A Unified Nonquasi-Static MOSFET Model for Large-Signal and Small-Signal Simulations
Electron Devices, IEEE Transactions(2006)
摘要
The spline collocation-based nonquasi-static (NQS) model is further developed to include all regions of operation and small-geometry effects. The new formulation provides a unified (hence consistent) approach to both large-signal and small-signal NQS modeling and is sufficiently flexible to work with any surface-potential-based MOSFET model. The model is verified through comparison with the channel segmentation method, two-dimensional numerical simulations, and experimental results and demonstrates a controlled tradeoff between model accuracy and efficiency. The new NQS model has been implemented into PSP model. Circuit simulations are given to demonstrate the accuracy and applicability of the new model
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关键词
small-geometry effects,semiconductor device models,channel segmentation,circuit simulations,spline collocation,surface potential,nonquasi-static (nqs),psp model,unified approach,spline collocation method,2d numerical simulations,small-signal simulations,compact model,mosfet,large-signal simulation,nonquasi-static mosfet model,circuit simulation,numerical simulation,collocation method
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