带柔性层的柔性晶圆级封装可靠性有限元分析

Peng Li, K. Pan, Ning Ye-xiang
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引用次数: 1

摘要

随着电子产品向更轻、更薄、多功能集成化方向发展,芯片级封装(CSP)在电子封装中得到了广泛的应用。晶圆级封装(WLP)已成为一项主导技术。然而,由于不同材料之间的CTE不匹配产生的应力导致焊点疲劳,限制了WLP的应用。采用柔性晶圆级封装(CWLP)技术可以大大提高封装的热疲劳可靠性。首先介绍了柔性层CWLP的结构。随后,利用ANSYS软件,基于128MB DDR SDRAM建立四分之一三维模型,并在-40℃至125℃的4个热循环中加载该模型。最后,将仿真结果与有限元分析结果以及其他研究的实验结果相结合,对不同柔顺层厚度进行了对比分析。有限元分析结果表明,所研究的带柔顺层的CWLP结构在缓解CTE失配所产生的应力方面是合理的。柔性层厚度、柔性材料等参数都是影响焊点可靠性的重要因素。合理选择这些参数可显著提高热疲劳可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Finite element analysis of reliability on compliant wafer level packaging with compliant layer
Along with electronic products developing toward lighter, thinner, and multi-functional integration, chip scale package (CSP) has been widely used in electronic packages. Wafer level packaging (WLP) has become one dominant technology. However, applications of WLP are limited by solder joint fatigue due to stress generated by the CTE mismatch among different materials. Compliant wafer level packaging (CWLP) technology can be used to enhance thermal fatigue reliability of packages greatly. Structure of CWLP with compliant layer is introduced firstly. Subsequently, ANSYS software is employed, a quarter 3D model is developed based on 128MB DDR SDRAM, and the model is loaded on four thermal cycles from -40degC to 125degC. Finally, by combining simulation results with FEM results and experimental results in other studies, comparative analyses are performed based on different thickness of compliant layer. FEM results show that, CWLP structure with compliant layer studied is reasonable in relieving the stress generated by CTE mismatch. Parameters, such as thickness of compliant layer and compliant material, are both important factors impact reliability of solder joint greatly. Thermal fatigue reliability can be significantly improved by reasonable selections of these parameters.
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