印制板上污染物沉积引起的枝晶生长的蒙特卡罗模拟

Z. Ren, C. Teng, Yonghong Li, Yun Fu, Yun Wang, W. Ouyang
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引用次数: 0

摘要

电子设备的可靠性不仅取决于元件的质量,还取决于环境条件,如湿度和污染物的密度。例如,静电增强的粉尘沉积通常会产生树枝状沉积,从而在邻近导体中引起短路。为了研究污染物在印刷电路板(PCB)上的沉积机理,本文采用蒙特卡罗模拟方法来研究污染物在不同条件下的枝晶生长特征。研究发现,在模拟参数下,污染物颗粒沉积在固体表面后,会扩散、聚集、长大,形成枝晶结构。随着污染物颗粒数量的增加,枝晶的尺寸也随之增大。最后,树突连接两边的两个导体,这就是树突引起短路的原因。这些发现有助于理解印刷电路板上枝晶的生长机制。设计合理的保护措施,尽可能地减少设备的故障。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Monte Carlo simulation of dendrite growth due to contaminant deposition on a printed circuit board
The reliability of electronic devices depends not only on the quality of components but also on the environmental condition, such as the humidity and the density of contaminants. For example, electrostatically enhanced dust deposition typically produces a dendritic deposit which induces a short circuit in adjacent conductors. In order to investigate contaminant deposition mechanisms on a printed circuit board (PCB), a Monte Carlo simulation is developed in the present paper to discover the dendrite growth features of contaminants under different conditions. It is found that, under the simulation parameters, the contaminant particles will diffuse, gather and grow up to form a dendrite configuration after they are deposited on the solid surface. The size of the dendrite increases as the number of contaminant particles increases. Finally, the dendrite connects the two conductors on both sides and this is why the dendrite induces a short circuit. These findings could shed light on the understanding of the dendrite growth mechanisms on printed circuit boards. It is helpful to design proper protection methods in order to reduce the malfunction of the devices as much as possible.
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