填充二氧化硅沟槽隔离结构和植入副集电极对闭锁稳健性的影响

2005 IEEE International Reliability Physics Symposium, 2005. Proceedings. 43rd Annual. Pub Date : 2005-04-17 DOI:10.1109/RELPHY.2005.1493072

S. Voldman, E. Gebreselasie, L. Lanzerotti, T. Larsen, N. Feilchenfeld, S. St. Onge, A. Joseph, J. Dunn

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引用次数: 18

摘要

本文论证了一种新型低成本的氧化物填充沟槽隔离结构和植入的子集电极对闭锁稳健性的影响。随着规模的扩大和对低成本无线技术的关注，人们正在开发利用较浅的氧化填充沟槽结构和低掺杂植入子集热器的新技术。本文展示了利用这种新的隔离结构及其与植入子收集器的集成进行的首次闭锁测量和相应的新发现。本文将闭锁测量与基础CMOS技术(例如标准双孔p衬底技术)进行比较，以量化净改进。结果显示了单独的沟槽隔离，单独的副集热器，以及沟槽隔离和副集热器的联合效应。

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The influence of a silicon dioxide-filled trench isolation structure and implanted sub-collector on latchup robustness

This paper demonstrates the effect of a new low-cost oxide filled trench isolation structure, and implanted sub-collectors, on the latchup robustness. With scaling and focus on low-cost wireless technology, new technologies are being developed utilizing a shallower oxide-filled trench structure and low-doped implanted sub-collectors. In this paper, the first latchup measurements and corresponding new discoveries are shown, utilizing this new isolation structure and its integration with implanted sub-collectors. This paper compares latchup measurements with the base CMOS technology (e.g. standard dual well p-substrate base technology) to quantify the net improvement. The results are shown with trench isolation only, sub-collector only, and the combined effect of the trench isolation and sub-collector.

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2005 IEEE International Reliability Physics Symposium, 2005. Proceedings. 43rd Annual.

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