Wireless power supply receiver-transmitter device, wireless power supply receiver and wireless power supply transmitter

What is claimed is: 1. A wireless power supply receiver-transmitter device comprising: a wireless power supply receiver including a power receiver unit and a first data transmitter/receiver unit; a wireless power supply transmitter including a power transmitter unit and a second data transmitter/receiver unit; and a feedback unit configured to detect a state of coupling between the power receiver unit and the power transmitter unit, the feedback unit configured to terminate the power transmission from the power transmitter unit to the power receiver unit and further configured to disconnect data communications between the first data transmitter/receiver unit and the second data transmitter/receiver unit if a voltage higher than a predetermined voltage is detected in the power transmitter unit side, wherein the power transmitter unit uses a gallium nitride based field effect transistor as a switching device for driving a primary-side coil, wherein maximum transmitting efficiency η max is expressed with the following equation: η max =α/[1+(1+α) 1/2 ] 2 where α is a coil parameter, and the coil parameter α is equal to or greater than approximately 10 4 ; the wireless power supply receiver wirelessly receives electric power transmitted through a secondary-side coil corresponding to the primary-side coil of the wireless power supply transmitter, and the first data transmitter/receiver unit operates with the electric power transmitted from the wireless power supply transmitter and transmits and receives data bidirectionally to/from the second data transmitter/receiver unit, wherein the feedback unit is configured to detect the state of coupling between the power receiver unit and the power transmitter unit by determining a coupling factor between the power receiver unit and the power transmitter unit on the basis of at least one of a current flowing into the secondary-side coil and a voltage applied thereon; wherein the wireless power supply receiver comprises: a power receiver unit configured to wirelessly receive electric power transmitted from a wireless power supply transmitter, the power receiver unit comprising: a secondary-side coil; a secondary-side resonance capacitor connected to the secondary-side coil, the secondary-side resonance capacitor configured to be tuned with the secondary-side coil in a predetermined wireless power transmission carrier frequency band; a diode bridge circuit connected to the secondary-side resonance capacitor, the diode bridge having a positive output and a negative output; a first data transmitter/receiver unit configured to bidirectionally transmit and receive data through the optical communications to/from the wireless power supply transmitter, wherein a regulator circuit configured to output a predetermined voltage used for monitoring a power consumption state in the power receiver unit side; a protective transistor, a drain of the protective transistor being connected to the positive output of the diode bridge; a first resistor having a first end connected to a source of the protective transistor and a second end connected to the negative output of the diode bridge; a Zener diode having a cathode and an anode, the cathode of the Zener diode being connected to the positive output of the diode bridge, and an anode of the Zener diode being connected to the gate of the protective transistor; a second resistor having a first end connected to the anode of the Zener diode and the gate of the protective transistor and a second end connected to a negative output of the diode bridge. 2. The wireless power supply receiver-transmitter device according to claim 1 , wherein the first data transmitter/receiver unit transmits and receives data bidirectionally to/from the second data transmitter/receiver unit through optical communications. 3. The wireless power supply receiver-transmitter device according to claim 2 , wherein the wireless power supply transmitter transmits image data to be displayed in the wireless power supply receiver from the second data transmitter/receiver unit to the first data transmitter/receiver unit through the optical communications. 4. The wireless power supply receiver-transmitter device according to claim 3 , wherein the image data includes a still image and/or a moving image. 5. The wireless power supply receiver-transmitter device according to claim 3 , wherein the image data is downloaded over the Internet to the first data transmitter/receiver unit through the second data transmitter/receiver unit, wherein the wireless power supply transmitter is configured to be connected to the Internet. 6. The wireless power supply receiver-transmitter device according to claim 2 , wherein a laser beam in a wavelength region of equal to or greater than 800 nm is used for the optical communications. 7. The wireless power supply receiver-transmitter device according to claim 2 , wherein a communication rate of the optical communications is greater than 1 Gbps. 8. The wireless power supply receiver-transmitter device according to claim 2 , wherein the wireless power supply receiver notifies a predetermined voltage value to the wireless power supply transmitter through the optical communications, and the wireless power supply transmitter controls an amount of the power to be transmitted in accordance with the voltage value notified from the wireless power supply receiver. 9. The wireless power supply receiver-transmitter device according to claim 2 , wherein the optical communications is implemented with a transmission through an optical fiber. 10. The wireless power supply receiver-transmitter device according to claim 1 , wherein the wireless power supply receiver is built in one selected from a group consisting of a mobile phone, a digital still camera, a video camera, a tablet-type device, and an electric vehicle. 11. The wireless power supply receiver-transmitter device according to claim 1 , wherein the wireless power supply transmitter is built in one selected from a group consisting of a desktop computer, a printer, a television set, a notebook computer, a docking station, a home server, and a plug-in station for electric vehicles. 12. The wireless power supply receiver-transmitter device according to claim 1 , wherein the first data transmitter/receiver unit and the second data transmitter/receiver unit comprise respectively a laser link module including a laser diode and a photo diode. 13. The wireless power supply receiver-transmitter device according to claim 1 , wherein a switching frequency of the switching device is equal to or greater than 5 MHz. 14. The wireless power supply receiver-transmitter device according to claim 1 , wherein if a coupling state between the power transmitter unit and the power receiver unit is deviated from a certain range of an acceptable working state for transmitting the power supply, the wireless power supply transmitter detects the aforementioned state to terminate the power transmission of electric power. 15. The wireless power supply receiver-transmitter device according to claim 1 , wherein if the wireless power supply receiver receives excess power from the wireless power supply transmitter, the wireless power supply receiver feeds the excess power to a resistor to be converted into a heat. 16. The wireless power supply receiver-transmitter device according to claim 1 , wherein the feedback unit configured to detect the state of the coupling by detecting whether or not the secondary-side coil is displaced from its normal position.