Precise model of phosphor geometry formed in dispensing process of LED packaging

机译：LED封装分配过程中形成的荧光粉几何形状的精确模型

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Phosphor geometry is one of key factors which affect the optical performance for white light emitting diode (LED). In the optical simulation of LED packaging, the phosphor geometry was usually assumed as a sphere cap, but in fact, it is not a sphere cap. Therefore, the simulation results based on such an assumption may not be accurate. In this paper, a precise model of phosphor geometry for a common LED packaging type was built. With consideration of the comprehensive effect of surface tension and gravity, a second-order differential equation is established for describing the axisymmetric phosphor geometry. This equation was solved by the numerical algorithm based on the four-order Runge-Kutta method. Through the solution of this model, the curve of contact angle versus the volume of dispensing phosphor slurry can be achieved.

机译：磷光体的几何形状是影响白光发光二极管（LED）光学性能的关键因素之一。在LED封装的光学仿真中，通常将磷光体的几何形状假定为球形盖，但实际上，它不是球形盖。因此，基于这种假设的仿真结果可能不准确。在本文中，建立了普通LED封装类型的荧光粉几何形状的精确模型。考虑到表面张力和重力的综合影响，建立了用于描述轴对称荧光粉几何形状的二阶微分方程。该方程由基于四阶Runge-Kutta方法的数值算法求解。通过该模型的解决方案，可以获得接触角与分配的荧光粉浆料体积的关系曲线。

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来源
《2011 12th International Conference on Electronic Packaging Technology High Density Packaging》|2011年|p.1-4|共4页
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Zheng Huai; Ma Jinlong; Luo Xiaobing; Liu Sheng;
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中图分类封装及散热问题;
关键词
LED; dispensing coating; phosphor geometry; precise model;

机译：LED;点胶涂料;磷光体几何形状;精密模型;

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机译：大功率LED封装固化过程中荧光粉沉降现象的建模

Precise model of phosphor geometry formed in dispensing process of LED packaging

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