Reliability issues for flip-chip packages

In this article, we review the reliability issues for plastic flip-chip packages, which have become an enabling technology for future packaging development. The evolution of area-array interconnects with high I/O counts and power dissipation has made thermal deformation an important reliability concern for flip-chip packages. Significant advances have been made in understanding the thermo-mechanical behavior of flip-chip packages based on recent studies using moire interferometry. Results from moire studies are reviewed by focusing on the role of the underfill to show how it reduces the shear strains of the solder balls but shifts the reliability concern to delamination of the underfill interfaces. The development of the high-resolution moire interferometry based on the phase-shift technique provided a powerful method for quantitative analysis of thermal deformation and strain distribution for high-density flip-chip packages. This method has been applied to study plastic flip-chip packages and the results and impacts on delamination at the die/underfill interface and in the underfill region above the plated through-hole via are discussed. Here a related reliability problem of die cracking during packaging assembly and test is also discussed. Finally, we discuss briefly two emerging reliability issues for advanced flip-chip packages, one on the packaging effect on Cu/low k interconnect reliability and the other on electromigration of solder balls in flip-chip packages. (C) 2004 Elsevier Ltd. All rights reserved.