2.5D封装衬垫跌落冲击可靠性的产品级设计优化

Huayan Wang, Jing Wang, Jiefeng Xu, Van-Lai Pham, K. Pan, Seungbae Park, Hohyun Lee, G. Refai-Ahmed
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引用次数: 10

摘要

从使用锡铅焊点到无铅焊点的转变为电子制造带来了许多焊坑故障。这种现象在顶部附有大型散热器的2.5D封装中变得更加严重。在测试、处理或运输过程中,由于单一过载而发现了垫坑问题。封装认证过程要求在发货前通过电路板水平下降测试,然而,这并不总是保证封装在产品水平下降中存活下来,特别是对于复杂设计的产品。为了提高封装的板级衬垫击穿可靠性,已经进行了许多研究,但很少重视产品设计。本研究的目的是利用数值方法评估PCB应力方面的几个产品设计参数。研究了几种不同的设计变量,如加固结构、散热器尺寸、衬垫设计。数据显示了上述因素的影响,并突出了导致垫坑失效的主要因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Product Level Design Optimization for 2.5D Package Pad Cratering Reliability During Drop Impact
The conversion from using tin-lead solder joint to lead-free solder joint has raised many pad cratering failures for electronics manufacturing. This phenomenon has become more severe to the 2.5D package which has a large heatsink attached on the top. The pad cratering issue has been found during testing, handling or transport due to a single overload. The package qualification process requires that it passes the board level drop test before shipping, however, this doesn't always guarantee that the package will survive from product level drop, especially for a complicated design product. Many types of research have been conducted to improve the package's board-level pad cratering reliability, few emphases were put on the product design. The aim of the present study is to evaluate several product design parameters with respect to PCB stress, using numerical methods. Several different design variables, such as reinforcement structure, heatsink size, pad design, were studied. Data are presented to show the effects of the above factors and to highlight the main factor to cause the pad cratering failure.
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