Patent application number | Description | Published |
20100039545 | SOLID-STATE IMAGE-PICKUP DEVICE - Pupil correction is performed on wiring lines with a high flexibility by improving an arrangement structure of wiring layers. An image-pickup region is divided in two, the left and right sides. Regarding wiring lines at the position of a pixel that is arranged on the left side (the −X side) with respect to the center of the image-pickup region, a contact unit | 02-18-2010 |
20100091156 | SOLID-STATE IMAGING DEVICE AND IMAGING APPARATUS - A solid-state imaging device is disclosed. In the solid-state imaging device, plural unit areas, each having a photoelectric conversion region converting incident light into electric signals are provided adjacently, in which each photoelectric conversion region is provided being deviated from the central position of each unit area to a boundary position between the plural unit areas, a high refractive index material layer is arranged over the deviated photoelectric conversion region, and a low refractive index material layer is provided over the photoelectric conversion regions at the inverse side of the deviated direction being adjacent to the high refractive index material layer, and optical paths of the incident light are changed by the high refractive index material layer and the low refractive index material layer, and the incident light enters the photoelectric conversion region. | 04-15-2010 |
20100097508 | SOLID STATE IMAGE SENSOR, METHOD FOR DRIVING A SOLID STATE IMAGE SENSOR, IMAGING APPARATUS, AND ELECTRONIC DEVICE - A solid state image sensor includes a pixel array, as well as charge-to-voltage converters, reset gates, and amplifiers each shared by a plurality of pixels in the array. The voltage level of the reset gate power supply is set higher than the voltage level of the amplifier power supply. Additionally, charge overflowing from photodetectors in the pixels may be discarded into the charge-to-voltage converters. The image sensor may also include a row scanner configured such that, while scanning a row in the pixel array to read out signals therefrom, the row scanner resets the charge in the photodetectors of the pixels sharing a charge-to-voltage converter with pixels on the readout row. The charge reset is conducted simultaneously with or prior to reading out the signals from the pixels on the readout row. | 04-22-2010 |
20100225792 | Solid-state imaging device, manufacturing method of solid-state imaging device and electronic apparatus - A solid-state imaging device, includes: plural unit pixels including a photoelectric conversion portion converting incident light into an electrical signal, and a waveguide having a quadratic curve surface at an inner surface and introducing the incident light to the photoelectric conversion portion. | 09-09-2010 |
20100321616 | IMAGING DEVICE, ELECTRIC CHARGE READOUT METHOD, AND IMAGING APPARATUS - An imaging device includes: first green pixels; and second green pixels adjacent to the respective first green pixels in a first direction, which is the direction in which electric charge accumulated in the pixels is read, wherein the dimension of the first and second green pixels in a second direction perpendicular to the first direction is twice the dimension of the first and second green pixels in the first direction. | 12-23-2010 |
20110019041 | SOLID-STATE IMAGING DEVICE, MANUFACTURING METHOD THEREOF, AND CAMERA - A solid-state imaging device includes: photodiodes formed for pixels arranged on a light sensing surface of a semiconductor substrate; a signal reading unit formed on the semiconductor substrate to read a signal charge or a voltage; an insulating film formed on the semiconductor substrate and including optical waveguides; color filters formed on the insulating film; and on-chip lenses formed on the color filters. The first and second pixel combinations are alternately arranged both in the horizontal and vertical directions, the first pixel combination having a layout in which two green pixels are arranged both in the horizontal and vertical directions and a total of four pixels are arranged, the second pixel combination having a layout in which two pixels are arranged both in the horizontal and vertical directions, a total of four pixels are arranged, and two red pixels and two blue pixels are arranged cater cornered. | 01-27-2011 |
