交错微针翅尺寸对三维微系统冷却的热电效应

Fourteenth Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm) Pub Date : 2014-09-08 DOI:10.1109/ITHERM.2014.6892283

Thomas E. Sarvey, Yang Zhang, Yue Zhang, Hanju Oh, M. Bakir

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引用次数: 21

摘要

微流控冷却显示了冷却下一代3D微系统的前景，当与硅通孔集成时。用去离子水分析了交错微针翅片散热器尺寸的电学和热学效应。在流速约为100mL/min、压降约为200kpa的条件下，对5种标称高度为200 μm、直径为30 μm的硅微针鳍阵列进行了实验研究。最低对流热阻达到0.098°C/W横跨1平方厘米的模具。然后将这些实验结果用于模拟中间体冷却的3D堆栈的温度分布。

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Thermal and electrical effects of staggered micropin-fin dimensions for cooling of 3D microsystems

Microfluidic cooling shows promise in cooling next generation 3D microsystems when integrated with through-silicon-vias. In this work, electrical and thermal effects of staggered micropin-fin heat sink dimensions are analyzed using deionized water. An experimental study of five different silicon micropin-fin arrays with a nominal height of 200 μm and diameters down to 30 μm was conducted at flow rates up to approximately 100mL/min and pressure drops up to approximately 200 kPa. The lowest convective thermal resistance achieved was 0.098 °C/W across a 1 cm2 die. These experimental results were then used to simulate temperature profiles of an interposer-cooled 3D stack.

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Fourteenth Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm)

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