Fast physical models for Si LDMOS power transistor characterization

Fast physical models for Si LDMOS power transistor characterization

A new quasi-two-dimensional (Q2D) model is described for microwave laterally diffused MOS (LDMOS) power transistors. A set of one-dimensional energy transport equations are solved across a two-dimensional cross-section in a "current-driven" form. This process-oriented nonlinear model accou...

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Bibliographische Detailangaben
Hauptverfasser: Everett, John P., Kearney, Michael J., Rueda, Hernan A., Johnson, Eric M., Aaen, Peter H., Wood, John, Snowden, Christopher M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Field Effect transistor (FET)
Integrated circuit modeling
laterally diffused MOS (LDMOS)
Logic gates
Mathematical model
Microwave FETs
quasi-two-dimensional (Q2D)
Solid modeling
transistor model
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Beschreibung
Zusammenfassung:A new quasi-two-dimensional (Q2D) model is described for microwave laterally diffused MOS (LDMOS) power transistors. A set of one-dimensional energy transport equations are solved across a two-dimensional cross-section in a "current-driven" form. This process-oriented nonlinear model accounts for thermal effects, avalanche breakdown and gate conduction. It accurately predicts DC and microwave characteristics as demonstrated by comparison with measured DC characteristics, transconductance, forward gain, S 21 , and large-signal gate and drain charges for a LDMOS transistor. The model is fast, taking less than 30 ms to extract a 50 point DC I DS -V DS characteristic and less than 5 ms to produce S-parameters at a single frequency.
ISSN:0149-645X
2576-7216
DOI:10.1109/MWSYM.2011.5972839