Impact of Isothermal Aging and Sn Grain Orientation on the Long-Term Reliability of Wafer-Level Chip-Scale Package Sn–Ag–Cu Solder Interconnects

Abstract

The interaction between isothermal aging and the long-term reliability of wafer-level chip-scale packages with Sn-3.0Ag-0.5Cu (wt%) solder ball interconnects is investigated. On isothermally aging at 100 and 150°C for 500 h and then thermally cycling from 0 to 100°C with 10 min of dwell time, the lifetime of the package is reduced by approximately 29%, depending on the aging condition. The microstructural evolution is observed during thermal aging and thermal cycling using orientation image microscopy. A Sn grain orientation structure transformation is observed. Different mechanisms after aging at various conditions are identified, and their impacts on the fatigue life of solder joints discussed.