The effect of MOSFET second-order nonlinearity on active inductor-based oscillators

2007 Asia-Pacific Conference on Applied Electromagnetics Pub Date : 2007-12-01 DOI:10.1109/APACE.2007.4603974
L. Lee, A. A'Ain, A. Kordesch
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Abstract

Second-order nonlinearity of the MOSFET has significant impact on active inductor (AI) based oscillators, regardless of whether they are single-ended or differential. By using Taylor series expansion, this paper shows that second-order nonlinearity of the MOSFET will cause a shift in the DC biasing of an AI-based oscillator, depending on oscillation amplitude. The DC bias shift results in a change of the transistor transconductance and parasitic components from their original value, which will affect the oscillator resonance frequency. This explains why a small-signal S-parameter simulation is not sufficient to accurately predict the oscillation frequency and tuning range of AI-based oscillators, even at moderate oscillation amplitudes.
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MOSFET二阶非线性对有源电感振荡器的影响
MOSFET的二阶非线性对基于有源电感(AI)的振荡器有显著的影响,无论是单端振荡器还是差分振荡器。通过泰勒级数展开,本文表明MOSFET的二阶非线性将导致基于ai的振荡器的直流偏置移位,这取决于振荡幅度。直流偏置移位会导致晶体管跨导和寄生分量的变化,从而影响振荡器的谐振频率。这就解释了为什么小信号s参数仿真不足以准确预测基于人工智能的振荡器的振荡频率和调谐范围,即使在中等振荡幅度下也是如此。
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2007 Asia-Pacific Conference on Applied Electromagnetics
2007 Asia-Pacific Conference on Applied Electromagnetics
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