Electric vehicles and electric-hybrid vehicles are gaining in popularity with consumers. The electric motors in these vehicles are typically powered from multiple storage batteries disposed in a battery pack in the vehicle. If the battery needs to be recharged while the vehicle is parked, a plug or leaded charge-coupling device is connected to the vehicle, typically by the vehicle operator. However, some operators object to having to ‘plug-in’ their vehicle each time the vehicle is parked.
Wireless or connector less battery chargers have been proposed, see U.S. Pat. No. 5,498,948 issued Mar. 12, 1996 to Bruni et al., and U.S. Pat. No. 8,008,888 issued Aug. 30, 2011 to Oyobe et al. A wireless battery charger marketed by Delphi of Troy, Mich. includes a source resonator or charging pad lying on a parking surface under the vehicle being charged, and a corresponding capture resonator or receiving plate mounted underneath the vehicle. The source resonator and capture resonator in this one example are about five hundred millimeters by five hundred millimeters square (500 mm×500 mm). Such wireless battery chargers are most efficient when the vehicle is parked such that the source resonator and the capture resonator are horizontally (i.e.—laterally and longitudinally) aligned. However, as the source resonator and the capture resonator are underneath the vehicle, it is difficult for the vehicle operator to judge where to park the vehicle so that the source resonator and the capture resonator are aligned.