Book ChapterDOI
Minimization of Drain-End Leakage of a U-Shaped Gated Tunnel FET for Low Standby Power (LSTP) Application
Suman Das,Avik Chattopadhyay,Suchismita Tewari +2 more
- pp 393-402
TLDR
In this article, the transfer characteristic of a U-shaped gated tunnel FET has been thoroughly investigated considering the real-time adverse effects of gate-to-drain direct tunneling current and gate-induced drain leakage (GIDL) effect using SILVACO ATLAS device simulator.Abstract:
In this paper, for the first time, the transfer characteristic of a ‘U’-shaped gated tunnel FET (TFET) has been thoroughly investigated considering the real-time adverse effects of gate-to-drain direct tunneling current and gate-induced drain leakage (GIDL) effect using SILVACO ATLAS device simulator. Clearly, these leakage phenomena degrade the device performance, especially for low standby power (LSTP) operation. Hence, for the first time, a novel design modification has been proposed in terms of the optimization of the oxide thickness (TGD) of right vertical arm of the U-shaped gate, in order to mitigate the aforementioned problem. It has been found that when the TGD value is increased to 7 nm from the equivalent oxide thickness (EOT) value of 1.6 nm, the ultimate device becomes optimized in terms of the performance matrices like, IOFF, SSmin, ION/IOFF, etc. Moreover, 43% reduction in delay and almost 11 decades of OFF-state power reduction have been obtained for the optimized device than that of the device having TGD = 1.6 nm, for gate length of 70 nm.read more
References
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Journal ArticleDOI
Symmetric U-Shaped Gate Tunnel Field-Effect Transistor
TL;DR: In this paper, a novel heterojunction symmetric U-shaped gate tunnel FET (SUTFET) is proposed and investigated by Silvaco Atlas simulation, which can enlarge the area of the tunneling junction and facilitate the implementation of a smaller device area.
Book ChapterDOI
Effective Bohm Quantum Potential for device simulators based on drift-diffusion and energy transport
TL;DR: In this article, the authors present a derivation of a very convenient approach to include quantum confinement effects in drift-diffusion or hydrodynamic device simulators, without explicitly solving the Schrodinger equation.
Proceedings ArticleDOI
A new robust non-local algorithm for band-to-band tunneling simulation and its application to Tunnel-FET
TL;DR: In this paper, a non-local algorithm for accurately calculating the band-to-band tunneling current suitable for TCAD semiconductor simulators is proposed, which captures the essential physics of multi-dimensional tunneling in a 2D structure, and is designed to be robust and achieve independence on the mesh grid.
Proceedings ArticleDOI
A tunnel FET design for high-current, 120 mV operation
Pengyu Long,Jun Z. Huang,Michael Povolotskyi,Devin Verreck,James Charles,Tillmann Kubis,Gerhard Klimeck,Mark J. W. Rodwell,Benton H. Calhoun +8 more
TL;DR: In this article, simulations of logic transistor operation at supply voltages V dd between 0.08 and 0.18V are presented. And they show that the minimum feasible Vdd is constrained by the transistor subthreshold swing (SS) given a target /on/off ratio, and also by the reduction of the drain current as the drain Fermi level approaches the channel conduction-band energy.