降低模拟信号频带的同时开关噪声

E. Backenius, M. Vesterbacka, V. B. Settu
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引用次数: 2

摘要

在这项工作中,我们的重点是降低同时开关噪声位于从直流到数字时钟频率的一半的频带。这个频带假定为模拟电路的信号频带。这个想法是使用具有周期性电源电流的电路,以在频域内获得低于时钟的低同时开关噪声。我们使用预充电差分级联码开关逻辑和一个新颖的D触发器。为了评估该方法,在0.13 mum CMOS技术中在晶体管级实现了两个流水线加法器,其中新电路采用我们的方法实现,参考电路采用静态CMOS逻辑以及TSPC D触发器。仿真结果表明,采用该方法可将模拟信号频带内的频率分量衰减10 ~ 17 dB。成本是几乎增加三倍的功耗和更高的晶体管数量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reduction of simultaneous switching noise in analog signal band
In this work we focus on reducing the simultaneous switching noise located in the frequency band from DC up to half of the digital clock frequency. This frequency band is assumed to be the signal band of an analog circuit. The idea is to use circuits that have as periodic power supply currents as possible to obtain low simultaneous switching noise below the clock in the frequency domain. We use precharged differential cascode switch logic together with a novel D flip-flop. To evaluate the method two pipelined adders have been implemented on transistor level in a 0.13 mum CMOS technology, where the novel circuit is implemented with our method and the reference circuit with static CMOS logic together with a TSPC D flip-flop. According to simulation results, the frequency components in the analog signal band can be attenuated from 10 dB up to 17 dB when using the proposed method. The cost is an increase in power consumption of almost a factor of three and a higher transistor count.
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