一种包含GS - DG - mosfet陷阱效应的紧凑解析电流模型

2010 XIth International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design (SM2ACD) Pub Date : 2010-12-17 DOI:10.1109/SM2ACD.2010.5672338

T. Bentercia, F. Djeffal, M. Abdi, D. Arar

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引用次数: 2

摘要

由于DG mosfet对短通道效应的出色控制，它们被认为是扩展传统体mosfet缩放极限的主要候选器件。然而，热载流子注入栅极氧化物仍然是可靠性领域的一个潜在问题，从而改变了器件的使用寿命。本文建立了考虑热载流子诱导退化效应的漏极电流综合模型，并基于阈值电压和迁移率的假设进行了推导。利用所得到的模型，我们研究了在器件结构中加入高k层的有效性，并检测到器件结构的改进，其精度和效率使我们的DG mosfet电流-电压分析模型适用于电路仿真程序。

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A compact analytical current model including traps effects for GS DG MOSFETs

Due to the excellent control of DG MOSFETs over the short channel effects, they have been considered as a leading candidate to extend the scaling limit of conventional bulk MOSFETs. However, the hot carrier injection into gate oxides remains a potential problem in reliability field hence altering the device lifetime. In the present paper, a comprehensive drain current model incorporating hot-carrier-induced degradation effect is developed, the derivation is carried out based on some assumptions regarding threshold voltage and mobility. Using obtained model, we have studied the utility of adding a high-k layer into the device structure for which an improvement is detected, the accuracy and efficiency make our analytic current-voltage model for DG MOSFETs suitable for circuit simulation programs.

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来源期刊

2010 XIth International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design (SM2ACD)

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