Resonance gate bias cascode class-E power amplifier in GaAs pHEMT technology

Abstract

In this paper, switching behavioural of cascode transistor in class-E cascode structure is improved by resonance gate bias (RGB) technique. The proposed technique can be used to increase supply voltage of a cascode class-E power amplifier (PAs) in order to achieve high output power and efficiency. Output power of class-E PAs are limited due to drain–gate stress caused by the switching transient voltages. The RGB technique relaxes the supply voltage limitation due to breakdown voltage (VBD) of the transistor. In addition, reactance compensation components technique is employed to achieve high-power and wide-band class-E PA. To show validity of the proposed RGB technique, two reliable 1-W high-voltage and high-efficiency class-E PAs are fabricated in a 0.25 μm GaAs pseudomorphic high-electron mobility transistor technology. The 1.8 GHz class-E PA achieves 52% power added efficiency (PAE) and 30.6 dBm output power. The designed 2–3 GHz class-E PA has 45% PAE at output power of 30 dBm.