Design of highly efficient filtering power amplifier with a wideband response for sub-6 GHz 5G applications

IF 6 Q1 ENGINEERING, MULTIDISCIPLINARY

Results in Engineering Pub Date : 2024-09-15 DOI:10.1016/j.rineng.2024.102905

Mohamed Boumalkha , Mohammed Lahsaini , Moulay El Hassane Archidi , Mahmoud F. Ghareeb , Ahmed S.I. Amar , Eyad S. Oda , Sherif F. Nafea

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Abstract

This paper presents the design of a filtering power amplifier (PA) with extra-high power-efficiency and wide bandwidth. To accomplish this, a novel approach is adopted by utilizing a wideband bandpass filter (BPF) as the output matching network (OMN) for the PA. The BPF compromises two paths, where each path consisting of two identical coupled lines that are interconnected to form a ring structure. The suggested configuration eliminates the need for a conventional OMN by integrating the input port of the filter with the drain node of the transistor, resulting in reduced size and losses and improved amplifier performance. The filter concept is illustrated using coupling matrix synthesis. A proof-of-concept filtering PA has been designed using a commercially available 10 W GaN HEMT. This amplifier was designed to operate in the frequency range of 3.0–5.0 GHz, yielding a fractional bandwidth of 50 %. According to achieved results, the drain efficiency and output power are 43.8–70.5 % and 40.2–41.8 dBm, respectively. As a result, the suggested filtering PA demonstrates significant performance in terms of filter bandwidth response and power amplification. Additionally, the proposed filtering PA has a broad operational bandwidth of 3.0–5.0 GHz, which covers the 5G New Radio (NR) n77 (3.3–4.2 GHz), n78 (3.3–3.8 GHz), and n79 (4.4–5.0 GHz) frequency bands.

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为 6GHz 以下 5G 应用设计具有宽带响应的高效滤波功率放大器

本文介绍了一种具有超高功率效率和宽带宽的滤波功率放大器（PA）的设计。为此，本文采用了一种新颖的方法，利用宽带带通滤波器 (BPF) 作为功率放大器的输出匹配网络 (OMN)。BPF 由两条路径组成，每条路径由两条相同的耦合线组成，耦合线相互连接形成一个环形结构。建议的配置通过将滤波器的输入端口与晶体管的漏极节点集成在一起，消除了对传统 OMN 的需求，从而减小了尺寸和损耗，提高了放大器性能。该滤波器概念通过耦合矩阵合成进行了说明。使用市售的 10 W GaN HEMT 设计了一个概念验证滤波功率放大器。该放大器的工作频率范围为 3.0-5.0 GHz，分数带宽为 50%。结果显示，漏极效率和输出功率分别为 43.8%-70.5% 和 40.2-41.8 dBm。因此，建议的滤波功率放大器在滤波带宽响应和功率放大方面表现出了显著的性能。此外，所建议的滤波功率放大器具有 3.0-5.0 GHz 的宽工作带宽，涵盖了 5G 新无线电（NR）n77（3.3-4.2 GHz）、n78（3.3-3.8 GHz）和 n79（4.4-5.0 GHz）频段。

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