Electrical-Thermal Co-Simulation of 3D Integrated Systems With Micro-Fluidic Cooling and Joule Heating Effects

Xie J.; Swaminathan M.

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Electrical-Thermal Co-Simulation of 3D Integrated Systems With Micro-Fluidic Cooling and Joule Heating Effects

机译：具有微流体冷却和焦耳热效应的3D集成系统的电热联合仿真

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In this paper, the electrical-thermal co-simulation of 3D systems with Joule heating, fluidic cooling and air convection effects is proposed. The finite-volume method formulations of voltage distribution equation, heat equations for both fluid flow and solid medium with nonuniform mesh are explained in detail. Based on the proposed iterative co-simulation method, package temperature distribution and voltage drop with Joule heating and fluidic cooling effects can be estimated. Several packaging examples are simulated and the results show that with micro-channel fluidic cooling in high power density 3D integrated packages, the thermal effect on voltage drop is reduced by 10% which is much less than that of using a traditional heat sink.

机译：在本文中，提出了具有焦耳加热，流体冷却和空气对流效应的3D系统的电热联合仿真。详细解释了网格分布不均匀的流体和固体介质的电压分布方程，热方程的有限体积方法公式。基于所提出的迭代协同仿真方法，可以估算封装温度分布和电压降以及焦耳加热和流体冷却的影响。模拟了几个封装示例，结果表明，在高功率密度3D集成封装中进行微通道流体冷却后，对电压降的热影响降低了10％，这远低于使用传统散热器的热效应。

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来源
《Components, Packaging and Manufacturing Technology, IEEE Transactions on》 |2011年第2期|p.234-246|共13页
作者
Xie J.; Swaminathan M.;
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作者单位

Interconnect and Packaging Center (IPC), SRC Center of Excellence @ GT, School of Electrical and Computer Engineering, Georgia Institute of Technology, Atlanta,;

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原文格式 PDF
正文语种 eng
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关键词
Finite volume method; Joule heating; fluidic cooling; power delivery network (PDN); thermal effect; through silicon via (TSV); voltage drop;

机译：有限体积法;焦耳加热;流体冷却;输电网络（PDN）;热效应;硅通孔（TSV）;压降;

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2. Ti/Si interface enabling complementary metal oxide semiconductor compatible, high reliable bonding for inter-die micro-fluidic cooling for future advanced 3D integrated circuit integration [J] . Cheemalamarri Hemanth Kumar, Bonam Satish, Vanjari Siva Rama Krishna, Journal of Micromechanics and Microengineering . 2020,第10期

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4. The electrical-thermal co-simulation of integrated engineering system based on modular modeling method [C] . Sheng Liu, Yunlu Jia, Yinghui Song World Congress on Intelligent Control and Automation . 2014

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5. Architectural-physical co-design of 3D CPUs with micro-fluidic cooling. [D] . Serafy, Caleb. 2016

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6. Experimental evaluation of an adaptive Joule–Thomson cooling system includingsilicon-microfabricated heat exchanger and microvalve components [O] . Weibin Zhu, Jong M. Park, Michael J. White, -1

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7. Electrical-Thermal Co-Simulation of 3D Integrated Systems With Micro-Fluidic Cooling and Joule Heating Effects [O] . Jianyong Xie, Madhavan Swaminathan 2014

机译：具有微流体冷却和焦耳热效应的三维集成系统的电 - 热联合仿真

Electrical-Thermal Co-Simulation of 3D Integrated Systems With Micro-Fluidic Cooling and Joule Heating Effects

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