一种基于65纳米CMOS的22-40.8 GHz宽带功率放大器

IF 1.2 4区工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Microwave and Optical Technology Letters Pub Date : 2025-09-29 DOI:10.1002/mop.70404

Yanjie Yang, Weiheng Guan, Zhi-Xia Du, Chunbing Guo

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引用次数: 0

摘要

介绍一种支持5G无线通信的宽带毫米波功率放大器（PA）。采用基于mos电容的中和技术来提高增益和增强放大器的稳定性。对强耦合变压器结构进行了理论分析和设计，构建了输出匹配网络，在宽频带范围内为放大器提供最佳负载阻抗，并吸收器件的输出电容。同时，设计了基于弱耦合变压器技术的输入和级间匹配网络，以扩大扩频放大器的工作带宽。该放大器采用65纳米CMOS工艺设计，峰值功率附加效率（PAE）为30.8%，饱和输出功率（P sat ${P}_{\text{sat}}$）为17 dBm，输出1db压缩点（P 1db ${P}_{1\text{dB}}$）为12.5 dBm。测得的PA在22至40.8 GHz范围内达到66%的分数带宽（FBW），完全覆盖5G新无线电（NR）频率范围2 （FR2）。所提出的波束形成器实现了紧凑的尺寸，其核心面积为0.104 mm 2 ${}^{2}$，使其非常适合于大规模相控阵波束形成器。

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A Compact 22–40.8 GHz Broadband Power Amplifier in 65 nm CMOS

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A Compact 22–40.8 GHz Broadband Power Amplifier in 65 nm CMOS

This brief presents a broadband millimeter wave power amplifier (PA) to support 5G wireless communication. The MOS-capacitor based neutralization technique is applied to boost the gain and enhance the stability of the PA. A strong coupled transformer structure is theoretically analyzed and designed to construct the output matching network, which provides the optimum load impedance of the PA over a wide frequency band and absorbs the output capacitance of the device. Meanwhile, the input and Interstage matching networks are designed based on the weakly coupled transformer technique to extend the working bandwidth of the PA. The PA is designed in a 65-nm CMOS process with a peak power added efficiency (PAE) of 30.8%, a saturated output power ( $P_{sat}$ ) of 17 dBm, and an output 1-dB compression point ( $P_{1 dB}$ ) of 12.5 dBm. The measured PA achieves 66% fractional bandwidth (FBW) from 22 to 40.8 GHz, fully cover 5G new radio (NR) frequency range 2 (FR2). The proposed PA realizes a compact size with a core area of 0.104 mm $^{2}$ , making it very suitable for large-scale phased array beamformers.

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来源期刊

Microwave and Optical Technology Letters 工程技术-工程：电子与电气

CiteScore

3.40

自引率

20.00%

发文量

371

审稿时长

4.3 months

期刊介绍： Microwave and Optical Technology Letters provides quick publication (3 to 6 month turnaround) of the most recent findings and achievements in high frequency technology, from RF to optical spectrum. The journal publishes original short papers and letters on theoretical, applied, and system results in the following areas. - RF, Microwave, and Millimeter Waves - Antennas and Propagation - Submillimeter-Wave and Infrared Technology - Optical Engineering All papers are subject to peer review before publication