Title :
Localized TIM characterization using deconstructive analysis
Author :
Fosnot, Phillip ; Galloway, Jesse
Author_Institution :
Amkor Technol., Inc., Chandler, AZ, USA
Abstract :
Characterizing the thermal performance of thermal interface materials (TIMs) continues to be a challenge for flip chip ball grid array (FCBGA) packages. Steady-state methods have been studied extensively but due to the difficulty in making accurate case temperature measurements have accuracy limitations. Transient measurement techniques offer an attractive alternative to steady state. However, the implementation of a property extraction analysis is more difficult to perform for thermal die with discrete heater cells as found in this study. An experimentally based deconstruction method is presented to predict the local thermal resistance of TIMs as a function time and position on the die over a short pulse ranging from 0.7ms to 100ms. The model is developed for a particular TIM but can be extended to other TIMs following the proposed calibration procedure.
Keywords :
ball grid arrays; flip-chip devices; temperature measurement; thermal analysis; thermal resistance; FCBGA packages; TIM characterization localization; accuracy limitations; calibration procedure; case temperature measurements; deconstructive analysis; discrete heater cells; flip chip ball grid array packages; function time and position; local thermal resistance; property extraction analysis; steady-state methods; thermal die; thermal interface material performance; transient measurement techniques; Electronic packaging thermal management; Heating; Mathematical model; Temperature measurement; Thermal resistance; Transient analysis; TIM; TTV; Theta JC; Transient; deconstruction;
Conference_Titel :
Thermal Measurement, Modeling & Management Symposium (SEMI-THERM), 2015 31st
Conference_Location :
San Jose, CA
DOI :
10.1109/SEMI-THERM.2015.7100169
