Creep analysis of solder bumped direct chip attach (DCA) on microvia build-up printed circuit board with underfill

International Symposium on Electronic Materials and Packaging (EMAP2000) (Cat. No.00EX458) Pub Date : 2000-11-30 DOI:10.1109/EMAP.2000.904142

J. Lau, S. Pan, C. Chang

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引用次数: 6

Abstract

The creep analysis of solder-bumped flip-chip on microvia build-up printed circuit board (PCB) with underfill encapsulant subjected to thermal cycling conditions are presented. Emphasis is placed on the effects of the conventional PCB's additional microvia build-up circuits on the solder joint reliability of the direct chip attach (DCA) assembly. The 62Sn-36Pb-2Ag solder joints are assumed to obey the Garofalo-Arrhenius steady-state creep constitutive law. The shear stress and shear creep strain hysteresis loops, shear stress history, and shear creep strain history at the corner solder joint, and the von Mises stress and effective plastic strain in the microvia are presented for a better understanding of the thermal-mechanical behaviors of the solder bumped flip chip on build-up PCB with microvia circuits. It is found that, due to the very large thermal expansion mismatch among the silicon chip, solder joints, underfill encapsulant, build-up resin, electroplated copper microvia, and the FR-4 epoxy glass PCB, the stress and strain in the solder joints are higher than those of a DCA on a conventional PCB.

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带衬底的微孔堆积印刷电路板上焊料碰撞直接贴片(DCA)的蠕变分析

本文研究了热循环条件下微细孔堆积式印刷电路板(PCB)上焊料碰撞倒装芯片的蠕变特性。重点放在传统PCB的附加微孔累积电路对直接芯片连接(DCA)组件的焊点可靠性的影响上。假设62Sn-36Pb-2Ag焊点符合Garofalo-Arrhenius稳态蠕变本构律。为了更好地理解带微孔电路的集成PCB上的焊料碰撞倒装芯片的热力学行为，给出了焊料碰撞倒装芯片的剪切应力和剪切蠕变应变迟滞回线、焊点角处的剪切应力历史和剪切蠕变应变历史，以及微孔内的von Mises应力和有效塑性应变。研究发现，由于硅芯片、焊点、下填充填料、堆积树脂、电镀微孔铜和FR-4环氧玻璃PCB之间存在很大的热膨胀失配，焊点内的应力和应变高于传统PCB上的DCA。

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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International Symposium on Electronic Materials and Packaging (EMAP2000) (Cat. No.00EX458)

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