Wireless charging system with multi-coil scanning and learning

What is claimed is: 1. A system, comprising: a recharge apparatus, comprising a plurality of transmit coils positioned in a pattern to allow at least one of the plurality of transmit coils to establish a wireless link with a receive coil positioned in proximity of the recharge apparatus; a power source coupled to the plurality of transmit coils and configured to selectively energize ones of the plurality of transmit coils to transfer power to the receive coil; an energy efficiency detection circuit coupled to the plurality of transmit coils and configured to detect an electrical response of each one of the plurality of transmit coils when energized by the power source, the electrical response indicative of an energy efficiency between the one of the plurality of transmit coils and the receive coil; an electronic data storage, coupled to the energy detection circuit, configured to store data indicative of the energy efficiency to generate a historical record of energizing the plurality of transmit coils; and a controller, coupled to the electronic data storage and the power source, configured to iteratively update the historical record based on the electrical response and to cause the power source to selectively energize ones of the plurality of transmit coils, wherein the at least one transmit coil is selected according to a statistical analysis of the historical record; wherein the controller is further configured to determine a predetermined sequence of the plurality of transmit coils based on the statistical analysis of the historical record, and wherein the controller selects the next transmit coil of the plurality of transmit coils by selecting an immediately subsequent one of the plurality of transmit coils from the predetermined sequence. 2. The system of claim 1 , wherein the predetermined sequence is further based, at least in part, on an amount of time since individual ones of the plurality of transmit coils were selected. 3. The system of claim 2 , wherein the amount of time is based, at least in part, on a number of times the controller has selectively energized at least one of the plurality of transmit coils without energizing an individual one of the plurality of transmit coils. 4. The system of claim 1 , wherein the recharge apparatus has a recharge surface on which a wearable article including the receive coil is configured to be placed to place the receive coil in proximity of at least one of the plurality of transmit coils. 5. The system of claim 4 , wherein the plurality of transmit coils is a first plurality of transmit coils and further comprising a second plurality of transmit coils coupled to the power source and the energy efficiency detection circuit, wherein the recharge surface includes a first recharge section corresponding to the first plurality of recharge coils and a second recharge section corresponding to the second plurality of recharge coils, wherein the controller is configured to cause the power source to concurrently selectively energize individual ones of the first plurality of transmit coils and individual ones of the second plurality of transmit coils based on receive coils being placed in proximity of the first and second recharge sections, respectively. 6. The system of claim 1 , wherein the energy efficiency detection circuit comprises a current meter and wherein the electrical response is a current induced through the individual ones of the plurality of transmit coils. 7. A recharge apparatus, comprising: a plurality of transmit coils positioned in a pattern to allow at least one of the plurality of transmit coils to establish a wireless link with a receive coil positioned in proximity of the recharge apparatus; a power source coupled to the plurality of transmit coils and configured to selectively energize ones of the plurality of transmit coils to transfer power to the receive coil; an energy efficiency detection circuit coupled to the plurality of transmit coils and configured to detect an electrical response of each one of the plurality of transmit coils when energized by the power source, the electrical response indicative of an energy efficiency between the one of the plurality of transmit coils and the receive coil; an electronic data storage, coupled to the energy detection circuit, configured to store data indicative of the energy efficiency to generate a historical record of energizing the plurality of transmit coils; and a controller, coupled to the electronic data storage and the power source, configured to iteratively update the historical record based on the electrical response and to cause the power source to selectively energize ones of the plurality of transmit coils, wherein the at least one transmit coil is selected according to a statistical analysis of the historical record; wherein the controller is further configured to determine a predetermined sequence of the plurality of transmit coils based on the statistical analysis of the historical record, and wherein the controller selects the next transmit coil of the plurality of transmit coils by selecting an immediately subsequent one of the plurality of transmit coils from the predetermined sequence. 8. The recharge apparatus of claim 7 , wherein the predetermined sequence is further based, at least in part, on an amount of time since individual ones of the plurality of transmit coils were selected. 9. The recharge apparatus of claim 8 , wherein the amount of time is based, at least in part, on a number of times the controller has selectively energized at least one of the plurality of transmit coils without energizing an individual one of the plurality of transmit coils. 10. The recharge apparatus of claim 7 , wherein the recharge apparatus has a recharge surface on which a wearable article including the receive coil is configured to be placed to place the receive coil in proximity of at least one of the plurality of transmit coils. 11. The recharge apparatus of claim 10 , wherein the plurality of transmit coils is a first plurality of transmit coils and further comprising a second plurality of transmit coils coupled to the power source and the energy efficiency detection circuit, wherein the recharge surface includes a first recharge section corresponding to the first plurality of recharge coils and a second recharge section corresponding to the second plurality of recharge coils, wherein the controller is configured to cause the power source to concurrently selectively energize individual ones of the first plurality of transmit coils and individual ones of the second plurality of transmit coils based on receive coils being placed in proximity of the first and second recharge sections, respectively. 12. The recharge apparatus of claim 7 , wherein the energy efficiency detection circuit comprises a current meter and wherein the electrical response is a current induced through the individual ones of the plurality of transmit coils. 13. A method, comprising: positioning a plurality of transmit coils in a pattern within a housing of a recharge apparatus to allow at least one of the plurality of transmit coils to establish a wireless link with a receive coil positioned in proximity of the recharge apparatus; coupling a power source to the plurality of transmit coils, the power source configured to selectively energize ones of the plurality of transmit coils to transfer power to the receive coil; coupling an energy efficiency detection circuit to the plurality of transmit coils, the energy efficiency detection circuit configured to detect an electrical response of each one of the plurality of transmit coils when energized by the power s