Thermal management of LED with vapor chamber and thermoelectric cooling

2016 IEEE 37th International Electronics Manufacturing Technology (IEMT) & 18th Electronics Materials and Packaging (EMAP) Conference Pub Date : 2016-09-01 DOI:10.1109/IEMT.2016.7761956

K. S. Ong, C. F. Tan, K. C. Lai, K. Tan, R. Singh

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引用次数: 5

Abstract

A fin heat sink (FHS) is a thermal heat transfer device employed to dissipate heat from a high temperature heat source to a lower temperature surrounding. A typical FHS consists of a flat metal base with an array of cooling fins on top. A problem normally encountered in thermal management of electronic packages is thermal heat spreading resistance which occurs as heat flows by conduction from a high temperature heat source to a low temperature heat sink with different cross-sectional areas. As high powered semiconductor chips are made more compact and requiring greater heat dissipation, more effective cooling systems have to be devised. There are various methods employed to minimize this heat spreading resistance. These include increasing the thickness of the base of the FHS or height of the fins. Another method is to use more expensive highly conductive materials like aluminum, copper and diamond which would increase cost. A more economical alternative would be to combine a flat heat pipe (HP) sometimes termed a vapor chamber (VC) with a conventional FHS to increase effective thermal conductivity at the base. Thermoelectric (TE) is the direct conversion of temperature difference between the junctions of two dissimilar materials (thermocouple) to electricity. The converse is true. A voltage applied between the junctions of the thermocouple creates a temperature difference between them. This effect could be utilized as a heat pump to transfer heat from the cold junction to the hot junction. A dc voltage imposed across a thermoelectric (TE) module causes a temperature difference to be imposed across the surfaces of the resulting in one face to be at a temperature higher than the other face. Heat is absorbed from a heat source in contact with the cold surface and dissipated to a heat sink in contact with the hot surface. This paper presents the results of an investigation conducted to evaluate the performance of VCs and TEs for the thermal management of LEDs.

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带蒸汽室和热电冷却的LED热管理

翅片散热器(FHS)是一种热传递装置，用于将热量从高温热源散发到温度较低的周围。典型的FHS由一个扁平的金属底座和顶部的冷却鳍阵列组成。在电子封装的热管理中经常遇到的一个问题是，当热流从高温热源传导到具有不同截面积的低温散热器时，会发生热扩散阻力。由于高功率半导体芯片越来越紧凑，需要更大的散热能力，因此必须设计出更有效的冷却系统。有各种方法被用来最小化这种热传播阻力。这些包括增加FHS底部的厚度或鳍的高度。另一种方法是使用更昂贵的高导电性材料，如铝、铜和钻石，这将增加成本。更经济的替代方案是将平面热管(HP)(有时称为蒸汽室(VC))与传统的FHS结合起来，以增加底部的有效导热性。热电(TE)是两种不同材料(热电偶)结之间的温差直接转化为电。反之亦然。施加在热电偶结之间的电压在它们之间产生温度差。这种效应可以用作热泵将热量从冷端传递到热端。施加在热电模块(TE)上的直流电压会导致在热电模块的表面上施加温差，从而导致一个表面的温度高于另一个表面。热量从与冷表面接触的热源吸收，并散发到与热表面接触的散热器。本文介绍了一项调查的结果，以评估vc和te在led热管理中的性能。

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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2016 IEEE 37th International Electronics Manufacturing Technology (IEMT) & 18th Electronics Materials and Packaging (EMAP) Conference

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