Generator unit for wireless power transfer

What is claimed is: 1. An RF signal generator adapted to wirelessly transfer power to a first wireless device, said RF signal generator comprising: a first plurality of generating elements each adapted to generate an RF signal, the plurality of the RF signals being transmitted by a first plurality of antennas; a wireless signal receiver; and a control unit adapted to control a phase of the RF signal generated by each of the first plurality of RF signal generating elements in accordance with a first signal the receiver receives from the first wireless device, said first signal comprising information representative of an amount of RF power the first wireless device receives, wherein said RF signal generator further comprises a second plurality of generating elements each adapted to generate an RF signal, said first and second plurality of generating elements each adapted to generate an RF signal in accordance with a reference timing signal supplied by the control unit to the first and second plurality of generating elements using at least one electrically conductive wire. 2. The RF signal generator of claim 1 wherein said control unit is further adapted to control an amplitude of the RF signal generated by each of the plurality of RF signal generating elements. 3. The RF signal generator of claim 1 wherein said RF signal generator is adapted to wirelessly transfer power to the first wireless device using time-domain multiplexing. 4. The RF signal generator of claim 1 wherein said RF signal generator is further adapted to power a second wireless device concurrently with the first wireless device. 5. The RF signal generator of claim 1 wherein said RF generator is further adapted to power a second wireless device, said RF signal generator transferring power to the first and second wireless devices using time-domain multiplexing. 6. The RF signal generator of claim 1 wherein said RF signal generator further comprises a second plurality of generating elements each adapted to generate an RF signal, said control unit being further adapted to cause one of the first plurality of generating elements or the second plurality of generating elements to generate RF signals during a first time period. 7. The RF signal generator of claim 1 wherein said RF signal generator further comprises: a detector adapted to detect an RF signal caused by scattering or reflection of the RF signal transmitted by the first plurality of antennas. 8. The RF signal generator of claim 7 wherein said control unit is further adapted to control a phase of the RF signal generated by each of the first plurality of RF signal generating elements in accordance with the signal detected by the detector. 9. The RF signal generator of claim 7 wherein said detector is further adapted to detect presence of living organisms positioned along a path of the RF signal transmitted by the first plurality of antennas. 10. The RF signal generator of claim 1 wherein said RF signal generator is integrated on a semiconductor die. 11. The RF signal generator of claim 1 wherein said RF signal generator is adapted to receive a second plurality of generating elements in a modular fashion thereby enabling the control unit to control a phase and amplitude of the RF signal generated by each of the second plurality of RF signal generating elements in accordance with the first signal the receiver receives from the first wireless device. 12. The RF signal generator of claim 1 further comprising a plurality of control locked loops adapted to provide timing signals used in varying the phases of the RF signals generated by the RF signal generating elements. 13. The RF signal generator of claim 1 further comprising a plurality of phase rotators adapted to vary the phases of the RF signals generated by the RF signal generating elements. 14. The RF signal generator of claim 1 wherein said reference timing signal is delivered to the first and second plurality of generating elements using a tree-like distribution network. 15. The RF signal generator of claim 7 wherein said control unit is further adapted to control the amplitude of the RF signal generated by each of the first plurality of RF signal generating elements in accordance with the signal detected by the detector. 16. A method of powering a first wireless device using radio frequency (RF) signals, the method comprising: transmitting a first plurality of RF signals via a first plurality of antennas; receiving a first signal from the first wireless device; controlling phases of the first plurality of RF signals in accordance with the first signal, said first signal comprising information representative of an amount of RF power the first wireless device receives; and transmitting a second plurality of RF signals, wherein each of said first and second plurality of RF signals is generated in accordance with a reference timing signal supplied by a control unit using at least one electrically conductive wire. 17. The method of claim 16 further comprising: controlling amplitudes of the RF signals in accordance with the first signal. 18. The method of claim 16 further comprising: transmitting the first plurality of RF signals using time-domain multiplexing. 19. The method of claim 16 further comprising: transmitting a second plurality of RF signals to power a second wireless device concurrently with the first wireless device. 20. The method of claim 16 further comprising: detecting a scattered RF signal caused by scattering or reflection of the RF signal transmitted by the first plurality of antennas. 21. The method of claim 20 further comprising: controlling a phase of the each of the first plurality of RF signals in accordance with the detected RF signal. 22. The method of claim 20 further comprising: detecting presence of living organisms positioned along a path of the first plurality of RF signals. 23. The method of claim 16 further comprising: generating the first plurality of RF signals via a first plurality of generating elements formed on a semiconductor substrate, said semiconductor substrate further comprising a receiving unit receiving the first signal from the first wireless device, said semiconductor substrate further comprising a controller controlling the phases of the first plurality of RF signals. 24. The method of claim 16 further comprising: generating the first plurality of RF signals via a first plurality of generating elements disposed in a generating unit, said generating unit being adapted to receive a second plurality of generating elements in a modular fashion. 25. The method of claim 16 further comprising: controlling the phases of the first plurality of RF signals in accordance with a timing signal generated by at least one control locked loops. 26. The method of claim 16 further comprising: controlling the phases of the first plurality of RF signals using a plurality of phase rotators. 27. The method of claim 16 further comprising: controlling the phases of the first plurality of RF signals using timing signals delivered via a tree-like distribution network. 28. The method of claim 21 further comprising: controlling an amplitude of the each of the first plurality of RF signals in accordance with the detected RF signal.