Title :
A Highly Scalable High Voltage MOSFET Model
Author :
Chauhan, Y.S. ; Anghel, C. ; Krummenacher, F. ; Ionescu, A.M. ; Declercq, M. ; Gillon, R. ; Frere, S. ; Desoete, B.
Author_Institution :
Ecole Polytechnique Federate de Lausanne
Abstract :
The authors propose a new highly scalable general high voltage MOSFET model for circuit simulation. A new general drift resistance model for the drift part is proposed while intrinsic MOS channel is modeled using low voltage EKV MOS model. The proposed general model is highly scalable for major physical and electrical parameters. It is shown that the model performs excellently over a wide range of DC bias condition along with the scalability against transistor width; drift length, number of fingers and temperature. The model shows good behavior for all capacitances which are unique for these devices showing peaks and shift of peaks with bias variation. The model is validated on the measured characteristics of LDMOS and VDMOS devices
Keywords :
MOSFET; circuit simulation; low-power electronics; power integrated circuits; LDMOS devices; VDMOS devices; circuit simulation; drift resistance model; high voltage MOSFET model; highly scalable MOSFET model; low voltage EKV MOS model; Doping; Electric resistance; Fingers; Immune system; Low voltage; MOSFET circuits; Noise measurement; Scalability; Semiconductor process modeling; Temperature;
Conference_Titel :
Solid-State Device Research Conference, 2006. ESSDERC 2006. Proceeding of the 36th European
Conference_Location :
Montreux
Print_ISBN :
1-4244-0301-4
DOI :
10.1109/ESSDER.2006.307690
