A study to stencil printing technology for solder bump assembly

2009 4th International Microsystems, Packaging, Assembly and Circuits Technology Conference Pub Date : 2009-10-01 DOI:10.1109/IMPACT.2009.5382134

Mu-Chun Wang, Z. Hsieh, Kuo-Shu Huang, C. Tu, Shuang-Yuan Chen, Heng-Sheng Huang

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引用次数: 1

Abstract

In general, the stencil printing manufacturing in pre-WLCSP (wafer-level chip-scale packaging) is able to be integrated by 7-step processes, including two masks and one set of stencil plate. After the formation of solder ball, the specified professional probe card is needed to verify whether the electric functions of this packaged IC are good. After this step, the wafer grinding, the wafer cutting, the chip choice and the final test (F/T) are gradually adopted to proceed. Finally, due to the customer's need, the shipping package type to customers is, generally, tray or tape and reel. Although the stencil printing technology can provide the mass-production capability, the mainly existing problems of this technology are the quality of manufacturing steel plate, the coating operation for solder paste, and the flatness of wafer surface. These issues usually constrain the minimization of the size of the solder ball and the pitch. Thinking to solve these issues, this package technology is still feasible in assembly competition.

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凸焊组件的模板印刷技术研究

一般来说，pre-WLCSP(晶圆级芯片级封装)中的模板印刷制造可以通过7步工艺集成，包括两个掩模和一套模板。焊锡球形成后，需要指定的专业探针卡来验证这种封装IC的电气功能是否良好。在这一步之后，晶圆研磨、晶圆切割、芯片选择和最终测试(F/T)逐步采用。最后，由于客户的需要，运输包装类型给客户，一般是托盘或磁带和卷轴。虽然网版印刷技术可以提供量产能力，但该技术存在的主要问题是制造钢板的质量、锡膏的涂覆操作、晶圆片表面的平整度。这些问题通常限制了焊球尺寸和间距的最小化。考虑到这些问题的解决，这种封装技术在组装竞争中仍然是可行的。

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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2009 4th International Microsystems, Packaging, Assembly and Circuits Technology Conference

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