宽带
CMOS芯片
对偶(语法数字)
匹配(统计)
功率(物理)
电子工程
电气工程
有限元法
阻抗匹配
计算机科学
材料科学
物理
工程类
数学
电阻抗
文学类
艺术
统计
热力学
量子力学
作者
Kangjie Zhao,Can Liu,Linfeng Zou,Kai Liu,Yuan Xu,Xinyi Jiang,Ruilai Xu,Wangdong Xie,Yang Zhou,Hao Deng,Leilei Huang,Chunqi Shi,Lei Chen,Jinghong Chen,Runxi Zhang
标识
DOI:10.1109/rfic61188.2025.11082808
摘要
This paper presents a $3.5-7.2 \mathrm{GHz}$ wideband front-end module (FEM) implemented in $22-\mathrm{nm}$ CMOS technology. The FEM consists of a digital power amplifier (DPA) and a low noise amplifier (LNA). The DPA utilizes a 4-way balanced-power-combining (BPC) network with electrical coupling compensation to minimize broadband amplitude modulation (AM) and phase modulation (PM) mismatches among the four sub-arrays. To improve efficiency and linearity, an AM-PM distortion-canceling power cell is developed. The LNA employs a dual-resonant input matching (DRIM) approach to achieve wideband input impedance and noise matching. The DPA achieves a peak output power of $\mathbf{3 0. 0 8 ~ d B m}$ with a drain efficiency of $43.31 \%$ at 6 GHz. For a 40 MHz 256 -QAM signal, the average output power ($\mathrm{P}_{\text {avg }}$) is 19.09, 21.07 and 17.18 dBm at 4.5, 6, and 7.2 GHz, respectively, with average drain efficiency ($\mathrm{DE}_{\text {avg }}$) of $\mathbf{2 0. 3 9 \%, ~ 2 0. 6 \%}$ and 18.5%. For a $\mathbf{2 0 ~ M H z}$ 1024-QAM signal, the $P_{\text {avg }}$ is $16.7,18.25$ and 17.55 dBm at $4.5,6$ and 7.2 GHz with $\mathrm{DE}_{\text {avg }}$ of $18.22 \%, 18.41 \%$ and $16.53 \%$, respectively. The LNA achieves a peak $S 21$ of 18.8 dB at 6 GHz, with the noise figure (NF) of $\mathbf{1. 7 ~ d B}$ and S11 and S22 below -10 dB across the 3.5-7.2 $\mathbf{G H z}$ range.
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