20110273597 | SOLID-STATE IMAGING DEVICE, METHOD OF MANUFACTURING SOLID-STATE IMAGING DEVICE, AND ELECTRONIC APPARATUS - Provided is a solid-state imaging device including an imaging area where a plurality of unit pixels are disposed to capture a color image, wherein each of the unit pixels includes: a plurality of photoelectric conversion portions; a plurality of transfer gates, each of which is disposed in each of the photoelectric conversion portions to transfer signal charges from the photoelectric conversion portion; and a floating diffusion to which the signal charges are transferred from the plurality of the photoelectric conversion portions by the plurality of the transfer gates, wherein the plurality of the photoelectric conversion portions receive light of the same color to generate the signal charges, and wherein the signal charges transferred from the plurality of the photoelectric conversion portions to the floating diffusion are added to be output as an electrical signal. | 11-10-2011 |
20110298022 | MANUFACTURING METHOD FOR SOLID-STATE IMAGE PICKUP DEVICE, SOLID-STATE IMAGE PICKUP DEVICE AND IMAGE PICKUP APPARATUS - A solid-state image pickup device and method for manufacturing the same. The solid-state image pickup device includes a substrate, a first charge accumulation region formed within the substrate, a first impurity region formed within the substrate and located above the charge accumulation region, and a gate electrode disposed on a surface of the substrate which is closer to the first impurity region. Further, a portion of the first impurity region and the charge accumulation region extend underneath a portion of the gate electrode, and edges of the charge accumulation region and first impurity region which lie underneath the gate electrode are in registry with each other. | 12-08-2011 |
20110298078 | METHOD FOR PRODUCTION OF SOLID-STATE IMAGING ELEMENT, SOLID-STATE IMAGING ELEMENT, AND IMAGING APPARATUS - Disclosed herein is a method for producing a solid-state imaging element which has pixels, each including a sensor section that performs photoelectric conversion and a charge transfer section that transfers charges generated by the sensor section. The method includes: forming an impurity region of the first conduction type and a second impurity region of the second conduction type on the impurity region of the first conduction type by ion implantation by using the same mask; forming on the surface of the semiconductor substrate a transfer gate constituting the charge transfer section which extends over the second impurity region of the second conduction type; forming a charge accumulating region of the first conduction type constituting the sensor section by ion implantation; and forming a first impurity region of the second conduction type, which has a higher impurity concentration than the second impurity region of the second conduction type, by ion implantation. | 12-08-2011 |
20110304000 | SOLID-STATE IMAGE PICKUP DEVICE AND METHOD FOR MANUFACTURING SAME, AND IMAGE PICKUP APPARATUS - Disclosed herein is a solid-state image pickup device of a type wherein a pixel is configured to include a sensor unit capable of photoelectric conversion, the image pickup device including: a semiconductor substrate; a charge storage region of a first conduction type, which is formed in the semiconductor substrate and constitutes a sensor unit; a charge storage sub-region made of an impurity region of the first conduction type, which is formed, in plural layers, in the semiconductor substrate below the charge storage region serving as a main charge storage region and wherein at least one or more of the plural layers are formed entirely across a pixel; and a device isolation region that is formed in the semiconductor substrate, isolates pixels from one another, and is made of an impurity region of a second conduction type. | 12-15-2011 |
20130146748 | SOLID-STATE IMAGING DEVICE AND ELECTRONIC APPARATUS - A solid-state imaging device includes pixels each of which has a photoelectric conversion portion that senses light and converts the sensed light into a charge; and an amplifying portion which is shared by a predetermined number of the pixels, amplifies the generated charge in the photoelectric conversion portion, and outputs a level of signal corresponding to the charge, wherein the a predetermined number of the pixels which share the amplifying portion are arranged in a first direction extending along a signal line via which the amplifying portion outputs the signal, and wherein a length of an area where the amplifying portion is formed along a second direction substantially intersecting the first direction is set to be equal to or more than a length of one pixel and to be less than a length of two pixels in the second direction. | 06-13-2013 |
20130182156 | SOLID-STATE IMAGING DEVICE AND ELECTRONIC APPARATUS - There is provided a solid-state imaging device which includes a focus detection pixel that has a light shielding film, which is formed on a light receiving surface of a photoelectric conversion portion and shields light in a part of the light receiving surface, performs pupil division and photoelectric conversion of a received light flux and acquires a phase difference detection signal, where the light shielding film is formed avoiding a gate electrode of a reading gate portion to read a signal charge from the photoelectric conversion portion. | 07-18-2013 |
