300mm low k wafer dicing saw study

2005 6th International Conference on Electronic Packaging Technology Pub Date : 2005-08-30 DOI:10.1109/ICEPT.2005.1564687

Wang Zhijie, S. Wang, J.H. Wang, S. Lee, Yao Su Ying, R. Han, Y.Q. Su

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引用次数: 27

Abstract

With the farther shrink of the IC dimension, the low k material has been widely used to replace the traditional SiO/sub 2/ ILD in order to reduce the interconnect delay. The introduction of low k material into silicon imposed challenges on dicing saw process, ILD and metal layers peeling and its penetration into the sealing ring of the die during dicing saw are the most common defects. In this paper, the low k material structure and its impact on wafer dicing were elaborated. A practical dicing quality inspection matrix was developed to assess the cutting process variation. A 300mm CMOS 90nm dual damascene low k wafer was chosen as a test vehicle to develop robust low k dicing saw process. The critical factors (dicing blade, index speed, spindle speed, cut in depth, test pattern in the saw street...) affecting cutting quality were studied and optimized. The selected C90 dual damascene low k device passed package reliability test with the optimized low k dicing saw recipe and process. The further improvement and solutions in eliminating the low k dicing saw peeling from both wafer fab and packaging assembly were also explored.

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300mm低k切片锯的研究

随着集成电路尺寸的进一步缩小，为了降低互连延迟，低k材料已被广泛用于取代传统的SiO/sub 2/ ILD。低钾材料的引入给硅片锯切工艺带来了挑战，在锯切过程中，ILD和金属层剥落及其渗透到模具密封圈是最常见的缺陷。本文阐述了低钾材料结构及其对晶圆切割的影响。建立了一个实用的切割质量检测矩阵来评估切割过程的变化。以300mm CMOS 90nm双damascene低钾硅片为试验载体，开发了稳健的低钾切片锯工艺。研究并优化了影响切割质量的关键因素(切割刀片、分度速度、主轴转速、切割深度、锯道试验模式等)。采用优化后的低钾切片锯配方和工艺，所选C90双damascene低钾器件通过了封装可靠性试验。探讨了如何进一步改善和解决晶圆厂和封装组件的低k锯片剥落问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2005 6th International Conference on Electronic Packaging Technology

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