High reliability MCM packaging using low stress liquid type epoxy resin by printing encapsulation systems (PES)

1994 Proceedings. 44th Electronic Components and Technology Conference Pub Date : 1994-05-01 DOI:10.1109/ECTC.1994.367638

A. Okuno, K. Nagai, N. Fujita, Y. Tsukasaki, N. Oyama, K. Nakahira, T. Hashimoto

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引用次数: 1

Abstract

MCM/sup L/ can expect to be the main current of semiconductor packaging technology in near future. BGA, PLCC and PGA packaging methods will expect much of this application. But the most pressing problem is warp after the packaging process. The warp after packaging needs to be below 150 /spl mu/m at BGA and 100 /spl mu/m at PLCC. We have already developed the Printing Encapsulation Systems (PES). PES is able to make low cost and mass produced semiconductor packaging. This paper describes the use of PES to make MCM/sup L/ semiconductor packaging. We have developed a low warp packaging epoxy resin using elastomer modified epoxy resin to fit BGA, PLCC and PGA. We verified the low stress epoxy resin using dynamic mechanical properties and internal stress measurements. We packaged BGA, PLCC and BGA with this low stress epoxy resin using PES, and measured the warp of each packaging. We obtained good results for the warp, demonstrating that using this low stress epoxy resin and PES, low cost and high reliability packaging of BGA, PLCC and PGA could be achieved.<>

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采用低应力液体型环氧树脂印刷封装系统(PES)的高可靠性MCM封装

MCM/sup /有望在不久的将来成为半导体封装技术的主流。BGA, PLCC和PGA封装方法将期望这种应用。但最紧迫的问题是包装后的翘曲。包装后的经纱在BGA需要低于150 /磅/米，在PLCC需要低于100 /磅/米。我们已经开发了打印封装系统(PES)。PES能够制造低成本和批量生产的半导体封装。本文介绍了利用PES制作MCM/sup /半导体封装的方法。我们利用弹性体改性环氧树脂开发了适合BGA、PLCC和PGA的低翘曲包装环氧树脂。我们通过动态力学性能和内应力测量验证了低应力环氧树脂。我们使用PES用这种低应力环氧树脂包装BGA, PLCC和BGA，并测量了每种包装的翘曲度。实验结果表明，采用这种低应力环氧树脂和聚醚砜，可以实现低成本、高可靠性的BGA、PLCC和PGA封装。

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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1994 Proceedings. 44th Electronic Components and Technology Conference

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