Title :
Decoupled Package-On-Package thermal characterization
Author :
Galloway, Jesse E. ; Dreiza, Moody
Author_Institution :
Amkor Technol., Chandler, AZ
Abstract :
Thermal characterization of a package-on-package (PoP) presents a challenge due to the variation in stacking configurations. Currently available characterization methods as outlined in the JESD51 standard cannot predict die temperatures for packages with more than one die, let alone multiple stacked packages. A model is presented to predict die temperatures for PoP by combining individual resistor networks using a Delphi network modeling approach. Data from experimental tests were used to confirm the accuracy of a finite element analysis (FEA) based conduction model for an assembled PoP under varying power combinations. Separate FEA models for top and bottom packages were used to extract resistance values for two different resistor networks. These network models were combined to predicted die temperatures with a difference less than 7% when compared to the FEA model of the PoP.
Keywords :
finite element analysis; resistors; stacking; thermal management (packaging); Delphi network; JESD51 standard; decoupled package-on-package; die temperatures; finite element analysis; multiple stacked packages; resistor networks; stacking configurations; thermal characterization; Assembly; Electronic packaging thermal management; Predictive models; Resistors; Semiconductor device packaging; Stacking; Telephone sets; Temperature; Testing; Thermal resistance; Compact thermal model; Delphi; Package-on-Package (PoP); Thermal Characterization;
Conference_Titel :
Semiconductor Thermal Measurement and Management Symposium, 2009. SEMI-THERM 2009. 25th Annual IEEE
Conference_Location :
San Jose, CA
Print_ISBN :
978-1-4244-3664-4
Electronic_ISBN :
1065-2221
DOI :
10.1109/STHERM.2009.4810782
