一种多沟道模拟+逻辑保护(m - trap)，用于在0.25 /spl mu/m具有100V高侧能力的智能电源平台中防止衬底串扰

2004 Proceedings of the 16th International Symposium on Power Semiconductor Devices and ICs Pub Date : 2004-05-24 DOI:10.1109/WCT.2004.240347

V. Parthasarathy, V. Khemka, R. Zhu, I. Puchades, T. Roggenbauer, M. Butner, P. Hui, P. Rodriquez, A. Bose

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引用次数: 18

摘要

我们之前曾报道过一种74 V(典型的)高侧能力0.25 /spl mu/m的智能电源技术，该技术在p++衬底上具有深沟槽和厚P -epi (V. Parthasarathy等人，IEDM, P .459-462, 2002)。确定并讨论了功率IC工艺中高侧能力和衬底注入保护之间的独特权衡。在本文中，我们揭示了该平台的一个关键技术使能器:一种隔离结构，它利用功率器件外一系列固定宽度的深沟槽作为物理屏障，将电子流重定向到低寿命的高掺杂区域。我们利用该技术实现了在注入NLDMOS负漏极电流为3 a的情况下，在距离小于30 /spl mu/m的情况下，在没有任何保护环偏置方案的情况下，寄生收集电流小于100 nA。该平台通过创新的器件和布局设计，在没有任何工艺修改的情况下，将高侧能力升级到100v(典型)。

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A multi trench analog+logic protection (M-TRAP) for substrate crosstalk prevention in a 0.25 /spl mu/m smart power platform with 100V high-side capability

We have previously reported a 74 V (typical) high-side capable 0.25 /spl mu/m smart power technology with deep trench and a thick p-epi on P++ substrate (V. Parthasarathy et al, IEDM, p.459-462, 2002). A unique trade-off between high-side capability and substrate injection protection in a power IC process was identified and discussed. In this paper, we reveal a key technology enabler on this platform: an isolation structure which utilizes a series of deep trenches with fixed width outside the power device as a physical barrier to redirect electron flow into a more heavily doped region with low lifetime. We have exploited this technique to realize a parasitic collection current of less than 100 nA for an injected NLDMOS negative drain current of 3 A in a distance of less than 30 /spl mu/m without any guard ring biasing scheme. The high side capability of this platform has been upgraded to 100 V (typical) through innovative device and layout design and without any process modification.

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2004 Proceedings of the 16th International Symposium on Power Semiconductor Devices and ICs

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