An explicit current-voltage model for undoped double-gate MOSFETs based on accurate yet analytic approximation to the carrier concentration

Jin He; Wei Bian; Yadong Tao; Feng Liu; Kailiang Lu; Wen Wu; Ting Wang; Mansun Chan

doi:10.1016/j.sse.2006.11.010

An explicit current-voltage model for undoped double-gate MOSFETs based on accurate yet analytic approximation to the carrier concentration

Jin He^*, Wei Bian, Yadong Tao, Feng Liu, Kailiang Lu, Wen Wu, Ting Wang, Mansun Chan

^*Corresponding author for this work

Department of Electronic and Computer Engineering

Research output: Contribution to journal › Journal Article › peer-review

13 Citations (Scopus)

Abstract

An explicit current-voltage model for undoped double-gate MOSFETs based on an accurate analytic approximation to the carrier concentration is presented in this paper. An analytic approximation solution to the carrier (electron) concentration is derived from the Taylor expansion of the exact solution of the Poisson equation. This analytic approximation gives a highly accurate result of the electron concentration when compared with that evaluated by Newton-Raphson iterative. The resulting electron concentration is then coupled to the Pao-Sah current equation to produce an explicit current-voltage model for symmetric undoped double-gate MOSFETs. The model predictions have been extensively validated by numerical simulations.

Original language	English
Pages (from-to)	179-185
Number of pages	7
Journal	Solid-State Electronics
Volume	51
Issue number	1
DOIs	https://doi.org/10.1016/j.sse.2006.11.010
Publication status	Published - Jan 2007

Keywords

Compact modeling
Double-gate MOSFETs
Explicit model
Non-classical MOSFETs

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10.1016/j.sse.2006.11.010

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title = "An explicit current-voltage model for undoped double-gate MOSFETs based on accurate yet analytic approximation to the carrier concentration",

abstract = "An explicit current-voltage model for undoped double-gate MOSFETs based on an accurate analytic approximation to the carrier concentration is presented in this paper. An analytic approximation solution to the carrier (electron) concentration is derived from the Taylor expansion of the exact solution of the Poisson equation. This analytic approximation gives a highly accurate result of the electron concentration when compared with that evaluated by Newton-Raphson iterative. The resulting electron concentration is then coupled to the Pao-Sah current equation to produce an explicit current-voltage model for symmetric undoped double-gate MOSFETs. The model predictions have been extensively validated by numerical simulations.",

keywords = "Compact modeling, Double-gate MOSFETs, Explicit model, Non-classical MOSFETs",

author = "Jin He and Wei Bian and Yadong Tao and Feng Liu and Kailiang Lu and Wen Wu and Ting Wang and Mansun Chan",

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T1 - An explicit current-voltage model for undoped double-gate MOSFETs based on accurate yet analytic approximation to the carrier concentration

AU - He, Jin

AU - Bian, Wei

AU - Tao, Yadong

AU - Liu, Feng

AU - Lu, Kailiang

AU - Wu, Wen

AU - Wang, Ting

AU - Chan, Mansun

PY - 2007/1

Y1 - 2007/1

N2 - An explicit current-voltage model for undoped double-gate MOSFETs based on an accurate analytic approximation to the carrier concentration is presented in this paper. An analytic approximation solution to the carrier (electron) concentration is derived from the Taylor expansion of the exact solution of the Poisson equation. This analytic approximation gives a highly accurate result of the electron concentration when compared with that evaluated by Newton-Raphson iterative. The resulting electron concentration is then coupled to the Pao-Sah current equation to produce an explicit current-voltage model for symmetric undoped double-gate MOSFETs. The model predictions have been extensively validated by numerical simulations.

AB - An explicit current-voltage model for undoped double-gate MOSFETs based on an accurate analytic approximation to the carrier concentration is presented in this paper. An analytic approximation solution to the carrier (electron) concentration is derived from the Taylor expansion of the exact solution of the Poisson equation. This analytic approximation gives a highly accurate result of the electron concentration when compared with that evaluated by Newton-Raphson iterative. The resulting electron concentration is then coupled to the Pao-Sah current equation to produce an explicit current-voltage model for symmetric undoped double-gate MOSFETs. The model predictions have been extensively validated by numerical simulations.

KW - Compact modeling

KW - Double-gate MOSFETs

KW - Explicit model

KW - Non-classical MOSFETs

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UR - https://openalex.org/W1977192280

UR - https://www.scopus.com/pages/publications/33846847739

U2 - 10.1016/j.sse.2006.11.010

DO - 10.1016/j.sse.2006.11.010

M3 - Journal Article

SN - 0038-1101

VL - 51

SP - 179

EP - 185

JO - Solid-State Electronics

JF - Solid-State Electronics

IS - 1

ER -

An explicit current-voltage model for undoped double-gate MOSFETs based on accurate yet analytic approximation to the carrier concentration

Abstract

Keywords

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