Vapor chamber in high-end VGA card

Jung-Chang Wang, Wei-Jui Chen
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引用次数: 8

Abstract

The vapor chamber has been verified the excellent heat transfer efficiency and heat spreading performance utilized particularly in many high-power and small area heat sources. This paper analyzes and compares the thermal performance of a vapor chamber-based thermal module with a traditional Cu metal based plate embedded three heat pipes of 6 mm diameter at high heat flux GPU above 165 Watt. They are estimated and simulated the optimum fin design of aluminum heat sink through computational numerical method and thermal resistance analysis at constant P-Q performance curve of a same commercial blower. These results show that the total thermal resistance value of vapor chamber-based thermal module are under 0.273 °C/W from simulation analytical data and that of heat-pipes and copper based plate thermal module are all over 0.273 °C/W. Therefore, the thermal performance of vapor chamber-based thermal module can be accurately simulated and analyzed by applying the method introduced in this paper. The vapor chamber-based thermal module can achieve the optimum thermal performance and the critical heat flux may exceed 100 Watt/cm2. Consequently, the vapor chamber-based thermal module introduced in this paper is able to cope with future GPU named RV 970 and GTX 590 with high heat flux of more than 60 Watt/cm2.
高端VGA卡蒸汽室
蒸汽室在许多大功率小面积热源中具有良好的传热效率和散热性能。在高热流密度165w以上的显卡上,分析比较了蒸汽室热模块与传统铜基板内嵌3根直径为6mm的热管的热性能。通过计算数值方法和恒P-Q性能曲线下的热阻分析,对铝制散热器的最佳翅片设计进行了估算和模拟。仿真分析结果表明,蒸汽室热模块的总热阻值在0.273℃/W以下,热管和铜板热模块的总热阻值均在0.273℃/W以上。因此,采用本文所介绍的方法可以准确地模拟和分析基于蒸汽室的热模块的热性能。基于蒸汽室的热模块可以达到最佳的热性能,临界热流密度可超过100瓦特/平方厘米。因此,本文介绍的基于蒸汽室的热模块能够应对未来的GPU RV 970和GTX 590的高热流密度超过60瓦特/平方厘米。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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