Title :
Parametric thermal modeling of 3D stacked chip electronics with interleaved solid heat spreaders
Author :
Gerlach, David W. ; Joshi, Yogendra K.
Author_Institution :
G. W. Woodruff Sch. of Mech. Eng., Georgia Inst. of Technol., Atlanta, GA
fDate :
May 30 2006-June 2 2006
Abstract :
Effective methods must be devised to transfer the heat from the core of 3D stacked chip electronics to the exterior of the device. The use of solid heat spreaders of high thermal conductivity interleaved between the chips was investigated parametrically through computational modeling. The effect of the power dissipated, the applied heat transfer coefficient, the spreader thickness, spreader thermal conductivity, and the shape of via holes in the spreader were modeled. Results show that for moderate power dissipations, 5 W in each 27 times 38 mm layer, a 250 mum thick copper heat spreader would conduct heat adequately
Keywords :
finite element analysis; heat conduction; heat sinks; integrated circuit modelling; thermal management (packaging); 250 micron; 27 mm; 38 mm; 3D stacked chip electronics; 5 W; computational modeling; heat transfer; interleaved solid heat spreaders; parametric thermal modeling; thermal conductivity; thermal management; Copper; Heat engines; Heat transfer; Shape; Silicon; Solid modeling; Temperature; Thermal conductivity; Thermal management of electronics; Thermal resistance;
Conference_Titel :
Thermal and Thermomechanical Phenomena in Electronics Systems, 2006. ITHERM '06. The Tenth Intersociety Conference on
Conference_Location :
San Diego, CA
Print_ISBN :
0-7803-9524-7
DOI :
10.1109/ITHERM.2006.1645482
