一种0.18µm工艺下1.5GHz的0.6v超高增益超低功耗CMOS LNA

2009 Second International Conference on Computer and Electrical Engineering Pub Date : 2009-12-28 DOI:10.1109/ICCEE.2009.190

E. Kargaran, H. Kargaran, H. Nabovati

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引用次数: 7

摘要

本文介绍了一种采用折叠级联结构的CMOS LNA，用于TSMC 0.18µm工艺的GPS前端接收器。折叠级联结构的rna存在的主要问题是反向隔离度低。本文通过增加一个晶体管来改善这个参数。功率增益和最小噪声系数是影响电路性能的两个重要因素。除了这些因素外，还需要良好的线性度，输入阻抗匹配，低电源电压和低功耗。该LNA可实现23.1 dB的小信号增益。LNA的NF值为2.1 dB，输入回波损耗为-14dB，输出回波损耗为-14dB。总功耗仅为2.6mW从0.6v供电电压。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A 0.6v Ultra-High-Gain Ultra-Low-Power CMOS LNA at 1.5GHz in 0.18µm Technology

This paper describes a CMOS LNA utilizing a folded cascade architecture for GPS front-end receiver in a TSMC 0.18-µm process. The Major Problem in the LNAs with folded cascade architecture is low reversing isolation. In this paper this parameter is improved by adding a transistor. The power gain and the minimal Noise Figure (NF) are two important factors for the circuits. Besides those factors, good linearity, input impedance matching, low supply voltage and the lower power consumption are also desired. The proposed LNA achieves a small signal gain of 23.1 dB. The LNA acquires an NF of 2.1 dB with an input return loss of -14dB and an output return loss of -14 dB. Total Power consumption is only 2.6mW from a 0.6v supply voltage.

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2009 Second International Conference on Computer and Electrical Engineering

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