A CMOS low loss/high linearity passive mixer for 2.45 GHz low power applications

2012 Asia Pacific Microwave Conference Proceedings Pub Date : 2012-12-04 DOI:10.1109/APMC.2012.6421533
M. Camus, B. Butaye, C. Viallon, L. Garcia, T. Parra
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引用次数: 3

Abstract

A fully integrated passive mixer suitable for 2.45 GHz low consumption and low cost applications is proposed and demonstrated in a 90 nm CMOS technology. An original operating principle is adopted which is based on the use of a local oscillator square signal exhibiting a duty cycle less than 1/4. By using such a LO driving, the mixer operates as a sampler and can theoretically achieve a voltage conversion gain of 0 dB. This mixer has been integrated in a complete monolithic receiver. According to simulations, measurements demonstrate improvements of 5 dB on gain and 3 dB on noise figure without any linearity degradation and any additional cost, when compared to a common LO driving of 1/2 duty cycle.
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用于2.45 GHz低功耗应用的CMOS低损耗/高线性无源混频器
提出了一种适用于2.45 GHz低功耗低成本应用的全集成无源混频器,并在90 nm CMOS技术上进行了演示。采用了一种新颖的工作原理,该原理基于使用占空比小于1/4的本地振荡器方波信号。通过使用这样的LO驱动,混频器作为采样器工作,理论上可以实现0 dB的电压转换增益。这个混频器被集成在一个完整的单片接收器中。根据模拟,测量结果表明,与1/2占空比的普通LO驱动相比,增益提高了5 dB,噪声系数提高了3 dB,而没有任何线性度下降和任何额外成本。
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2012 Asia Pacific Microwave Conference Proceedings
2012 Asia Pacific Microwave Conference Proceedings
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