Title :
Thermal characterization of a PLCC-expanded Rjc methodology
Author :
Krueger, William ; Bar-Cohen, Avram
Author_Institution :
Rosemount Inc., Eden Prairie, MN, USA
fDate :
10/1/1992 12:00:00 AM
Abstract :
In a previous study, it was proposed to extend the use of the junction-to-case thermal resistance, Rjc, to nonisothermal packages by defining an appropriately weighted, average surface temperature based on numerically derived `thermal influence´ coefficients for each package surface (or segment) of interest. This expanded Rjc methodology is applied here to an actual plastic-leaded chip carrier (PLCC) package. Experimental data and the results of an extensive three-dimensional thermal simulation are used to establish the values of 11 sensitivity coefficients, which make it possible to determine the weighted average case temperature. The variations in the sensitivity coefficients and the accuracy of the chip temperature predictions, with the number of data sets used to determine the coefficients, are also examined
Keywords :
integrated circuit technology; packaging; thermal resistance; PLCC; average surface temperature; chip temperature predictions; expanded Rjc methodology; junction-to-case thermal resistance; nonisothermal packages; number of data sets; plastic-leaded chip carrier; sensitivity coefficients; three-dimensional thermal simulation; Costs; Electronic packaging thermal management; Isothermal processes; Plastics; Power dissipation; Surface resistance; Temperature sensors; Thermal expansion; Thermal management of electronics; Thermal resistance;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
