Design of a broadband high‐efficiency power amplifier through mixed strategy

Xin Zhou; Zhiwei Zhang; Zhiqun Cheng; Chao Gu

doi:10.1002/mmce.23265

Design of a broadband high‐efficiency power amplifier through mixed strategy

Xin Zhou, Zhiwei Zhang, Zhiqun Cheng, Chao Gu

School of Electronics, Electrical Engineering and Computer Science

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

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Abstract

This letter presents a mixed strategy to design broadband high-efficiency power amplifiers (PAs), where the mixed continuous mode PA provide theoretical impedances. Furthermore, only a single one-stage coupler circuit with appropriate terminals is exploited to satisfy the fundamental and second harmonic impedances requirements necessary for mixed continuous mode PA realization. Combination of mixed modes PAs' desired impedances and the coupler's impedance frequency modulation trajectory, the available design frequency band can be determined. For validation, a broadband high-efficiency PA covering the frequency range 0.4–3.0 GHz is designed and then fabricated using a CGH40010F transistor. Measured results indicate that the implemented PA can deliver saturated output power of 40.2–42.7 dBm across the frequency range 0.4–3.0 GHz, with drain efficiency of between 60.4% and 74.5%.

Original language	English
Article number	e23265
Journal	International journal of rf and microwave computer-Aided engineering
Volume	32
Issue number	9
Early online date	21 May 2022
DOIs	https://doi.org/10.1002/mmce.23265
Publication status	Published - Sept 2022

Keywords

broadband
power amplifier
Coupler

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Design of a broadband high-efficiency power amplifier through mixed strategy
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Cite this

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AB - This letter presents a mixed strategy to design broadband high-efficiency power amplifiers (PAs), where the mixed continuous mode PA provide theoretical impedances. Furthermore, only a single one-stage coupler circuit with appropriate terminals is exploited to satisfy the fundamental and second harmonic impedances requirements necessary for mixed continuous mode PA realization. Combination of mixed modes PAs' desired impedances and the coupler's impedance frequency modulation trajectory, the available design frequency band can be determined. For validation, a broadband high-efficiency PA covering the frequency range 0.4–3.0 GHz is designed and then fabricated using a CGH40010F transistor. Measured results indicate that the implemented PA can deliver saturated output power of 40.2–42.7 dBm across the frequency range 0.4–3.0 GHz, with drain efficiency of between 60.4% and 74.5%.

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Design of a broadband high‐efficiency power amplifier through mixed strategy

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