From Power SO to E-Pad packages: a thermal bargain?

微纳电子与智能制造 Pub Date : 2006-04-24 DOI:10.1109/ESIME.2006.1643996
C. Villa, A. Morelli, D. Gualandris
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引用次数: 1

Abstract

Facing the demand of low cost solutions for medium power applications from various segments of the electronics market, a full thermal study comparing existing power SMD package families and new e-pad structures is performed. Different body sizes and pin counts are considered. The study consists of thermal modeling analysis carried on using FLOTHERMreg. Thermal simulation results with different PCB configurations are presented. The thermal dissipation mechanism for those packages through the metal bottom case to the PCB is described. The copper exposed area dimension soldered onto the PCB is identified as the dominating factor controlling the total package thermal resistance. Consequently the limits of applicability of new small body e-pad packages versus the old style power SMD's are finally defined
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从Power SO到E-Pad封装:热交易?
面对来自电子市场各个领域的中等功率应用的低成本解决方案的需求,对现有功率SMD封装系列和新的e-pad结构进行了全面的热研究。不同的车身尺寸和针数被考虑。研究包括使用FLOTHERMreg进行热建模分析。给出了不同PCB配置下的热仿真结果。描述了这些封装通过金属底壳到PCB的散热机制。焊接在PCB上的铜暴露面积尺寸是控制封装总热阻的主要因素。因此,新的小体电子pad封装与旧式功率SMD的适用性限制最终被定义
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来源期刊
微纳电子与智能制造
微纳电子与智能制造
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145
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