植入体调谐改善多晶硅电阻均匀性

2012 IEEE International Conference on Electronics Design, Systems and Applications (ICEDSA) Pub Date : 2012-11-01 DOI:10.1109/ICEDSA.2012.6507817

Tiong Ung Chiong, J. BoChao, Park， Ju Young, B. Sia, L. C. Meng, S. Loh

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引用次数: 0

摘要

Viista80高电流系列离子注入机通过高功率光束密度注入提高了生产吞吐量。然而，高剂量率植入在晶圆内产生了不希望的聚电阻变化。在模拟电路设计中，不均匀的多电阻会导致器件匹配不良，特别敏感。本文介绍了一种多晶硅植入过程中三个工艺参数的实验设计(DOE)调谐方法。研究的三个工艺参数是旋转、光束密度和漂移扩展模式(DEX)。这种调整的最终结果在不影响总体平均电阻值的情况下显着改善了均匀性。根据DOE批号上三个参数的设置，提出了最佳组合调优方法，并通过实际生产批号对结果进行了验证。

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Poly silicon resistance uniformity improvement by implant tuning

The Viista80 High Current Series Ion Implanter improved the production throughput by a high power beam density Implant. However, the high dose rate implant created an undesirable variation in Poly Resistance within the wafers. The un-uniform poly resistor will lead to a bad device matching and particularly sensitive in analog circuit design. This paper introduces a Design of Experiments (DOE) tuning method on three Implant process parameters during the Poly Silicon Implant. Three process parameters that under study are Rotations, Beam Density and Drift Expand mode (DEX). The end result of this tuning shows a significant improvement in uniformity without affecting the overall average resistance value. A best combination tuning is developed base on three parameters settings on the DOE lot and result is verified by actual production lot.

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2012 IEEE International Conference on Electronics Design, Systems and Applications (ICEDSA)

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