Methods, circuits and articles of manufacture for controlling wireless power transfer responsive to controller circuit states

What is claimed: 1 . A method of operating a wireless power transfer circuit comprising an input port configured to couple to a power source, an ac excitation circuit having a port coupled to the input port, a resonant circuit coupled to the ac excitation circuit, and a controller circuit configured to operate the ac excitation circuit, the method comprising: inductively transferring power from the resonant circuit; and changing an operating frequency of the ac excitation circuit and a configuration of the resonant circuit responsive a change in indicated efficiency of the wireless power transfer. 2 . The method of claim 1 wherein the wireless power transfer circuit comprises a transmitter portion of the wireless power transfer circuit, the method further comprising: transmitting an indication of changing the configuration of the of the resonant circuit to a receiver portion of the wireless power transfer circuit; selecting a configuration of a resonant circuit included in the receiver portion of the wireless power transfer circuit responsive to the indication to provide a new configuration for the resonant circuit included in the receiver portion of the wireless power transfer circuit; and inductively receiving power from the transmitter portion using the new configuration. 3 . The method of claim 1 wherein changing an operating frequency of the ac excitation circuit and changing a configuration of the resonant circuit comprises: operating the controller circuit in a first operating state including selecting a first operating frequency for the ac excitation circuit and selecting a first configuration for the resonant circuit; inductively transferring power from the resonant circuit using the first operating state; transitioning operation of the controller circuit to a second operating state including selecting a second operating frequency for the ac excitation circuit and selecting a second configuration for the resonant circuit responsive to a reduction in the indicated efficiency of the wireless power transfer while in the first operating state; and inductively transferring power from the resonant circuit using the second operating state. 4 . The method of claim 3 further comprising: adjusting a duty cycle for control of the ac excitation circuit in the second operating state to control an output parameter of the wireless power transfer. 5 . The method of claim 3 wherein the reduction in the indicated efficiency of the wireless power transfer is indicated by a change in a duty cycle associated with operation of the ac excitation circuit. 6 . The method of claim 5 wherein the change in the duty cycle provides a new duty cycle that is outside a predetermined range for operation of the ac excitation circuit in the first operating state. 7 . The method of claim 5 wherein transitioning operation of the controller circuit comprises transitioning the operation of the controller circuit to the second operating state in response to a first change in the duty cycle, wherein the method further comprises: transitioning operation of the controller circuit to a third operating state including selecting a third operating frequency for the ac excitation circuit and selecting a third configuration for the resonant circuit responsive to a second change in the duty cycle while in the second operating state. 8 . The method of claim 7 wherein the second change in the duty cycle provides a new duty cycle that is outside a predetermined range for operation of the ac excitation circuit in the second operating state. 9 . The method of claim 7 wherein the second change in the duty cycle provides a new duty cycle that is outside a second predetermined range for operation of the ac excitation circuit in the second operating state. 10 . The method of claim 6 wherein transitioning operation of the controller circuit comprises transitioning the operation of the controller circuit to the second operating state in response to a first change in the duty cycle, wherein the method further comprises: transitioning operation of the controller circuit back to the first operating state responsive to a change in the new duty cycle while in the second operating state. 11 . The method of claim 10 wherein the change in the new duty cycle provides a second new duty cycle that is outside the predetermined range when in the second operating state. 12 . The method of claim 3 wherein the first operating frequency is less than the second operating frequency and the first configuration has a resonant frequency that is less than that of the second configuration. 13 . The method of claim 12 , wherein the second configuration for the resonant circuit is provided by removing or adding components to the first configuration for the resonant circuit. 14 . A wireless power transfer apparatus comprising: an input port configured to couple to a power source; an ac excitation circuit coupled to the input port, the ac excitation circuit configured to operate responsive to a control signal indicating an operating frequency for the ac excitation circuit to convert power from the power source to ac excitation; a resonant circuit coupled to the ac excitation circuit, the resonant circuit configured to operate responsive to a resonant circuit configuration selection control signal to inductively transfer the ac excitation from the resonant circuit; and a controller circuit, coupled to the ac excitation circuit and to the resonant circuit, the controller circuit configured to change the operating frequency for the ac excitation circuit using the control signal and configured to change a configuration of the resonant circuit using the resonant circuit configuration selection control signal responsive a change in an indicated efficiency of the wireless power transfer relative to a specified efficiency of the wireless power transfer. 15 . The wireless power transfer apparatus of claim 14 wherein the wireless power transfer apparatus comprises a transmitter portion configured to transmit an indication of changing the configuration of the of the resonant circuit to a receiver portion of the wireless power transfer circuit, the receiver portion comprising: a receiver resonant circuit configured to receive the resonant circuit configuration selection control signal to select a configuration of the receiver resonant circuit and configured to inductively receive the ac excitation using the configuration of the receiver resonant circuit. 16 . The wireless power transfer apparatus of claim 14 wherein the controller circuit is further configured to operate in a first operating state including selecting a first operating frequency for the ac excitation circuit and selecting a first configuration for the resonant circuit to inductively transfer power from the resonant circuit using the first operating state; wherein the controller circuit is further configured to, responsive to a reduction in the indicated efficiency of the wireless power transfer while in the first operating state, transition operation of the controller circuit to a second operating state that includes selecting a second operating frequency for the ac excitation circuit and selecting a second configuration for the resonant circuit to inductively transfer power from the resonant circuit using the second operating state. 17 . The wireless power transfer apparatus of claim 16 wherein the controller circuit is further configured to adjust a duty cycle for control of the ac excitation circuit in the second operating state to maint