P. Anithambigai, S. Shanmugan, D. Mutharasu, K. Ibrahim
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引用次数: 4
摘要
本文阐述了采用不同颗粒填充环氧树脂作为热界面材料(TIM)增强散热的LED的热行为。在双酚A二甘油酯(DGEBA)环氧树脂中掺入高导热金属填料铝(Al)和陶瓷填料氮化铝(AlN)和氧化铝(Al2O3),以确定填充材料TIM对大功率led热性能的影响。通过对3W暖白光LED的热瞬态分析,发现Al填充复合材料的结温最低,为38.3℃。AlN填充复合材料和Al2O3填充复合材料封装的总热阻分别为13.77 k /W和15.50K/W。本文还表明,随着填料粒径的减小,LED封装的总热阻增大。
Heat transfer in high-power LED with thermally conductive particle-filled epoxy composite as thermal interface material for system-level analysis
This paper elucidates the thermal behaviour of an LED employing different particles filled epoxy as thermal interface material (TIM) for enhanced heat dissipation. Highly thermal conductive metal filler of aluminium (Al) and ceramic fillers of aluminium nitride (AlN) and aluminium oxide (Al2O3) were incorporated in bisphenol A diglycidylether (DGEBA) epoxy resin to identify the effect of the filler materials as TIM on the thermal performance of high power LEDs. From the thermal transient analysis of a 3W warm white LED, it was observed that the Al filled composite exhibits the lowest junction temperature of 38.3 °C compared to the other two fillers. The total thermal resistance of the package with AlN filled composite and Al2O3 filled composite were 13.77 and 15.50K/W respectively. This paper too suggests that the total thermal resistance of the LED package increases when the particle size of the fillers decrease.
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