高速存储器封装中潜在的PoP翘曲行为和板级温度循环可靠性的仿真研究

Wei Sun, W.H. Zhu, K.S. Le, H. Tan
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引用次数: 23

摘要

PoP是高速存储器封装的潜在解决方案。对于PoP封装来说,翘曲是影响封装堆叠和SMT成品率的重要因素。目前研究的PoP封装具有以下特点:顶部和底部的间距均为0.5 mm,小球尺寸小,并且大多数焊接球位于封装的两个较长的边缘。因此,板上温度循环(TCoB)测试中的焊点可靠性(SJR)也可能引起关注。本文对DRAM PoP封装的翘曲和TCoB SJR进行了系统仿真和优化。翘曲研究采用三维有限元分析(FEA)。不仅研究了室温翘曲,还研究了回流温度翘曲。对材料选择和结构优化进行了全因子DOE分析,并确定了近似模型。在此基础上,快速推导出材料选择和布局设计准则,以优化该封装的翘曲性能。在SJR模拟研究中,提出并模拟了不同的封装和堆叠配置,以提高TCoB试验中的SJR。根据仿真结果提出了改进建议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulation study on the warpage behavior and board-level temperature cycling reliability of PoP potentially for high-speed memory packaging
PoP is a potential solution to high-speed memory packaging. For PoP package, warpage is known as a concern over package stacking and SMT yield. The PoP package under current study has these features such as fine pitch which is 0.5 mm for both top and bottom, small ball size and that most solder balls are located at the packagepsilas two longer edges. Therefore the solder joint reliability (SJR) in temperature cycling on board (TCoB) test may also pose a concern. The current paper talks about the systematic simulation and optimization of warpage and TCoB SJR for DRAM PoP package. For warpage study, 3D finite element analysis (FEA) was performed. Not only room temperature warpage, but also reflow temperature warpage was investigated. Full factorial DOE analysis with approximation model determination was conducted for both material selection and structural optimization. Based on this study, material selection and layout design guidelines were quickly derived to optimize the warpage performance of this package. In SJR simulation study, various package and stacking configurations were proposed and simulated in an effort to improve the SJR in TCoB test. Suggestions for improvements were made based on those simulation results.
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