System and method for safely powering an appliance user interface without external power

What is claimed is: 1. A washing machine comprising: a basket; a motor which includes a rotor, the motor being configured to rotate the basket by rotating the rotor; a user interface; and a motor control circuit configured to drive the motor; wherein the motor control circuit is further configured to receive power generated by rotation of the rotor, monitor for the presence of a safety condition, and disable passive braking of the rotor when the safety condition is present; and wherein the motor control circuit is configured to apply passive braking to the rotor upon initialization. 2. The washing machine of claim 1 , wherein the motor control circuit comprises a gate driver configured to drive the motor and a processor configured to control the gate driver, the processor being configured to disable passive braking of the rotor by disabling the gate driver. 3. The washing machine of claim 2 , wherein the gate driver drives the motor by switching a plurality of switching elements, the plurality of switching elements being configured to apply passive braking to the rotor upon initialization. 4. The washing machine of claim 3 , further comprising a plurality of resistors configured to ensure that passive braking is applied to the rotor upon initialization. 5. The washing machine of claim 1 , wherein the motor control circuit is further configured to apply passive braking to the rotor when the safety condition is no longer present. 6. The washing machine of claim 5 , wherein the safety condition requires a rotor rotation speed less than a threshold speed. 7. The washing machine of claim 5 , wherein the washing machine further comprises a connection for receiving externally supplied power, the safety condition requiring the absence of externally supplied power. 8. The washing machine of claim 1 , wherein the user interface operates in a demonstration mode when the safety condition is present. 9. The washing machine of claim 1 , further comprising: a door; wherein the safety condition requires the door to be open. 10. The washing machine of claim 1 , wherein the motor control circuit comprises: a gate driver that drives the motor; and one or more conditioning elements which condition one or more inputs of the gate driver to ensure that the gate driver applies passive braking to the motor upon initialization. 11. The washing machine of claim 10 , wherein the one or more conditioning elements comprise a plurality of pull-up or pull-down resistors. 12. The washing machine of claim 10 , wherein the one or more conditioning elements comprise a plurality of pull-down resistors populated between a low side logic input of the gate driver and an electrical ground. 13. The washing machine of claim 10 , wherein the motor control circuit further comprises an inverter electrically coupled to the motor, wherein the gate driver drives the motor by switching a plurality of switching elements included in the inverter, and wherein the one or more condition elements condition the one or more inputs of the gate driver to ensure that the gate driver activates selected ones of the plurality of switching elements included in the inverter when the gate driver is initialized. 14. A washing machine comprising: a basket; a motor which includes a rotor, the motor being configured to rotate the basket by rotating the rotor; a user interface; and a motor control circuit configured to drive the motor, wherein the motor control circuit comprises: a DC bus that is charged when the rotor is rotated; a gate driver that applies passive braking to the rotor upon initialization; and an AC line sensor that senses the presence of externally supplied AC power; wherein the motor control circuit is further configured to receive power generated by rotation of the rotor, monitor for the presence of a safety condition, and disable passive braking of the rotor when the safety condition is present; and wherein the user interface receives power from the DC bus after passive braking of the rotor is disabled. 15. The washing machine of claim 14 , wherein the motor control circuit further comprises a processor that disables the gate driver when the DC bus is charged and the AC line sensor senses that externally supplied AC power is not present. 16. A washing machine, comprising: a basket; a motor that includes a rotor, wherein the motor rotates the basket by rotating the rotor; a user interface; and a motor control circuit that receives power generated by manual rotation of the rotor, the motor control circuit comprising: a gate driver that drives the motor, wherein the gate driver applies passive braking to the motor by default upon initialization; and a processor that monitors for the presence of a safety condition and, when the safety condition is present, disables the default passive braking of the rotor by the gate driver. 17. The washing machine of claim 16 , wherein the motor control circuit further comprises: one or more conditioning elements which condition one or more inputs of the gate driver to ensure that the gate driver applies passive braking to the motor by default upon initialization. 18. The washing machine of claim 17 , wherein the one or more conditioning elements comprise a plurality of pull-down resistors populated between a low side logic input of the gate driver and an electrical ground. 19. The washing machine of claim 16 , wherein the safety condition requires one or more of an absence of externally supplied AC power, a door of the washing machine in an open configuration, and a rotor speed less than a threshold speed.