Patent ID: 8441564

Claim:
A solid-state imaging apparatus comprising a plurality of pixels arranged two dimensionally on a semiconductor substrate, wherein each of the pixels includes: a photoelectric conversion portion for generating signal carriers; a carrier holding portion capable of holding the signal carriers, including a semiconductor region of a first conductivity type capable of accumulating the signal carriers, and a control electrode arranged over the semiconductor region sandwiching an insulating film between the semiconductor region and the control electrode; a floating diffusion region of a first conductivity type; and a transfer portion for controlling an electrical connection between the semiconductor region of the first conductivity type and the floating diffusion region, wherein for each pixel, the semiconductor region of the first conductivity type is arranged at a position in a first direction from the photoelectric conversion portion, and the floating diffusion region is arranged at a position in a second direction perpendicular to the first direction from the semiconductor region of the first conductivity type sandwiching the transferring portion between the floating diffusion region and the semiconductor region of the first conductivity type, wherein the plurality of pixels includes a first pixel and a second pixel arranged adjacent to the first pixel in the first direction, the semiconductor region of the first conductivity type included in the first pixel is arranged between the photoelectric conversion portions included in the first and second pixels, the carrier holding portion included in the first pixel is covered with a light shielding portion, and the light shielding portion extends to a part of each of the photoelectric conversion portions in the first and second pixels, wherein an element isolation region including an insulator is arranged between the semiconductor region of a first conductivity type in the first pixel and the photoelectric conversion portion of the second pixel, and wherein the light shielding portion of the first pixel extends over the element isolation region to an upper part of the photoelectric conversion portion of the second pixel without being patterned on the element isolation region.