Wideband CMOS Receivers exploiting Simultaneous Output Balancing and Noise/Distortion Canceling

2008 European Microwave Integrated Circuit Conference Pub Date : 2008-10-27 DOI:10.1109/EMICC.2008.4772254

S. Blaakmeer, E. Klumperink, D. Leenaerts, B. Nauta

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引用次数: 7

Abstract

This paper deals with the problem of realizing wideband receiver front-ends in downscaled CMOS technologies, which are highly wanted for multi-standard radio receivers and cognitive radio applications. Instead of using many narrowband inductor based receivers, we prefer the use of one wideband receiver with sufficient bandwidth to cover all popular frequency bands up to 6 GHz or even 10 GHz. To relax RF filter requirements, high linearity is required, while high gain and low noise are important for good sensitivity. Downscaled CMOS technologies feature high speed transistors, but also decreasing supply voltages and increasing transistor non-idealities, which makes it increasingly difficult to achieve high gain and good linearity. It will be shown that a combination of a common-gate (CG) stage and an admittance-scaled common-source (CS) stage has attractive properties for implementing a wideband receiver with active balun, while simultaneously canceling the noise and distortion of the CG-stage. Example applications in a wideband Balun-LNA and combined Balun-LNA-mixer will be shown.

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利用同步输出平衡和噪声/失真消除的宽带CMOS接收器

本文研究了在多标准无线电接收机和认知无线电应用中迫切需要的小型化CMOS技术中实现宽带接收机前端的问题。与其使用许多基于窄带电感的接收器，我们更喜欢使用一个带宽足够的宽带接收器，以覆盖所有流行的频段，最高可达6 GHz甚至10 GHz。为了放松RF滤波器的要求，需要高线性度，而高增益和低噪声对于良好的灵敏度非常重要。小型化CMOS技术具有高速晶体管的特点，但同时也降低了电源电压，增加了晶体管的非理想性，这使得实现高增益和良好线性变得越来越困难。将表明，共门级(CG)和导纳缩放的共源级(CS)的组合对于实现具有有源平衡的宽带接收器具有吸引人的特性，同时消除了CG级的噪声和失真。将展示宽带Balun-LNA和组合Balun-LNA混频器中的示例应用。

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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2008 European Microwave Integrated Circuit Conference

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