20130250153 | SOLID-STATE IMAGING DEVICE, MANUFACTURING METHOD THEREOF, AND CAMERA WITH ALTERNATELY ARRANGED PIXEL COMBINATIONS - A solid-state imaging device includes: photodiodes formed for pixels arranged on a light sensing surface of a semiconductor substrate; a signal reading unit formed on the semiconductor substrate to read a signal charge or a voltage; an insulating film formed on the semiconductor substrate and including optical waveguides; color filters formed on the insulating film; and on-chip lenses formed on the color filters. The first and second pixel combinations are alternately arranged both in the horizontal and vertical directions, the first pixel combination having a layout in which two green pixels are arranged both in the horizontal and vertical directions and a total of four pixels are arranged, the second pixel combination having a layout in which two pixels are arranged both in the horizontal and vertical directions, a total of four pixels are arranged, and two red pixels and two blue pixels are arranged cater cornered. | 09-26-2013 |
20130341748 | SOLID-STATE IMAGING DEVICE, MANUFACTURING METHOD OF SOLID-STATE IMAGING DEVICE AND ELECTRONIC APPARATUS - A solid-state imaging device, includes: plural unit pixels including a photoelectric conversion portion converting incident light into an electrical signal, and a waveguide having a quadratic curve surface at an inner surface and introducing the incident light to the photoelectric conversion portion. | 12-26-2013 |
20140042302 | SOLID STATE IMAGE SENSOR, METHOD FOR DRIVING A SOLID STATE IMAGE SENSOR, IMAGING APPARATUS, AND ELECTRONIC DEVICE - A solid state image sensor includes a pixel array, as well as charge-to-voltage converters, reset gates, and amplifiers each shared by a plurality of pixels in the array. The voltage level of the reset gate power supply is set higher than the voltage level of the amplifier power supply. Additionally, charge overflowing from photodetectors in the pixels may be discarded into the charge-to-voltage converters. The image sensor may also include a row scanner configured such that, while scanning a row in the pixel array to read out signals therefrom, the row scanner resets the charge in the photodetectors of the pixels sharing a charge-to-voltage converter with pixels on the readout row. The charge reset is conducted simultaneously with or prior to reading out the signals from the pixels on the readout row. | 02-13-2014 |
20140110762 | METHOD FOR PRODUCTION OF SOLID-STATE IMAGING ELEMENTS, SOLID-STATE IMAGING ELEMENT, AND IMAGING APPARATUS - A method for producing a solid-state imaging element which has photoconversion pixels, the method including forming an impurity region of the first conduction type and a second impurity region of the second conduction type on the impurity region of the first conduction type by ion implantation by using the same mask; forming on the surface of the semiconductor substrate a transfer gate constituting the charge transfer section which extends over the second impurity region of the second conduction type; forming a charge accumulating region of the first conduction type constituting the sensor section by ion implantation; and forming a first impurity region of the second conduction type, which has a higher impurity concentration than the second impurity region of the second conduction type, by ion implantation. | 04-24-2014 |
20140152881 | SOLID-STATE IMAGING DEVICE, MANUFACTURING METHOD THEREOF, AND CAMERA WITH ALTERNATELY ARRANGED PIXEL COMBINATIONS - A solid-state imaging device includes a semiconductor substrate; and a pixel unit having a plurality of pixels on the semiconductor substrate, wherein the pixel unit includes first pixel groups having two or more pixels and second pixel groups being different from the first pixel groups, wherein a portion of the pixels in the first pixel groups and a portion of the pixels in the second pixel groups share a floating diffusion element. | 06-05-2014 |
20150048474 | IMAGE PICKUP UNIT AND ELECTRONIC APPARATUS - A solid-state image pickup unit includes substrate; a red pixel including a red charge storage section; a blue pixel including a blue charge storage section; and a green pixel including a plurality of green charge storage sections, the red charge storage section and the blue charge storage section being provided in the substrate. Then, the plurality of green charge storage sections are arranged in the substrate along a thickness direction of the substrate. | 02-19-2015 |
Patent application number | Description | Published |
