High Heat Flux Removal Using Optimized Microchannel Heat Sink

被引:0
作者
Zhang, Lei [1 ]
Jones, Ben [1 ]
Buja, Federico [1 ]
Cherman, Vladimir [1 ]
Oprins, Herman [1 ]
Soussan, Philippe [1 ]
机构
[1] IMEC, Leuven, Belgium
来源
2018 24TH INTERNATIONAL WORKSHOP ON THERMAL INVESTIGATIONS OF ICS AND SYSTEMS (THERMINIC) | 2018年
关键词
HIGH-PERFORMANCE; JET IMPINGEMENT; POWER; ELECTRONICS;
D O I
暂无
中图分类号
O414.1 [热力学];
学科分类号
摘要
In this paper, we report on a silicon-based compact microchannel heat sink that enables high heat flux dissipation. Using advanced CMOS compatible silicon fabrication, high aspect ratio microchannels, 32 mu m wide and 160 mu m deep were realized. The heat sink was interfaced to a small 5.0 mm x 5.0 mm silicon-based thermal test chip. A very low thermal contact resistance between the heat sink and the heater die was achieved using an optimized Cu/Sn-Au interface. As a result, a low total thermal resistance of 0.36 K/W (9 mm(2)K/W) at the pump power of about 2 W was achieved on the assembled device. The design, fabrication, measurements on cooling performance and 3D modelling of the device are included in this paper.
引用
收藏
页数:6
相关论文
共 50 条
[21]   Flow and thermal modeling of liquid metal in expanded microchannel heat sink [J].
Zhang, Mingkuan ;
Zhang, Xudong ;
Guo, Luna ;
Li, Xuan ;
Rao, Wei .
FRONTIERS IN ENERGY, 2023, 17 (06) :796-810
[22]   Simultaneous Optimization of Geometric and Nanofluids Parameters in a Rectangular Microchannel Heat Sink [J].
Fazeli, Hamid ;
Pourrajabian, Abolfazl ;
Nikooei, Elnaz .
HEAT TRANSFER ENGINEERING, 2022, 43 (21) :1820-1837
[23]   Thermal-hydraulic performance of ammonia in manifold microchannel heat sink [J].
Tang, Kai ;
Huang, Yanpei ;
Lin, Guiping ;
Guo, Yuandong ;
Huang, Jinyin ;
Lin, Haimiao ;
Zhang, Hongxing ;
Yang, Qi ;
Miao, Jianyin .
APPLIED THERMAL ENGINEERING, 2023, 232
[24]   Optimisation of porous slab parameters for jet-impingement microchannel heat sink performance enhancement [J].
Grochowalska, Joanna ;
Jaworski, Piotr ;
Kapusta, Lukasz Jan ;
Kowalski, Jerzy .
INTERNATIONAL JOURNAL OF NUMERICAL METHODS FOR HEAT & FLUID FLOW, 2022, 32 (08) :2659-2681
[25]   Study on the flow and heat transfer characteristics of a hybrid nanofluid jet impingement microchannel heat sink with airfoil fins [J].
Tang, Zhiguo ;
Li, Man ;
Li, Yan ;
Cheng, Jianping .
ASIA-PACIFIC JOURNAL OF CHEMICAL ENGINEERING, 2025, 20 (01)
[26]   Numerical investigation of a hybrid double layer microchannel heat sink with jet impingement [J].
Mostafa Y.T. ;
El-Dosoky M.F. ;
Abdelgawad M. ;
Hassan O. .
International Journal of Thermofluids, 2023, 20
[27]   Evaporative Intrachip Hotspot Cooling with a Hierarchical Manifold Microchannel Heat Sink Array [J].
Drummond, Kevin P. ;
Weibel, Justin A. ;
Garimella, Suresh V. ;
Back, Doosan ;
Janes, David B. ;
Sinanis, Michael D. ;
Peroulis, Dimitrios .
2016 15TH IEEE INTERSOCIETY CONFERENCE ON THERMAL AND THERMOMECHANICAL PHENOMENA IN ELECTRONIC SYSTEMS (ITHERM), 2016, :307-315
[28]   Experimental Study on Cooling Performance of a Hybrid Microchannel and Jet Impingement Heat Sink [J].
Xiao, Runfeng ;
Zhang, Pingtao ;
Chen, Liang ;
Zhang, Yu ;
Hou, Yu .
APPLIED SCIENCES-BASEL, 2022, 12 (24)
[29]   Experimental and Numerical Investigation for Hydrothermal Performance of the Jet Impingement Microchannel Heat Sink [J].
Pandey, Jyoti ;
Ansari, Mohd. Zahid ;
Husain, Afzal .
ASME JOURNAL OF HEAT AND MASS TRANSFER, 2024, 146 (07)
[30]   High Heat Flux Removal by Water Jet Impingement using 3D Printed Nozzles [J].
Ramaraju, Ram Gopal Varma ;
Passandideh-Fard, Mohammad ;
Chandra, Sanjeev .
2022 28TH INTERNATIONAL WORKSHOP ON THERMAL INVESTIGATIONS OF ICS AND SYSTEMS (THERMINIC 2022), 2022,
12345