SnAgCu焊点完整性在WLCSP绿色转换

Proceedings. International Symposium on Advanced Packaging Materials: Processes, Properties and Interfaces, 2005. Pub Date : 2005-03-16 DOI:10.1109/ISAPM.2005.1432059

J. Lee, C. Chung, Chin-Chiang Liu, H. Tong

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引用次数: 8

摘要

采用Ni/Cu UBM和SnAgCu焊料互连的WLCSP完全符合欧洲ROHS法规。在温和的TCT条件下，SnAgCu焊料在有机层压板BGA型封装有机PCB中表现出最佳的焊点热疲劳寿命，但由于温度循环过程中CTE失配较大，因此是否意味着它也可以很好地工作在有机PCB的硅片级封装中，仍然需要探索。本报告将研究0.3 mm SnAgCu焊球与不同熔点Sn37Pb、Sn3.0Ag0.5Cu等焊锡膏组合在0.5mm球距圆片级CSP封装中的界面冶金反应。在Cu-OSP表面处理的NSMD FR4 PCB上分别在低、中、高回流温度下进行适当的SMT工艺后，对样品进行TCT (-40-125/spl℃)500和1000次循环，然后用SEM/EDX观察焊点截面。记录了界面和焊料块本身的冶金演化的不同失效模式，以说明焊点的完整性。总结了断口形貌与焊膏类型的关系。此外，本文还集成了一种围绕焊锡球的聚合物接箍结构的新技术，讨论了在TCT测试中提高整个SnAgCu焊点完整性的方法。我们还将使用成熟的含Sn37Pb焊料球的晶圆级CSP进行比较。

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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The SnAgCu solder joint integrity in WLCSP for green conversion

WLCSP with Ni/Cu UBM and SnAgCu solder interconnect comply completely with European ROHS regulation. SnAgCu solder exhibits best solder joint thermal fatigue life in organic laminate BGA type package to organic PCB during gentle TCT condition, but whether means it can also work well in silicone die level package to organic PCB due to larger CTE mismatch during temperature cycling, is still necessary to be explored. In this report, the interfacial metallurgical reactions of solder joint of the combination of 0.3 mm SnAgCu solder ball and different melting point solder pastes such as Sn37Pb and Sn3.0Ag0.5Cu will be investigated in the wafer level CSP package with 0.5mm ball pitch. After appropriate SMT process at low, medium and high reflow temperature respectively on NSMD FR4 PCB with Cu-OSP surface finish, the sample is subject to TCT (-40-125/spl deg/C) 500 and 1000 cycle, then are followed by solder joint cross-section observation with SEM/EDX. The diverse failure mode on the metallurgical evolution in the interface and solder bulk itself is recorded to illustrate the solder joint integrity. The relationship among the fracture morphology and solder paste type is concluded as well. Furthermore, one new technology with polymer collar structure around the solder ball is integrated to discuss the whole SnAgCu solder joint integrity enhancement during the TCT test. A mature wafer level CSP with Sn37Pb solder ball will be used for comparison as well.

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来源期刊

Proceedings. International Symposium on Advanced Packaging Materials: Processes, Properties and Interfaces, 2005.

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