Patent application number | Description | Published |
20120007205 | INFRARED IMAGING DEVICE AND METHOD OF MANUFACTURING THE SAME - Certain embodiments provide an infrared imaging device including: an SOI structure that is placed at a distance from a substrate, and includes: heat-sensitive diodes that detect infrared rays and convert the infrared rays into heat; and STI regions that separate the heat-sensitive diodes from one another; an interlayer insulating film that is stacked on the SOI structure; and supporting legs that are connected to the heat-sensitive diodes and vertical signal lines provided in outer peripheral regions of the heat-sensitive diodes. Each of the supporting legs includes: an interconnect unit that transmit signals to the vertical signal lines; and interlayer insulating layers that sandwich the interconnect unit, each bottom side of the interlayer insulating layers being located in a higher position than the SOI structure. | 01-12-2012 |
20120228497 | INFRARED IMAGING ELEMENT - An infrared imaging element according to an embodiment includes: a semiconductor substrate including a stacked structure of a silicon first substrate, and a first insulation film, first cavities being provided on a surface of the first substrate; an infrared detection unit provided in the semiconductor substrate and including, detection cells provided respectively over the first cavities, each of the detection cells having diodes and a second insulation film, the first insulation film converting incident infrared rays to heat, the diodes converting the heat obtained by the first insulation film to an electric signal, a third insulation film having a top face located at a greater distance from the semiconductor substrate as compared with a top face of the second insulation film; and a second substrate provided over the third insulation film. A second cavity is formed between the second substrate and the infrared detection unit. | 09-13-2012 |
20120241613 | INFRARED IMAGING DEVICE AND INFRARED IMAGING APPARATUS USING IT - One embodiment provides an infrared imaging device, including: a substrate; connection wiring portions arranged in matrix form on the substrate; a first infrared detecting portion configured to convert intensity of absorbed infrared radiation into a first signal; and a second infrared detecting portion configured to convert intensity of absorbed infrared radiation into a second signal, the second infrared detecting portion being larger in thermal conductance than the first infrared detecting portion. | 09-27-2012 |
20130240709 | SOLID-STATE IMAGING DEVICE AND PORTABLE INFORMATION TERMINAL - A solid-state imaging device according to an embodiment includes: an imaging element including a semiconductor substrate and a plurality of pixel blocks, each of the pixel blocks including at least two of R pixels, G pixels, B pixels, and W pixels; a first optical system configured to form an image of an object on an imaging plane; and a second optical system including a microlens array having a plurality of microlenses provided for the respective pixels blocks, the second optical system being located between the imaging element and the first optical system, the second optical system being configured to reduce and re-image the image formed on the imaging plane onto each of the pixel blocks. A proportion of the W pixels to be provided increases in a direction from a center of each pixel block toward an outer periphery thereof. | 09-19-2013 |
20130248714 | UNCOOLED INFRARED IMAGING DEVICE - An uncooled infrared imaging device according to an embodiment includes: reference pixels formed on a semiconductor substrate and arranged in at least one row; and infrared detection pixels arranged in the remaining rows and detecting incident infrared rays. Each of the reference pixels includes a first cell located above a first concave portion. The first cell includes a first thermoelectric conversion unit having a first infrared absorption film; and a first thermoelectric conversion element. Each of the infrared detection pixels includes a second cell located above a second concave portion, and having a larger area than the first cell. The second cell includes: a second thermoelectric converting unit located above the second concave portion; and first and second supporting structure units supporting the second thermoelectric converting unit above the second concave portion. The second thermoelectric converting unit includes: a second infrared absorption film; and a second thermoelectric conversion element. | 09-26-2013 |
20130248724 | RADIATION DETECTION APPARATUS - A radiation detection apparatus according to an embodiment includes: a scintillator including a fluorescent material to convert radiation to visible radiation photon; a photon detection device array having a plurality of cells each of which includes a photon detection device to detect visible radiation photon emitted from a fluorescent material in the scintillator and convert the visible radiation photon to an electric signal; and a plurality of lenses provided on cells respectively in association with the cells to cause the visible radiation photon to be incident on the photon detection device in an associated cell. | 09-26-2013 |
