Characterization and reliability assessment of solder microbumps and assembly for 3D IC integration

In this investigation, Cu/Sn lead-free solder microbumps with 10μm pads on 20μm pitch are designed and fabricated. The chip size is 5mm × 5mm with thousands of microbumps. A daisy-chain feature is adopted for the characterization and reliability Assessment. After pattern trace formation, the microbump is fabricated on the trace by an electroplating technique. A suitable barrier/seed layer thickness is designed and applied to minimize the undercut due to wet etching but still achieve good plating uniformity. With the current process, the undercut is less than 1μm and the bump height variation is less than 10%. In addition, the shear test is adopted to characterize the bump strength, which exceeds the specification. Also, the Cu-Sn lead-free solder micro bumped chip is bonded on a Si wafer (chip-to-wafer or C2W bonding). Furthermore, the micro-gap between the bonded chips is filled with a special underfill. The shear strength of the bonded chips w/o underfill is measured and exceeds the specification. The bonding and filling integrity is further evaluated by open/short measurement, SAT analysis, and cross-section with SEM analysis. The stacked ICs are evaluated by reliability tests, including thermal cycling test (−55⇆125°C, dwell and ramp times = 15 min). Finally, ultra find-pitch (5μm pads on 10μm pitch) lead-free solder microbumping is explored.