Silicon heat pipes used as thermal spreaders

被引:4
|
作者
Gillot, C [1 ]
Avenas, Y [1 ]
Cézac, N [1 ]
Poupon, G [1 ]
Schaeffer, C [1 ]
Fournier, E [1 ]
机构
[1] CEA, DRT, LETI, DTS,GRE, F-38054 Grenoble 9, France
来源
ITHERM 2002: EIGHTH INTERSOCIETY CONFERENCE ON THERMAL AND THERMOMECHANICAL PHENOMENA IN ELECTRONIC SYSTEMS, PROCEEDINGS | 2002年
关键词
heat pipe; silicon; spreading; miniature; groove; vapor;
D O I
10.1109/ITHERM.2002.1012574
中图分类号
O414.1 [热力学];
学科分类号
摘要
An increase in power densities in electronic devices is a direct consequence of their miniaturization and performance improvements. We propose the use of flat miniature heat pipes with micro capillary grooves to spread heat flux across a heat sink. Models of the structure were developed to calculate heat transfer limitations and temperature drops. A brass / water prototype was fabricated to demonstrate the feasibility of heat spreading using this type of heat pipe. Simulation and experimental results obtained with the prototype are described. The dissipated power reached 110 W/cm(2) without heat transfer limitations. The results are then extended to the design of this type of heat pipe in silicon. Thermal performance was calculated. Simulation, experimental results and the fabrication process are presented.
引用
收藏
页码:1052 / 1057
页数:6
相关论文
共 50 条
  • [1] Silicon heat pipes used as thermal spreaders
    Gillot, C
    Avenas, Y
    Cezac, N
    Poupon, G
    Schaeffer, C
    Fournier, E
    IEEE TRANSACTIONS ON COMPONENTS AND PACKAGING TECHNOLOGIES, 2003, 26 (02): : 332 - 339
  • [2] Performance characteristics of pulsating heat pipes as integral thermal spreaders
    Yang, Honghai
    Khandekar, Sameer
    Groll, Manfred
    INTERNATIONAL JOURNAL OF THERMAL SCIENCES, 2009, 48 (04) : 815 - 824
  • [3] On the use of flat heat pipes as thermal spreaders in power electronics cooling
    Avenas, Y
    Gillot, C
    Bricard, A
    Schaeffer, C
    PESC'02: 2002 IEEE 33RD ANNUAL POWER ELECTRONICS SPECIALISTS CONFERENCE, VOLS 1-4, CONFERENCE PROCEEDINGS, 2002, : 753 - 757
  • [4] Analysis of thermal resistance of orthotropic materials used for heat spreaders
    Lam, TT
    Fischer, WD
    Cabral, PS
    JOURNAL OF THERMOPHYSICS AND HEAT TRANSFER, 2004, 18 (02) : 203 - 208
  • [5] Realization and thermal analysis of silicon thermal spreaders used in power electronics cooling
    Ivanova, M
    Schaeffer, C
    Avenas, Y
    Laï, A
    Gillot, C
    2003 IEEE INTERNATIONAL CONFERENCE ON INDUSTRIAL TECHNOLOGY, VOLS 1 AND 2, PROCEEDINGS, 2003, : 1124 - 1129
  • [6] Thermal characterization of flat silicon heat pipes
    Lai, A
    Gillot, C
    Ivanova, M
    Avenas, Y
    Louis, C
    Schaeffer, C
    Fournier, E
    TWENTIETH ANNUAL IEEE SEMICONDUCTOR THERMAL MEASUREMENT AND MANAGEMENT SYMPOSIUM, PROCEEDINGS 2004, 2004, : 21 - 25
  • [7] Thermal behavior of nominally flat silicon-based heat spreaders
    Lin, Ta-Wei
    Wu, Ming-Chang
    Peng, Cheng-Hsien
    Chen, Po-Li
    Hung, Ying-Huei
    JOURNAL OF ELECTRONIC PACKAGING, 2006, 128 (04) : 370 - 379
  • [8] Heat pipes and porous metals used in heat pipes
    Xi Zhengping
    Tang Huiping
    Zhu Jilei
    Liao Jichang
    RARE METAL MATERIALS AND ENGINEERING, 2006, 35 : 418 - 422
  • [9] Bonding silicon devices on diamond heat spreaders
    Fan, WD
    Jagannadham, K
    Narayan, J
    DIAMOND FOR ELECTRONIC APPLICATIONS, 1996, 416 : 211 - 216
  • [10] Thermal analysis of thermal spreaders used in power electronics cooling
    Avenas, Y
    Ivanova, M
    Popova, N
    Schaeffer, C
    Schanen, JL
    Bricard, A
    CONFERENCE RECORD OF THE 2002 IEEE INDUSTRY APPLICATIONS CONFERENCE, VOLS 1-4, 2002, : 216 - 221
12345