Design of a Highly Efficient 0.6-4.5 GHz Multioctave Bandwidth GaN-HEMT Power Amplifier

Xuefei Xuan; Zhiqun Cheng; Zhiwei Zhang; Tingwei Gong; Guohua Liu; Chao Le

doi:10.1587/elex.20.20230049

This article has now been updated. Please use the final version.

Design of a Highly Efficient 0.6-4.5 GHz Multioctave Bandwidth GaN-HEMT Power Amplifier

Xuefei Xuan, Zhiqun Cheng, Zhiwei Zhang, Tingwei Gong, Guohua Liu, Chao Le

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Keywords: power amplifiers (PAs), multioctave, high-efficiency sequential load-pull technique (SLPT), multiple frequencies matching theory (MFMT)

JOURNAL FREE ACCESS Advance online publication

Article ID: 20.20230049

DOI https://doi.org/10.1587/elex.20.20230049

The final version of this article is now available: Vol. 20 (2023), No. 7 pp. 20230049-20230049

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Abstract

A methodology for designing multioctave high-efficiency power amplifiers (PA) is presented in this letter. The sequential load-pull technique (SLPT) considering the second and third harmonic characteristics is proposed and combined with the multiple frequency matching theory (MFMT) to achieve outstanding performance in terms of operating bandwidth as well as efficiency. To verify the proposed theory, a 10 W GaN HEMT device is used. The proposed PA achieves a fractional bandwidth of 152% from 0.6 to 4.5 GHz. In such a wide frequency band, the drain efficiency (DE) is measured as 50%-68% with an output power of greater than 38 dBm and a large signal gain greater than 8 dB.

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