Power management for inductive charging systems

We claim: 1. An adaptive power control system for an electromagnetic induction power transfer apparatus comprising: a wireless signal receiver; an alternating current power supply having an operating frequency; a power-transmitting inductor coupled to the power supply; and a current monitor coupled to the power-transmitting inductor and configured to determine a load of the power-transmitting inductor; wherein a first modification of the operating frequency of the power supply is provided in response to the load; and a second modification to the operating frequency of the power supply, overriding the first modification for a selected timeout period, is provided in response to a feedback signal received by the wireless signal receiver, the feedback signal sent at an interval from a portable electronic device proximate to the power-transmitting inductor. 2. The adaptive power control system of claim 1 , wherein the power supply is turned off in response to a load below a load minimum threshold. 3. The adaptive power control system of claim 1 , wherein modification of the operating frequency of the power supply in response to the load is substantially simultaneous with changes in the load. 4. The adaptive power control system of claim 1 , wherein the select timeout period is less than the interval of the feedback signal. 5. The adaptive power control system of claim 1 , wherein the select timeout period is greater than the interval of the feedback signal. 6. The adaptive power control system of claim 1 , wherein the portable electronic device includes a surge protection circuit operative to prevent damage to the portable electronic device as a result of an increase in power transmitted by the power-transmitting inductor. 7. The adaptive power control system of claim 6 , wherein the surge protection circuit comprises a capacitor. 8. The adaptive power control system of claim 1 , wherein the first modification is limited to a selected maximum. 9. A transmitter of a wireless power transfer system, the transmitter comprising: a transmit coil coupled to a power source; a load monitor coupled to the transmit coil and configured to measure current through the transmit coil; and a power transfer control circuit coupled to the load monitor and configured to: set an operational frequency of the power source; perform an initial modification of the operational frequency in response to a signal from the load monitor corresponding to a change in current through the transmit coil; and perform a subsequent modification of the operating frequency, overriding the initial modification for a timeout period, in response to a feedback signal received from a portable electronic device. 10. The transmitter of claim 9 , wherein: the signal is a first signal; and the power transfer control circuit is configured to disable the power source in response to a second signal from the load monitor corresponding to a determination that current through the transmit coil is below a threshold. 11. The transmitter of claim 9 , wherein the power transfer control circuit is configured to disable the power source after the timeout period if the feedback signal is not received. 12. The transmitter of claim 9 , wherein the power transfer control circuit is configured to retain the initial modification upon determining that the feedback signal confirms the initial modification. 13. The transmitter of claim 9 , wherein the selected timeout period is longer than an interval at which the feedback signal is sent. 14. A method of controlling power transfer from a transmitter of an inductive charging station, the method comprising: setting an initial operational frequency of an alternating current power source coupled to a transmit coil, the initial operating frequency corresponding to a first power requirement of a portable electronic device; monitoring current through the transmit coil; providing a first modification to the initial operational frequency upon determining that current through the transmit coil has changed; initiating a selected timeout period after providing the first modification to the initial operating frequency; receiving a signal from a portable electronic device before the selected timeout period expires, the signal corresponding to a second power requirement of the portable electronic device; overriding the first modification to the initial operational frequency upon determining that the first modification does not correspond to the second power requirement; and providing a second modification to the initial operational frequency, the second modification of the initial operating frequency corresponding to the second power requirement. 15. The method of claim 14 , further comprising disabling the alternating current power source in the absence of the signal. 16. The method of claim 14 , further comprising restoring the initial operating frequency of the alternating current power source if the signal is not received before the selected timeout period expires. 17. The method of claim 14 , wherein the first modification comprises increasing the operational frequency. 18. The method of claim 14 , wherein the second modification comprises decreasing the operational frequency.