用于sub-GHz ISM频段的高隔离性低功耗数字控制可变增益LNA

2009 16th IEEE International Conference on Electronics, Circuits and Systems - (ICECS 2009) Pub Date : 2009-12-01 DOI:10.1109/ICECS.2009.5410856

Mathieu Périn, Olivier Aymard, S. Darfeuille, P. Gamand, C. Berland

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引用次数: 4

摘要

在40 ghz fT 0.25¿m BiCMOS工艺中实现了一种低功耗数控变增益低噪声放大器。部分反馈技术实现了不依赖于可变增益的宽带输入匹配，以及高反向隔离。可变增益基于电阻链增益控制技术，可实现精细的增益步长和恒定的输出阻抗。它涵盖了用于汽车应用的sub-GHz ISM频段，如远程无钥匙进入。该LNA设计为15个1 dB增益步长。最大增益的仿真结果表明，换能器功率增益为16.5 dB，噪声系数为2.4 dB，输入输出IP3分别为-12.1 dBm和+4.5 dBm，而从2.7 V电源中仅汲取1.45 mA。由于封装中的线键连接，测量结果略有下降。

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Low-power digitally-controlled variable gain LNA with high isolation for sub-GHz ISM bands

A low-power digitally-controlled variable gain low noise amplifier is implemented in a 40-GHz fT 0.25 ¿m BiCMOS process. Wideband input matching independent of the variable gain, as well as high reverse isolation are achieved thanks to a partial feedback technique. The variable gain is based on a resistor-chain gain-control technique, leading to fine gain steps and constant output impedance. It covers the sub-GHz ISM bands for automotive applications such as Remote Keyless Entry. This LNA is designed with 15 gain steps of 1 dB. The simulated results for the maximum gain show a Transducer Power Gain of 16.5 dB, a Noise Figure of 2.4 dB and respective input and output IP3 of -12.1 dBm and +4.5 dBm, while only drawing 1.45 mA from a 2.7 V power supply. The measurement results are slightly degraded because of wire-bonding couplings in the package.

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来源期刊

2009 16th IEEE International Conference on Electronics, Circuits and Systems - (ICECS 2009)

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