To support the next generation highly integrated microsystem with 3-D silicon integration using fine pitch interconnection and Si carrier, we develop a fabrication and assembly process at IBM Research to produce solder microjoints (fine pitch flip-chip interconnections) for our systemon-package (SOP) technology. [1-3] We fabricate solder bumps with 25 µm (or less) in diameter on 50 µm pitch size, as well as 50 µm in diameter on 100 µm pitch size, at wafer level (200mm) by electroplating method. There are up to 10208 micro-bumps (25 µm) built on a chip surface less than 0.4 cm 2 . The process can be applied to various solder compositions, including eutectic SnPb, Pb-free (CuSn), AuSn and high Pb (3Sn97Pb) solders. The test matrix includes different solder/UBM (under bump metallization) combination.In this paper, the discussion focuses on the fabrication, assembly and characterization of the micro-joints made with of Pb-free (CuSn) and eutectic SnPb solders with Ni and/or Cu stack plating. The preliminary electrical and mechanical test results indicated that reliable and high yield micro-bumps can be successfully made with this fabrication and assembly process.
Controlled Collapse Chip Connection -New Process (C4NP) technology is a novel solder bumping technology developed by IBM to address the limitations of existing bumping technologies. Through continuous improvements in processes, materials and defect control, C4NP technology has been successfully implemented at IBM in the manufacturing of all 300mm Pb-free solder bumped wafers. Both 200 µm and 150 µm pitch products have been qualified and are currently ramping up volume production.Extendibility of C4NP to 50 µm ultra-fine pitch microbump application has been successfully demonstrated with the existing C4NP manufacturing tools. Targeted applications for microbumps are three-dimensional (3D) chip integration and the conversion of memory wafers from wirebonding (WB) to C4 bumping. The metrology data on solder volume, bump height, defect and yield have been characterized by RVSI inspection. This paper reviews the C4NP processes from mold manufacturing, solder fill and solder transfer onto 300 mm wafers, along with defect and yield analysis. Reliability challenges as well as solutions in the development and qualification of flip chip Pb-free solder joint are also reviewed. In addition to a suitable under bump metallurgy (UBM), a robust lead-free solder alloy with precisely controlled composition and special alloy doping is needed to enhance performance and reliability.
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