场极板对集成高压LDMOS晶体管击穿电压的影响

2004 Proceedings of the 16th International Symposium on Power Semiconductor Devices and ICs Pub Date : 2004-05-24 DOI:10.1109/WCT.2004.239969

Z. Hossain, T. Ishigwo, L. Tu, H. Corleto, F. Kuramae, R. Nair

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引用次数: 23

摘要

在1 /spl μ /双级金属(DLM)双cmos工艺中，成功集成了具有双金属场极板的700 V双回流LDMOS (DR-LDMOS)，用于高压离线开关应用。该工艺和器件参数决定了同类最佳的比导通电阻低于200 mohm-cm/sup 2/和大于700 V的稳健击穿电压，并在我们的1/sup /一代单级金属(SLM)工艺中进行了优化和解决。在DLM工艺开发过程中发现，当在Metal-1上添加2/sup / layer of dielectric layer (ILD-1)时，击穿电压在应力后开始出现明显的下降，而在Metal-1上不添加ILD-1时，击穿电压没有下降。本文采用新的Metal-2场极板设计，针对Metal-1和ILD-1对DR-LDMOS进行再优化，以保持应力后击穿电压的稳定和稳健。

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Field-plate effects on the breakdown voltage of an integrated high-voltage LDMOS transistor

A 700 V double-resurf LDMOS (DR-LDMOS) with double-metal field plates is successfully integrated monolithically in a 1 /spl mu/ double-level metal (DLM) Bi-CMOS process for use in HV off-line switching applications. The process and device parameters, which determine the best-in-class specific on-resistance of lower than 200 mohm-cm/sup 2/, and a robust breakdown voltage of greater than 700 V, were optimized and addressed in our 1/sup st/ generation DR-LDMOS with single-level metal (SLM) process. It is found, during the DLM process development, that breakdown voltage begins to show significant degradation after stress when a 2/sup nd/ layer of dielectric layer (ILD-1) is added on top of Metal-1, as opposed to no degradation when there was no ILD-1 on top of Metal-1. This paper presents the re-optimization of DR-LDMOS with new Metal-2 field plate designs with respect to Metal-1 and ILD-1 to maintain a stable and robust breakdown voltage (BV) after stress.

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

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