Fabrication and characterization of 1.5fF/μm2 high-performance low-cost metal-insulator-metal capacitor in 0.13μm and below Cu BEOL technologies

The capacitance density of industrial low-cost metal-insulator-metal (MIM) capacitor in Cu back-end-of-line (BEOL) technologies has been improved to 1.5 fF/μm² which is 50% higher than the current foundry standard of 1.5 fF/μm² based in J. C. Guo et al. (2003), P. Zurcher et al. (2002) and C. H. Ng et al. (2002). In this paper, we present a method to fabricate the high-density MIM with only one additional mask required on lop of the standard logic baseline Cu BEOL technologies. This MIM capacitor´s reliability, voltage and temperature coefficients, thermal stability, and mismatching performance have been proved to be fully qualified to meet foundry´s requirements. Without applying novel material nor using extra offsetting process loop, the proposed MIM capacitor has a very good performance-over-cost ratio, which is promising to be implemented in 0.13μm and below Cu BEOL technologies.