Effects of mold compound properties on lead-on-chip (LOC) package reliability during IR reflow

1996 Proceedings 46th Electronic Components and Technology Conference Pub Date : 1996-05-28 DOI:10.1109/ECTC.1996.517374

Ji-Chen Yang, L. Weng, Goh Jing Sua, Yew Chee Kiang

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引用次数: 11

Abstract

This paper reports the investigation into Lead-On-Chip (LOG) package cracking resistance, the effects of mold compound properties, and the package cracking predication. The vehicle for such investigation was a DRAM LOC package and four mold compounds under two IR reflow processes (220/spl deg/C and 260/spl deg/C). As the reliability of the LOC package is strongly dependent on the mechanical properties of the mold compound, great efforts were put into its characterizations. The mold compound characterization was conducted using an Instron Universal Tester with a temperature chamber which regulated the testing temperature from -60 to 260/spl deg/C. These characterizations included temperature dependence, loading speed effects, moisture effects, creep behaviour, etc. The linear elastic fracture mechanics method was used to predict package cracking resistance. This included obtaining mold compound fracture toughness through 3-point bending test at the IR reflow temperatures, finite element analysis to obtain package stress intensity factors at these conditions, and correlate with the package reliability test results.

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IR回流过程中模具复合性能对片上铅封装可靠性的影响

本文研究了片上铅(LOG)封装的抗裂性、模具复合性能的影响以及封装的开裂预测。这种研究的载体是一个DRAM LOC封装和四种模具化合物，在两种红外回流过程(220/spl℃和260/spl℃)下。由于LOC封装的可靠性在很大程度上取决于模具复合材料的力学性能，因此对其特性进行了大量的研究。模具复合材料的表征使用Instron通用测试仪进行，该测试仪带有一个温度室，可调节测试温度从-60到260/spl℃。这些特性包括温度依赖性、加载速度效应、水分效应、蠕变行为等。采用线弹性断裂力学方法预测包装的抗裂性。这包括在红外回流温度下通过三点弯曲测试获得模具复合断裂韧性，通过有限元分析获得这些条件下的封装应力强度因子，并与封装可靠性测试结果相关联。

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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1996 Proceedings 46th Electronic Components and Technology Conference

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