Thermal characteristics for a horizontal heated chip mounted with three types of nominally flat silicon-based heat spreaders have been systematically investigated. They include the natural convective and radiative heat transfer from the top surface of the heat spreaders to the external ambient, external thermal resistance, and maximum overall thermal resistance. In the aspect of natural convection, an axisymmetric bowl-shaped profile of local Nusselt number is achieved, and the highest convective heat transfer performance occurs at the location near the rim of the heat spreader. The effect of surface roughness on both local and average natural convective heat transfer behaviors from nominally flat silicon-based spreader surfaces to the external ambient is not significant. Two new generalized correlations of local and average Nusselt numbers for various heat spreader surfaces are presented. The contributions of convection and radiation on the total heat dissipated from the top surface of the heat spreader to the ambient are about 72% and 28%, respectively. The effect of surface roughness on external thermal resistance for nominally flat silicon-based surfaces is not significant. The influence of the conductive thermal resistance within the silicon-based heat spreader on the maximum thermal resistance is not significant. The maximum thermal resistance is mainly dominated by external thermal resistance for flat nominally silicon-based heat spreaders.
Skip Nav Destination
e-mail: yhhung@pme.nthu.edu.tw
Article navigation
December 2006
Research Papers
Thermal Behavior of Nominally Flat Silicon-Based Heat Spreaders
Ta-Wei Lin,
Ta-Wei Lin
Department of Power Mechanical Engineering,
National Tsing Hua University
, Hsinchu 30013, Taiwan
Search for other works by this author on:
Ming-Chang Wu,
Ming-Chang Wu
Department of Power Mechanical Engineering,
National Tsing Hua University
, Hsinchu 30013, Taiwan
Search for other works by this author on:
Cheng-Hsien Peng,
Cheng-Hsien Peng
Department of Power Mechanical Engineering,
National Tsing Hua University
, Hsinchu 30013, Taiwan
Search for other works by this author on:
Po-Li Chen,
Po-Li Chen
Department of Power Mechanical Engineering,
National Tsing Hua University
, Hsinchu 30013, Taiwan
Search for other works by this author on:
Ying-Huei Hung
Ying-Huei Hung
ASME Fellow
Department of Power Mechanical Engineering,
e-mail: yhhung@pme.nthu.edu.tw
National Tsing Hua University
, Hsinchu 30013, Taiwan
Search for other works by this author on:
Ta-Wei Lin
Department of Power Mechanical Engineering,
National Tsing Hua University
, Hsinchu 30013, Taiwan
Ming-Chang Wu
Department of Power Mechanical Engineering,
National Tsing Hua University
, Hsinchu 30013, Taiwan
Cheng-Hsien Peng
Department of Power Mechanical Engineering,
National Tsing Hua University
, Hsinchu 30013, Taiwan
Po-Li Chen
Department of Power Mechanical Engineering,
National Tsing Hua University
, Hsinchu 30013, Taiwan
Ying-Huei Hung
ASME Fellow
Department of Power Mechanical Engineering,
National Tsing Hua University
, Hsinchu 30013, Taiwane-mail: yhhung@pme.nthu.edu.tw
J. Electron. Packag. Dec 2006, 128(4): 370-379 (10 pages)
Published Online: December 24, 2005
Article history
Received:
May 23, 2005
Revised:
December 24, 2005
Citation
Lin, T., Wu, M., Peng, C., Chen, P., and Hung, Y. (December 24, 2005). "Thermal Behavior of Nominally Flat Silicon-Based Heat Spreaders." ASME. J. Electron. Packag. December 2006; 128(4): 370–379. https://doi.org/10.1115/1.2351902
Download citation file:
29
Views
Get Email Alerts
Cited By
Experimental Method to Measure High-Temperature Hygroscopic Swelling in Epoxy Mold Compounds and Dielectric Build-Up Films
J. Electron. Packag (March 2025)
Development of a Thermal Metrology Standard for Evaluation of Cold Plate Thermal Resistance as a Performance Metric
J. Electron. Packag (December 2024)
Related Articles
A Numerical Study of the Thermal Performance of a Tape Ball Grid Array (TBGA) Package
J. Electron. Packag (June,2000)
Thermal Interfacing Techniques for Electronic Equipment—A Perspective
J. Electron. Packag (June,2003)
Evaluation of Thermal Enhancements to Flip-Chip-Plastic Ball Grid Array Packages
J. Electron. Packag (December,2004)
Free Convection Limits for Pin-Fin Cooling
J. Heat Transfer (August,1998)
Related Proceedings Papers
Related Chapters
Thermal Interface Resistance
Thermal Management of Microelectronic Equipment
Experimental Thermal Resistance Comparison of a Reflective Insulation in Vertical and Horizontal Furred Airspace Orientations Using a Guarded Hot Box
Building Science and the Physics of Building Enclosure Performance: 2nd Volume
Thermoelectric Coolers
Thermal Management of Microelectronic Equipment