n型体finfet热载流子退化研究

Journal of The Korean Institute of Electrical and Electronic Material Engineers Pub Date : 2020-05-01 DOI:10.4313/JKEM.2020.33.3.169

Park jinsu, Sanchari Showdhury, Geonju Yoon, Jaemin Kim, Kwon, Kee-Won, S. Pae, Jinseok Kim, Yi, Junsin

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引用次数: 0

摘要

本文分析了热载流子注入对n-体翅片场效应晶体管(FinFET)的影响。采用热载流子注入法测定了两种注入后的性能变化，通道热电子(CHE)和漏极雪崩热载流子(DAHC)在室温下的影响最大。CHE注射的最佳条件为VG=VD, DAHC注射的最佳条件可通过测量衬底电流的峰值间接确定。DAHC注入的劣化不仅影响冲击电离形成的热电子，而且影响热空穴，对可靠性的影响大于CHE。此外，我们测试了可以承受的漏极电压量，并提取了器件的寿命。在CHE注入条件下，漏极电压在最高1.25 V时能够保持10年以上的寿命，而DAHC在1.05 V的漏极电压下能够实现超过10年的寿命，比CHE注入条件低0.2 V。

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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Research for Hot Carrier Degradation in N-Type Bulk FinFETs

In this paper, the effect of hot carrier injection on an n-bulk fin field-effect transistor (FinFET) is analyzed. The hot carrier injection method is applied to determine the performance change after injection in two ways, channel hot electron (CHE) and drain avalanche hot carrier (DAHC), which have the greatest effect at room temperature. The optimum condition for CHE injection is VG=VD, and the optimal condition for DAHC injection can be indirectly confirmed by measuring the peak value of the substrate current. Deterioration by DAHC injection affects not only hot electrons formed by impact ionization, but also hot holes, which has a greater impact on reliability than CHE. Further, we test the amount of drain voltage that can be withstood, and extracted the lifetime of the device. Under CHE injection conditions, the drain voltage was able to maintain a lifetime of more than 10 years at a maximum of 1.25 V, while DAHC was able to achieve a lifetime exceeding 10 years at a 1.05-V drain voltage, which is 0.2 V lower than that of CHE injection conditions.

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Journal of The Korean Institute of Electrical and Electronic Material Engineers

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