Current Model of Fully Depleted Nanoscale Surrounding-Gate Metal–Oxide–Semiconductor Field-Effect Transistors with Doped Channel in All Operation Regions
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概要
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The diffusion current of fully depleted (FD) nanoscale surrounding-gate (SG) metal–oxide–semiconductor field effect transistors (MOSFETs) with a doped channel was physically modeled with a simple closed form based on the surface potential. The potential distribution [$\varPhi_{x}(z)$] of doped SG MOSFETs was derived using Young’s simple approximation from a two-dimensional (2D) Poisson’s equation. In the diffusion current model, to consider the dependence on gate bias ($V_{\text{GS}}$) and drain bias ($V_{\text{DS}}$), parameters ($D_{\text{G}}$ and $D_{\text{D}}$) were introduced. In the saturation region, the drift current modeling of doped FD SG MOSFETs was easily performed from the derived current model in the linear region. The current of the devices in the transition region was also modeled with the simple closed form using the diffusion and drift current model. Our simple compact model accurately predicted the current behaviors of the devices with a channel length up to 20 nm and shown good agreement with three-dimensional (3D) simulation.
- 2009-08-25
著者
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Choi Byung-kil
School Of Electrical Engineering And Computer Science Kyungpook National Univ.
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Cho Il
Department Of Biotechnology Chung-ang University
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Kwon Hyuck-in
School Of Eecs Kyungpook National University
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Lee Jong-ho
School Of Eecs Engineering Kyungpook National University
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Jeong Min-Kyu
School of Electrical Engineering and Computer Science, Kyungpook National University, Sankyuk-dong, Buk-gu, Daegu 702-701, Korea
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Kwon Hyuck-In
School of Electric Engineering, Daegu University, Jillyang-eup, Gyeongsan, Gyeongbuk 712-714, Korea
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Jeong Min-Kyu
School of EECS and ISRC, Seoul National University, Seoul 151-742, Korea
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Lee Jong-Ho
School of EECS and ISRC, Seoul National University, Seoul 151-742, Korea
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