DocumentCode
3731884
Title
indDG: A new compact model for common double gate MOSFET adapted to gate oxide thickness asymmetry
Author
Chethan Kumar;Neha Sharan;Santanu Mahapatra
Author_Institution
Department of Electronics and Communication Engg, Indian Institute of Science, Banglore 560012, India
fYear
2015
fDate
7/1/2015 12:00:00 AM
Firstpage
1
Lastpage
6
Abstract
Here, we present a surface potential based compact model for common double gate MOSFET (indDG) along with implementation results. The model includes core model, intrinsic model (Short Geometry effects and Non-quasi static effect) and noise model for asymmetric common double gate (CDG) MOSFET. The existing models for CDG MOSFET are developed for device with symmetric oxide thickness across both the channels. However, in this model we have focused on developing a model for device with asymmetric oxide thickness. Here, we have solved the equations for device with asymmetric oxide thickness in a physical way. Thus, keeping the complexity and computational efficiency of the model to be of the same level as that of existing model. The model has been successfully implemented in smartspice circuit simulator through its Verilog-A interface. In this work we demonstrate some results obtained from the circuit simulator and show that it is matching accurately with the simulation results. The proposed model satisfies the source-drain symmetry test and therefore, can be efficiently used for any practical circuit implementation.
Keywords
"Mathematical model","Logic gates","Semiconductor device modeling","Integrated circuit modeling","Numerical models","Adaptation models","Silicon"
Publisher
ieee
Conference_Titel
Electronics, Computing and Communication Technologies (CONECCT), 2015 IEEE International Conference on
Type
conf
DOI
10.1109/CONECCT.2015.7383874
Filename
7383874
Link To Document