一种新型的带P-sink层的700V深沟槽隔离双RESURF LDMOS

2017 29th International Symposium on Power Semiconductor Devices and IC's (ISPSD) Pub Date : 2017-05-01 DOI:10.23919/ISPSD.2017.7988954

Shikang Cheng, Dong Fang, M. Qiao, Sen Zhang, Guangsheng Zhang, Yan Gu, Yitao He, Xin Zhou, Zhao Qi, Zhaoji Li, Bo Zhang

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引用次数: 8

摘要

本文提出了一种新型的具有P-sink层的DTI双RESURF LDMOS，并进行了实验验证。该结构在深沟底部周围设置P-sink层，深沟是深n型井(deep N-type Well, DNW)在高温掘进过程中形成的。高掺杂p汇层抑制了耗尽区沿水平方向的扩展，提高了隔离性能。仿真结果表明，由于p -汇层的损耗效应增强，DTI LDMOS的表面电场峰值降低了35%。同时，DNW和P-top区的浓度增加，使Ron、sp降低。此外，隔离区面积显著减小，从而使芯片尺寸最小化。实验获得了Ron, sp为96.2 mΩ·cm2, BV为758 V的LDMOS，突破了传统双RESURF技术Ron, sp-BV硅的限制。

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A novel 700V deep trench isolated double RESURF LDMOS with P-sink layer

A novel DTI double RESURF LDMOS with P-sink layer is presented and experimentally demonstrated in this paper. The novel structure features a P-sink layer around the bottom of deep trench, which is formed with the Deep N-type Well (DNW) after the process of high temperature driving in. The highly doped P-sink layer restrains the extension of depletion region along the horizontal direction, improving the isolation performance. According to the simulation results, the surface electric field peak of the proposed DTI LDMOS is reduced by 35 % due to the enhanced depletion effect of P-sink layer. Meanwhile, the concentration of DNW and P-top region are increased, thus the Ron, sp is decreased. Furthermore, the isolation region area is reduced significantly so that the chip size will be minimized. The LDMOS with Ron, sp of 96.2 mΩ·cm2 and BV of 758 V is experimentally achieved, which breaks the conventional Ron, sp-BV silicon limit of double RESURF technology.

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来源期刊

2017 29th International Symposium on Power Semiconductor Devices and IC's (ISPSD)

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