低压lsi泄漏阻尼效应建模与分析

Jie Gu, J. Keane, C. Kim
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引用次数: 2

摘要

虽然在控制泄漏功率方面已经有了广泛的研究,但漏电晶体管可以作为电源噪声的阻尼元件,这一事实一直被设计界所忽视或忽视。本文研究了泄漏阻尼效应对抑制电源噪声的影响。通过开发基于物理的有源电流和漏电流阻抗模型,我们发现漏电流,特别是栅极隧道漏电流,比强反转电流提供更多的阻尼。在32nm CMOS技术上进行了模拟,以验证我们的模型在PVT变化下的有效性,并探索这种现象的电压依赖行为。讨论了采用泄漏感应阻尼的设计实例,结果表明,采用泄漏感应阻尼可节省15.6%的密封盖面积
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling and Analysis of Leakage Induced Damping Effect in Low Voltage LSIs
Although there has been extensive research on controlling leakage power, the fact that leaky transistors can act as a damping element for supply noise has been long ignored or unnoticed in the design community. This paper investigates the leakage induced damping effect that helps suppress the supply noise. By developing physics-based impedance models for active and leakage currents, we show that leakage, particularly gate tunneling leakage, provides more damping than strong-inversion current. Simulations were performed in a 32nm CMOS technology to validate our models under PVT variations and to explore the voltage dependent behavior of this phenomenon. Design example utilizing leakage induced damping such as decap assignment is discussed with results showing 15.6% saving in decap area
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