Analytical model of short-channel gate enclosed transistors using Green functions
Enclosed-layout transistors fabricated in standard CMOS processes are known to offer a natural robustness against radiation effects, a characteristic which is boosted in submicron technologies due to the reduction of the oxide thickness. In this paper, a thorough analytical I–V model of short-channel polygonal enclosed-layout transistors is proposed, addressing the issues of drain-induced barrier lowering and threshold voltage roll-off due to short-channel effects. Experimental data is reported,
showing good agreement with the theoretical model.
keywords: Rad-hard transistors, short-channel effects, DIBL, device modeling
Publication: Article
1624014930333
June 18, 2021
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Enclosed-layout transistors fabricated in standard CMOS processes are known to offer a natural robustness against radiation effects, a characteristic which is boosted in submicron technologies due to the reduction of the oxide thickness. In this paper, a thorough analytical I–V model of short-channel polygonal enclosed-layout transistors is proposed, addressing the issues of drain-induced barrier lowering and threshold voltage roll-off due to short-channel effects. Experimental data is reported,
showing good agreement with the theoretical model. - P. López, J. Hauer, B. Blanco-Filgueira, D. Cabello - 10.1016/j.sse.2009.01.018
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