Power amplifier using multi-path common-mode feedback loop

What is claimed is: 1. A power amplifier stage comprising: an input; an output; a first n-type field effect transistor (FET) (NFET) comprising a first gate, the first NFET coupled to the input through a first capacitor at the first gate and coupled to the output; a first p-type FET (PFET) comprising a second gate, the first PFET coupled to the input through a second capacitor at the second gate and coupled to the output, the first PFET being in parallel with the first NFET; a bias circuit coupled to the first gate and coupled to the second gate, the bias circuit configured to bias dynamically the first gate and the second gate with respective bias signals; and a feedback loop coupled to the output and the bias circuit, the feedback loop comprising a voltage sensor configured to sense a common-mode voltage at the output, wherein the respective bias signals are based on the sensed output common-mode voltage to keep an output common-mode fixed around a half-supply level, while small signal and large signal transconductances of the first NFET and the first PFET are kept balanced. 2. The power amplifier stage of claim 1 , wherein the bias circuit comprises at least one variable voltage source configured to provide a variable bias voltage as at least one of the respective bias signals. 3. The power amplifier stage of claim 1 , further comprising: a second NFET cascoded relative to the first NFET; and a second PFET cascoded relative to the first PFET. 4. The power amplifier stage of claim 3 , wherein the second NFET comprises a third gate and the second PFET comprises a fourth gate; and wherein the bias circuit is coupled to the third gate and the fourth gate. 5. The power amplifier stage of claim 1 , further comprising a first varactor and a second varactor coupled in parallel to the output. 6. The power amplifier stage of claim 3 , further comprising a bypass switch configured to bypass the second PFET. 7. The power amplifier stage of claim 6 , wherein the bypass switch comprises a third NFET, and wherein the third NFET is configured to short circuit the second PFET when a voltage supply drops below a threshold. 8. The power amplifier stage of claim 1 , further comprising: a common-mode supply input; and a common-mode supply feedback loop comprising a current sensor configured to sense current for the first PFET and adjust a signal from the common-mode supply input based on the sensed current. 9. The power amplifier stage of claim 8 , wherein the feedback loop is configured to shape the signal from the common-mode supply input into a symmetric signal. 10. The power amplifier stage of claim 8 , further comprising a second NFET cascoded relative to the first NFET and a second PFET cascoded relative to the first PFET. 11. The power amplifier stage of claim 10 , wherein the current sensor comprises a current mirror coupled to the input. 12. The power amplifier stage of claim 8 , wherein the feedback loop further comprises a filter. 13. The power amplifier stage of claim 8 , wherein the current sensor is coupled to a source of the first PFET and is configured to sense current directly. 14. The power amplifier stage of claim 8 , wherein the current sensor is coupled to the input and configured to sense current indirectly. 15. A power amplifier stage comprising: an input; an output; a common-mode supply input; a first n-type field effect transistor (FET) (NFET) comprising a first gate, the first NFET coupled to the input and the output; a first p-type FET (PFET) comprising a second gate, the first PFET coupled to the input and the output; a bias circuit coupled to the first gate and coupled to the second gate, the bias circuit configured to bias dynamically the first gate and the second gate with respective bias signals; a bias feedback loop coupled to the output and the bias circuit, the bias feedback loop comprising a voltage sensor configured to sense voltage at the output, wherein the respective bias signals are based on the sensed voltage; and a common-mode supply feedback loop comprising a current sensor configured to sense current for the first PFET and adjust a signal from the common-mode supply input based on the sensed current. 16. The power amplifier stage of claim 15 , wherein the first NFET and the first PFET form a complementary amplifier. 17. A power amplifier stage comprising: an input; an output; a first varactor and a second varactor coupled in parallel to the output; a first n-type field effect transistor (FET) (NFET) comprising a first gate, the first NFET coupled to the input and the output; a first p-type FET (PFET) comprising a second gate, the first PFET coupled to the input and the output; a bias circuit coupled to the first gate and coupled to the second gate, the bias circuit configured to bias dynamically the first gate and the second gate with respective bias signals; and a feedback loop coupled to the output and the bias circuit, the feedback loop comprising a voltage sensor configured to sense voltage at the output, wherein the respective bias signals are based on the sensed voltage.