DocumentCode
2267810
Title
Methodology for thermal evaluation of multichip modules
Author
Lall, Balwant S. ; Guenin, Bruce M. ; Molnar, Ronald J.
Author_Institution
Adv. Products Oper., Amkor Electron. Inc., Chandler, AZ, USA
fYear
1995
fDate
7-9 Feb 1995
Firstpage
72
Lastpage
79
Abstract
Multichip modules provide shorter interconnection lengths between the chips, higher speeds and lower costs. This higher system performance is the driving force for advances in MCM packaging technology. A potential limitation is the ability to remove heat from these packages. With higher chip densities, the thermal management of multichip modules poses a real challenge to the package manufacturer. There is a need to define the junction-to-ambient and junction-to-case thermal resistances for multichip modules in a more rigorous manner while reducing the number of thermal tests needed to evaluate an MCM and provide information to predict junction temperatures under arbitrary powering up of the individual dice. For high reliability, it is critical that maximum specified operating junction temperatures are not exceeded. Experiments were performed for non-uniform powering up of an MCM mounted on a vertical board in natural convection. The package tested was a 208-lead Amkor PMCM. The average chip temperature due to multiple sources within the module was considered as the reference temperature for evaluating the junction temperature rise of the particular chip. The concept of superposition of temperatures was found to capture the effect of the background heating of the chip due to its neighbors as well as the individual power dissipation from the chip in question. This approach offers a more refined methodology for evaluation of non-uniformly powered multichip modules compared to previous methods
Keywords
circuit reliability; cooling; integrated circuit packaging; multichip modules; natural convection; thermal resistance; background heating; chip temperature; individual power dissipation; interconnection lengths; junction temperatures; multichip modules; natural convection; operating junction temperatures; packaging technology; reliability; thermal evaluation; thermal management; thermal resistances; vertical board; Costs; Heating; Manufacturing; Multichip modules; Packaging; System performance; Temperature; Testing; Thermal management; Thermal resistance;
fLanguage
English
Publisher
ieee
Conference_Titel
Semiconductor Thermal Measurement and Management Symposium, 1995. SEMI-THERM XI., Eleventh Annual IEEE
Conference_Location
San Jose, CA
ISSN
1065-2221
Print_ISBN
0-7803-2434-X
Type
conf
DOI
10.1109/STHERM.1995.512054
Filename
512054
Link To Document