低功耗单晶体管SRAM单元的设计

2016 International Conference on Emerging Trends in Electrical Electronics & Sustainable Energy Systems (ICETEESES) Pub Date : 2016-03-11 DOI:10.1109/ICETEESES.2016.7581401

N. Yadava, V. Mishra, R. Chauhan

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引用次数: 2

摘要

本文设计并仿真了以隧道二极管为基本锁存电路元件的单晶体管静态随机存取存储单元(SRAM)。SRAM单元由一个有效栅极长度为18nm的晶体管(nMOSFET)和一对峰谷电流比(PVR)分别为1.67的硅锗隧道二极管组成。利用背靠背串联隧道二极管对的双稳性来保持所设计的SRAM单元的状态，通过晶体管来控制隧道二极管的开关。设计的SRAM状态的变化是通过晶体管漏极电流(ID)的变化来观察的。与传统SRAM单元和其他SRAM单元结构相比，该SRAM单元大大降低了功耗。

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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Design of one-transistor SRAM cell for low power consumption

In this work one-transistor static random access memory cell (SRAM) to reduce power consumption using tunnel diode as basic latching circuit element is designed and simulated. The SRAM cell consists of a transistor (nMOSFET) having effective gate length of 18nm and a pair of Si-Ge Tunnel diode having current peak to valley current ratio (PVR) of value 1.67 each. The bistability of the back-to-back series connected tunnel diode pair is used to hold the states of the designed SRAM cell and the pass transistor is used to control the switching of the tunnel diode. The changing in the state of the designed SRAM is observed by the variation of drain current (ID) of the transistor. This SRAM cell highly reduces the power dissipation compared to conventional SRAM cell and other SRAM cell structures.

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来源期刊

2016 International Conference on Emerging Trends in Electrical Electronics & Sustainable Energy Systems (ICETEESES)

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