Apparatuses having different modes of operation for inductive wireless power transfer and related method

What is claimed is: 1. A first inductive wireless power enabled device coupled to a first battery, comprising: a transceiver including a full-bridge circuit operable as a full-bridge inverter and a full-bridge rectifier, the full-bridge circuit including a plurality of first switches coupled in a full-bridge configuration with a resonant tank circuit, wherein the transceiver is coupled to the first battery through a second switch; a charger coupled between the transceiver and the first battery through a third switch, wherein the charger is arranged in parallel with the second switch; and control logic configured to: detect a presence of a second inductive wireless power enabled device coupled to a second battery; determine which of the first and second batteries has a higher remaining charge; while the first battery has the higher remaining charge, drive the plurality of first switches to operate the resonant tank circuit in a transmit mode, close the second switch, and open the third switch; and while the second battery has the higher remaining charge, drive the plurality of first switches to operate the resonant tank circuit in a receive mode, open the second switch, and close the third switch. 2. The first inductive wireless power enabled device of claim 1 , wherein the control logic is configured to operate the full-bridge circuit as the full-bridge inverter during the transmit mode and as the full-bridge rectifier during the receive mode. 3. The first inductive wireless power enabled device of claim 1 , wherein the resonant tank circuit includes at least one capacitor and at least one inductive coil of an LC network. 4. The first inductive wireless power enabled device of claim 3 , wherein the at least one capacitor and the at least one inductive coil are serially coupled. 5. The first inductive wireless power enabled device of claim 1 , further comprising a load operably coupled with the transceiver to receive power from the transceiver during the receive mode. 6. The first inductive wireless power enabled device of claim 5 , wherein the load includes the first battery. 7. The first inductive wireless power enabled device of claim 5 , wherein the load includes system components of the first inductive wireless power enabled device. 8. A first battery-powered inductive wireless power enabled device, comprising: a transceiver including a full-bridge circuit operable as a full-bridge inverter and a full-bridge rectifier, the full-bridge circuit including a plurality of first switches coupled in a full-bridge configuration with a resonant tank circuit, wherein the transceiver is configured to drive the plurality of first switches to transmit a wireless power signal through the resonant tank circuit when operating in a transmit mode and generate power from an incoming wireless power signal through the resonant tank circuit when operating in a receive mode; an energy storage device coupled to the transceiver through a second switch; and a charger coupled between the transceiver and the energy storage device through a third switch, wherein the charger is arranged in parallel with the second switch, wherein: the transceiver operates in the transmit mode, the second switch is closed, and the third switch is opened when, in a presence of a second battery-powered inductive wireless power enabled device, it is determined that the first battery-powered inductive wireless power enabled device has more remaining battery charge than the second battery-powered inductive wireless power enabled device; and the transceiver operates in the receive mode, the second switch is opened, and the third switch is closed when, in the presence of the second battery-powered inductive wireless power enabled device, it is determined that the second battery-powered inductive wireless power enabled device has more remaining battery charge than the first battery-powered inductive wireless power enabled device. 9. The first battery-powered inductive wireless power enabled device of claim 8 , wherein the charger is selected from the group consisting of a switching regulator and a linear regulator. 10. The first battery-powered inductive wireless power enabled device of claim 8 , further comprising a mobile electronic device that includes the transceiver. 11. The first battery-powered inductive wireless power enabled device of claim 10 , wherein the mobile electronic device is selected from the group consisting of a cell phone, a smart phone, a tablet computer, a laptop computer, an electronic reader, a personal digital assistant, a camera, and a media player. 12. The first battery-powered inductive wireless power enabled device of claim 8 , wherein the plurality of first switches are configured to be independently driven by control signals to generate an AC current through the resonant tank circuit from a DC input signal during the transmit mode, and to generate a DC output signal from an AC current generated in the resonant tank circuit during the receive mode. 13. The first battery-powered inductive wireless power enabled device of claim 12 , wherein the DC output signal, when generated, is received by the energy storage device. 14. The first battery-powered inductive wireless power enabled device of claim 13 , wherein the DC output signal, when generated, flows through the charger via the third switch. 15. The first battery-powered inductive wireless power enabled device of claim 14 , wherein closing the second switch enables the energy storage device to provide power to the transceiver during the transmit mode. 16. The first battery-powered inductive wireless power enabled device of claim 14 , further comprising an adaptor port that is coupled with the transceiver through a fourth switch that enables an adaptor to provide power to the transceiver during the transmit mode. 17. A method for operating a first wireless power enabled device coupled to a first energy storage device through a first switch, the method comprising: detecting a presence of a second wireless power enabled device coupled to a second energy storage device; determining which of the first and second energy storage devices has a higher remaining charge; while the first energy storage device has the higher remaining charge, operating the first wireless power enabled device in a transmit mode and closing the first switch, wherein during the transmit mode, a wireless power signal is transmitted through a resonant tank circuit of the first wireless power enabled device by operating a full-bridge circuit as a full-bridge inverter to transmit power; and while the second energy storage device has the higher remaining battery charge, operating the first wireless power enabled device in a receive mode, opening the first switch, and closing a second switch to electrically couple the first wireless power enabled device to the first energy storage device through a charger arranged in parallel with the first switch, wherein during the receive mode, an output power signal is generated responsive to receiving an incoming wireless power signal through the resonant tank circuit of the first wireless power enabled device by operating the full-bridge circuit as a full-bridge rectifier to receive power. 18. The method of claim 17 , wherein the outpt power signal, when generated, flows through the charger. 19. The method of claim 17 , wherein the charger is selected from a group consisting of a switch regulator and a linear regular. 20. The method of claim 17 , wherein wherein the resonant