Overlay performance of through Si via last lithography for 3D packaging

Foundry customers and makers of leading-edge devices are evaluating through-silicon via (TSV) for next-generation three-dimensional (3D) packaging. Scaling the diameter of the TSV is a major driver for improving system performance and cost. With smaller TSV diameters, back-to-front overlay becomes a critical parameter because via landing pads on the first metal level must be large enough to include both the TSV critical dimension (CD) and overlay variations. In this paper we investigate the long term capability of a Dual Side Alignment (DSA) lithography system for printing 5 mu m and smaller TSV features. DSA lithography is used to pattern the TSV feature, and Stepper Self Metrology (SSM) is performed to verify the overlay after photoresist development. Multiple stepper lithography fields per wafer and multiple wafers per lot are measured to obtain a statistically significant data set for wafer lot overlay analysis. In addition, multiple wafer lots were processed and measured to establish long term overlay performance and stability. In order to independently verify the SSM overlay data, dedicated electrical structures were designed and placed on a Via Last TSV test chip. These structures allow the TSV diameter and TSV overlay to be measured electrically after lot completion. Vector plots were used to compare the SSM overlay and electrical overlay data.