采用双掩膜工艺制备的新型4H-SiC沟槽MOS势垒肖特基整流器

2013 25th International Symposium on Power Semiconductor Devices & IC's (ISPSD) Pub Date : 2013-05-26 DOI:10.1109/ISPSD.2013.6694473

Chwan-Ying Lee, C. Yen, K. Chu, Young-Shying Chen, C. Hung, L. Lee, Tzu-Ming Yang, C. Chuang, C. Huang, M. Tsai

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引用次数: 9

摘要

研究了4H-SiC沟槽MOS势垒肖特基整流器的双掩膜工艺。通过系统仿真和工艺开发，成功制备出击穿电压(BV)大于600V的SiC TMBS器件。平台宽度为2 ~ 4μm，沟槽深度为2μm，沟槽氧化层厚度为0.2μm的SiC TMBS器件具有低反向漏电流和低正向压降的良好特性。这种简单的双掩模工艺(一个用于定义沟槽，另一个用于定义顶电极)使SiC TMBS器件具有摆脱昂贵工艺的优势，例如高温Al+植入(>450°C)和超高温活化(>1600°C)。这可能使SiC TMBS成为潜在的成本损失解决方案，有助于进一步广泛采用SiC肖特基整流器。

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A novel 4H-SiC Trench MOS Barrier Schottky rectifier fabricated by a two-mask process

A two-mask process for 4H-SiC Trench MOS Barrier Schottky (TMBS) rectifiers was studied in this paper. Systematic simulations and process developments were performed and SiC TMBS devices with breakdown voltage (BV) larger than 600V were successfully fabricated. SiC TMBS devices with a mesa width of 2μm to 4μm, a trench depth 2μm and a trench oxide layer of 0.2μm oxide thickness provide good characteristics of low reverse leakage current and low forward voltage drop. This simple two-mask process (one is for defining trench and the other is for defining top electrode) gives the SiC TMBS device the advantages of getting ride of expensive processes such as high temperature Al+ implantations (>450°C) and ultra-high temperature activations (>1600°C). This may enable SiC TMBS a potential lost cost solution to help further widespread the adoption of SiC Schottky rectifiers.

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来源期刊

2013 25th International Symposium on Power Semiconductor Devices & IC's (ISPSD)

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