Doherty power amplifier combiner with tunable impedance termination circuit

What is claimed is: 1. A signal combiner comprising: a balun transformer circuit having a first coil and a second coil, the first coil implemented between a first port and a second port, the second coil implemented between a third port and a fourth port, the first port and the third port coupled by a first capacitor, the second port and the fourth port coupled by a second capacitor, the first port configured to receive a first signal, the fourth port configured to receive a second signal, the second port configured to yield a combination of the first signal and the second signal; and a termination circuit that couples the third port to a ground, the termination circuit including a tunable impedance circuit and a harmonic rejection circuit configured to reduce the strength of one or more harmonics at the second port. 2. The signal combiner of claim 1 further comprising a controller configured receive a band select signal and to tune the tunable impedance circuit based on the band select signal. 3. The signal combiner of claim 2 wherein the controller is further configured to tune at least one of the first capacitor or the second capacitor. 4. The signal combiner of claim 1 wherein the first port is configured to receive a carrier-amplified signal from a Doherty power amplifier (PA) and the fourth port is configured to receive a peaking-amplified signal from the Doherty PA. 5. The signal combiner of claim 4 wherein the tunable impedance circuit includes a plurality of capacitors, each one of the plurality of capacitors having a capacitance approximately equal to a multiplicative inverse of two times pi times a respective operating frequency of the Doherty PA times a characteristic impedance of a load coupled to the Doherty PA. 6. The signal combiner of claim 4 further comprising a controller configured to receive a band select signal indicative of an operating frequency and to tune the tunable impedance circuit to have a capacitance approximately equal to a multiplicative inverse of two times pi times the operating frequency times a characteristic impedance of a load coupled to the Doherty PA. 7. The signal combiner of claim 6 wherein the controller is further configured to tune the first capacitor and the second capacitor to have a capacitance approximately equal to half the capacitance of the tunable impedance circuit. 8. The signal combiner of claim 1 wherein the first port is configured to receive a peaking-amplified signal from a Doherty power amplifier (PA) and the fourth port is configured to receive a carrier-amplified signal from the Doherty PA. 9. The signal combiner of claim 8 wherein the tunable impedance circuit includes a plurality of inductors, each one of the plurality of inductors having an inductance approximately equal to a characteristic impedance of a load coupled to the Doherty PA divided by two times pi times a respective operating frequency of the Doherty PA. 10. The signal combiner of claim 8 further comprising a controller configured to receive a band select signal indicative of an operating frequency and to tune the tunable impedance circuit to have an inductance approximately equal to a characteristic impedance of a load coupled to the Doherty PA divided by two times pi times the operating frequency. 11. The signal combiner of claim 1 wherein the tunable impedance matching circuit includes a plurality of impedance elements connected in parallel, each one of the plurality of impedance elements including an impedance and a switch connected in series. 12. The signal combiner of claim 1 wherein the harmonic rejection circuit includes a plurality of resonant elements connected in series, each one of the plurality of resonant elements including an inductor and a capacitor connected in parallel. 13. The signal combiner of claim 12 wherein each one of the plurality of resonant elements has a resonant frequency approximately equal to a multiple of an operating frequency of the signal combiner. 14. The signal combiner of claim 13 wherein each one of the plurality of resonant elements has a resonant frequency approximately equal to twice a respective operating frequency of the signal combiner. 15. The signal combiner of claim 1 wherein the harmonic rejection circuit is implemented between the third port and the tunable impedance circuit. 16. A power amplifier (PA) module comprising: a packaging substrate configured to receive a plurality of components; and a signal combiner implemented on the packaging substrate, the signal combiner including a balun transformer circuit having a first coil and a second con, the first coil implemented between a first port and a second port, the second coil implemented between a third port and a fourth port, the first port and the third port coupled by a first capacitor, the second port and the fourth port coupled by a second capacitor, the first port configured to receive a first signal, the fourth port configured to receive a second signal, the second port configured to yield a combination of the first signal and the second signal, the signal combiner further including a termination circuit that couples the third port to a ground, the termination circuit including a tunable impedance circuit and a harmonic rejection circuit configured to reduce the strength of one or more harmonics at the second port. 17. The PA module of claim 16 further comprising a controller implemented on the packaging substrate, the controller configured to receive a band select signal and tune the tunable impedance circuit based on the band select signal. 18. A wireless device comprising: a transceiver configured to generate a radio-frequency (RF) signal; a power amplifier (PA) module in communication with the transceiver, the PA module including an input circuit configured to receive the RF signal and split the RF signal into a first portion and a second portion, the PA module further including a Doherty PA having a carrier amplification path coupled to the input circuit to receive the first portion and a peaking amplification path coupled to the input circuit to receive the second portion, the PA module further including an output circuit coupled to the Doherty amplifier circuit, the output circuit including a balun transformer circuit having a first coil and a second coil, the first coil implemented between a first port and a second port, the second coil implemented between a third port and a fourth port, the first port and the third port coupled by a first capacitor, the second port and the fourth port coupled by a second capacitor, the first port configured to receive a first signal via the carrier amplification path, the fourth port configured to receive a second signal via the peaking amplification path, the second port configured to yield a combination of the first signal and the second signal as an amplified RF signal, the PA module further including a termination circuit that couples the third port to a ground, the termination circuit including a tunable impedance circuit and a harmonic rejection circuit configured to reduce the strength of one or more harmonics at the second port; and an antenna in communication with the PA module, the antenna configured to facilitate transmission of the amplified RF signal. 19. The wireless device of claim 18 further comprising a controller configured to receive a band select signal and to tune the tunable impedance circuit based on the band select signal.