Title :
Unified drain current model for independently driven double gate MOSFETs
Author :
Syamal, Binit ; Sarkar, Chandan K. ; Dutta, Pradipta ; Mohankumar, N.
Author_Institution :
Dept. of Electron. & Telecommun. Eng., Jadavpur Univ., Kolkata, India
Abstract :
A generic surface potential based current voltage (I-V) model for heavily doped asymmetric Double Gate MOSFET is presented. The model is derived from the 1-D Poisson equation with all the charge terms included and the channel potential is solved for the asymmetric operation of DG MOSFET based on the Newton Raphson Iterative method. A non charge sheet based drain current model based on the Pao-Sah´s double integral method is formulated in terms of front and back gate surface potentials at the source and drain end. The model is able to clearly show the dependence of the front and back surface potentials and the drain current on the terminal voltages, gate oxide thicknesses, channel doping concentrations and the Silicon body thickness and a good agreement is observed with the 2-D numerical simulation results.
Keywords :
MOSFET; Newton-Raphson method; Poisson equation; 1D Poisson equation; 2D numerical simulation; DG MOSFET; Newton Raphson iterative method; Pao-Sah double integral method; asymmetric operation; channel doping concentration; charge terms; current voltage model; gate oxide thickness; gate surface potential; generic surface potential; independently driven double gate MOSFET; noncharge sheet; silicon body thickness; terminal voltages; unified drain current model; Doping; Electric potential; Logic gates; MOSFETs; Predictive models; Semiconductor process modeling; Silicon; Asymmetric double gate MOSFET; Pao-Sah´s double integral; Poisson´s equation; Short Channel Effects;
Conference_Titel :
Microelectronics (ICM), 2010 International Conference on
Conference_Location :
Cairo
Print_ISBN :
978-1-61284-149-6
DOI :
10.1109/ICM.2010.5696185
