采用高宽高比沟槽刻蚀和硼横向扩散技术制备了一种新型的超结沟槽栅MOSFET

2013 25th International Symposium on Power Semiconductor Devices & IC's (ISPSD) Pub Date : 2013-05-26 DOI:10.1109/ISPSD.2013.6694459

S. G. Kim, H. Park, S. Yoo, K. Na, J. Koo, J. Won, K. Park, Y. Yang, J. Lee

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引用次数: 3

摘要

我们提出了一种超结沟槽栅MOSFET (SJ TGMOSFET)，采用深沟槽和硅酸硼玻璃(BSG)掺杂工艺技术，以简单的p柱成形工艺制备，以降低工艺复杂性。p柱区域是通过BSG膜的横向硼扩散和硅深蚀刻后的退火工艺形成的。对于BSG横向扩散制备的SJ型TGMOSFET，硼浓度和分布的控制是实现p柱和n柱电荷平衡的重要因素。通过各种硼掺杂实验和工艺模拟，我们优化了与p柱深度、BSG掺杂浓度和扩散温度相关的工艺条件。由于p柱的沟槽化，SJ型TGMOSFET的电势比传统的TGMOSFET分布更均匀，更广泛地分布在n漂移层的大块区域。SJ型TGMOSFET的击穿电压比传统的TGMOSFET至少提高28%。

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A novel super-junction trench gate MOSFET fabricated using high aspect-ratio trench etching and boron lateral diffusion technologies

We propose a super-junction trench gate MOSFET (SJ TGMOSFET) which is fabricated with a simple p-pillar forming process using deep trench and boron silicate glass (BSG) doping process technologies to reduce the process complexity. The p-pillar region is formed through lateral boron diffusion from BSG film and annealing process after the silicon deep etching. For the SJ TGMOSFET fabricated with BSG lateral diffusion, the controls of the boron concentration and the profile are important to achieve the charge balance between p-and n-pillars. Throughout the various boron doping experiments as well as process simulation, we optimize process conditions related with p-pillar depth, BSG doping concentration and diffusion temperature. Due to the trenched p-pillar, the potential of the SJ TGMOSFET more uniformly distributes and widely spreads into the bulk region of the n-drift layer comparing to the conventional TGMOSFET. The measured breakdown voltage of SJ TGMOSFET increases at least 28% than that of the conventional TGMOSFET.

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来源期刊

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

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