Mechanical cycling fatigue of PBGA package interconnects

Abstract

Increased packaging density in micro-electronic products has advantaged attach of BGA, micro-BGA, CSP, and DCA packages. These area array packages are assembled to circuit boards that are reduced in size and thickness, by necessity. These assemblies would include flexible thin laminate circuit boards with area array components attached by solder balls. In normal use, these assemblies would be subjected to numerous ultra-low frequency mechanical deflections; consider a keypad when the user enters telephone numbers. Most of the reliability studies of area array packages have dealt with temperature cycling induced fatigue. However, less attention has been paid to mechanical bending fatigue of these packages. A test method has been developed to elucidate the mechanical bending fatigue issues of BGA, micro-BGA, CSP, and DCA packages attached to printed circuit boards. Appropriate bending fatigue reliability models and their theoretical basis are being developed. The test method and preliminary mechanical cyclic fatigue data on a PBGA package will be presented as a function of printed circuit board thickness. Consideration will be given to fatigue fracture morphology and its relation to solder joint location and rate of crack growth.