在沟槽MOS栅结构上生长厚二氧化硅的评价

8th International Symposium on Power Semiconductor Devices and ICs. ISPSD '96. Proceedings Pub Date : 1996-05-20 DOI:10.1109/ISPSD.1996.509453

K. Nakamura, T. Minato, T. Takahashi, H. Nakamura, M. Harada

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引用次数: 12

摘要

我们研究了利用厚度超过20nm的沟槽MOS栅极氧化物的沟槽MOS栅极功率器件。我们的研究结果首次表明，沟槽MOS电容器的泄漏特性在泄漏电流中有一个特定的局部最大值。我们把沟槽MOS电容的漏电流特性称为“驼峰”漏电流。此外，在所述沟槽中二氧化硅(SiO/sub 2/)薄膜的介电击穿发生在特定点之后。实验证实了沟槽顶边缘的凸角是决定厚沟槽MOS栅氧化物电学性能的主要因素，数值模拟结果也支持了这一事实。泄漏电流可以通过化学干蚀刻(CDE)抑制，然后在栅极氧化之前进行牺牲高温氧化。这些因素对于沟槽MOS栅极功率器件的发展至关重要。

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Evaluation of thick silicon dioxides grown on trench MOS gate structures

We have investigated trench MOS gate power devices that utilize trench gate oxide over 20 nm in thickness. Our results show, for the first time, that the leakage characteristics of trench MOS capacitors have a particular local maximum in the leakage current. We call leakage characteristics of a trench MOS capacitor "camel's hump" leakage current. Moreover, the dielectric breakdown of the silicon dioxide (SiO/sub 2/) film in the trench occurs after a specific point. Experiments conducted affirm that the keen convex corner at the trench top edge is the main factor for determining the electrical property of a thick trench MOS gate oxide, and this fact is supported by numerical device simulation. The leakage current can be suppressed by utilizing chemical dry etching (CDE), followed by sacrificial high-temperature oxidation prior to gate oxidation. These factors are considered vital for the development of trench MOS gate power devices.

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来源期刊

8th International Symposium on Power Semiconductor Devices and ICs. ISPSD '96. Proceedings

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