Influence of environmental factors like temperature and humidity on MEMS packaging materials.

Mahesh Yalagach, P. Fuchs, I. Mitev, T. Antretter, M. Feuchter, A. Wolfberger, Tao Qi
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引用次数: 3

Abstract

Microelectromechanical systems (MEMS) and MEMS packaging solutions are gaining increased interests for electronic applications. These packages feature a variety of polymeric materials and composites e.g. fiber reinforced polymer laminates, insulating and conductive adhesives. Due to the sensitivity of MEMS devices to mechanical stress and environmental factors such as temperature and humidity, the influence of these factors on the device’s performance needs to be accounted for. In this contribution, a fabric woven glass fiber reinforced epoxy resin (BT epoxy resin) and two chosen adhesives commonly used in semiconductor and MEMS packaging have been considered and their dependency on environmental parameters have been studied with different testing methods. Based on the measured material properties a simulation process predicting the package under defined environmental loads is presented.
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温度、湿度等环境因素对MEMS封装材料的影响
微机电系统(MEMS)和MEMS封装解决方案在电子应用中获得了越来越多的兴趣。这些包装具有各种聚合物材料和复合材料,如纤维增强聚合物层压板,绝缘和导电粘合剂。由于MEMS器件对机械应力和环境因素(如温度和湿度)的敏感性,需要考虑这些因素对器件性能的影响。在这篇文章中,考虑了一种织物编织玻璃纤维增强环氧树脂(BT环氧树脂)和半导体和MEMS封装中常用的两种粘合剂,并通过不同的测试方法研究了它们对环境参数的依赖性。在测量材料性能的基础上,提出了在规定的环境载荷下预测包装的模拟过程。
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