A compact DC and AC model for circuit simulation of high voltage VDMOS transistor

Author

Chauhan, Y.S. ; Anghel, C. ; Krummenacher, F. ; Gillon, R. ; Baguenier, A. ; Desoete, B. ; Frere, S. ; Ionescu, A.M. ; Declercq, M.

Author_Institution

Ecole Polytechnique Federale de Lausanne

fYear

2006

fDate

27-29 March 2006

Lastpage

114

Abstract

A modeling strategy for high voltage VDMOS transistors based on the intrinsic drain voltage and the use of EKV MOSFET model as a core for the intrinsic MOS channel is presented. The proposed charge based model correctly reproduces the special effects of high voltage devices like the quasi saturation, impact ionization and self heating. The accuracy of the model is better than 5% for DC I-V and g-V characteristics. We also report the accurate simulation of the intrinsic drain voltage, V_K, which represents the basis of the AC model. The unique peaks on C_gs and C_gd characteristics peculiar to high voltage devices are accurately simulated by this charge based model. It is demonstrated that this model provides excellent trade-off between speed, convergence and accuracy, being suitable for circuit simulation in any operation regime of HV MOSFETs including all special effects of these devices

Keywords

MOSFET; semiconductor device models; AC model; DC model; EKV MOSFET model; circuit simulation; high voltage VDMOS transistor; impact ionization; intrinsic MOS channel; intrinsic drain voltage; quasisaturation; self heating; Ambient intelligence; Circuit simulation; Convergence; Heating; Impact ionization; Integrated circuit technology; Low voltage; MOSFET circuits; Multichip modules; Robustness;

fLanguage

English

Publisher

ieee

Conference_Titel

Quality Electronic Design, 2006. ISQED '06. 7th International Symposium on

Conference_Location

San Jose, CA

Print_ISBN

0-7695-2523-7

Type

conf

DOI

10.1109/ISQED.2006.7

Filename

1613122