一种用于超宽带应用的低功耗锥形矩阵分布式放大器

2020 11th IEEE Annual Information Technology, Electronics and Mobile Communication Conference (IEMCON) Pub Date : 2020-11-04 DOI:10.1109/IEMCON51383.2020.9284842

Mehrdad Harifi-Mood, Somayye Abbasi Avval, Abolfazl Bijari, Nabeeh Kandalaft

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引用次数: 4

摘要

介绍了一种宽带应用的全集成锥形矩阵分布式放大器(DA)。DA采用台积电180纳米CMOS射频工艺设计。为了提高增益，本文提出的数据分析采用矩阵结构，同时利用了加性增益和乘性增益机制。此外，采用锥形传输线技术来降低功耗。同时，将输入传输线的终端电阻替换为优化的rl网络，改善了数据处理的噪声曲线。在第一阶段，数据处理使用可调谐级联放大器作为增益单元来扩展带宽。仿真结果表明，所提出的3db带宽为19.5 GHz的数据放大器的平坦功率增益(S21)为$12+1\ \text{dB}$。在整个频率范围内，DA的S11和S22都小于−10 dB。噪声系数(NF)在5 ~ 6.75 dB之间变化，工作频带的平均三阶输入截距点(IIP3)为−3.75 dBm。所提出的数据分析从1v电源中消耗25 mW的直流功率。

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A Low-Power Tapered Matrix Distributed Amplifier for Ultra-Wide-Band Applications

A fully integrated tapered matrix distributed amplifier (DA) for broadband applications is presented in this paper. The DA is designed in the TSMC 180 nm CMOS RF process. For the gain improvement, the proposed DA employs a matrix architecture to take advantage of the additive and multiplicative gain mechanisms simultaneously. In addition, tapered transmission line technique is used to mitigate power consumption. Also, the terminating resistor of the input transmission line is replaced with an optimized RL-network to ameliorate the noise curve of the DA. In the first stage, the DA used a tunable cascode amplifier as the gain cells to extend the bandwidth. Based on simulation results, the proposed DA with a 3-dB bandwidth of 19.5 GHz demonstrates a flat power gain (S21) of $12+1\ \text{dB}$. Throughout the frequency range, S11 and S22 of the DA are below than −10 dB. The noise figure (NF) varies between 5 ∼ 6.75 dB and the average third-order input intercept point (IIP3) in the operating band is −3.75 dBm. The proposed DA consumes a DC power of 25 mW from a 1-V supply.

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2020 11th IEEE Annual Information Technology, Electronics and Mobile Communication Conference (IEMCON)

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