A Wideband High-Efficiency Continuous-Mode Class-GF−1 Power Amplifier With Second Harmonic Suppression

0 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE microwave and wireless technology letters Pub Date : 2024-08-14 DOI:10.1109/LMWT.2024.3438550

Huawei Wu;Qiang Liu;Wang Liu;Guangxing Du;Guolin Li;Dong Cheng

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Abstract

This letter presents a wideband high-efficiency continuous-mode class-GF−1 (CCGF−1) power amplifier (PA) with harmonic suppression. An accurate impedance design space (IDS) in the load terminal is provided, considering the influence caused by the input second harmonic voltage. Moreover, the PA design focuses on the output matching network (MN) for suppressing the second harmonic component, which increases drain efficiency (DE). Meanwhile, the proposed CCGF−1 PA achieves close to one octave bandwidth (BW), because the design relaxes the relationship between input fundamental and second harmonic voltage for the first time. To verify the proposed methodology, a prototype is designed and fabricated by using a 10-W gallium nitride (GaN) device. The simulated and measured results show that the CCGF−1 PA achieves the DE of 64.3%–82.7%, the gain of 11.5–15.9 dB, and the output power of 38.2–42.4 dBm over the frequency range from 1.1 to 2 GHz. Compared with existing typical continuous-mode PAs, the design exhibits higher efficiency and wider BW.

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具有二次谐波抑制功能的宽带高效连续模式-GF-1 类功率放大器

本文介绍了一种具有谐波抑制功能的宽带高效连续模式-GF-1（CCGF-1）功率放大器（PA）。考虑到输入二次谐波电压的影响，提供了负载终端的精确阻抗设计空间（IDS）。此外，功率放大器的设计重点是抑制二次谐波分量的输出匹配网络（MN），从而提高漏极效率（DE）。同时，由于设计首次放宽了输入基波和二次谐波电压之间的关系，因此所提出的 CCGF-1 功率放大器实现了接近一个倍频程的带宽（BW）。为了验证所提出的方法，我们使用一个 10 瓦的氮化镓（GaN）器件设计并制造了一个原型。模拟和测量结果表明，CCGF-1 功率放大器在 1.1 至 2 GHz 频率范围内实现了 64.3% 至 82.7% 的 DE 值、11.5 至 15.9 dB 的增益和 38.2 至 42.4 dBm 的输出功率。与现有的典型连续模式功率放大器相比，该设计具有更高的效率和更宽的 BW。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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