System and method for wireless charging

What is claimed is: 1. An electrical socket comprising: a first mounting bracket and a second mounting bracket spaced apart, defining a longitudinal axis and configured to be coupled to at least one of a wall, a ceiling or a floor; a wireless charge transmitter coupled to the first mounting bracket and the second mounting bracket and configured to transmit a wireless charging signal; a power converter coupled to the wireless charge transmitter and configured to adjust source power from a power source to a specified power to be used by the wireless charge transmitter; a controller coupled to the wireless charge transmitter and configured to: authorize, using a security code, one or more receiver devices to receive the wireless charging signal, determine a respective power level for each of the one or more authorized receiver devices, allocate resources of the wireless charge transmitter based on the respective power level for each of the one or more authorized receiver devices, and instruct the wireless charge transmitter to transmit the wireless charging signal to at least one of the one or more authorized receiver devices based on the allocated resources; and a two prong or three prong electrical receptacle coupled to the first mounting bracket and the second mounting bracket and configured to receive a standard electrical plug to power an external device; wherein the wireless charge transmitter and the two prong or three prong electrical receptacle are configured to be positioned within a standard wall electrical socket housing. 2. The electrical socket of claim 1 , wherein a standard wall plate of the standard wall electrical socket housing is mounted to the standard wall electrical socket housing when the wireless charge transmitter is positioned within the standard wall electrical socket housing. 3. The electrical socket of claim 1 , further comprising a wall plate configured to replace a standard wall plate of the standard wall electrical socket housing and to minimize interference of the wireless charging signal. 4. The electrical socket of claim 1 , wherein the wireless charge transmitter is configured to transmit the wireless charging signal using at least one of induction, resonant magnetic induction, electromagnetic radiation, microwave signals or laser signals. 5. The electrical socket of claim 1 , wherein the wireless charge transmitter is configured to transmit a beacon to be received by the one or more authorized receiver devices and to be used by the one or more authorized receiver devices for calibration to receive the wireless charging signal. 6. The electrical socket of claim 1 , wherein the controller is further configured to receive a signal from a respective receiver device of the one or more authorized receiver devices indicating a status of the respective receiver device and to instruct at least one of the power converter or the wireless charge transmitter to adjust the wireless charging signal based on the status of the respective receiver device. 7. The electrical socket of claim 1 , wherein a resonant frequency of the wireless charge transmitter is configured to be dynamically adjusted. 8. The electrical socket of claim 7 , wherein the receiver device has a dynamically adjustable resonant frequency for tuning to the resonant frequency of the wireless charge transmitter. 9. The electrical socket of claim 1 , wherein the controller is further configured to instruct the wireless charge transmitter to stop transmitting the wireless charging signal to a respective receiver device of the one or more authorized receiver devices in response to the controller determining that the respective receiver device is not receiving the wireless charging signal. 10. The electrical socket of claim 1 , wherein the wireless charge transmitter is configured to transmit a beacon usable by a respective receiver device of the one or more authorized receiver devices to output data suggesting a direction in which the respective receiver device should be moved to increase the strength of the wireless charging signal. 11. The electrical socket of claim 1 , further comprising an electrical shield and wherein the wireless charge transmitter includes an antenna and the electrical shield is positioned between the antenna and the controller. 12. The electrical socket of claim 1 , wherein the wireless charge transmitter is configured to transmit a beacon usable by a respective receiver device of the one or more authorized receiver devices to reposition itself to a location closer to the wireless charge transmitter than a current location of the respective receiver device. 13. The electrical socket of claim 1 , wherein the controller is further configured to receive communication from the one or more authorized receiver devices and to instruct the wireless charge transmitter to transmit the wireless power signal in response to receiving the communication. 14. The electrical socket of claim 1 , wherein the source power is received directly from a wire entering the standard wall electrical socket housing without electrically traversing a plug and socket. 15. The electrical socket of claim 1 , further comprising an indicator configured to indicate a current state of the wireless power transmitter from a list of states including a ready state, an error state, a reset state, a charging state and an off state. 16. The electrical socket of claim 1 , further comprising a wall plate coupled to the wireless charge transmitter and configured to transmit the wireless charging signal. 17. An electrical socket comprising: a first mounting bracket and a second mounting bracket defining a longitudinal axis and configured to be coupled to at least one of a wall, a ceiling or a floor; a wireless charge transmitter coupled to the first mounting bracket and the second mounting bracket such that the wireless charge transmitter is positioned between the first mounting bracket and the second mounting bracket along the longitudinal axis, the wireless charge transmitter configured to be positioned within a standard electrical socket housing and configured to generate a wireless charging signal; a timer configured to determine a time of day; a controller coupled to the wireless charge transmitter and the timer, the controller configured to determine whether a receiver device is authorized to receive the wireless charging signal, and in response to determining that the receiver device is authorized, limit power delivery of the wireless charging signal by the wireless charge transmitter to the authorized receiver device based on the time of day and instruct the wireless charge transmitter to transmit the wireless charging signal to the authorized receiver device, at least one of the first mounting bracket, the second mounting bracket, the wireless charge transmitter or the controller being configured to direct the wireless charging signal in a desired direction; and a power converter coupled to the wireless charge transmitter and configured to adjust source power from a power source. 18. The electrical socket of claim 17 , wherein the wireless charge transmitter is configured to transmit a beacon usable by the authorized receiver device to reposition itself to a location closer to the wireless charge transmitter than a current location of the receiver device. 19. The electrical socket of claim 17 , further comprising an electrical shield and wherein the wireless charge transmitter includes an antenna and the electrical shield is positioned between the antenna and the con