Methods for detecting mated coils

We claim: 1. A transmitter of a power transfer system the transmitter comprising: a sensor configured to detect absence of a receiver, the sensor comprising a strain sensor mechanically coupled to an alignment magnet configured to attract the receiver; a transmit coil; a power supply coupled to the transmit coil and operable in: a sustained power transmit mode associated with a first output of the sensor that corresponds to a detected alignment between the transmit coil and a receive coil associated with the receiver; and an intermittent power transmit mode associated with a second output of the sensor that corresponds to absence of the receiver; wherein the first output is different from the second output. 2. The transmitter of claim 1 , wherein the power supply is coupled to a processor configured to toggle between the sustained power transmit mode and the intermittent power transmit mode based on at least one of the first output and the second output. 3. The transmitter of claim 1 , wherein the power supply operates in the intermittent power transmit mode in the absence of the first output. 4. The transmitter of claim 1 , wherein the power supply switches form the intermittent power transmit mode to the sustained power transmit mode in response to the first output. 5. The transmitter of claim 1 , wherein the sensor is configured to accept a signal from the receiver that corresponds to the first output. 6. The transmitter of claim 5 , wherein the signal indicates that the receiver is ready to receive power. 7. The transmitter of claim 5 , wherein the signal indicates that the receiver is not ready to receive power. 8. The transmitter of claim 5 , wherein the signal includes information related to a state of the receiver device. 9. The transmitter of claim 1 , wherein the transmitter is associated with an inductive power transmitting mat. 10. The transmitter of claim 1 , wherein the sensor comprises an accelerometer configured to detect mechanical agitation of the transmitter. 11. The transmitter of claim 1 , wherein the sensor comprises a capacitive sensor configured to detect capacitive changes associated with placing the receiver adjacent to the transmitter. 12. A power transfer system comprising: an inductive power receiver comprising a receive coil; an inductive power mat comprising: a housing defining a surface configured to receive the inductive power receiver; a transmit coil positioned below the surface; a sensor positioned below the surface and configured to detect alignment of the inductive power receiver relative to the surface, the sensor comprising a permanent magnet and a strain sensor mechanically coupled to the permanent magnet; and a processor coupled to the transmit coil and the sensor; and a power supply in communication with the processor and operable in a sustained power transmit mode, an intermittent power transmit mode, and an inactive mode; wherein the inactive mode is associated with a first output of the sensor that corresponds to absence of the receiver; the intermittent power transmit mode is associated with a second output of the sensor that corresponds to possible presence of the receiver; and the sustained power transmit mode is associated with a third output of the sensor that corresponds to a detected alignment between the transmit coil and the receive coil. 13. The power transfer system of claim 12 , wherein the inductive power receiver is associated with one of: a wearable device, a stylus, a medical device, a tablet computer, a laptop computer, a portable media player, or a cellular phone. 14. A method of activating transmit circuitry within a transmitter of an inductive power transfer system, the method comprising: receiving a signal from a strain sensor coupled to a permanent magnet, the signal corresponding to a condition that the permanent magnet is attracted to an object; determining whether the object is associated with a receiver device of the inductive power transfer system; verifying that the receiver device is ready to receive power; activating the transmit circuitry; and activating a sustained power transmission mode of the transmit circuitry. 15. The method of claim 14 , further comprising: deactivating the transmit circuitry upon determining that the receiver device is not ready to receive power.