FR-4基板上ACF互连的可靠性

IEEE Transactions on Components and Packaging Technologies Pub Date : 2010-03-01 DOI:10.1109/TCAPT.2009.2026570

L. Frisk, K. Saarinen, Anne Cumini

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引用次数: 20

摘要

各向异性导电胶粘剂(ACA)由于其众多优点，在倒装芯片互连技术中得到了广泛的应用。由于粘接温度低于焊接温度，ACA工艺可用于高密度应用和各种衬底。本文采用两种各向异性导电胶膜(ACF)和四种不同的FR-4基材组装了六个测试批次。选择FR-4是因为它是制造低成本高密度互连的有趣替代方案。为了研究对可靠性的影响，一些芯片被削薄了。为了研究粘合压力的影响，每个测试批次使用了四种不同的压力。在-40°C至125°C的温度循环测试中，进行了10,000次循环，研究了组装测试样品的可靠性。采用有限元模型对试验过程中连接处的剪应力进行了研究。基质之间存在显著差异。衬底薄化和芯片薄化提高了测试样品的可靠性。从有限元分析中可以看出，两者都降低了胶粘剂中的剪切应力，这可能是可靠性提高的原因。ACFs之间的可靠性有显著差异。这可能是由于导电颗粒材料和ACFs的T - g值的差异造成的。此外，与ACFs一起使用的凹凸材料各不相同，这很可能影响测试样品的可靠性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Reliability of ACF Interconnections on FR-4 Substrates

The use of anisotropic conductive adhesives (ACA) in flip chip interconnection technology has become very popular because of their numerous advantages. The ACA process can be used in high-density applications and with various substrates as the bonding temperature is lower than that in the soldering process. In this paper, six test lots were assembled using two anisotropic conductive adhesive films (ACF) and four different FR-4 substrates. FR-4 was chosen as it is an interesting alternative for making low-cost high-density interconnections. Some of the chips were thinned to study the effect on reliability. To study the effect of bonding pressure, four different pressures were used in every test lot. The reliability of the assembled test samples was studied in a temperature cycling test carried out between temperatures of -40°C and 125°C for 10 000 cycles. A finite element model (FEM) was used to study the shear stresses in the interconnections during the test. Marked differences between the substrates were seen. The substrate thinning and also the chip thinning increased the reliability of the test samples. From the FEM, it was seen that both decreased the shear stress in the adhesive, which is assumed to be the reason for the increased reliability. A significant difference was seen in the reliability between the ACFs. This was probably caused by differences in the conductive particle materials and the T g values and of the ACFs. In addition, the bump material used with the ACFs varied, which most likely affected the reliability of the test samples.

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来源期刊

IEEE Transactions on Components and Packaging Technologies 工程技术-材料科学：综合

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