Automatic self-locating transmit coil for wireless vehicle charging

What is claimed is: 1. A vehicle charging system comprising: a tire pad including a plurality of pressure-sensitive sensors arranged at known locations and configured to output signals having a magnitude indicative of a pressure at the known locations applied by a tire in contact with the tire pad; and a controller programmed to receive the signals and position a transmit coil for charging a vehicle according to a tire position on the tire pad derived from the signals. 2. The vehicle charging system of claim 1 , wherein the tire position on the tire pad is relative to a fixed reference location that is based on a position of the tire pad within the vehicle charging system. 3. The vehicle charging system of claim 1 , wherein the controller is further programmed to position the transmit coil to align the transmit coil with a vehicle receive coil that is located in the vehicle at a known offset from the tire to charge the vehicle. 4. The vehicle charging system of claim 1 , further comprising a transmit coil transport mechanism coupled to the transmit coil and configured to change a position of the transmit coil, and wherein the controller is further programmed to operate the transmit coil transport mechanism to align the transmit coil to a vehicle receive coil that is located in the vehicle based on the position of the tire on the tire pad. 5. The vehicle charging system of claim 1 , wherein the known locations are generally equally spaced. 6. The vehicle charging system of claim 1 , wherein the known locations are unevenly spaced. 7. The vehicle charging system of claim 1 , wherein the tire pad includes a tire stop to limit motion of the tire in one direction. 8. The vehicle charging system of claim 7 , wherein the tire stop includes at least one sensor for sensing a pressure when the tire is in contact with the tire stop. 9. A tire position detector comprising: a pad having a plurality of sensors arranged at known locations of the pad and configured to output signals indicative of a pressure applied at each of the known locations by a tire in contact with the pad; and a controller programmed to receive the signals and output, to a charging system, position coordinates of the tire relative to a reference point of the charging system based on the signals. 10. The tire position detector of claim 9 , wherein the known locations of the pad are generally equally spaced. 11. The tire position detector of claim 9 , wherein the known locations of the pad are unevenly spaced. 12. The tire position detector of claim 9 , wherein the known locations of the pad are in a row across the pad. 13. The tire position detector of claim 9 , wherein the known locations of the pad form a grid having a plurality of rows and a plurality of columns. 14. The tire position detector of claim 9 , further comprising a tire stop attached to the pad. 15. The tire position detector of claim 9 , wherein each of the sensors is configured to output a high-magnitude signal with a magnitude greater than a first predetermined value when the pressure applied at the known locations is greater than a predetermined pressure and output a low-magnitude signal with the magnitude less than a second predetermined value otherwise. 16. The tire position detector of claim 9 , wherein each of the sensors is configured to output the signal as a value that is proportional to the pressure applied by the tire at the known locations.