A compact, continuous analytic I-V model for surrounding-gate MOSFETs

A compact, continuous analytic I-V model for surrounding-gate MOSFETs

Based on current continuity equation and closed-form solutions of Poisson's equation, a compact and continuous I-V model for surrounding-gate MOSFETs is developed. The simple form of I-V equation represents the entire drain current characteristics including all regions of MOSFET operation; line...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: Chiang, T.K., Chen, M.L.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Analytical models
Circuit simulation
Integral equations
MOSFETs
Physics
Poisson equations
Semiconductor device modeling
Smoothing methods
SPICE
Tunneling
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Beschreibung
Zusammenfassung:Based on current continuity equation and closed-form solutions of Poisson's equation, a compact and continuous I-V model for surrounding-gate MOSFETs is developed. The simple form of I-V equation represents the entire drain current characteristics including all regions of MOSFET operation; linear, saturation and subthreshold. Compared to conventional charge-sheet approximation, tins approach preserves physical volume-inversion phenomena and easily predicts the drain current characteristics without assumed empirical smoothing function for correctness of piecewise approximation. It is shown that the I-V curves can be generated by this model and agree well with 2-D simulation results over a various drain biases. This model gives the exact I-V prediction for surrounding-gate transistor (SGT) and can be used for the application of SPICE simulation.
DOI:10.1109/ICSICT.2004.1436738