应力条件下片上锁相环不规则性的研究-案例研究

Q3 Arts and Humanities Giornale di Storia Costituzionale Pub Date : 2004-12-13 DOI:10.1109/ICECS.2004.1399750

Y. Weizman, Y. Fefer, S. Sofer, E. Baruch

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引用次数: 2

摘要

在现代高性能VLSI设计中，由于密集的核心开关活动而导致的片上锁相环(PLL)性能下降正在成为一个影响因素。在某些临界条件下，锁相环可能变得不稳定。本文的分析描述了边际模式、频率和电压条件下锁相环的不规则性，并结合了密集的核心操作。经过长时间的分析，包括逐步消除所有噪声源，不稳定的原因被解释为核心电源线上的电压尖峰与通过芯片衬底的锁相环压控振荡器的内部控制信号之间的耦合。提出了通过改变锁相环动态特性来解决该问题的方法。通过这项研究，我们研究了混合模式(模拟和数字)系统中的噪声串扰问题以及应力条件下的锁相环动力学，这表明了在片上系统环境下锁相环分析的复杂性。

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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Investigation of on-chip PLL irregularities under stress conditions - case study

In modern high performance VLSI design, on-chip phase locked loop (PLL) performance degradation due to intensive core switching activities is becoming an influential factor. Under certain borderline conditions, the PLL may become unstable. The analysis herein describes PLL irregularities under marginal mode, frequency and voltage conditions combined with intensive core operations. After lengthy analysis that included step-by-step elimination of all noise sources, the cause of instability was explained by coupling between a voltage spike on core power supply line and the internal control signal of the voltage controlled oscillator of the PLL through the chip substrate. The solution to the problem was suggested by changing the PLL dynamic characteristics. Through this investigation we studied the noise crosstalk issue in mixed mode (analog and digital) systems and also the PLL dynamics under stress conditions, which demonstrates the complexity of PLL analysis in a system-on-chip environment.

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