Reducing thermal coupling using fluid cooled low-k interposers

2017 IEEE International Workshop On Integrated Power Packaging (IWIPP) Pub Date : 2017-04-01 DOI:10.1109/IWIPP.2017.7936769
M. Fish, P. McCluskey, A. Bar-Cohen
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引用次数: 2

Abstract

The thermal isolation capabilities of fluid cooled via-enhanced glass interposers are investigated with resistive-heater test chips and IR thermography. Previous studies have shown that the degree of thermal coupling between adjacent devices hosted on via-enhanced low conductivity interposers is lower than those on silicon interposers, but at the cost of increased chip-to-ambient thermal resistance. By integrating the enhanced low-k interposer with an embedded microgap cooler, much higher chip power can be dissipated while maintaining an acceptable temperature rise.
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使用流体冷却的低k介电剂减少热耦合
利用电阻式加热器测试芯片和红外热成像技术研究了通过增强玻璃中间层的流体冷却热隔离能力。先前的研究表明,通过增强的低导电性中间层上的相邻器件之间的热耦合程度低于硅中间层上的器件,但代价是芯片对环境的热阻增加。通过将增强的低k介电器与嵌入式微隙冷却器集成在一起,可以在保持可接受的温升的同时消耗更高的芯片功率。
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2017 IEEE International Workshop On Integrated Power Packaging (IWIPP)
2017 IEEE International Workshop On Integrated Power Packaging (IWIPP)
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