Design and Analysis of Gate Underlapped/Overlapped Surround Gate Nanowire TFET for Analog Performance

2019 4th International Conference on Recent Trends on Electronics, Information, Communication & Technology (RTEICT) Pub Date : 2019-05-01 DOI:10.1109/RTEICT46194.2019.9016837

Shamshad Alam, A. Raman, B. Raj, Naveen Kumar

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Abstract

In this paper, gate all around (GAA) tunnel field effect transistor (TFET) of the p-type channel is introduced. GAA has better gate control over the channel thereby it provides high ION/IOFF ratio. Since there is horizontal tunneling in conventional GAATFET when we introduce overlapping of the source and drain inside the channel the current abruptly increases and hence ION/IOFF. Sub-threshold slop is below 20 mv/decade in case of drain overlapped GAA. In source overlapped tunneling takes place in two directions while in conventional GAATFET tunneling was at source-channel interface only. Also, we have compared the ON current and OFF current with a variation of the drain current of non-overlapped, source overlapped and Drain overlapped of GAATFET, and we got the better result of drain overlapped GAATFET. In Drain overlapped GAATFET the subthreshold slope is lowest than other two structure so it provides an abrupt increase in ION.

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栅极重叠/重叠环绕栅极纳米线TFET模拟性能的设计与分析

本文介绍了p型沟道的GAA隧道场效应晶体管(ttfet)。GAA对通道具有更好的栅极控制，从而提供高离子/IOFF比。由于在传统的GAATFET中存在水平隧穿，当我们在通道内引入源极和漏极的重叠时，电流突然增加，从而产生离子/IOFF。漏极重叠GAA时，亚阈值斜率低于20mv / 10年。在源叠加中，隧穿发生在两个方向上，而在传统的GAATFET中，隧穿只发生在源信道界面上。同时，我们还比较了GAATFET的导通电流和关断电流以及漏极重叠、源极重叠和漏极重叠时漏极电流的变化，得出漏极重叠GAATFET效果更好。在漏极重叠GAATFET中，阈下斜率比其他两种结构低，因此它提供了离子的突然增加。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 4th International Conference on Recent Trends on Electronics, Information, Communication & Technology (RTEICT)

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