Patent ID: 7304338

Claim:
A solid-state image sensor in which a plurality of unit pixel portions, each including a light receiving area which generates electric charges by light irradiation and a transistor which outputs an electric signal in accordance with the light receiving area, are arranged in a two-dimensional array, wherein: each of the unit pixel portions is separated from each of the unit pixel portions adjacent thereto in said two-dimensional array by pixel separation electrodes and by a second conductivity type semiconductor portion, each of the unit pixel portions includes a first conductivity type well region, said two-dimensional array and said second conductivity type semiconductor portion separating the unit pixels of said two-dimensional array are provided on a second conductivity type semiconductor layer located within a substrate, such that a part of the first conductivity type well region and a second conductivity type semiconductor region laminated on a part of said first conductivity type well region form the light receiving areas, wherein the substrate has a bottom portion of the first conductivity type; the solid-state image sensor comprises an insulation film formed of a thermal oxidation film so as to cover a top surface region of the substrate and a top surface of a gate of the transistor, wherein the second conductivity type semiconductor region is formed in the top surface region of the substrate; an electric charge storage area for storing electric charges generated in the light receiving area is provided in the first conductivity type well region whereby said transistor can read out an electric signal in accordance with an amount of electric charges stored in the electric charge storage area; the second conductivity type semiconductor region is formed through an impurity implantation and has a maximum impurity concentration portion at a surface thereof that is opposite to said first conductivity type well region; and a peak impurity concentration caused by the impurity implantation is located within the insulation film such that an average depth of the impurity implantation is located within the insulation film.