不同掺杂低蠕变无铅锡膏和锡球阵列封装的振动性能研究

S. Thirugnanasambandam, T. Sanders, A. Raj, D. Stone, John L. Evans, G. Flowers, J. Suhling
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引用次数: 8

摘要

相对而言,人们对半导体工业中使用的掺杂球栅阵列(BGA)封装的性能知之甚少,尽管更新的产品正在广泛引入市场。本文通过实验研究了振动载荷对SAC 305合金的掺杂效应。本实验主要研究了在0.8 mm间距上使用208个周长焊接球的15 mm CABGA封装的振动疲劳寿命。测试板的制造符合JEDEC JESD22-B103B标准的振动台高应力测试,以评估焊点性能。采用三种不同的回流型和两种不同的模板厚度(8mil(套印6mil)和4mil)制作测试板,研究新掺杂合金的掺杂效果差异。对WLCSP组件进行了各板剧烈随机振动加速寿命试验。组件的可靠性取决于组件承受由现场作业产生的运动引起的振动的能力。报道了BGA的机械载荷对其特征疲劳寿命的有害影响。结果表明,材料特性对总失效时间有直接影响。结果表明,焊点的失效时间随掺杂量的增加而减小。通过对不同无铅低蠕变合金的振动试验,验证了该特性的有效性,并取得了良好的结果。最后讨论了掺杂对SAC合金的劣化、强度老化和可靠性的影响。
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The study of vibrational performance on different doped low creep lead free solder paste and solder ball grid array packages
Relatively little is known about the performance of the doped Ball Grid Array (BGA) packages used in semiconductor industries, even though newer products are widely being introduced to the market. This work experimentally investigates the doping effects of the BGA packages with SAC 305 alloys, caused by the vibration loading. This experiment focuses on the vibration fatigue life of 15 mm CABGA packages with 208 perimeter solder balls on a 0.8 mm pitch. The test boards were built to withstand JEDEC JESD22-B103B standards of high stress test in vibrational shaker table to assess the solder joint performance. The test boards are built with three different reflow profiles and two different stencil thicknesses 8 mil (6 mil with overprint) and 4 mil to study the differences in doping effect of the new doped alloys. The WLCSP assembly was subjected to accelerated life test of severe random vibration per board. The reliability of the component is determined by the ability of the components to withstand vibration as a result of motion produced by field operations. The deleterious effect of the mechanical loading of BGA's on the characteristic fatigue lifetime is reported. The results show that the material characteristics has a direct impact on the total time to failure. The results show that the Time-To-Failure (TTF) of the solder joint decreases with doping. The effectiveness of this characteristics was demonstrated with promising results through vibration testing of different lead free low creep alloys. This paper concludes with discussion of the deterioration intensity aging has on SAC alloys and the change in reliability due to doping.
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