Input-Output Waveform Engineered Inverse Class F Power Amplifiers With High-Efficiency

Zheming Zhu; Zhiqun Cheng; Minshi Jia; Kun Wang; Bingxin Li; Zhenghao Yang; Baoquan Zhong

doi:10.22541/au.172061769.90430712/v1

loading page

Input-Output Waveform Engineered Inverse Class F Power Amplifiers With High-Efficiency

Zheming Zhu,
Zhiqun Cheng,
Minshi Jia,
Kun Wang,
Bingxin Li,
Zhenghao Yang,
Baoquan Zhong

Abstract

This paper studies the influence of the gate voltage of the power amplifier (PA) on the drain current and efficiency. This study proposes a theory of controlling input non-linearity to improve the efficiency of PAs. The theoretical efficiency of the inverse Class F PA which controlling input non-linearity is from 77 to 97%. A new design method for the inverse Class F PA that reconstructs the design of the load admittance space into a region instead of a point. To verify the validity of the proposed theory, a inverse Class F PA is designed and fabricated using a commercial 10W GaN high electron mobility transistor (HEMT). Results of the measurement show a high drain efficiency (DE) of 78.5%, a output power of 41.6 dBm and a large signal gain of 12.1 dB at 1.5 GHz. The overall PA’s size is controlled at 80*50 m m 2 .

Submitted to International Journal of Circuit Theory and Applications

Show details

Hide details

26 May 2024Submission Checks Completed

26 May 2024Assigned to Editor

26 May 2024Review(s) Completed, Editorial Evaluation Pending

05 Jul 2024Assigned to Editor

05 Jul 2024Submission Checks Completed

05 Jul 2024Review(s) Completed, Editorial Evaluation Pending

31 Jul 2024Editorial Decision: Accept

Abstract

Peer review status:ACCEPTED