封装共面性和回流翘曲与SMT的关系

2010 34th IEEE/CPMT International Electronic Manufacturing Technology Symposium (IEMT) Pub Date : 2010-11-01 DOI:10.1109/IEMT.2010.5746680

Yung Hsiang Lee, K. Ong, W. K. Loh, Shaw Fong Wong, P. Gill, Kah Kee Tan

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引用次数: 5

摘要

倒装球栅阵列(FCBGA)封装具有较大的硅片和封装尺寸，通常具有较高的翘曲度和共平面性。许多人认为这样的封装设计面临着表面贴装技术(SMT)的挑战。在本研究中，研究了这种大包装的翘曲特征和SMT验证。提出了一种混合方法，利用数值和经验数据来预测包的共平面性。在共平面范围上进行SMT验证，以验证过程鲁棒性以及焊点可靠性(SJR)数据。在所有的研究中，已经建立了封装室温共面性与回流翘曲之间的相关性，而不包括SMT质量和SJR性能。最后，定义了改进的FCBGA共面性规范限制，并与JEDEC标准中的备用翘曲规范保持一致。

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The correlation of package coplanarity and reflow warpage to SMT

Flip Chip Ball Grid Array (FCBGA) package with large silicon chip and package size typically exhibits high warpage and coplanarity. Many percieved that such package design faced surface mount technology (SMT) challenges. In this study, the warpage characteristic and the SMT validation for such large package was investigated. A hybrid methodology utilizing both numerical and empirical data to predict the coplanarity of this package is presented. SMT validation was performed on range of coplanarity to demonstrate the process robustness together with solder joint reliability (SJR) data. With all the studies, the correlation between package room temperature coplanarity and reflow warpage has been established without comprising SMT quality and SJR performance. In the end, an improved FCBGA coplanarity specification limit has been defined and aligned with the Alternate Warpage Specification in JEDEC standard.

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2010 34th IEEE/CPMT International Electronic Manufacturing Technology Symposium (IEMT)

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