Design of a 17–24-GHz High-Efficiency Power Amplifier for Satellite Communications
IEEE Microwave and Wireless Technology Letters(2023)
摘要
In this letter, a
${K}$
-band high-efficiency power amplifier (PA) design using modified resistive-reactive hybrid continuous modes (HCMs) is presented. These modified modes can increase the real part of the fundamental impedance when the second harmonic impedances become resistive-reactive. This helps to reduce the impedance transformation ratio when applying modified modes in transistors with a small optimal impedance (
${R} _{\rm opt}$
), as well as making HCMs more practical in these transistors. For
${K}$
-band Satcom downlink applications, by using this method, combined with a compact output matching network (OMN) design, high performance, and high integration PA can be achieved. A
$2\times1.2$
mm GaAs pHEMT PA operating at 17–24 GHz was designed and fabricated to verify the theory. Continuous wave measurements show that the saturation output power is greater than 0.5 W and an average power-added efficiency (PAE) of 42%.
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关键词
Fundamental impedance,GaAs monolithic microwave integrated circuit (MMIC),high-efficiency,modified resistive-reactive hybrid continuous mode (Res-Rea HCM)
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