集成浸入式冷却多芯片模块封装的热性能

[1993 Proceedings] Ninth Annual IEEE Semiconductor Thermal Measurement and Management Symposium Pub Date : 1993-02-02 DOI:10.1109/STHERM.1993.225336

R. D. Nelson, S. Sommerfeldt, A. Barcohen

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引用次数: 19

摘要

构建了一种多芯片模块(MCM)封装，该封装使用整体浸入式冷却将热量从芯片传递到封装外的最终传热介质。该封装是一个微型浸入式冷却系统，带有一个鳍状冷凝器，可以在浸入式或蒸汽空间冷凝模式下运行。16个芯片被粘合在57 mm/sup /氧化铝衬底上，衬底上带有铜/聚酰亚胺薄膜互连。系统的热性能测试表明，它能够处理超过160 W的功率，芯片热阻低至2 K-cm/sup 2//W，由热路径的浸没冷却部分提供。在模块完全通电和芯片子集通电的情况下进行的测试表明，在所有部分通电模式下，传热系数相似。使用冷凝器温度范围为20至50摄氏度的数据获得性能图，该图描绘了模块中的传热制度以及临界热流密度和冷凝器性能所施加的限制。

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Thermal performance of an integral immersion cooled multichip module package

A multichip module (MCM) package which uses integral immersion cooling to transfer heat from the chips to a final heat transfer medium outside the package was constructed. The package is a miniature immersion-cooled system with a pin-fin condenser which can be operated in either the submerged or vapor-space condensing mode. Sixteen chips were bonded on a 57 mm/sup 2/ alumina substrate carrying copper/polyimide thin film interconnect. Tests of the thermal performance of the system show that it is capable of handling over 160 W power with chip thermal resistances as low as 2 K-cm/sup 2//W provided by the immersion cooled portion of the thermal path. Tests performed with the module fully powered and with subsets of the chips powered indicate that the heat transfer coefficient is similar in all partially powered modes. Data taken with condenser temperatures ranging from 20 to 50 degrees C were used to obtain a performance map delineating the heat transfer regimes in the module and the limits imposed by critical heat flux and condenser performance.<>

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[1993 Proceedings] Ninth Annual IEEE Semiconductor Thermal Measurement and Management Symposium

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