| 主权项 |
1. A MOS P-N junction Schottky diode device, comprising:
a substrate having a first conductivity type; a plurality of doped regions having a single second conductivity type formed in the substrate and each doped regions comprising a first doped sub-region and a second sub-region, wherein the first doped sub-region is formed by a first ion implantation and a second ion implantation and the second doped sub-region is formed by the second ion implantation, the first doped sub-region is adjacent to the second doped sub-region, both the first doped sub-region and the second doped sub-region are adjacent to a top plane surface of the substrate, and the first doped sub-region has a higher depth than the second doped sub-region, wherein said plurality of doped regions having said single second conductivity type only directly adjacent to an un-implanted region within the substrate having said first conductivity type; a field oxide structure formed and directly contacting on the top plane surface of the substrate; a plurality of gate structures formed on the top plane surface of the substrate, wherein each gate structure comprises a polysilicon layer; a top electrode formed and immediately adjacent and above the field oxide structure, the ploysilicon layers of the gate structures, the doped regions, and the top plane surface of the substrate; and a bottom electrode formed adjacent and below the substrate; wherein a plurality of ohmic contacts are formed between the top electrode and the doped regions, a plurality of Schottky contacts are formed between the top electrode and the substrate, one side of each of the gate structures is only adjacent to said second conductivity type to form the ohmic contacts, an opposite side of each of the gate structures is only adjacent to said first conductivity type to form the Schottky contacts, and such that said first conductivity type and said second conductivity type are alternated directly underneath said top electrode among said plurality of gate structures. |
