摘要:
The present invention provides a solid-state image pickup device including an image pickup pixel section which is provided on a semiconductor substrate and in which a plurality of pixels each having a photoelectric conversion element and a field-effect transistor are arranged, and a peripheral circuit section for the image pickup pixel section. An interconnect layer driving the field-effect transistor in the image pickup pixel section is formed on a first surface side of the semiconductor substrate. A light receiving surface of the photoelectric conversion element is located on a second surface side of the semiconductor substrate. The solid-state image pickup device includes a first terminal exposed from the second surface side of the semiconductor substrate, and a second terminal electrically connected to the first terminal and connectable to an external device on the first surface side of the semiconductor substrate.
摘要:
According to one embodiment, an optical waveguide sensor chip includes an optical waveguide layer; a pair of optical elements disposed at both ends of the optical waveguide layer so that light enters the optical waveguide layer and the light exits from the optical waveguide layer; a functional film formed on a predetermined region of the optical waveguide layer; a covering layer formed in a planar region on the light entrance surface of the optical waveguide layer, in which at least the optical elements are disposed; a first through hole configured to allow the light entering the entrance-side optical element to pass therethrough; and a second through hole configured to allow the light exiting from the exit-side optical element to pass therethrough.
摘要:
A solid-state image pickup apparatus includes an image pickup pixel unit in which a plurality of pixels each including a photoelectric conversion element and a field-effect transistor are arranged on a semiconductor substrate so that a light-receiving surface is disposed at a first surface side of the semiconductor substrate; a peripheral circuit unit provided at a periphery of the image pickup pixel unit of the semiconductor substrate; and a multilayered wiring layer in which a plurality of wiring layers for driving the field-effect transistor of the image pickup pixel unit are laminated at a second surface side of the semiconductor substrate, wherein a wiring in each of the wiring layers constituting the multilayered wiring layer is disposed so that a coverage of the wiring located at least in the image pickup pixel unit of the semiconductor substrate reaches 100%, viewed from the second surface side.
摘要:
A method for fabricating a semiconductor device, includes forming an opening in a first film, embedding an alignment mark material for alignment with an upper layer in the opening, forming a second film on the first film in which the alignment mark material is embedded, irradiating the second film formed in a predetermined region including a position where the alignment mark material is embedded with a processing light, thereby to remove the second film to an extent that a portion of the second film remains in the predetermined region, and exposing the portion of the second film remaining in the predetermined region to an etching environment for etching the second film.
摘要:
A semiconductor device comprises a semiconductor substrate, a through contact and a metal film. The semiconductor substrate has a semiconductor element at a first face. The wiring pattern includes a grounding line and is located at a side of a second face opposite to the first face of the semiconductor substrate. The through contact penetrates the semiconductor substrate from the first face to the second face and electrically connects between the semiconductor element and the wiring pattern. The metal film is located between the second face of the semiconductor substrate and a face where the wiring pattern exists and electrically connected with the grounding line.
摘要:
A semiconductor package includes a solid-state imaging element, electrode pad, through-hole electrode, and light-transmitting substrate. The solid-state imaging element is formed on the first main surface of a semiconductor substrate. The electrode pad is formed on the first main surface of the semiconductor substrate. The through-hole electrode is formed to extend through the semiconductor substrate between the first main surface and a second main surface opposite to the electrode pad formed on the first main surface. The light-transmitting substrate is placed on a patterned adhesive to form a hollow on the solid-state imaging element. The thickness of the semiconductor substrate below the hollow when viewed from the light-transmitting substrate is larger than that of the semiconductor substrate below the adhesive.