热点冷却采用嵌入式热电冷却器

Twenty-Second Annual IEEE Semiconductor Thermal Measurement And Management Symposium Pub Date : 2006-03-14 DOI:10.1109/STHERM.2006.1625219

G. J. Snyder, Marco Soto, Randy Alley, David Koester, Bob Conner Nextreme

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引用次数: 117

摘要

微处理器上局部区域的高热流密度会产生热点，从而限制其可靠性和性能。随着越来越密集的电路和高功率处理器与低功耗存储器的集成，不均匀的热分布将变得更加引人注目和难以管理。芯片级散热解决方案旨在将热点保持在临界温度以下，不必要地过度冷却CPU的其余部分，并增加散热器负载。局部热点冷却解决方案，甚至主动系统提供一些额外的热量，可以更好地控制热点温度，有效地集成了散热器。嵌入式热电冷却(eTEC)是一种很有前途的方法，可以降低当今先进处理器产生的高度局部化、高热流密度热点的温度

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Hot spot cooling using embedded thermoelectric coolers

Localized areas of high heat flux on microprocessors produce hot spots that limit their reliability and performance. With increasingly dense circuits and the integration of high power processors with low power memory, non-uniform thermal profiles will become more dramatic and difficult to manage. Chip scale thermal solutions designed to keep hot spots below a critical temperature unnecessarily overcool the rest of the CPU and add to heat-sink load. Localized hot spot cooling solutions, even active systems that contribute some additional heat, can do a better job controlling hot spot temperatures when efficiently integrated with a heat spreader. Embedded thermoelectric cooling (eTEC) is a promising approach to reduce the temperature of highly localized, high heat flux hot spots generated by today's advanced processors

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Twenty-Second Annual IEEE Semiconductor Thermal Measurement And Management Symposium

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