Rahul Kumar, E. Hapsari, G. Sheu, Shao-Ming Yang, K. Anil
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引用次数: 2
摘要
本文提出了一种新型的在沟槽底部植入砷的垂直深沟槽超结装置。该器件是一个传统的垂直n沟道DMOS,在栅极附近有一个深沟槽。沟槽形成垂直侧壁,硼被注入并扩散形成p型掺杂柱,与n型外延漂移区电荷平衡。硼的注入引起离子的反向散射,这些离子最终被收集在沟槽底部,这有助于器件的早期击穿。本文介绍了利用砷注入补偿壕沟底部高浓度底部的侧壁植入超级结新技术,该技术是由Sentaurus Process and Device technology-计算机辅助设计(TCAD)模拟器开发的。
A novel ultra high voltage sidewall implant super junction MOSFET using arsenic implantation under trench bottom
In this paper a novel super junction device with vertical deep trench is proposed which have arsenic implant at the bottom of the trench. The device is a conventional vertical N-channel DMOS with a deep trench adjacent to the gate. The trench forms vertical sidewall into which boron is implanted and diffused to form a P-type doping pillar which is charge balanced to the N-type epitaxial drift region. Boron implantation causes back scattering of ions which is finally collected at the bottom of the trench which contributes to early breakdown of the device. This paper present new technology of sidewall implant super junction using arsenic implantation to compensate for high concentration of bottom at the trench bottom developed by Sentaurus Process and Device technology-computer-aided-design (TCAD) simulators.
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