An imaging device which does not include a color filter and does not need arithmetic processing using an external processing circuit is provided. A first circuit includes a first photoelectric conversion element, a first transistor, and a second transistor; a second circuit includes a second photoelectric conversion element, a third transistor, and a fourth transistor; a third circuit includes a fifth transistor, a sixth transistor, a seventh transistor, and a second capacitor; the spectroscopic element is provided over the first photoelectric conversion element or the second photoelectric conversion element; and the first circuit and the second circuit is connected to the third circuit through a first capacitor.

Provided is an image sensor having improved performance. An image sensor in accordance with an embodiment of the present invention including a pixel array in which a plurality of pixels are two-dimensionally arranged, wherein each of the plurality of pixels may include: a photoelectric conversion element formed in a substrate; a transfer gate overlapping with a portion of the photoelectric conversion element and formed on the substrate; and a color filter over the photoelectric conversion element, wherein the plurality of pixels include two adjacent pixels which have the same color filter, and wherein one of the two adjacent pixels comprises an incident light control pattern.

This disclosure describes various modules that can provide ultra-precise and stable packaging for an optoelectronic device such as a light emitter or light detector. The modules include vertical alignment features that can be machined, as needed, during fabrication of the modules, to establish a precise distance between the optoelectronic device and an optical element or optical assembly disposed over the optoelectronic device.

Implementations of semiconductor packages may include: a substrate coupled to one or more die and to one or more connectors, a glass lid coupled over one or more die by an adhesive and a housing comprising one or more sides and a bottom opening and a top opening. The substrate may be coupled to the housing at the bottom opening and the glass lid may be coupled under the housing at the top opening.

A pixel cell with a photosensitive region formed in association with a substrate, a color filter formed over the photosensitive region, the color filter comprising a first material layer and a second material layer formed in association with the first shaping material layer.

A solid-state imaging device includes a layout in which one sharing unit includes an array of photodiodes of 2 pixels by 4n pixels (where, n is a positive integer), respectively, in horizontal and vertical directions.

The present technology relates to a semiconductor device and electronic equipment in which a semiconductor device that suppresses the occurrence of noise by a leakage of light can be provided.

A semiconductor device is configured which includes a light-receiving element 34, an active element for signal processing, and a light shielding structure 40 which is between the light-receiving element 34 and the active element to cover the active element and is formed of wirings 45 and 46. The semiconductor device further includes a first substrate on which the light-receiving element is formed, a second substrate on which the active element is formed, and a wiring layer which has a light shielding structure by the wirings which is formed on the second substrate, and in which the second substrate can be bonded to the first substrate through the wiring layer.

An image sensor includes a semiconductor substrate integrated with at least one first photo-sensing device configured to sense light in a blue wavelength region and at least one second photo-sensing device configured to sense light in a red wavelength region, a color filter layer on the semiconductor substrate and including a blue color filter configured to selectively absorb light in a blue wavelength region and a red color filter configured to selectively absorb light in a red wavelength region, and a third photo-sensing device on the color filter layer and including a pair of electrodes facing each other, and a photoactive layer between the pair of electrodes and configured to selectively absorb light in a green wavelength region.

An image pickup unit, an image pickup device, a picture processing method, a diaphragm control method, and program are capable of suppressing deterioration in quality of a stereoscopic picture. A parallax detection pixel receives object light by a plurality of photodetectors covered with one microlens, to generate a signal used for detecting parallax. G pixels, an R pixel, and a B pixel each receive the object light to generate a signal used for generating a planar picture. A parallax detection section detects parallax based on the signal generated by the parallax detection pixels. A 2D picture generation section generates a planar picture based on a signal generated by picture generation pixels. A 3D picture generation section adjusts a position of each object image included in the planar picture, based on the detected parallax, to generate a stereoscopic picture.

An array imaging module includes a molded photosensitive assembly which includes a supporting member, at least a circuit board, at least two photosensitive units, at least two lead wires, and a mold sealer. The photosensitive units are coupled at the chip coupling area of the circuit board. The lead wires are electrically connected the photosensitive units at the chip coupling area of the circuit board. The mold sealer includes a main mold body and has two optical windows. When the main mold body is formed, the lead wires, the circuit board and the photosensitive units are sealed and molded by the main mold body of the mold sealer, such that after the main mold body is formed, the main mold body and at least a portion of the circuit board are integrally formed together at a position that the photosensitive units are aligned with the optical windows respectively.