集成电路封装互连结构可靠性研究

Y. Liu, Yumin Liu, S. Irving, T. Luk, D. Desbiens, Zhen Zhang, Z. Suo
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引用次数: 3

摘要

本文将从两个方面对互连结构的可靠性进行研究。首先是热循环试验中互连结构的可靠性问题。主要工作包括棘轮钝化开裂的基础研究。结合钝化过程中有限裂纹的应力强度因子上限和棘轮破坏机理,可以用裂纹起裂临界循环次数下界来计算热循环过程中钝化的寿命。建立了钝化裂纹判据来识别无裂纹和延迟裂纹两种失效模式。另一个问题是带有铜键垫的主动支付键(BPOA)的可靠性。主要工作包括在不同的探测载荷下,对铜键垫厚度、介电介质、金属化和钝化等参数下的探测介质层进行应力分析。介绍了铜键垫和金属线的弹塑性模型。最后对铜键垫和铝键垫的结果进行了比较
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Reliability Study of Interconnect Structures in IC Packages
This paper will focus on reliability study of interconnect structure for two areas. The first area is reliability of interconnect structure in thermal cycling test. Major work includes the fundamental study of ratcheting for passivation cracking. By combination with the upper limit of stress intensity factor for a finite crack in the passivation and the ratcheting failure mechanism, the life of passivation in thermal cycling can be obtained in terms of the lower bound of critical number of cycles of the crack initiation. The passivation crack criterion is established to identify the failure modes: no cracking and delayed cracking. Another area is the reliability of bond paid over active (BPOA) with copper bond pads. Major work includes stress analysis of the dielectric layer under probing with different parameters such as the thickness of the copper bond pad, dielectric, metallization and the passivation under different probing loads. The elastic plastic model in copper bond pad and metal lines are introduced. Finally comparison of the results between copper bond pad and aluminum bond pad will be presented
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