倒装芯片附件采用各向异性导电胶粘剂和化学镍疙瘩

Nineteenth IEEE/CPMT International Electronics Manufacturing Technology Symposium Pub Date : 1996-10-14 DOI:10.1109/IEMT.1996.559678

R. Aschenbrenner, A. Ostmann, G. Motulla, E. Zakel, H. Reichl

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引用次数: 54

摘要

倒装芯片附件提供尽可能高的互连密度，这使得该技术非常有吸引力用于液晶显示器(LCD)封装方法。这项技术刺激了新的互连技术的发展，如各向异性胶粘剂。然而，有几个因素阻碍了这项技术的广泛应用。这些因素包括凸晶圆的可用性和成本。IZM和TU-Berlin已经解决了这两个问题，建立了一个晶圆碰撞设施，使用化学镍碰撞。各向异性胶粘剂与化学镀镍凸点的结合，有可能成为低成本的玻璃上芯片(COG)和柔性上芯片(COF)键合技术。本文研究了两种各向异性胶粘剂，重点研究了COG和COF胶粘剂的性能。通过评估初始接触电阻和机械粘附力作为温度和湿度的函数，研究了胶粘剂的电气和机械性能。

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Flip chip attachment using anisotropic conductive adhesives and electroless nickel bumps

Flip chip attachments provide the highest interconnection density possible, which makes this technology very attractive for use with liquid crystal display (LCD) packaging methods. This technology stimulated the development of new interconnection techniques, such as anisotropic adhesives. However, several factors have hindered the wide use of this technology. These factors include the availability and costs of bumped wafers. IZM and TU-Berlin have addressed both of these concerns by establishing a wafer-bumping facility which uses electroless nickel bumps. The combination of anisotropic adhesives and electroless nickel bumps has the potential for a low-cost chip on glass (COG) and chip on flex (COF) bonding technology. In this paper two types of anisotropic adhesives were studied with an emphasis on the properties of COG and COF interconnections. The electrical and mechanical performance of the adhesive bonds was studied by evaluating initial contact resistance and mechanical adhesion as a function of temperature and humidity.

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Nineteenth IEEE/CPMT International Electronics Manufacturing Technology Symposium

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