Tunnel FET with non-uniform gate capacitance for improved device and circuit level performance

机译：具有非均匀栅极电容的隧道FET，用于改进的设备和电路电平性能

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

We propose and report the significant improvement obtained by a non-uniform gate capacitance made by appropriate combination of high-k and low-k regions over the tunneling and the channel regions of a heterostucture TFET (called HKLKT-FET). In addition to significantly enhanced ION and subthreshold swing, we find that this structure offers great improvements for the dynamic switching energy (66% saving) and propagation delay (∼3X fast operation) compared to a heterostructure TFET (HeTFET) due to the reduction of the Miller effect. We compare and benchmark the proposed device against a 65nm low stand-by power (LSP) CMOS technology, and we show that at a supply voltage of VDD = 0.4V, TFETs can have smaller propagation delays compared to CMOS operating in the subthreshold region.

机译：我们提出并报告了通过在隧道和异构结构TFET的隧道和通道区域上通过适当的高k和低k区组合而通过的非均匀栅极电容获得的显着改进。（称为HKLKT-FET）。除了显着增强的离子和亚阈值摆动之外，我们发现该结构对动态开关能量（76％的节省）和传播延迟（~3x快速运行）提供了很大的改进，与由于减少的异质结构TFET（HETFET）相比米勒效应。我们将所提出的设备与65nm的低待机功率（LSP）CMOS技术进行比较和基准测试，并且我们表明，在VDD = 0.4V的电源电压下，与在亚阈值区域中操作的CMOS相比，TFET可以具有较小的传播延迟。

著录项

来源
《European Solid-State Device Research Conference》|2012年||共4页
会议地点
作者
Alper Cem; De Michielis Luca; Dagtekin Nilay; Lattanzio Livio; Ionescu Adrian M.;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类 TN3-53;
关键词

相似文献

外文文献
中文文献
专利

1. Tunnel FET with non-uniform gate capacitance for improved device and circuit level performance [J] . C. Alper, L De Michielis, N. Dagtekin, Solid-State Electronics . 2013,第juna期

机译：具有非均匀栅极电容的隧道FET，可改善器件和电路级性能
2. Device and Circuit Level Performance Comparison of Tunnel FET Architectures and Impact of Heterogeneous Gate Dielectric [J] . Rakhi Narang, Manoj Saxena, R. S. Gupta, Journal of semiconductor technology and science . 2013,第3期

机译：隧道FET架构的器件和电路级性能比较以及异构栅极电介质的影响
3. Investigation of light doping and hetero gate dielectric carbon nanotube tunneling field-effect transistor for improved device and circuit-level performance [J] . Wang Wei, Sun Yuan, Wang Huan, Semiconductor science and technology . 2016,第3期

机译：研究轻掺杂和异质栅介电碳纳米管隧穿场效应晶体管以改善器件和电路级性能
4. Tunnel FET with non-uniform gate capacitance for improved device and circuit level performance [C] . Alper Cem, De Michielis Luca, Dagtekin Nilay, 2012 Proceedings of the European Solid-State Device Research Conference. . 2012

机译：具有非均匀栅极电容的隧道FET，可改善器件和电路级性能
5. Planar source pocket (PSP) tunnel MOSFET: Potential device solution for low power applications and improving tunneling MOSFET performance. [D] . Nagavarapu, Venkatagirish. 2010

机译：平面源极袋（PSP）隧道MOSFET：适用于低功耗应用并改善隧道MOSFET性能的潜在器件解决方案。
6. Device and circuit-level performance of carbon nanotube field-effect transistor with benchmarking against a nano-MOSFET [O] . Michael Loong Peng Tan, Georgios Lentaris, Gehan Amaratunga AJ 2012

机译：以纳米MOSFET为基准的碳纳米管场效应晶体管的器件和电路级性能
7. Device Improvement and Circuit Performance Evaluation of complete SiGe Double Gate Tunnel FETs [O] . Mishra, Rahul, Ghosh, Bahniman 2011

机译：完整siGe的器件改进和电路性能评估双栅隧道FET
8. Microwave Semiconductor Research - Materials, Devices, Circuits. GaAs Ballistic Electron Transistors Using Buried Metal Gates. [R] . Eastman, L. F., Woodard, D. W., Wood, C. E. C., 1982

机译：微波半导体研究 - 材料，器件，电路。采用埋地金属栅的Gaas弹道电子晶体管。

Tunnel FET with non-uniform gate capacitance for improved device and circuit level performance

摘要

著录项

相似文献

相关主题

期刊订阅