of the rotor of the electric machine; and wherein commanding operation of the inverter in the linear modulation mode comprises commanding the inverter to control each of the switch pairs of the inverter to switch among two of the non-zero states and the zero state multiple times during each cycle of the rotor of the electric machine. 9. An apparatus, comprising: an inverter circuit electrically operatively connected to an electric machine; a high-voltage DC power source electrically connected to the inverter circuit; a controller in communication with the inverter and the electric machine, the controller including an instruction set, the instruction set executable to: command the inverter to operate in an over-modulation mode and monitor a rotational speed of the electric machine during such operation; and command the inverter to operate in a linear modulation mode when the rotational speed is within a speed range associated with objectionable audible noise generated by operating the electric machine in the over-modulation mode; monitor a torque command and a voltage level associated with the high-voltage DC power source; determine a commanded quadrature current based upon the torque command, the rotational speed of the electric machine, and the voltage level; determine an initial direct current based upon the torque command, the rotational speed of the electric machine, and the voltage level; determine an initial modulation index based upon the rotational speed of the electric machine; determine a modulation index; determine a feedback current command based upon the initial modulation index and the modulation index; determine a final commanded direct current based upon the initial direct current and the feedback current command; and determine operating commands for controlling the inverter based upon the commanded quadrature current and the final commanded direct current. 10. The method of claim 9 , comprising the instruction set executable to determine the modulation index based upon a peak fundamental phase voltage level of electric power supplied to the inverter and a maximum available bus voltage level from the high-voltage DC power bus. 11. The method of claim 9 , wherein the instruction set executable to determine the initial modulation index based upon the rotational speed of the electric machine comprises the instruction set executable to select a magnitude for the initial modulation index that is associated with controlling the inverter in the linear modulation mode when the rotational speed falls within the speed range associated with objectionable audible noise generated by operating the electric machine in the over-modulation mode, wherein the speed range is defined by a first speed level and a second speed level. 12. The method of claim 9 , wherein the instruction set executable to determine the initial modulation index based upon the rotational speed of the electric machine comprises the instruction set executable to select a magnitude for the initial modulation index that is associated with an over-modulation mode for controlling the inverter when the rotational speed falls outside a speed range defined by a first speed level and a second speed level. 13. The method of claim 9 , wherein the instruction set executable to determine the operating commands for controlling the inverter based upon the commanded quadrature current and the final commanded direct current comprises the instruction set executable to employ the final commanded direct current and the commanded quadrature current to generate inverter commands to control the inverter in the linear modulation mode. 14. The method of claim 9 , wherein the instruction set executable to determine the operating commands for controlling the inverter bas