Output matching of power amplifiers

What is claimed is: 1. A mobile device comprising: a power amplifier configured to amplify a radio frequency signal to generate an amplified radio frequency signal at an output; an envelope tracker configured to generate a power amplifier supply voltage based on an envelope signal indicating an envelope of the radio frequency signal; a supply voltage biasing circuit configured to provide the power amplifier supply voltage from the envelope tracker to the output of the power amplifier; and an output matching circuit connected to the output of the power amplifier via an input node, the output matching circuit including a first capacitor and a first inductor connected in series between the input node and ground, a second capacitor connected between the input node and ground, a second inductor connected between the input node and an intermediate node, and a DC blocking capacitor connected between the intermediate node and an output node. 2. The mobile device of claim 1 wherein the envelope tracker includes a voltage adjustment circuit configured to adjust a DC supply voltage based on the envelope signal to generate the power amplifier supply voltage. 3. The mobile device of claim 1 further comprising an antenna electrically coupled to the output node. 4. The mobile device of claim 1 wherein the output matching circuit further includes a third capacitor and a third inductor connected in series between the intermediate node and ground. 5. The mobile device of claim 4 wherein the third inductor and the third capacitor have a resonance at about three times a fundamental frequency of the amplified radio frequency signal. 6. The mobile device of claim 4 wherein the output matching circuit further includes a fourth capacitor and a fourth inductor connected in series between the intermediate node and ground, the fourth capacitor and the fourth inductor having a resonance that is offset from a resonance of the third capacitor and the third inductor. 7. The mobile device of claim 1 wherein the second inductor and the second capacitor have a resonance at about three times a fundamental frequency of the amplified radio frequency signal. 8. The mobile device of claim 7 wherein the first inductor and the first capacitor have a resonance at about two times the fundamental frequency. 9. The mobile device of claim 1 further comprising a transceiver configured to generate the radio frequency signal and the envelope signal. 10. The mobile device of claim 1 wherein the supply voltage biasing circuit includes a biasing inductor connected between the power amplifier supply voltage and the output of the power amplifier, and a decoupling capacitor connected between the power amplifier supply voltage and ground. 11. A radio frequency system comprising: a phone board; an envelope tracking module attached to the phone board, the envelope tracking module configured to generate a power amplifier supply voltage based on an envelope signal indicating an envelope of a radio frequency signal; and a power amplifier module attached to the phone board and configured to amplify the radio frequency signal to generate an amplified radio frequency signal, the power amplifier module including a power amplifier having an output that provides the amplified radio frequency signal, a supply voltage biasing circuit configured to provide the power amplifier supply voltage to the output of the power amplifier, and an output matching circuit connected to the output of the power amplifier via an input node, the output matching circuit including a first capacitor and a first inductor connected in series between the input node and ground, a second capacitor connected between the input node and ground, a second inductor connected between the input node and an intermediate node, and a DC blocking capacitor connected between the intermediate node and an output node. 12. The radio frequency system of claim 11 wherein the envelope tracking module includes a voltage adjustment circuit configured to adjust a DC supply voltage based on the envelope signal to generate the power amplifier supply voltage. 13. The radio frequency system of claim 11 wherein the output matching circuit further includes a third capacitor and a third inductor connected in series between the intermediate node and ground. 14. The radio frequency system of claim 13 wherein the third inductor and the third capacitor have a resonance at about three times a fundamental frequency of the amplified radio frequency signal. 15. The radio frequency system of claim 11 wherein the second inductor and the second capacitor have a resonance at about three times a fundamental frequency of the amplified radio frequency signal. 16. A power amplifier system comprising: a power amplifier including a bipolar transistor having a base configured to receive a radio frequency signal and a collector configured to generate an amplified radio frequency signal; an envelope tracker configured to generate a power amplifier supply voltage based on an envelope signal indicating an envelope of the radio frequency signal; a supply voltage biasing circuit connected between the power amplifier supply voltage and the collector of the bipolar transistor; and an output matching circuit connected to the collector of the bipolar transistor via an input node, the output matching circuit including a first capacitor and a first inductor connected in series between the input node and ground, a second capacitor connected between the input node and ground, a second inductor connected between the input node and an intermediate node, and a DC blocking capacitor connected between the intermediate node and an output node. 17. The power amplifier system of claim 16 wherein the envelope tracker includes a voltage adjustment circuit configured to adjust a DC supply voltage based on the envelope signal to generate the power amplifier supply voltage. 18. The power amplifier system of claim 16 wherein the output matching circuit further includes a third capacitor and a third inductor connected in series between the intermediate node and ground. 19. The power amplifier system of claim 18 wherein the third inductor and the third capacitor have a resonance at about three times a fundamental frequency of the amplified radio frequency signal. 20. The power amplifier system of claim 16 wherein the second inductor and the second capacitor have a resonance at about three times a fundamental frequency of the amplified radio frequency signal.