High efficiency wireless charging system and method

What is claimed is: 1. An apparatus comprising: a rectifier configured to convert an alternating current voltage into a direct current voltage; a first stage and a second stage connected in cascade between the rectifier and a load; and a bias voltage source coupled to the rectifier through a first linear regulator and a first switch, and coupled to the load through a second switch. 2. The apparatus of claim 1 , wherein: the first linear regulator and the first switch are formed by a first transistor and a second transistor back-to-back connected to each other; and the second switch is formed by a third transistor and a fourth transistor back-to-back connected to each other. 3. The apparatus of claim 1 , wherein: the first stage is a step-down power converter configured to receive the direct current voltage generated by the rectifier; and the second stage is a charge pump power converter configured to function as a voltage divider. 4. The apparatus of claim 1 , wherein: the first stage is a step-down power converter; and the second stage is an isolation switch. 5. The apparatus of claim 1 , wherein: the first stage is a four-switch buck-boost power converter. 6. The apparatus of claim 1 , wherein the first stage is a hybrid converter comprising: a first switching element, a capacitor and a second switching element connected in series between an input of the hybrid converter and an output filter; a third switching element connected between a common node of the first switching element and the capacitor, and a common node of the second switching element and the output filter; and a fourth switching element connected between a common node of the capacitor and the second switch, and ground. 7. The apparatus of claim 1 , wherein: the first stage is a low dropout linear regulator. 8. The apparatus of claim 1 , further comprising: a third switch connected between an output of the first stage and the bias voltage source. 9. A method comprising: detecting an output voltage of a wireless charging system, wherein the wireless charging system comprises a rectifier, a first power stage and a second power stage connected in cascade, and wherein an output of the wireless charging system is configured to be connected to a battery; connecting a bias voltage source of the wireless charging system to a voltage potential higher than the output voltage of the wireless charging system when the output voltage of the wireless charging system is less than a first predetermined threshold; and connecting the bias voltage source of the wireless charging system to the output voltage of the wireless charging system when the output voltage of the wireless charging system is greater than the first predetermined threshold. 10. The method of claim 9 , further comprising: during a startup process, connecting the bias voltage source of the wireless charging system to an output of the rectifier through a first linear regulator and a first switch when the output voltage of the wireless charging system is less than the first predetermined threshold, wherein the bias voltage source is supplied by the output of the rectifier; and connecting the bias voltage source of the wireless charging system to the output voltage of the wireless charging system through a second switch when the output voltage of the wireless charging system is greater than the first predetermined threshold, wherein the bias voltage source is supplied by the output of the wireless charging system. 11. The method of claim 10 , further comprising: during the step of connecting the bias voltage source of the wireless charging system to the output of the rectifier, reducing an output voltage of the first linear regulator until the output voltage of the first linear regulator is substantially equal to a voltage of the bias voltage source; and after the output voltage of the first linear regulator is substantially equal to the voltage of the bias voltage source, turning off the second switch between the bias voltage source and the output voltage of the wireless charging system and turning on the first switch between the first linear regulator and the bias voltage source. 12. The method of claim 10 , further comprising: during the step of connecting the bias voltage source of the wireless charging system to the output voltage of the wireless charging system, reducing an output voltage of the first linear regulator until the output voltage of the first linear regulator is substantially equal to the output voltage of the wireless charging system; and after the output voltage of the first linear regulator is substantially equal to the output voltage of the wireless charging system, turning off the first switch between the first linear regulator and the bias voltage source and turning on the second switch between the bias voltage source and the output voltage of the wireless charging system. 13. The method of claim 9 , further comprising: connecting the bias voltage source of the wireless charging system to the output of the rectifier through a first linear regulator and a first switch when the output voltage of the first power stage is less than a second predetermined threshold, wherein the bias voltage source is supplied by the output of the rectifier; connecting the bias voltage source of the wireless charging system to the output of the first power stage through a third switch when the output voltage of the first power stage is greater than the second predetermined threshold, and the output voltage of the wireless charging system is less than the first predetermined threshold, wherein the bias voltage source is supplied by the output of the first power stage; and connecting the bias voltage source of the wireless charging system to the output voltage of the wireless charging system through a second switch when the output voltage of the wireless charging system is greater than the first predetermined threshold, wherein the bias voltage source is supplied by the output of the wireless charging system. 14. The method of claim 9 , further comprising: connecting the bias voltage source of the wireless charging system to an output of the rectifier through a first linear regulator and a first switch when the output voltage of the wireless charging system is less than the first predetermined threshold, wherein the bias voltage source is supplied by the output of the rectifier; and connecting the bias voltage source of the wireless charging system to the output voltage of the wireless charging system through the first linear regulator and a second switch when the output voltage of the wireless charging system is greater than the first predetermined threshold, wherein the bias voltage source is supplied by the output of the wireless charging system. 15. The method of claim 9 , further comprising: connecting the bias voltage source of the wireless charging system to an output of the rectifier through a first linear regulator and a first switch when the output voltage of the wireless charging system is less than the first predetermined threshold, wherein the bias voltage source is supplied by the output of the rectifier; and connecting the bias voltage source of the wireless charging system to the output voltage of the wireless charging system through a second linear regulator and a second switch when the output voltage of the wireless charging system is greater than the first predetermined threshold, wherein the bias voltage source is supplied by the output of the wireless charging system. 16. A system comprising: a receiver coil configured t