Vol. 10 No. 1 (2021), Original Research Articles
Vol. 10 No. 1 (2021)

A Unified Framework for Predicting Surface Potential in Reduced Surface Field Laterally Double Diffused MOSFETs

Original Research Articles
Published 2021-01-24
Amira S. Khalil
Department of Electrical and Computer Engineering, Cairo University, Cairo, Egypt / Department of Physics, Mansoura University, Mansoura, Egypt
Mohamed A. Morsi
Department of Electrical and Computer Engineering, Cairo University, Cairo, Egypt / Department of Physics, Mansoura University, Mansoura, Egypt
Ahmed M. Fadali
Department of Electrical and Computer Engineering, Cairo University, Cairo, Egypt / Department of Physics, Mansoura University, Mansoura, Egypt
Ghada A. Elsayed
Department of Electrical and Computer Engineering, Cairo University, Cairo, Egypt / Department of Physics, Mansoura University, Mansoura, Egypt
Caroline M. Abdelaziz
Department of Electrical and Computer Engineering, Cairo University, Cairo, Egypt / Department of Physics, Mansoura University, Mansoura, Egypt
Ayman A. Elsayed
Department of Electrical and Computer Engineering, Cairo University, Cairo, Egypt / Department of Physics, Mansoura University, Mansoura, Egypt
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Keywords

LDMOS
MATLAB
RESURF
modeling
TCAD.

How to Cite

[1]
A. S. Khalil, M. A. Morsi, A. M. Fadali, G. A. Elsayed, C. M. Abdelaziz, and A. A. Elsayed, “A Unified Framework for Predicting Surface Potential in Reduced Surface Field Laterally Double Diffused MOSFETs”, J. Comput. Eng., vol. 10, no. 1, Jan. 2021, Accessed: Apr. 13, 2026. [Online]. Available: https://journalofcomputerengineering.com/index.php/jce/article/view/1295
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Abstract

—In this paper, a methodology for physically modeling the intrinsic MOS part and the drift region of the n-channel Laterally Double-diffused MOSFET (LDMOS) is presented. The basic physical effects like velocity saturation, mobility reduction, and nonuniform impurity concentration in the channel are taken into consideration. The analytical model is implemented using MATLAB. A comparison of the simulations from technology computer aided design (TCAD) and that from the proposed analytical model, at room temperature, shows a satisfactory accuracy which is less than 5% for the whole voltage domain
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Copyright (c) 2021 Amira S. Khalil, Mohamed A. Morsi, Ahmed M. Fadali, Ghada A. Elsayed, Caroline M. Abdelaziz, Ayman A. Elsayed (Author)

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