0.35µm BiCMOS技术的1.57542GHz低噪声放大器的电路和工艺参数问题

2009 International Symposium on Signals, Circuits and Systems Pub Date : 2009-07-09 DOI:10.1109/ISSCS.2009.5206197

A. Djugova, J. Radic, M. Videnovic-Misic

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摘要

本文提出了一种采用0.35µm BiCMOS技术的两级低噪声放大器(LNA)。第一级LNA级是级联码配置中的普通源放大器，其中源电感退化用于1.57542 GHz的窄带输入匹配。为了增加LNA的总正向增益(S21)，增加了额外的共源放大器，作为第二LNA级。优化后的LNA输入回波损耗(S11)为−12.01 dB，高反向隔离S12 =−39.19 dB，电压增益S21 = 23.83 dB，输出回波损耗S22 =−10.61 dB，噪声系数为2.035 dB, 3.3 V时功耗为9.9 mA。本文给出的LNA电路稳定性参数B1f = 953.3 m, Kf = 2.558，通过蒙特卡罗分析证明了过程和失配变化的重要性及其对电路性能的影响。

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Circuit and process parameters issue for 1.57542GHz low noise amplifier in 0.35µm BiCMOS technology

In this paper a two-stage low noise amplifier (LNA) in 0.35 µm BiCMOS technology is presented. The first LNA stage is a common source amplifier in the cascode configuration where source inductor degeneration is used for narrowband input matching at 1.57542 GHz. Additional common source amplifier, as the second LNA stage, is added in order to increase total forward gain (S21) of the LNA. Optimized LNA has −12.01 dB input return loss (S11), high reverse isolation S12 = −39.19 dB, very high voltage gain S21 = 23.83 dB, output return loss S22 = −10.61 dB, noise figure of 2.035 dB and power consumption of 9.9 mA at 3.3 V. The presented LNA offers circuit stability parameters B1f = 953.3 m and Kf = 2.558 Significance of the process and mismatch variation and its influence on circuit performance has been demonstrated with Monte Carlo Analysis.

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2009 International Symposium on Signals, Circuits and Systems

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