在亚阈值电压下工作的逻辑电路

J. Nyathi, B. Bero
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引用次数: 20

摘要

本文分析了工作在阈下区域的不同逻辑电路族。它们在功率和速度方面的表现特别令人感兴趣。该研究补充了已有的关于不同体偏置方案下阈值区域静态CMOS电路性能的报道。此外,它还提供了超过100纳米技术节点的缩放噪声裕度的保证。采用6金属层TSMC制程,在180 nm工艺节点上进行了模拟。介绍了一种可调谐体偏置方案,该方案允许大块CMOS电路在亚阈值电压和高于阈值电压下有效地工作。该方案将五级NAND环形振荡器的开关速度提高了6倍,而功耗降低了18%
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Logic Circuits Operating in Subthreshold Voltages
In this paper different logic circuit families operating in the subthreshold region are analyzed. Their performance in terms of power and speed are of particular interest. The study complements existing work that has reported static CMOS circuit performance under different body biasing schemes in the subthreshold region. Further it offers assurances on noise margins with scaling going beyond the 100 nm technology node. Simulations have been performed at the 180 nm technology node using a 6 metal layer TSMC process. A tunable body biasing scheme that allows bulk CMOS circuits to operate efficiently at subthreshold as well as above threshold voltages is introduced. The scheme improves a five-stage NAND ring oscillator switching speed 6times better than the static CMOS configuration while dissipating 18% less power
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