含空腔的多材料系统中水分扩散模型的实现

2016 22nd International Workshop on Thermal Investigations of ICs and Systems (THERMINIC) Pub Date : 2016-09-01 DOI:10.1109/THERMINIC.2016.7749056

N. Peter, Péter Tóth, Boldizsár Kovács, G. Kristóf

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引用次数: 1

摘要

聚合物材料通常用于组装和封装MEMS器件。聚合物容易吸收水分，这可能导致可靠性问题和不同类型的封装故障。与集成电路元件相比，空腔通常是MEMS器件的重要组成部分。必须保证这些腔体的气密性才能正常工作。本文将水分扩散模拟方法扩展到多材料系统中嵌入的充气腔。该公式涉及将对流扩散蒸汽输运方程转换为一般输运方程的形式，并由市售模拟软件包求解。该实现允许将附加的物理模型耦合到模拟中，例如冷凝模型。

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Implementation of moisture diffusion model in multi-material system including air cavities

Polymeric materials are often used in assembling and packaging MEMS devices. Polymers are prone to absorb moisture which can lead to reliability issues and different types of failures of the package. In contrast to the IC components cavities are usually essential part of the MEMS devices. The gas tightness of these cavities must be ensured for proper operation. This paper presents an extension of the moisture diffusion simulation methodology towards gas filled cavities embedded in multi material systems. The formulation involves the transformation of convection diffusion vapour transport equation into the form of a general transport equation which is solved by a commercially available simulation package. The implementation allows the coupling of additional physical models to the simulation such as condensation models.

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2016 22nd International Workshop on Thermal Investigations of ICs and Systems (THERMINIC)

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