3D TSV DRAM封装在制造过程中的翘曲、应力和KOZ

2012 14th International Conference on Electronic Materials and Packaging (EMAP) Pub Date : 2012-12-01 DOI:10.1109/EMAP.2012.6507849

P. Huang, M. Tsai, C. Y. Huang, P. Lin, Lawrence Huang, Michael Chang, S. Shih, J.P. Lin

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引用次数: 5

摘要

本文的目的是测量和模拟3D TSV(通硅孔)模堆叠DRAM(动态随机存取存储器)封装在制造过程中受到热负载(从室温到260°C，焊料回流温度)的翘曲。在此基础上，进一步计算了模具在室温下的应力和保持区(KOZ)。在实验中，采用一种全视场阴影莫尔仪来测量热加热条件下封装的面外变形(翘曲)。采用有限元法对包件的热致变形、应力和koz进行了分析，以了解其力学特性。在温度荷载作用下，由阴影波纹引起的包件的全场翘曲已被记录下来，并与有限元结果进行了很好的比较。用验证过的有限元模型计算了在室温下，封装中每个模具在单个TSV附近的应力和koz。研究发现，在室温下，四晶片堆叠DRAM封装中koz的尺寸主要由水平pMOS器件控制，几乎是晶片级封装中koz尺寸的两倍。在这个四晶片堆叠DRAM封装中，即使每个晶片上的应力明显不同，koz的大小也非常相似。

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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Warpage, stresses and KOZ of 3D TSV DRAM package during manufacturing processes

The objective of this paper is to measure and simulate the warpage of 3D TSV (through-silicon via) die-stacked DRAM (dynamic random access memory) packages subject to thermal loading (from the room temperature to 260°C, solder reflow temperature) during manufacturing processes. The related die stresses and keep-out zone (KOZ) for the dies in the packages at the room temperature are further calculated with this validated simulation model. In the experiments, a full-field shadow moiré is used to measure the out-of-plane deformation (warpage) of packages under thermal heating conditions. A finite-element method (FEM) is applied for analyzing the thermally-induced deformation, stresses and KOZs in the packages to gain insight into their mechanics. The full-field warpages of the packages from the shadow moiré have been documented under temperature loading and compared well with FEM results. The stresses and KOZs at the proximity of a single TSV for each die in the package at the room temperature have been calculated with validated FEM model. It is found that the sizes of KOZs in four-die stacked DRAM package at the room temperature are dominated by the horizontal pMOS device and are almost double as large as the size in wafer-level die. And the sizes of KOZs are pretty much similar for each die in this four-die stacked DRAM package, even through the stresses at each die are apparently different.

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来源期刊

2012 14th International Conference on Electronic Materials and Packaging (EMAP)

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