A Comprehensive Study On Characterization Of Residual Stress Of Build-Up Layer And Prediction Of Chip Warpage

IF 2.2 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Journal of Electronic Packaging Pub Date : 2023-10-30 DOI:10.1115/1.4063919

Chongyang Cai, Huayan Wang, Junbo Yang, Pengcheng Yin, Seungbae Park

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引用次数: 0

Abstract

Abstract Better understanding and control of residual stress in the chip build-up layer is becoming more and more important for the assembly process. To estimate the chip warpage and characterize the residual stress, different methods are proposed. However, most of them have high cost or some limitations for the upper build-up material. In this study, an innovative method is proposed to characterize the residual stress and predict the chip warpage behavior of different size chips at different temperatures. The method combines experimental inspection of chip warpage and finite element analysis. By reducing the silicon die thickness, the influence of residual stress in the build-up layer can be amplified. The residual stress can be obtained by inspecting the increased warpage when the silicon dies are reduced to different thicknesses. Correlating the thermal increase warpages of thinner chips can help characterize the effective modulus and CTE of the build-up layer. This study can help better understand the commonly classified build-up layer information. The results show good agreements between two types of samples under the same upstream process flow.

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堆焊层残余应力表征及芯片翘曲预测的综合研究

更好地了解和控制芯片堆积层中的残余应力对组装过程变得越来越重要。为了估计切屑翘曲和表征残余应力，提出了不同的方法。然而，它们大多成本高，或对上层堆积材料有一定的限制。在本研究中，提出了一种创新的方法来表征不同尺寸的切屑在不同温度下的残余应力和预测切屑翘曲行为。该方法将切屑翘曲试验检测与有限元分析相结合。通过减小硅模厚度，可以放大堆积层中残余应力的影响。通过对硅模减薄到不同厚度时翘曲量的增加情况进行检测，得到了硅模的残余应力。将较薄芯片的热增翘曲进行关联可以帮助表征堆积层的有效模量和CTE。该研究有助于更好地理解通常分类的堆积层信息。结果表明，在相同的上游工艺流程下，两种类型的样品具有较好的一致性。

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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来源期刊

Journal of Electronic Packaging 工程技术-工程：电子与电气

CiteScore

4.90

自引率

6.20%

发文量

审稿时长

3 months

期刊介绍： The Journal of Electronic Packaging publishes papers that use experimental and theoretical (analytical and computer-aided) methods, approaches, and techniques to address and solve various mechanical, materials, and reliability problems encountered in the analysis, design, manufacturing, testing, and operation of electronic and photonics components, devices, and systems. Scope: Microsystems packaging; Systems integration; Flexible electronics; Materials with nano structures and in general small scale systems.