Temperature Dependent Analytical DC Model for Wide Bandgap MESFETs

Saif Ur Rehman; Umer F. Ahmed; Muhammad M. Ahmed; Muhammad N. Khan

doi:10.1109/ACCESS.2019.2910246

Temperature Dependent Analytical DC Model for Wide Bandgap MESFETs

Saif Ur Rehman, Umer F. Ahmed, Muhammad M. Ahmed^*, Muhammad N. Khan

^*Corresponding author for this work

Capital University of Science & Technology

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

5 Citations (Scopus)

Abstract

In this paper, an analytical model has been developed to predict DC characteristics of wide bandgap metal semiconductor field effect transistors (MESFETs). The model evaluates potential distribution inside the channel of the device by dividing the Schottky barrier depletion layer into four distinct regions and predicts I-V characteristics both at the room as well as at elevated temperatures. It also considers self-heating effects caused by the high-drain current and predicts negative output conductance, usually exhibited by wide bandgap MESFETs. The validity of the proposed technique is ensured by applying it on GaN and SiC MESFETs. It has been shown that the developed technique offers 50% and 37% improved accuracy in predicting the output characteristics of the device at T=300 K and T=500 K, respectively, relative to the best reported model. Thus, the proposed technique can be employed in the device modeling software involving high-power MESFETs.

Original language	English
Article number	8685089
Pages (from-to)	49702-49711
Number of pages	10
Journal	IEEE Access
Volume	7
DOIs	https://doi.org/10.1109/ACCESS.2019.2910246
Publication status	Published - 2019
Externally published	Yes

Keywords

analytical model
I - V characteristics
MESFETs
self-heating effects

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10.1109/ACCESS.2019.2910246

Cite this

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title = "Temperature Dependent Analytical DC Model for Wide Bandgap MESFETs",

abstract = "In this paper, an analytical model has been developed to predict DC characteristics of wide bandgap metal semiconductor field effect transistors (MESFETs). The model evaluates potential distribution inside the channel of the device by dividing the Schottky barrier depletion layer into four distinct regions and predicts I-V characteristics both at the room as well as at elevated temperatures. It also considers self-heating effects caused by the high-drain current and predicts negative output conductance, usually exhibited by wide bandgap MESFETs. The validity of the proposed technique is ensured by applying it on GaN and SiC MESFETs. It has been shown that the developed technique offers 50% and 37% improved accuracy in predicting the output characteristics of the device at T=300 K and T=500 K, respectively, relative to the best reported model. Thus, the proposed technique can be employed in the device modeling software involving high-power MESFETs.",

keywords = "analytical model, I - V characteristics, MESFETs, self-heating effects",

author = "Rehman, {Saif Ur} and Ahmed, {Umer F.} and Ahmed, {Muhammad M.} and Khan, {Muhammad N.}",

note = "Publisher Copyright: {\textcopyright} 2013 IEEE.",

year = "2019",

doi = "10.1109/ACCESS.2019.2910246",

language = "English",

volume = "7",

pages = "49702--49711",

journal = "IEEE Access",

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T1 - Temperature Dependent Analytical DC Model for Wide Bandgap MESFETs

AU - Rehman, Saif Ur

AU - Ahmed, Umer F.

AU - Ahmed, Muhammad M.

AU - Khan, Muhammad N.

PY - 2019

Y1 - 2019

N2 - In this paper, an analytical model has been developed to predict DC characteristics of wide bandgap metal semiconductor field effect transistors (MESFETs). The model evaluates potential distribution inside the channel of the device by dividing the Schottky barrier depletion layer into four distinct regions and predicts I-V characteristics both at the room as well as at elevated temperatures. It also considers self-heating effects caused by the high-drain current and predicts negative output conductance, usually exhibited by wide bandgap MESFETs. The validity of the proposed technique is ensured by applying it on GaN and SiC MESFETs. It has been shown that the developed technique offers 50% and 37% improved accuracy in predicting the output characteristics of the device at T=300 K and T=500 K, respectively, relative to the best reported model. Thus, the proposed technique can be employed in the device modeling software involving high-power MESFETs.

AB - In this paper, an analytical model has been developed to predict DC characteristics of wide bandgap metal semiconductor field effect transistors (MESFETs). The model evaluates potential distribution inside the channel of the device by dividing the Schottky barrier depletion layer into four distinct regions and predicts I-V characteristics both at the room as well as at elevated temperatures. It also considers self-heating effects caused by the high-drain current and predicts negative output conductance, usually exhibited by wide bandgap MESFETs. The validity of the proposed technique is ensured by applying it on GaN and SiC MESFETs. It has been shown that the developed technique offers 50% and 37% improved accuracy in predicting the output characteristics of the device at T=300 K and T=500 K, respectively, relative to the best reported model. Thus, the proposed technique can be employed in the device modeling software involving high-power MESFETs.

KW - analytical model

KW - I - V characteristics

KW - MESFETs

KW - self-heating effects

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DO - 10.1109/ACCESS.2019.2910246

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VL - 7

SP - 49702

EP - 49711

JO - IEEE Access

JF - IEEE Access

M1 - 8685089

ER -

Temperature Dependent Analytical DC Model for Wide Bandgap MESFETs

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