Title :
Steady state thermal analysis of a reconfigurable wafer-scale circuit board
Author :
Bougataya, Mohammed ; Lakhsasi, Ahmed ; Norman, Richard ; Prytula, Richard ; Blaquiere, Yves ; Savaria, Yvon
Author_Institution :
Univ. du Quebec a Trois-Rivieres, Quebec, QC
Abstract :
During the development of a reconfigurable wafer-scale circuit board, the thermal design aspects have proved crucial to its reliable operation. Reducing thermally induced stress and preventing local overheating remain major concerns when optimizing the capabilities of the WaferBoardTM technology. This paper presents a thermal analysis of that technology. For this study, various thermal boundary conditions are analyzed and thermal profiles with 3D thermal contours are presented. 3D finite element thermal models are used to predict local thermal peaks on the WaferBoardTM structure. This model allows exploring the possibilities to minimize the thermal gradient in the critical areas, especially at the solder balls level. In a second step, thermal stress analysis will be conducted using the temperature loads calculated by steady state thermal analysis.
Keywords :
finite element analysis; integrated circuit design; integrated circuit reliability; printed circuits; thermal management (packaging); thermal stresses; wafer-scale integration; 3D finite element model; reconfigurable wafer-scale circuit board; reliable operation; steady state thermal analysis; thermal boundary condition; thermal stress analysis; Boundary conditions; Finite element methods; Predictive models; Printed circuits; Semiconductor device modeling; Steady-state; Temperature; Thermal conductivity; Thermal loading; Thermal stresses; Finite Element; Heat transfer; Junction temperature; Thermal analysis; VLSI;
Conference_Titel :
Electrical and Computer Engineering, 2008. CCECE 2008. Canadian Conference on
Conference_Location :
Niagara Falls, ON
Print_ISBN :
978-1-4244-1642-4
Electronic_ISBN :
0840-7789
DOI :
10.1109/CCECE.2008.4564567
