Apparatus and methods for power amplifier output matching

What is claimed is: 1. A power amplifier system comprising: a power amplifier configured to amplify a radio frequency input signal having a fundamental frequency, the power amplifier including an input configured to receive the radio frequency input signal and an output configured to generate an amplified radio frequency signal; and an output matching circuit including a second-order harmonic series resonant circuit electrically connected between the output of the power amplifier and a power low supply voltage, a third-order harmonic parallel resonant circuit electrically connected between the output of the power amplifier and a harmonic frequency grounding node, and a third-order harmonic series resonant circuit electrically connected between the harmonic frequency grounding node and the power low supply voltage, the third-order harmonic series resonant circuit configured to resonate at about three times the fundamental frequency so as to provide a low impedance path between the harmonic frequency grounding node and the power low supply voltage at about three times the fundamental frequency, the output matching circuit further including a supply voltage biasing circuit electrically connected between the output of the power amplifier and a power high supply voltage. 2. The power amplifier system of claim 1 wherein the second-order harmonic series resonant circuit is configured to resonate at about two times the fundamental frequency, and the third-order harmonic parallel resonant circuit configured to resonate at about three times the fundamental frequency. 3. The power amplifier system of claim 1 further comprising an envelope tracker configured to generate the power high supply voltage. 4. The power amplifier system of claim 1 wherein the output matching circuit further includes a DC blocking capacitor electrically connected between the harmonic frequency grounding node and an output node. 5. The power amplifier system of claim 4 further comprising a radio frequency front end including an input electrically connected to the output node of the output matching circuit. 6. The power amplifier system of claim 1 wherein the second-order harmonic series resonant circuit includes an inductor and a capacitor electrically connected in series between the output of the power amplifier and the power low supply voltage, the inductor and the capacitor configured to resonate at about two times the fundamental frequency. 7. The power amplifier system of claim 1 wherein the third-order harmonic series resonant circuit includes an inductor and a capacitor electrically connected in series between the harmonic frequency grounding node and the power low supply voltage, the inductor and the capacitor configured to resonate at about three times the fundamental frequency. 8. The power amplifier system of claim 1 wherein the third-order harmonic parallel resonant circuit includes a capacitor and an inductor configured to resonate at about three times the fundamental frequency, the inductor electrically connected between the output of the power amplifier and the harmonic frequency grounding node and the capacitor electrically connected between the output of the power amplifier and the power low supply voltage. 9. An output matching circuit for a power amplifier that amplifies a radio frequency signal having a fundamental frequency, the output matching circuit comprising: a second-order harmonic series resonant circuit electrically connected between an input node and a power low supply voltage, the second-order harmonic series resonant circuit configured to resonate at about two times the fundamental frequency; a third-order harmonic parallel resonant circuit electrically connected between the input node and a harmonic frequency grounding node, the third-order harmonic parallel resonant circuit configured to resonate at about three times the fundamental frequency; a third-order harmonic series resonant circuit electrically connected between the harmonic frequency grounding node and the power low supply voltage, the third-order harmonic series resonant circuit configured to resonate at about three times the fundamental frequency so as to provide a low impedance path between the harmonic frequency grounding node and the power low supply voltage at about three times the fundamental frequency; and a supply voltage biasing circuit electrically connected between the output of the power amplifier and a power high supply voltage. 10. The output matching circuit of claim 9 wherein the second-order harmonic series resonant circuit includes an inductor and a capacitor electrically connected in series between the input node and the power low supply voltage, the inductor and the capacitor configured to resonate at about two times the fundamental frequency. 11. The output matching circuit of claim 9 wherein the third-order harmonic series resonant circuit includes an inductor and a capacitor electrically connected in series between the harmonic frequency grounding node and the power low supply voltage, the inductor and the capacitor configured to resonate at about three times the fundamental frequency. 12. The output matching circuit of claim 9 wherein the third-order harmonic parallel resonant circuit includes a capacitor and an inductor configured to resonate at about three times the fundamental frequency, the inductor electrically connected between the input node and the harmonic frequency grounding node and the capacitor electrically connected between the input node and the power low supply voltage. 13. A power amplifier module comprising: an input pin configured to receive a radio frequency input signal having a fundamental frequency; an output pin configured to output an amplified radio frequency signal; a power low pin configured to receive a power low supply voltage; a power high pin configured to receive a power high supply voltage; a power amplifier die including an input pad electrically connected to the input pin and an output pad; and an output matching circuit including a second-order harmonic series resonant circuit electrically connected between the output pad and the power low pin, a third-order harmonic parallel resonant circuit electrically connected between the output pad and a harmonic frequency grounding node, and a third-order harmonic series resonant circuit electrically connected between the harmonic frequency grounding node and the power low pin, the third-order harmonic series resonant circuit configured to resonate at about three times the fundamental frequency so as to provide a low impedance path between the harmonic frequency grounding node and the power low pin at about three times the fundamental frequency, the output matching circuit including a supply voltage biasing circuit electrically connected between the output pad of the power amplifier die and the power high pin. 14. The power amplifier module of claim 13 further comprising a surface mount capacitor electrically connected between the harmonic frequency grounding node and the output pin. 15. The power amplifier module of claim 13 wherein the second-order harmonic series resonant circuit includes an inductor and a capacitor electrically connected in series between the output pad and the power low pin, the inductor and the capacitor configured to resonate at about two times the fundamental frequency. 16. The power amplifier module of claim 15 wherein the inductor of the second-order harmonic series resonant circuit includes a bondwire, and the capacitor of the second-order harmonic series resonant circuit includes an on-chip capacitor of