Electro-thermal assessment of heterojunction tunnel-FET for low-power digital circuits

T. P. Dash; Sanghamitra Das; S. Dey; C. K. Maiti

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Electro-thermal assessment of heterojunction tunnel-FET for low-power digital circuits

机译：低功率数字电路异质结隧道式电热的电热评估

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To overcome the fundamental limitations of conventional MOSFETs, tunnel field effect transistors (TFETs) with strained-SiGe channel(via heterogeneous integration) may be used and is demonstrated using TCAD simulations. We mainly focus on the design and implementation of silicon-germanium (SiGe)-based tunnel field effect transistor, aiming to reduce the device operation voltage down to below 0.5 V. Physics-based electro-thermal simulations are performed for evaluating the self-heating(temperature rise) in the devices. We present the results of the electro-thermal analysis supported by effective 2D and 3D device simulations. Performance improvement in drain current as high as 200% has been achieved.

机译：为了克服常规MOSFET的基本限制，可以使用具有应变SiGe通道（通过异构积分）的隧道场效应晶体管（TFET），并使用TCAD模拟进行说明。我们主要专注于硅 - 锗（SiGe）的隧道场效应晶体管的设计和实施，旨在将设备运行电压降低至低于0.5 V.物理基电热模拟，用于评估自加热（温度上升）在设备中。我们介绍了通过有效的2D和3D设备模拟支持的电热分析的结果。已经实现了低至200％的排水电流的性能提高。

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来源
《International Journal of Nanoparticles》 |2019年第2期|共13页
作者
T. P. Dash; Sanghamitra Das; S. Dey; C. K. Maiti;
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作者单位

Department of Electronics and Communication Engineering Siksha 'O' Anusandhan (Deemed to be University);

Department of Electronics and Communication Engineering Siksha 'O' Anusandhan (Deemed to be University);

Department of Electronics and Communication Engineering Siksha 'O' Anusandhan (Deemed to be University);

Department of Electronics and Communication Engineering Siksha 'O' Anusandhan (Deemed to be University);

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正文语种 eng
中图分类特种结构材料;
关键词
Heterostructure tunnel FET; Strained-SiGe; Heterogeneous integration; Electro-thermal simulation;

机译：异质结构隧道FET;紧张的sige;异质整合;电热模拟;

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专利

1. Electro-thermal assessment of heterojunction tunnel-FET for low-power digital circuits [J] . T. P. Dash, Sanghamitra Das, S. Dey, International Journal of Nanoparticles . 2019,第2期

机译：低功率数字电路异质结隧道式电热的电热评估
2. Assessment of InAs/AlGaSb Tunnel-FET Virtual Technology Platform for Low-Power Digital Circuits [J] . Sebastiano Strangio, Pierpaolo Palestri, Marco Lanuzza, IEEE Transactions on Electron Devices . 2016,第7期

机译：低功率数字电路的InAs / AlGaSb隧道FET虚拟技术平台评估
3. Device and Circuit-Level Assessment of GaSb/Si Heterojunction Vertical Tunnel-FET for Low-Power Applications [J] . Tripathy Manas Ranjan, Singh Ashish Kumar, Samad A., IEEE Transactions on Electron Devices . 2020,第3期

机译：用于低功耗应用的Gasb / Si异质连接垂直隧道FET的装置和电路级评估
4. Assessment of Heterojunction SiGe Tunnel-FET for Low-Power Digital Circuits [C] . C. K. Maiti, T. P. Dash, S. Das International Conference on Devices for Integrated Circuit . 2017

机译：低功耗数字电路异质结SiGe隧道FET的评估
5. Accurate power estimation of CMOS digital circuits and its application to low-power digital logic synthesis. [D] . Chou, Tan-Li. 1996

机译：CMOS数字电路的准确功率估计及其在低功率数字逻辑合成中的应用。
6. Drain Current Model for Double Gate Tunnel-FETs with InAs/Si Heterojunction and Source-Pocket Architecture [O] . Hongliang Lu, Bin Lu, Yuming Zhang, 2019

机译：具有InAs / Si异质结和源极口袋结构的双栅隧道FET的漏极电流模型
7. Assessment of InAs/AlGaSb Tunnel-FET Virtual Technology Platform for Low-Power Digital Circuits [O] . Sebastiano Strangio, Pierpaolo Palestri, Marco Lanuzza, 2016

机译：低功耗数字电路INAS / AlGASB隧道虚拟技术平台评估

Electro-thermal assessment of heterojunction tunnel-FET for low-power digital circuits

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