Back-end-of-Line (BEOL) Mechanical Integrity Evaluation: A Mixed-Mode Double Cantilever Beam Test for Crackstop Strength Assessment

2018 IEEE 68th Electronic Components and Technology Conference (ECTC) Pub Date : 2018-05-01 DOI:10.1109/ECTC.2018.00075

Max Cioban, Tuhin Sinha, T. Shaw

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引用次数: 1

Abstract

Crackstops are vital parts of the back-end-of-line (BEOL) chip stack in electronic packages and are often responsible for preventing catastrophic mechanical and electrical breakdown within a semiconductor device. The present work is focused on evaluating the fracture toughness of crack-stops using a mixed-mode bending test structure. The test fixture designed as part of this study enables crack propagation in the BEOL under a wide range of mode-mixities which mimics the stress drivers within an organic flip-chip package. Techniques for optimized sample preparation beginning with a processed wafer to the final, test-ready coupon for mixed-mode testing will be discussed. The designed sample preparation tools and methods allow for the precise driving of a crack to specific features within the BEOL. Rigorous analytical verifications were conducted to validate the results obtained from the tests and it will be demonstrated that the test is highly effective for understanding the factors that can influence the strength of a crackstop and the mechanics of its strength degradation under prolonged moisture exposure.

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后端线(BEOL)机械完整性评估:用于止裂强度评估的混合模式双悬臂梁试验

裂纹停止是电子封装中后端(BEOL)芯片堆栈的重要组成部分，通常负责防止半导体器件内的灾难性机械和电气故障。本文主要研究了用混合模态弯曲试验结构对裂纹止点断裂韧性的评价。作为本研究的一部分，设计的测试夹具可以在广泛的模式混合下在BEOL中进行裂纹扩展，模拟有机倒装芯片封装中的应力驱动。将讨论从加工晶圆到最终可用于混合模式测试的测试就绪晶圆的优化样品制备技术。所设计的样品制备工具和方法允许在BEOL内精确驱动裂缝的特定特征。我们进行了严格的分析验证，以验证从测试中获得的结果，并将证明该测试对于理解可能影响止裂器强度的因素及其在长时间受潮下强度退化的机制是非常有效的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 IEEE 68th Electronic Components and Technology Conference (ECTC)

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