Design of a broadband high-efficiency power amplifier based on ring-resonant filter with compensation architecture and a series of continuous modes

A systematic design approach is presented for the design of broadband high-efficiency power amplifiers (PAs) by combining an improved ring-resonant filter matching network with a series of continuous modes. The improved ring-resonant matching network presented can effectively enhance out-of-band attenuation and sharp roll-off characteristics by adding a compensation structure with parallel stub. To verify the proposed design theory, a 10-W GaN HEMT device is designed and fabricated. The test results indicate that from the operating frequency band of 0.55-3.3 GHz with a relative bandwidth of 142.9%, a saturated output power of 38.5-42 dBm, drain efficiency of 58.2-70.3%, and a gain of 8.5-12 dB can be achieved under 3 dB gain compression, indicating the rationality of the design theory.