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1T MEMS Memory Based on Suspended Gate MOSFET

2006 International Electron Devices Meeting Pub Date : 2006-12-01 DOI:10.1109/IEDM.2006.346826
N. Abelé, A. Villaret, A. Gangadharaiah, C. Gabioud, P. Ancey, A. Ionescu
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引用次数: 45

Abstract

The design, operation, characterization and scalability of a 1T SG-MOSFET memory cell that combines a MOSFET solid-state device and a microelectromechanical gate electrode, is reported. The proposed SG-MOSFET memory uses the charging of the gate dielectric by direct contact of the conductive gate with the gate insulator during mechanical pull-in, which results in I-V hysteresis. Very low gate leakage and excellent current ratio in programmed logic states are demonstrated. Cycling without significant degradation up to 105 cycles is experimentally shown and the scalability of the cell is explored by simulation
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基于悬栅MOSFET的1T MEMS存储器
本文报道了一种结合了MOSFET固态器件和微机电栅电极的1T SG-MOSFET存储单元的设计、运行、特性和可扩展性。提出的SG-MOSFET存储器在机械拉入过程中通过导电栅极与栅极绝缘体直接接触对栅极电介质进行充电,从而导致I-V滞后。在程序逻辑状态下,极低的栅漏和优异的电流比。实验表明,循环无显著退化可达105次,并通过仿真探讨了电池的可扩展性
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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2006 International Electron Devices Meeting
2006 International Electron Devices Meeting
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