Method and apparatus for wirelessly recharging batteries

What is claimed is: 1. A wireless charging unit for a mobile device unit comprising: an interface surface for the mobile device unit to be positioned upon; a power transmitter device configured to transmit power wirelessly to the mobile device unit when the mobile device unit is positioned upon the interface surface to charge the mobile device unit; a power connector plug configured to receive external power from an external power outlet for powering the power transmitter device; a sensor circuit configured to: detect when the mobile device unit has been positioned within a distance away from the interface surface, and detect when the mobile device unit has been removed from the interface surface beyond the distance away from the interface surface; a switch electrically coupled to the power connector plug and configured to: enable reception of the external power by the power connector plug from the external power outlet in response to the sensor circuit detecting that the mobile device unit has been positioned within the distance of the interface surface, and disable reception of the external power by the power connector plug from the external power outlet in response to the sensor circuit detecting that the mobile device unit has been removed from the interface surface beyond the distance; and a battery configured to power the sensor circuit when the switch has disabled the reception of the external power by the power connector plug from the external power outlet. 2. The unit of claim 1 , wherein the wireless charging unit includes a housing that the power transmitter device, the sensor circuit, and the switch are positioned within, with the power outlet being positioned external to the housing. 3. The unit of claim 2 , wherein the interface surface is an upper surface of the housing. 4. The unit of claim 2 , wherein the switch is configured such that the disabling of the reception of power by the power connector plug from the power outlet by the switch disables any power exterior to the housing from being drawn by the wireless charging unit. 5. The unit of claim 1 , wherein the power transmitter device is configured to transmit power wirelessly to the mobile device unit inductively. 6. The unit of claim 5 , wherein the power transmitter device is configured to transmit power wirelessly to the mobile device unit through a magnetic resonant coupling with a power receiver device of the mobile device unit. 7. The unit of claim 1 , wherein the switch is a latching relay. 8. The unit of claim 1 , wherein the sensor circuit is configured to detect that the mobile device unit has been removed from the interface surface to a distance away from the interface surface by detecting a variation in inductance of the power transmitter device. 9. The unit of claim 1 , wherein the sensor circuit includes a capacitive sensor, and the sensor circuit is configured to detect that the mobile device unit has been removed from the interface surface based on a signal produced by the capacitive sensor. 10. The unit of claim 1 , wherein the wireless charging unit includes a mechanical trigger, and the sensor circuit is configured to detect that the mobile device unit has been removed from the interface surface based on reduced contact with the mechanical trigger. 11. The unit of claim 1 , wherein the sensor circuit includes a radio frequency identification tag sensor configured to sense a radio frequency identification tag positioned on the mobile device unit, and the sensor circuit is configured to detect that the mobile device unit has been removed from the interface surface based on a signal produced by the radio frequency identification tag sensor. 12. A system for wirelessly charging a mobile device comprising: a power receiver device configured to couple to the mobile device and receive power wirelessly for charging the mobile device; an interface surface for the power receiver device to be positioned upon; a power transmitter device configured to transmit power wirelessly to the power receiver device when the power receiver device is positioned upon the interface surface; a power connector plug configured to receive external power from an external power outlet for powering the power transmitter device; a sensor circuit configured to: detect when the mobile device has been positioned within a distance of the interface surface, and detect when the mobile device has been removed from the interface surface beyond the distance away from the interface surface; a switch electrically coupled to the power connector plug and configured to: enable reception of the external power by the power connector plug from the external power outlet in response to the sensor circuit detecting that the mobile device unit has been positioned within the distance of the interface surface, and disable reception of power by the power connector plug from the power outlet in response to the sensor circuit detecting that the mobile device has been removed from the interface surface to the distance; and a battery configured to power the sensor circuit when the switch has disabled the reception of the external power by the power connector plug from the external power outlet. 13. The system of claim 12 , wherein the power receiver device is connected to a mobile device case for covering at least a portion of the mobile device. 14. The system of claim 12 , wherein the power receiver device is configured to be positioned within the mobile device. 15. The system of claim 12 , wherein the power receiver device is configured to form a magnetic resonant coupling with the power transmitter device to receive power wirelessly for charging the mobile device. 16. The system of claim 12 , wherein the power transmitter device includes at least one wire, and the power receiver device includes at least one wire, the at least one wire of the power transmitter device configured to produce a magnetic field that induces a current in the at least one wire of the power receiver device to transmit power wirelessly to the power receiver device. 17. A method for wirelessly charging a mobile device unit comprising: detecting, by a sensor circuit powered by a battery, when the mobile device unit has been positioned on an interface surface of a wireless charging unit; automatically enabling the wireless charging unit to receive power from an external power source in response to the mobile device unit being positioned on the interface surface, the external power source being positioned external to the wireless charging unit; charging the mobile device unit wirelessly using a power transmission device of the wireless charging unit, the power transmission device receiving power for charging the mobile device unit from the external power source; detecting, by the sensor circuit, when the mobile device unit has been removed from the interface surface to a distance; and automatically disabling the wireless charging unit from receiving power from the external power source in response to the mobile device unit being removed from the interface surface to the distance.