Patent ID: 7749790

Claim:
A method of fabricating a photoelectric conversion device that includes a first semiconductor region of a first conductivity type; a second semiconductor region of a second conductivity type forming a photoelectric conversion element together with a part of the first semiconductor region; a third semiconductor region of the second conductivity type; a transfer gate electrode transferring electric carriers generated in the photoelectric conversion element to the third semiconductor region; an element isolation region for electrically isolating the photoelectric conversion element from a transistor adjacent to the photoelectric conversion element; a fourth semiconductor region of the second conductivity type being arranged adjacent to the second semiconductor region to sandwich the element isolation region the fourth semiconductor region and the second semiconductor region, and forming a source or a drain of a transistor adjacent to the photoelectric conversion element; and a wiring arranged on the element isolation region for applying voltage to the transfer gate electrode, wherein the method comprises: forming the second semiconductor region in the first semiconductor region; forming the transfer gate electrode, the wiring, and a gate electrode of a transistor adjacent to the photoelectric conversion element; forming an insulation film covering the second semiconductor region, the wiring, the element isolation region, and a portion of an activation region between the element isolation region and the gate electrode of the transistor adjacent to the photoelectric conversion element; implanting impurity ions for the second conductive type into a portion not covered by the insulation film in the activation region with the insulation film as a mask to form the fourth semiconductor region; forming an interlayer insulation film covering the insulation film; and forming an opening for contact corresponding to the fourth semiconductor region in the interlayer insulation film.