Method and apparatus for controlling an electric machine in a six-step mode

The invention claimed is: 1. A method for controlling an inverter electrically operatively connected to a multi-phase AC electric machine, comprising: executing a six-step mode to control the inverter; monitoring an electric voltage angle of the electric machine at a preset sampling frequency; and when the electric voltage angle approaches a step transition associated with controlling one of a plurality of switches of the inverter in the six-step mode: generating an intermediate duty command for the one of the switches; aligning a carrier signal based upon a present control state of the one of the switches; and controlling the one of the switches employing the intermediate duty command and the aligned carrier signal. 2. The method of claim 1 , wherein generating an intermediate duty command for the one of the switches comprises: determining a vector angle advance during a single switching period; determining a vector angle associated with the electric voltage angle of the electric machine; and determining the intermediate duty command for the one of the switches based upon the vector angle advance during a single switching period and the vector angle. 3. The method of claim 1 , wherein aligning a carrier based upon a present control state of the one of the switches comprises selecting a left-aligned carrier waveform in response to the intermediate duty command prior to shifting the PWM waveform for commanding the associated switch of the inverter to an OFF state. 4. The method of claim 1 , wherein aligning a carrier based upon a present control state of the one of the switches comprises selecting a right-aligned carrier waveform in response to the intermediate duty command prior to shifting the PWM waveform for commanding the associated switch of the inverter to an ON state. 5. The method of claim 1 , further comprising selecting a center-aligned carrier waveform when the electric voltage angle is not approaching a step transition associated with control one of a plurality of switches of the inverter in the six-step mode. 6. The method of claim 1 , wherein controlling the one of the switches employing the intermediate duty command and the aligned carrier signal comprises controlling the one of the switches employing the intermediate duty command and the aligned carrier signal to synchronize execution of the six-step mode with the rotation of the electric machine. 7. A method for controlling a voltage source inverter including a plurality of arms electrically operatively connected to phases of a permanent magnet synchronous multi-phase AC electric machine, comprising: executing a six-step mode to control the inverter in response to a torque command; monitoring a rotational angle of the electric machine at a preset sampling frequency; and when the electric voltage angle approaches a step transition associated with controlling one of the arms of the inverter in the six-step mode: generating an intermediate duty command for the one of the arms; aligning a carrier signal based upon a present control state of the one of the arms; and controlling the one of the arms employing the intermediate duty command and the aligned carrier signal. 8. The method of claim 7 , wherein generating an intermediate duty command for the one of the switches comprises: determining a vector angle advance during a single switching period; determining a vector angle associated with the electric voltage angle of the electric machine; and determining the intermediate duty command based upon the vector angle advance during a single switching period and the vector angle. 9. The method of claim 7 , wherein aligning a carrier based upon a present control state of the one of the switches comprises selecting a left-aligned carrier waveform in response to the intermediate duty command prior to shifting the PWM waveform for commanding the associated arm of the inverter to a control state of 0. 10. The method of claim 7 , wherein aligning a carrier based upon a present control state of the one of the switches comprises selecting a right-aligned carrier waveform in response to the intermediate duty command prior to shifting the PWM waveform for commanding the associated arm of the inverter to a control state of 1. 11. The method of claim 7 , further comprising selecting a center-aligned carrier waveform when the electric voltage angle is not approaching a step transition associated with control one of the arms of the inverter in the six-step mode. 12. The method of claim 7 , wherein controlling the one of the arms employing the intermediate duty command and the aligned carrier signal comprises controlling the one of the arms employing the intermediate duty command and the aligned carrier signal to synchronize execution of the six-step mode with the rotation of the electric machine.