Method and apparatus for operating a vehicle employing non-combustion torque machine

The invention claimed is: 1. A method for controlling a vehicle powertrain system including an electric machine electrically connected to a power inverter, wherein the vehicle powertrain system is operative in an electric vehicle mode to generate propulsion torque, the method comprising: determining a vehicle speed, and determining a preferred audible sound to be generated by the vehicle powertrain system when operating in the electric vehicle mode at the vehicle speed; determining a control signal for the power inverter associated with operating the vehicle powertrain system in the electric vehicle mode at the vehicle speed; incorporating the preferred audible sound into the control signal for the power inverter, including injecting a current ripple to induce a desired instantaneous frequency to generate a complex acoustic tone in the electric machine that is associated with the preferred audible sound, including injecting the current ripple into a direct (D)-axis current for a stator winding of the electric machine, wherein the D-axis current is associated with the control signal for the power inverter; and controlling the power inverter to operate the electric machine employing the control signal and the preferred audible sound. 2. The method of claim 1 , wherein incorporating the preferred audible sound into the control signal for the power inverter comprises dithering operation of the electric machine at a power inverter frequency in response to the preferred audible sound. 3. The method of claim 1 , wherein the preferred audible sound comprises a complex acoustic tone that is composed from a plurality of simultaneously generated tone contributions at multiple frequencies. 4. The method of claim 1 , wherein the preferred audible sound varies with the vehicle speed. 5. A method for controlling a power inverter electrically connected to a non-combustion torque machine disposed to generate propulsion torque in a vehicle, the method comprising: determining a vehicle speed; determining a preferred audible sound when operating at the vehicle speed; determining a control signal for the power inverter associated with operating at the vehicle speed; incorporating the preferred audible sound into the control signal for the power Inverter, including injecting a current ripple to induce a desired instantaneous frequency to generate a complex acoustic tone in the electric machine that is associated with the preferred audible sound, including injecting the current ripple into a direct (D)-axis current for a stator winding of the electric machine, wherein the D-axis current is associated with the control signal for the power inverter; and controlling the power inverter to operate the electric machine employing the control signal and the preferred audible sound. 6. The method of claim 5 , wherein incorporating the preferred audible sound into the control signal for the power inverter comprises dithering operation of the electric machine at a power inverter frequency in response to the preferred audible sound. 7. The method of claim 5 , wherein the preferred audible sound comprises a complex acoustic tone that is composed from a plurality of simultaneously generated tone contributions at multiple frequencies. 8. The method of claim 5 , wherein the preferred audible sound is vehicle speed-dependent. 9. A powertrain system coupled to a driveline of a vehicle, comprising: an electric machine electrically connected to a power inverter module that is electrically connected to a direct current (DC) power source, wherein the electric machine is rotatably coupled to the driveline; and a controller operatively connected to the power inverter module, wherein the controller includes an instruction set, the instruction set executable to: control the power inverter module to control the powertrain system in an electric vehicle mode to generate propulsion torque that is transferable to the driveline, determine a vehicle speed, and determine a preferred audible sound to be generated by the powertrain system when operating in the electric vehicle mode at the vehicle speed, determine a control signal for the power inverter module associated with operating the powertrain system at the vehicle speed, incorporate the preferred audible sound into the control signal for the power inverter module, including injecting a current ripple to induce a desired instantaneous frequency to generate a complex acoustic tone in the electric machine that is associated with the preferred audible sound, including injecting the current ripple into a direct (D)-axis current for a stator winding of the electric machine, wherein the D-axis current is associated with the control signal for the power inverter, and control the power inverter nodule to operate the electric machine employing the control signal and the preferred audible sound. 10. The powertrain system of claim 9 , wherein the instruction set executable to incorporate the preferred audible sound into the control signal for the power inverter comprises the instruction set executable to dither operation of the electric machine at a power inverter frequency in response to the preferred audible sound. 11. The powertrain system of claim 9 , wherein the preferred audible sound comprises a complex acoustic tone that is composed from a plurality of simultaneously generated tone contributions at multiple frequencies.