Wireless power transfer system parameter estimation

What is claimed is: 1. A vehicle comprising: a coil adapted to receive power wirelessly in single-phase form from an external coil; a sensor adapted to measure a characteristic of the power; and a controller programmed to estimate a parameter indicative of coil alignment using a three-phase representation of the power based on the characteristic, and adjust the power received by the coil based on the parameter. 2. The vehicle of claim 1 wherein the controller is further programmed to: generate a second phase representation of the received power shifted by 120 degrees; generate a third phase representation of the received power shifted by 240 degrees; and generate a complex vector based on the received power, the second phase representation and the third phase representation, wherein the three-phase representation of the power is based on the complex vector. 3. The vehicle of claim 2 wherein the controller is further programmed to convert the complex vector to a rotating direct-quadrature-zero (DQ) reference frame indicative of the three-phase representation of the power. 4. The vehicle of claim 1 wherein the controller is further programmed to generate a rotating direct-quadrature-zero (DQ) reference frame indicative of the three-phase representation of the power. 5. The vehicle of claim 4 wherein the controller is further programmed to: calculate at least one flux linkage using equations based on a DQ circuit model of the rotating DQ reference frame; and calculate the parameter indicative of coil alignment based on the flux linkage whereby the parameter is not influenced by system dynamics. 6. The vehicle of claim 1 wherein the vehicle further comprises an energy source connected to the coil and adapted to receive the power for charging thereof. 7. The vehicle of claim 1 wherein the characteristic of the power further comprises at least one of a voltage and a current received by at least one of the coil and the external coil. 8. The vehicle of claim 1 wherein the controller is further programmed to adjust at least one of a switching frequency and a phase shift angle of the power received by the coil based on the parameter. 9. The vehicle of claim 1 wherein the controller is further programmed to adjust the power received by the coil by providing a command to an external controller to adjust at least one of a switching frequency and a phase shift angle of the power provided to the external coil. 10. The vehicle of claim 1 wherein the parameter is indicative of at least one of a coil inductance, an external coil inductance and a mutual inductance of the coil and the external coil. 11. A power transfer system comprising: a coil adapted to receive power inductively from an external coil; an inverter coupled to the external coil; and a controller programmed to adjust at least one of a switching frequency and a phase shift angle of the inverter based on coil alignment estimated using a three-phase representation of the power. 12. The power transfer system of claim 11 further comprising: an external power source coupled to the external coil to provide the power, wherein the inverter is connected between the external power source and the external coil; and an external controller programmed to receive a command indicative of the at least one of the switching frequency and the phase shift angle from the controller and to control the inverter based on the command. 13. The power transfer system of claim 11 further comprising a battery electrically connected to the coil to store the power. 14. The power transfer system of claim 11 further comprising a sensor for measuring a characteristic of the power. 15. The power transfer system of claim 14 wherein the controller is further programmed to estimate a parameter indicative of the coil alignment based on the characteristic. 16. The power transfer system of claim 15 wherein the parameter is indicative of at least one of a coil inductance, an external coil inductance, and a mutual inductance of the coil and the external coil. 17. The power transfer system of claim 11 wherein the controller is further programmed to: generate a rotating direct-quadrature-zero (DQ) reference frame indicative of the three-phase representation of the power; calculate at least one flux linkage using equations based on the rotating DQ reference frame; and calculate a parameter indicative of the coil alignment based on the flux linkage. 18. A wireless power transfer (WPT) method comprising: receiving power wirelessly from an external source through coupled coils; measuring a characteristic of the power; generating a three-phase representation of the power based on the measured characteristic; estimating a parameter indicative of coil alignment using the three-phase representation; and adjusting the power based on the parameter. 19. The WPT method of claim 18 wherein generating the three-phase representation of the power further comprises generating a rotating direct-quadrature-zero (DQ) reference frame based on the measured characteristic. 20. The WPT method of claim 19 further comprising: calculating at least one flux linkage based on the rotating DQ reference frame; and calculating the parameter indicative of the coil alignment based on the flux linkage.