用有限元法分析LCD封装中玻璃晶片(COG)设计和理解的新挑战

Proceedings of 2005 International Conference on Asian Green Electronics, 2005. AGEC. Pub Date : 2005-03-15 DOI:10.1109/AGEC.2005.1452321

B. Xie, H. Ding

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引用次数: 5

摘要

近年来，利用倒装芯片技术的玻璃晶片(COG)技术已经发展成为高分辨率和高质量的液晶显示(LCD)面板。在行业中，0.3 mm厚度的LCD玻璃将很快在实际产品中使用。然而，在以往的研究中发现了许多严重的可制造性和可靠性问题。其中，ACF(各向异性导电膜)分层是一个关键问题，它会导致机械和电气故障。局部应力应变行为的研究是预测和预防分层发生和扩展的重要问题。利用有限元分析工具Abaqus建立了考虑连接结构细节的液晶单元整体和局部数值模型，模拟了ACF键合过程，研究了热应力载荷下的温度和应力应变分布。我们还探讨了结合温度和阶段温度对局部断裂行为的影响。

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New challenges in design and understanding of chip-on-glass (COG) for LCD packaging by FEA

The chip-on-glass (COG) technique using flip chip technology has been developed for excellent resolution and high quality liquid crystal display (LCD) panels for several years. In the industry, LCD glass of 0.3 mm thickness will soon be used in real products. However, many serious manufacturability and reliability issues were observed in previous studies. In those, ACF (anisotropic conductive film) delamination is a critical issue, which causes mechanical and electrical failures. The investigation of local stress/strain behavior is an important problem in predicting and preventing delamination initiation and propagation. By means of the finite element analysis (FEA) tool, Abaqus, we have established global and local numerical models of the LCD cell by taking the detailed interconnect structure into consideration to simulate the ACF bonding process and investigate the temperature and stress/strain distributions under thermal-stress load. We also explored the effects of bonding temperature and stage temperature on local fracture behaviors.

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Proceedings of 2005 International Conference on Asian Green Electronics, 2005. AGEC.

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