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Modeling and design of a low-voltage SOI suspended-gate MOSFET (SG-MOSFET) with a metal-over-gate architecture

Proceedings International Symposium on Quality Electronic Design Pub Date : 2002-03-18 DOI:10.1109/ISQED.2002.996794
A. Ionescu, V. Pott, R. Fritschi, K. Banerjee, M. Declercq, P. Renaud, C. Hibert, P. Fluckiger, G. Racine
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引用次数: 81

Abstract

A novel MEMS device architecture: the SOI SG-MOSFET, which combines a solid-state MOS transistor and a suspended metal membrane in a unique metal-over-gate architecture, is proposed. A unified physical analytical model (weak, moderate and strong inversions) is developed and used to investigate main electrostatic characteristics in order to provide first-order design criteria for low-voltage operation and high-performance. It is demonstrated that the use of a thin gate oxide (<20 nm) is essential for a high C/sub on//C/sub off/ ratio (>100) and a low spring constant (<100 N/m) is needed for low voltage (<5 V) actuation. An adapted fabrication process is reported.
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金属过闸结构的低压SOI悬栅MOSFET (SG-MOSFET)的建模与设计
提出了一种新的MEMS器件结构:SOI SG-MOSFET,它将固态MOS晶体管和悬浮金属膜结合在一个独特的金属过闸结构中。建立了一个统一的物理分析模型(弱、中、强反转),并用于研究主要静电特性,为低压运行和高性能提供一阶设计准则。结果表明,低电压(<5 V)驱动需要使用薄栅极氧化物(100)和低弹簧常数(<100 N/m)。本文报道了一种适用的制造工艺。
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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Proceedings International Symposium on Quality Electronic Design
Proceedings International Symposium on Quality Electronic Design
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