ESD in FinFET technologies: Past learning and emerging challenges

2013 IEEE International Reliability Physics Symposium (IRPS) Pub Date : 2013-04-14 DOI:10.1109/IRPS.2013.6531950

D. Linten, G. Hellings, Shih-Hung Chen, G. Groeseneken

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引用次数: 21

Abstract

FinFET technologies were seen as a potential roadblock for providing high ESD reliable ICs due to the 3D nature of the narrow Si fins which do not allow a large current conduction before thermal failure. However, a detailed assessment of common ESD structures such as diodes and grounded gate devices, has shown that ESD reliability is not a roadblock for finFET-based products. Studying both SOI and bulk FinFETs, bulk FinFET was found to provide superior ESD performance due to the fin connection to the substrate. Focusing on sub-20-nm bulk FinFET technologies, emerging challenges are not limited to dealing with the smaller silicon volume of the fins and finer pitch, but also with the introduction of high mobility channels in the fins. The introduction of these materials can have a profound impact on the intrinsic ESD performance and must therefore be studied. In this work we will present past learning on ESD protection devices in FinFET technologies, for SOI and bulk FinFETs, TCAD methods used to analyze the ESD results, and we will present the results for non-silicon FinFET technologies which are being considered for the 14 and 10-nm CMOS nodes.

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ESD在FinFET技术:过去的学习和新出现的挑战

FinFET技术被认为是提供高ESD可靠ic的潜在障碍，因为窄Si翅片的3D特性在热失效之前不允许大电流传导。然而，对常见ESD结构(如二极管和接地栅极器件)的详细评估表明，ESD可靠性并不是基于finfet的产品的障碍。通过对SOI和块状FinFET的研究，发现块状FinFET由于其与衬底的连接而具有优异的ESD性能。聚焦于20纳米以下的体FinFET技术，新出现的挑战不仅限于处理更小的晶片硅体积和更细的间距，还包括在晶片中引入高迁移率通道。这些材料的引入会对静电放电的内在性能产生深远的影响，因此必须进行研究。在这项工作中，我们将介绍过去在FinFET技术中的ESD保护器件的学习，对于SOI和bulk FinFET，用于分析ESD结果的TCAD方法，我们将介绍正在考虑用于14和10纳米CMOS节点的非硅FinFET技术的结果。

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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2013 IEEE International Reliability Physics Symposium (IRPS)

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