便携式电子设备跌落冲击特性的解析与数值分析

Jiang Zhou, K. Sharan, S. Lahoti
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引用次数: 9

摘要

跌落冲击时的动态性能是半导体和电子产品制造商非常关注的问题,特别是对于移动电话等便携式设备。本文采用分析动力学模型研究了手机的跌落冲击响应。为了捕获一些最重要的影响因素,我们将这个问题解耦为两步分析。首先,采用有限元分析方法分别确定了壳体和PCB板的有效刚度。其次,建立了一个两自由度的分析动力学模型来研究跌落冲击响应。这种方法可以通过参数分析来确定重要的设计参数,这些参数对于PCB板的几何形状和材料的初步选择以及外壳的刚度,从而保持动态稳定性都是很重要的。板级有限元分析也使用输入加速模型进行。结果与上述分析模型的结果吻合较好。最后,将这两种方法应用于商用手机的动态响应评价
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Analytical and Numerical Analysis of Drop Impact Behavior for a Portable Electronic Device
Dynamic performance during drop impact is a great concern to semiconductor and electronic product manufacturers, especially for portable devices such as mobile phones. In this paper, the drop impact response of a mobile phone is investigated by an analytical dynamics model. In order to capture some most important affected factors, we decouple this problem to be a two-step analysis. First, finite element analysis is used to determine the effective stiffness for housing and PCB board, respectively. Second, a two-degree-of-freedom analytical dynamic model is developed to investigate the drop impact response. Such an approach allows parametric analysis to determine the important design parameters, which are important to the preliminary selection of geometries and materials of PCB boards and stiffness of housings so that the dynamic stability is maintained. Board level finite element analysis is also performed using input-acceleration model. The results are in good agreement with the analytical model results developed above. Finally, both methods are applied to evaluate the dynamic response of a commercially used cellular phone
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