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A wideband Gallium Nitride (GaN) HEMT power amplifier (PA) achieving 7.6W output power over 1.1 GHz bandwidth at fo = 2.75 GHz is presented. A systematic design and synthesis of wideband low-pass matching networks realizing optimal fundamental impedance is applied. These techniques have produced amplifiers with increased output power, efficiency and very large fractional bandwidth. Additionally, the...
This paper discusses an approach taken to extract a virtual X-parameter (vX-parameter) model for a 500W L-Band internally matched device (IMD). X-parameters are essentially an open form of nonlinear data format that can be directly extracted from an NVNA and can be used in a circuit simulator as non-linear models. However, for very high power devices, the NVNA and its required peripheral components...
In this paper, a linear CMOS power amplifier (PA) with high output power (34-dBm saturated output power) for high data-rate mobile applications is introduced. The PA incorporates a parallel combination of four differential PA cores to generate high output power with good efficiency and linearity. To implement an efficient on-chip power combiner in a small form-factor, we propose a parallel-series...
A class B and a class F power amplifier are described using a GaN HEMT device. They both were designed to operate at a frequency of 1.7 GHz with the same bias conditions. The performances of each amplifier were successfully simulated and compared. A class B amplifier was physically implemented and achieved a high power-added-efficiency of 69.2%, 39.9 dBm output power and associated gain of 14.9 dB...
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