功率vdmosfet中正栅极偏置应力和后续恢复处理的影响

N. Stojadinovic, I. Manic, S. Djoric-Veljkovic, V. Davidovic, S. Golubovic, S. Dimitrijev
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引用次数: 0

摘要

提出并分析了正极偏置应力和随后的恢复处理对功率vdmosfet的阈值电压和沟道载流子迁移率的影响,以及栅极氧化捕获电荷和界面捕获密度的潜在变化。正栅极偏置应力导致功率vdmosfet的阈值电压显著正移和迁移率降低,而随后的恢复处理导致阈值电压几乎完全恢复,迁移率仅部分恢复。流动性仍比初始值低40%以上,再进行任何处理都无法完全恢复。与栅极氧化物陷阱相关的隧道机制被认为是在应力过程中形成正氧化物陷阱电荷(电子从中性氧化物陷阱隧穿到氧化物导带)和界面陷阱(随后从带电氧化物陷阱隧穿到界面陷阱前体)的主要机制。在回收处理过程中,与氢的存在有关的机制被认为是导致氧化物捕获电荷(由于它们与氢原子反应而导致界面阱钝化)和界面阱(氢分子在带电的氧化物阱中开裂)密度降低的主要机制。研究了辐照前正栅偏置应力对功率vdmosfet辐射响应的影响。在应力器件中观察到较大的辐照诱导阈值电压位移和迁移率降低,清楚地表明栅极偏置应力不适用于功率vdmosfet的辐射硬化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of positive gate bias stressing and subsequent recovery treatment in power VDMOSFETs
The effects of positive gate bias stressing and subsequent recovery treatment on threshold voltage and channel carrier mobility of power VDMOSFETs and the underlying changes in gate oxide-trapped charge and interface trap densities are presented and analysed in terms of the mechanisms responsible. Positive gate bias stress caused significant positive threshold voltage shift and mobility reduction in power VDMOSFETs, while their subsequent recovery treatment resulted into almost completely recovered threshold voltage and only partially recovered mobility. As for the mobility, it was still more than 40% below the initial value and could not be completely recovered by any additional treatment. Tunneling mechanisms associated with gate oxide traps are proposed as the dominant mechanisms responsible for buildup of positive oxide-trapped charge (electron tunneling from neutral oxide traps into the oxide conduction band) and interface traps (subsequent hole tunneling from the charged oxide traps to interface-trap precursors) during the stressing. Mechanisms related to a presence of hydrogen species are proposed as the main mechanisms responsible for decrease in densities of oxide-trapped charge (interface trap passivation due to their reaction with hydrogen atoms) and interface traps (hydrogen molecule cracking at charged oxide traps) during the recovery treatment. The effects of pre-irradiation positive gate bias stress on radiation response of power VDMOSFETs are also presented. Larger irradiation induced threshold voltage shift and mobility reduction in stressed devices are observed, clearly demonstrating inapplicability of gate bias stressing for radiation hardening of power VDMOSFETs.
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