Understanding of On-Chip Power Supply Noise: Suppression Methodologies and Challenges

Recent Trends in Communication Networks Pub Date : 2019-12-23 DOI:10.5772/intechopen.90378

Pritam Bhattacharjee, Prerna Rana, A. Majumder

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引用次数: 1

Abstract

The on-chip activities of any modern IC are always inhibited due to the occurrence of power supply noise (PSN) in the chip power line. From many decades, researchers are pondering on what are the major issue of this PSN occurrence and how it can be suppressed without interfering the actual chip functioning. In the course of time, it is found that the uncontrolled triggering of the on-chip system clock and the unguarded on-chip power line is instigating the two major factors for the occurrence of PSN i.e., i(t) → instantaneous current and di/dt → current ramp or the rate of change of current over time. Both i(t) and di/dt are also the sub-fac-tors to rise the PSN components like resistive noise and inductive noise respectively. In this chapter, we light upon the occurrence of resistive and inductive noise as well as depict their individual impact on the PSN occurrences. There is also discussion on how PSN is suppressed over the years in spite of facing challenges in the execution of suppression techniques. This chapter even concludes on the suitable ways for mitigating PSN in the contemporary era of delivering complex on-chip features.

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片上电源噪声的理解:抑制方法和挑战

任何现代集成电路的片上活动总是由于在芯片电源线中出现电源噪声(PSN)而受到抑制。几十年来，研究人员一直在思考PSN发生的主要问题是什么，以及如何在不干扰芯片实际功能的情况下抑制它。随着时间的推移，我们发现片上系统时钟的不受控制触发和片上电源线的不受保护是导致PSN发生的两个主要因素，即i(t)→瞬时电流和di/dt→电流斜坡或电流随时间的变化率。i(t)和di/dt也是分别提高PSN阻性噪声和感性噪声等分量的子因子。在本章中，我们着重讨论了电阻和电感噪声的发生，并描述了它们对PSN发生的个别影响。尽管在抑制技术的执行上面临挑战，但多年来人们对PSN如何被抑制也有讨论。本章甚至总结了在提供复杂片上功能的当代减轻PSN的合适方法。

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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Recent Trends in Communication Networks

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