Electric motor mode control

What is claimed is: 1. A vehicle comprising: an electric machine; an inverter; and a controller configured to operate the electric machine in pulse width modulation mode at a speed and torque of the electric machine and an input voltage of the inverter, the speed and the voltage related by a ratio, and maintain operation in pulse width modulation mode as speed and voltage increase proportionately according to the ratio while maintaining the torque, wherein the controller is further configured to transition from pulse width modulation mode to six-step mode in response to any increase in speed while maintaining the voltage and torque. 2. The vehicle of claim 1 wherein the controller is further configured to transition from pulse width modulation mode to six-step mode in response to any decrease in voltage while maintaining the speed and torque. 3. The vehicle of claim 2 wherein the controller is further configured to: operate the electric machine in six-step mode at the speed and voltage such that the electric machine produces a second torque; and maintain operation in six-step mode as speed and voltage decrease proportionately according to the ratio while maintaining the second torque. 4. The vehicle of claim 3 wherein the controller is further configured to transition from six-step mode to pulse width modulation mode in response to any decrease in speed while maintaining voltage and second torque. 5. The vehicle of claim 4 wherein the controller is further configured to transition from six-step mode to pulse width modulation mode in response to any increase in voltage while maintaining the speed and second given torque. 6. The vehicle of claim 1 further comprising: a battery; and a dc-to-dc converter electrically connected to both the battery and the inverter. 7. A controller comprising: an input interface configured to receive signals indicating a voltage of an electrical bus and a speed of an electric machine; an output interface configured to transmit inverter state and duty cycle commands to an inverter such that the inverter supplies current to the electric machine resulting in a torque; and control logic programmed to operate the inverter in pulse width modulation mode at a given speed, given voltage, and first given torque, the given speed and given voltage related by a ratio, maintain operation in pulse width modulation mode as speed and voltage increase proportionately from the given speed and given voltage according to the ratio while maintaining the first given torque, and transition from pulse width modulation mode to six-step mode in response to any increase in speed from the given speed while maintaining the first given torque and given voltage. 8. The controller of claim 7 wherein the control logic is further programmed to transition from pulse width modulation mode to six-step mode in response to any decrease in voltage from the given voltage while maintaining the given speed and first given torque. 9. The controller of claim 8 wherein the control logic is further programmed to operate the electric machine in six-step mode at the given speed and given voltage such that the electric machine produces a second given torque; maintain operation in six-step mode as speed and voltage decrease proportionately from the given speed and given voltage according to the ratio while maintaining the second given torque; and transition from six-step mode to pulse width modulation mode in response to any decrease in speed from the given speed while maintaining the given voltage and second given torque. 10. The controller of claim 9 wherein the control logic is further programmed to transition from six-step mode to pulse width modulation mode in response to any increase in voltage from the given voltage while maintaining the given speed and second given torque. 11. The controller of claim 10 wherein the first given torque and second given torque are both greater than zero and the first given torque is greater than the second given torque.