Patent ID: 6335220
Filing Date: 2002-01-01
Classification: H01L

Abstract:
A method of manufacturing solid-state imaging devices, comprising:the step of forming a gate insulating film on a semiconductor substrate having a plurality of light-recieving element regions arranged in a row and a plurality of sets of charge transfer electrode regions arranged in a row in correspondence to the light-receiving element regions, each of the plurality of sets of charge transfer electrode regions including a first charge transfer electrode region, a second charge transfer electrode region a third charge transfer electrode region and a fourth charge transfer electrode region arranged in the row in the order; the step of forming a first conductive film on the gate insulating film; the step of removing said first conductive film in part of the second charge transfer electrode region and in the third charge transfer electrode region of each of the sets of the charge transfer electrode regions so that the first conductive film has a strip pattern; the step of thermally oxidizing the surface of said first conductive film having the strip pattern to form a thermal oxidation film on the surface of the first conductive film; the step of removing part of the thermal oxidation film in said second charge transfer electrode region, said part of the thermal oxidation film being on a side of the thermal oxidation film opposing to the first charge transfer electrode region; the step of removing part of said thermal oxidation film and part of said first conductive film in boundaries of the fourth charge transfer electrode regions and the first charge transfer electrode regions of adjacent charge transfer electrode regions of the set of charge transfer electrode regions; the step of forming a second conductive film over the semiconductor substrate; the step of forming a first resist film of a stripe pattern on said second conductive film, the first resist film extending parallel to said first conductive film and partially overlapping with said first conductive film, the first resist film having openings overlapping with part of the gate insulating film in the second charge transfer electrode region and parts of the fourth charge transfer electrode regions and parts of the first charge transfer electrode regions in boundaries of adjacent charge transfer electrode regions of the set of charge transfer electrode regions; the step of removing said second conductive film using said first resist film as a mask to form a first to fourth charge transfer electrodes of a strip pattern; forming a second resist film having an opening on each of the light-receiving element regions; and the step of removing said second conductive film, said thermal oxidation film, and said first conductive film in each of the light-receiving element regions using the second resist film as a mask.