Steep switching tunnel FET: A promise to extend the energy efficient roadmap for post-CMOS digital and analog/RF applications

机译：陡峭的开关隧道FET：有望扩展CMOS后数字和模拟/ RF应用的节能路线图

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Steep switching Tunnel FETs (TFET) can extend the supply voltage scaling with improved energy efficiency for both digital and analog/RF application. In this paper, recent approaches on III-V Tunnel FET device design, prototype device demonstration, modeling techniques and performance evaluations for digital and analog/RF application are discussed and compared to CMOS technology. The impact of steep switching, uni-directional conduction and negative differential resistance characteristics are explored from circuit design perspective. Circuit-level implementation such as III-V TFET based Adder and SRAM design shows significant improvement on energy efficiency and power reduction below 0.3V for digital application. The analog/RF metric evaluation is presented including g

机译：陡峭的开关隧道FET（TFET）可以扩展电源电压比例，并提高数字和模拟/ RF应用的能效。在本文中，讨论了III-V隧道FET器件设计，原型器件演示，建模技术和用于数字和模拟/ RF应用的性能评估的最新方法，并将其与CMOS技术进行了比较。从电路设计的角度探讨了陡峭开关，单向传导和负差分电阻特性的影响。电路级实现，例如基于III-V TFET的加法器和SRAM设计，在数字应用的能效和功耗降低至0.3V以下时均取得了显着改善。提出了模拟/ RF度量评估，包括

著录项

来源
《International Symposium on Low Power Electronics and Design》|2013年|145-150|共6页
会议地点 Beijing(CN)
作者
Liu Huichu; Datta Suman; Narayanan Vijaykrishnan;
展开▼
作者单位

Electrical Engineering Dept. the Pennsylvania State University 354D IST Building the Pennsylvania State University University Park PA 16802 United Statesc;

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
Steep switching; TFET SRAMs; Tunnel FETs; energy efficiency; low power analog/RF; supply voltage scaling; ultra-low power digital;

机译：陡峭的开关； TFET SRAM；隧道FET;能源效率;低功耗模拟/ RF；电源电压缩放；超低功耗数字;

相似文献

外文文献
中文文献
专利

1. Dual delta tunnel FET: An energy efficient switch with improved current switching ratio and steeper subthreshold slope [J] . Vivek Gaurav, Sidhartha Dash, Guru Prasad Mishra Superlattices and microstructures . 2017,第JULa期

机译：双三角隧道FET：一种节能开关，具有更高的电流开关比和更陡的亚阈值斜率
2. Strained silicon based complementary tunnel-FETs: Steep slope switches for energy efficient electronics [J] . L. Knoll, S. Richter, A. Nichau, Solid-State Electronics . 2014,第auga期

机译：应变硅基互补隧道FET：陡峭斜率开关，用于节能电子产品
3. Steep Subthreshold Slope n- and p-Type Tunnel-FET Devices for Low-Power and Energy-Efficient Digital Circuits [J] . Khatami Y., Banerjee K. Electron Devices, IEEE Transactions on . 2009,第11期

机译：用于低功耗和节能数字电路的陡峭亚阈值斜率n型和p型隧道FET器件
4. Steep switching tunnel FET: A promise to extend the energy efficient roadmap for post-CMOS digital and analog/RF applications [C] . Liu Huichu, Datta Suman, Narayanan Vijaykrishnan International Symposium on Low Power Electronics and Design . 2013

机译：陡峭的切换隧道FET：一个承诺扩展CMOS数字和模拟/射频应用的能量高效路线图
5. Switching-wavelength picosecond pulses and their applications in photonic processing of high-speed analog and digital signals. [D] . Lee, Ka-lun. 2003

机译：开关波长皮秒脉冲及其在高速模拟和数字信号的光子处理中的应用。
6. Graphene Klein tunnel transistors for high speed analog RF applications [O] . Yaohua Tan, Mirza M. Elahi, Han-Yu Tsao, -1

机译：用于高速模拟RF应用的石墨烯Klein隧道晶体管
7. 23 µW 8.9-effective number of bit 1.1 MS/s successive approximation register analog-to-digital converter with an energy-efficient digital-to-analog converter switching scheme [O] . Lei Sun, Chi Tung Ko, Marco Ho, 2014

机译：23μW8.9有效位数1.1 ms / s逐次逼近寄存器模数转换器，具有高能效的数模转换器切换方案
8. Breakthroughs in Analog and RF Circuit Performance through Steep Slope FinFETs. [R] . Gaillardon, P., Walker, R., Rodriguez, B. S. 2016

机译：通过陡峭斜率FinFET实现模拟和RF电路性能的突破。

Steep switching tunnel FET: A promise to extend the energy efficient roadmap for post-CMOS digital and analog/RF applications

摘要

著录项

相似文献

相关主题

期刊订阅