Numerical and Analytical Results for the Polysilicon Gate Depletion Effect on MOS Gate Capacitance

Author

Abebe, H. ; Cumberbatch, E. ; Morris, H. ; Tyree, V.

Author_Institution

USC Viterbi Sch. of Eng., Marina del Rey

fYear

2006

fDate

25-28 June 2006

Firstpage

113

Lastpage

117

Abstract

Analytical and numerical gate capacitance models with polysilicon (poly) depletion effect are studied by directly solving the coupled Poisson equations on the poly and silicon sides. The poly depletion effect is known to significantly reduce surface potential, channel current and gate capacitance values. Different oxide thicknesses and doping levels of the MOS device are studied, and the final analytical gate capacitance model exhibits an excellent fit with numerical data. The analytical model is determined using asymptotic methods. The models presented here give accurate results for the poly depletion effect and this new information may be used to improve SPICE circuit simulations in advanced VLSI since the gate depletion effect is significant in current nanoscale MOSFET devices.

Keywords

MOSFET; Poisson equation; SPICE; VLSI; semiconductor device models; MOS gate capacitance; Poisson equations; SPICE circuit simulations; VLSI; analytical gate capacitance models; asymptotic methods; channel current; nanoscale MOSFET devices; numerical gate capacitance models; polysilicon gate depletion effect; surface potential; Analytical models; Capacitance; Coupled mode analysis; Doping; MOS devices; Numerical models; Poisson equations; Semiconductor process modeling; Silicon; Surface fitting; Device modeling; MOSFETs; gate capacitance; polysilicon depletion effect;

fLanguage

English

Publisher

ieee

Conference_Titel

University/Government/Industry Microelectronics Symposium, 2006 16th Biennial

Conference_Location

San Jose, CA

ISSN

0749-6877

Print_ISBN

1-4244-0267-0

Type

conf

DOI

10.1109/UGIM.2006.4286364

Filename

4286364