Procedure for design optimization of a T-cap flip chip package

Abstract In this study, a 1/4 three-dimensional finite element model of a T-cap flip chip package containing the substrate, underfill, solder bump, silicon die, metal cap and cap attachment was established to conduct thermo-mechanical reliability study during the flip chip fabrication processes. The applied thermal load was cooled from 183 °C to ambience 25 °C to determine the thermal stress and warpage during the curing period of solder ball mounting process. Under fixed geometry, two levels of underfill, metal caps and cap attachments were used to conduct the 2 3 factorial design for determining reliable material combinations. The statistical tests revealed that the significant effects affecting the thermal stress were the underfill, metal cap, cap attachment and the interaction between the underfill and cap attachment. The metal cap, cap attachment and their interaction significantly affected the warpage. The proposed regression models were used to perform the surface response simulations and were useful in selecting suitable materials for constructing the package. This study provides a powerful strategy to help the designer to easily determine reliable packaging structures under various reliability considerations.