A novel CMOS structure has been developed using Ti-salicide PSD transistor formed by a new self-aligned method. Both N-channel and P-channel PSD transistors exhibit excellent short-channel behaviors down to the sub-half-micrometer region with shallow S/D junctions formed by dopant diffusion from polysilicons. New salicide process has been developed for the PSD structure and can effectively reduce the sheet resistances of the S/D polysilicon and the polysilicon gate to as low as 4 to approximately 5 Ω/□. As a result, the low resistive local interconnects can be successfully implemented by the Ti-salicide S/D polysilicon merged with contacts by self-alignment. Moreover it is found that shallow Ti-salicide S/D junctions with the PSD structure can achieve approximately 1 to approximately 2 orders of magnitude lower area leakage current than that of the conventional implanted S/D junctions by eliminating implanted damage and preventing penetration of silicide into junctions with the elevated structure of S/D polysilicon layer. Furthermore CMOS ring oscillators having PSD transistors with an effective channel length of 0.4 μm were fabricated using the salicided S/D polysilicon as a local interconnect between the N+ and the P+ regions, and successfully operated with a propagation delay time of 50 ps/stage at a supply voltage of 5 V.
|ジャーナル||IEICE Transactions on Electronics|
|出版ステータス||Published - 1993 4月 1|
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