Analysis techniques for obtaining the steady-state solution of MOS LC oscillators

M. Mansour, A. Mehrotra, W. Walker, A. Narayan
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引用次数: 6

Abstract

Accurate analysis techniques for estimating the periodic steady-state solution of MOS LC oscillators using short-channel device equations are presented. These techniques allow us to make quantitative estimates of the oscillator steady-state performance without the need for time-consuming transient simulations using simulators such as SPICE. Further, our engineering techniques provide insight and quantitative understanding on the design of current-day, deep-submicron MOS LC oscillators and serve as a starting point in a design methodology that includes complete phase noise/timing jitter analysis and optimization. Our analytical results for a cross-coupled LC oscillator that was previously fabricated and tested are in good agreement with SPICE simulations.
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MOS LC振荡器稳态解的分析技术
提出了利用短通道器件方程估计MOS LC振荡器周期稳态解的精确分析技术。这些技术使我们能够对振荡器稳态性能进行定量估计,而无需使用SPICE等模拟器进行耗时的瞬态模拟。此外,我们的工程技术为当今深亚微米MOS LC振荡器的设计提供了洞察力和定量理解,并作为设计方法的起点,包括完整的相位噪声/时序抖动分析和优化。我们对先前制造和测试的交叉耦合LC振荡器的分析结果与SPICE模拟结果很好地一致。
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