高温度依赖性底填材料对无铅倒装芯片封装可靠性的影响

C. Chiu, Chung-Jung Wu, C. Peng, C. Chou, K. Chiang, T. Ku, K. Cheng
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引用次数: 2

摘要

由于今天的趋势是走向“绿色”产品,制造商正在转向无铅方案。在高性能产品中得到广泛应用的倒装芯片封装也面临着这一挑战。此外,倒装芯片封装中的下填充材料具有特定的玻璃化转变(Tg)温度,当下填充材料经历含Tg的温差时,其性能会发生剧烈变化。由于高度依赖温度的特性,下填料可能会对包装的可靠性产生影响。在本研究中,建立了一种结合验证有限元法和析因分析的方法来估计这种影响。在析因分析中,选择温度高于和低于其T g的下填土的CTE和杨氏模量。除上述四个因素外,还选择下填土的Tg温度作为设计因素。对于响应,模裂是无铅倒装封装关注的失效模式,因此在析因分析中选择第一主应力作为响应。除此之外,还讨论了焊料的疲劳寿命。研究表明,Tg温度是影响模具开裂可靠性和焊料疲劳寿命的最敏感因素。然而,使用Tg温度较高的下填充材料的无铅倒装芯片封装具有较好的焊料疲劳寿命,但具有较大的应力,可能导致模具裂纹
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The Reliability Impact of Highly Temperature-Dependent Underfill Material to the Lead-Free Flip Chip Package
Since today's trend is toward `green' products, manufacturers are moving toward lead-free schemes. The flip chip package, which has been widely utilized in high-performance products, also faces this challenge. In addition, the underfill material in the flip chip package has a specific characteristic, glass transition (Tg) temperature, and the properties of the underfill material changes drastically when it experiences temperature difference containing its Tg. With a highly temperature-dependent feature, the underfill may have an impact on the reliability of the packaging. A methodology combining the verified finite element method and factorial analysis is established to estimate this effect in this study. In factorial analysis, the CTE and Young's modulus of the underfill at temperatures above and below its T g are selected. In addition to the four above mentioned factors, the Tg temperature of the underfill is also chosen as a design factor. As for the response, die cracking is a concerned failure mode to the lead-free flip chip package, and hence the first principal stress is chosen as the response in factorial analysis. Aside from these, the solder fatigue life is also discussed. This study reveals that the Tg temperature is the most sensitive factor to the reliability of both die cracking and solder fatigue life. However, the lead-free flip chip package using the underfill material with a higher Tg temperature has a better solder fatigue life but has the larger stress which may likely lead to the die crack
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