Process integration and testing of TSV Si interposers for 3D integration applications

Abstract

Two 3D Si interposer demonstration vehicles containing through-Si vias (TSVs) were successfully fabricated using integration of two different TSV formation and multilevel metallization (MLM) process modules. The first Si interposer vehicles were made with a dual damascene frontside MLM (5 levels), backside TSV (unfilled, vias-last), and backside metallization (2 levels) process sequence on standard thickness 6” wafers. The front-side MLM was comprised of 4 metal routing layers (2 μm Cu with 2 μm oxide interlayer dielectric) and 1 metal pad layer. Electrical yield as high as 100% was obtained on contact chain test structures containing 26,400 vias between the front-side MLM layers, while the average contact resistance between the dual damascene levels was 100MΩ/via at 3.3V) for the target application. Functional testing of two die (4 cm × 3.7 cm die size) showed that 99% of the functional circuit path nets had acceptable continuity and isolation. The second Si interposer vehicles were fabricated using a vias-first TSV (filled, blind vias), wafer-level packaging (WLP) front-side MLM (2 levels), wafer thinning (via reveal), and WLP-MLM (1 level) process sequence on stock 6” wafers. Via dimensions for the viasfirst interposers were 50 μm diameter × 315 μm depth or 80 μm diameter × 315 μm depth (6:1 or 4:1 aspect ratios). The front and backside MLM was formed with a 2 μm Cu routing layer and one of two spin-on dielectrics (polyimide or ALX) for evaluation of polymer dielectric process compatibility with Cu-filled TSVs and thinned wafer processing. Details of the process modules and process integration required to realize the TSV Si interposers are described.