20140118516 | SOLID STATE IMAGING MODULE, SOLID STATE IMAGING DEVICE, AND INFORMATION PROCESSING DEVICE - A solid state imaging module according to an embodiment can be attached to and detached from an information processing device, the solid state imaging module including: an imaging element formed on a semiconductor substrate and including a plurality of pixel blocks, each of the plurality of pixel blocks having a plurality of pixels; a first optical system for imaging a subject on an imaging plane; and input and output terminals that are connectable to the information processing device, which processes information from the imaging element. | 05-01-2014 |
20140131553 | SOLID-STATE IMAGING DEVICE - A solid-state imaging device according to an embodiment includes: an imaging element including an imaging area formed with a plurality of pixel blocks each including pixels; a first optical system forming an image of an object on an imaging surface; and a second optical system re-forming the image, which has been formed on the imaging surface, on the pixel blocks corresponding to microlenses, the second optical system including a microlens array formed with the microlenses provided in accordance with the pixel blocks. The microlenses are arranged in such a manner that an angle θ between a straight line connecting center points of adjacent microlenses and one of a row direction and a column direction in which the pixels are aligned is expressed as follows: θ>sin | 05-15-2014 |
20140240559 | SOLID STATE IMAGING DEVICE, PORTABLE INFORMATION TERMINAL, AND SOLID STATE IMAGING SYSTEM - A solid state imaging device according to an embodiment includes: an imaging element formed on a semiconductor substrate, and including pixel blocks each having pixels; a main lens forming an image of a subject on an imaging plane; a microlens array including microlenses corresponding to the pixel blocks, the microlens array reducing an image to be formed on the imaging plane by Nf times or less and forming reduced images on the pixel blocks corresponding to the respective microlenses; and an image processing unit enlarging and synthesizing the reduced images formed by the microlenses, the solid state imaging device meeting conditions of an expression MTF | 08-28-2014 |
20140284746 | SOLID STATE IMAGING DEVICE AND PORTABLE INFORMATION TERMINAL - A solid state imaging device according to an embodiment includes: an imaging element including a plurality of pixels; a bonding layer formed to be in contact with the imaging element; a first microlens array formed to be in contact with the bonding layer, and including a plurality of first microlenses with a refractive index higher than a refractive index of the bonding layer; and a main lens located above the first microlens array. | 09-25-2014 |
20140285693 | MICROLENS ARRAY UNIT AND SOLID STATE IMAGING DEVICE - A microlens array unit according to an embodiment includes: a substrate; a first group of microlenses including first microlenses having a convex shape and a first focal length, the first group of microlenses being arranged on the substrate; and a second group of microlenses including second microlenses having a convex shape and a second focal length different from the first focal length, the second group of microlenses being arranged on the substrate, a first imaging plane of the first group of microlenses and a second imaging plane of the second group of microlenses being parallel to each other, a distance between the first and second imaging planes in a direction perpendicular to the first imaging plane being 20% or less of the first focal length, and images of the first microlenses projected on the substrate not overlapping images of the second microlenses projected on the substrate. | 09-25-2014 |
20140285703 | LIQUID CRYSTAL OPTICAL DEVICE, SOLID STATE IMAGING DEVICE, PORTABLE INFORMATION TERMINAL, AND DISPLAY DEVICE - A liquid crystal optical device includes: a first electrode unit including a first substrate transparent to light, a light-transmitting layer formed on the first substrate, and a first electrode formed on the light-transmitting layer and being transparent to light, the light-transmitting layer including recesses formed on a surface facing the first electrode, arranged in a first direction, and extending in a second direction; a second electrode unit including a second substrate, the second substrate being transparent to light, and two second electrodes formed on the second substrate, the second electrodes being arranged in the second direction and extending along the first direction; a liquid crystal layer located between the first and second electrode units; a first polarizing plate located on an opposite side of the second electrode unit from the liquid crystal layer; and a drive unit that applies voltages to the first and second electrodes. | 09-25-2014 |
20140285708 | SOLID STATE IMAGING DEVICE, PORTABLE INFORMATION TERMINAL, AND DISPLAY DEVICE - A solid state imaging device according to an embodiment includes: a liquid crystal optical element including a first electrode having a first recess and a projecting portion surrounding the first recess on a first surface, a second electrode facing the first surface of the first electrode, a filling film located between the first recess of the first electrode and the second electrode, and a liquid crystal layer located between the filling film and the second electrode; an imaging lens facing the second electrode to form an image of a subject on an imaging plane; and an imaging element facing the first recess, the imaging element having a pixel block having a plurality of pixels. | 09-25-2014 |