20080225278 | FOCAL POSITION DETERMINING METHOD, FOCAL POSITION DETERMINING APPARATUS, FEEBLE LIGHT DETECTING APPARATUS AND FEEBLE LIGHT DETECTING METHOD - A focal position determining method determines a focal position of an objective lens focused on an observed target region in a specimen. The focal position determining method includes measuring any one of the focal position of the objective lens at a near point and the focal position of the objective lens at a far point or both so as to determine the focal position of the objective lens focused on the observed target region based on the measured focal position. | 09-18-2008 |
20090009595 | SCATTERING MEDIUM INTERNAL OBSERVATION APPARATUS, IMAGE PICKUP SYSTEM, IMAGE PICKUP METHOD AND ENDOSCOPE APPARATUS - A scattering medium internal observation apparatus according to the present invention includes: a light source; an illuminating apparatus that guides light from the light source to an observation object that is a scattering body; and an observation optical system for observing the observation object illuminated by the illuminating apparatus, wherein the illuminating apparatus has a light-guiding member that guides light from the light source to a surface of the observation object, and a light-shielding member that covers the surface of the observation object and which shields light reflected or scattered in the vicinity of the light-guiding member of the observation object is disposed in the vicinity of an end portion of the light-guiding member on an observation object-side. | 01-08-2009 |
20090201580 | Methods for implement microscopy and microscopic measurement as well as microscope and apparatus for implementing them - The invention relates to a microscope that enables a phase object or surface pits and projections to be observed at a relatively low image-formation magnification of | 08-13-2009 |
20120057013 | METHOD AND APPARATUS FOR VISUALIZING PHASE OBJECT - A visualization apparatus includes a light source, an illumination optical system configured to guide light from the light source to an observation target object, an image forming optical system configured to form an optical image of the observation target object on an image plane, an image pickup element arranged on the image plane, a calculation device configured to calculate a plurality of first electronic images of the observation target object obtained from the image pickup element to generate a second electronic image, and an oblique illumination control section configured to control an illumination direction of oblique illumination provided by the illumination optical system. The plurality of first electronic images include first electronic images of the observation target object illuminated from different illumination directions by the oblique illumination control section. | 03-08-2012 |
20140285650 | PHASE DISTRIBUTION MEASUREMENT METHOD AND PHASE DISTRIBUTION MEASUREMENT APPARATUS - A phase distribution measurement method inside a biological sample includes taking in an optical image of the sample formed by a microscope to form a plurality of images with different image contrasts; calculating a component corresponding to phase distribution of the sample and a component corresponding to other than the phase distribution, and dividing the component corresponding to the phase distribution by the component corresponding to other than the phase distribution to forma normalized phase component image; breaking down the phase component image into a plurality of frequency components; performing a deconvolution process to each of the frequency components using an optical response character corresponding to each, and calculating phase distribution of a refraction component and phase distribution of a structure component; and calculating phase distribution of the sample by compounding the phase distribution of the refraction component and the phase distribution of the structure component. | 09-25-2014 |
Patent application number | Description | Published |
20100222347 | PROPHYLACTIC AND/OR THERAPEUTIC AGENT FOR ANEMIA, COMPRISING TETRAHYDROQUINOLINE COMPOUND AS ACTIVE INGREDIENT - Disclosed is a low-molecular-weight compound having an EPO production-promoting activity and/or a hemoglobin expression-enhancing activity. Specifically disclosed is an EPO production promoter and/or a hemoglobin expression enhancer comprising a 1-acyl-4-(phenoxy, benzyloxy or phenylamino)-1,2,3,4-tetrahydroquinoline derivative, more specifically a tetrahydroquinoline compound represented by the general formula (1); | 09-02-2010 |
20110237590 | PYRIDINE-3-CARBOXYAMIDE DERIVATIVE - To provide a novel JAK3 inhibitor that is useful as a preventive and/or therapeutic agent for rejection and graft versus host disease (GvHD) in organ transplantation, rheumatoid arthritis, multiple sclerosis, systemic lupus erythematosus, Sjögren syndrome, Behcet's disease, type I diabetes mellitus, autoimmune thyroiditis, idiopathic thrombocytopenic purpura, ulcerative colitis, Crohn's disease, asthma, allergic rhinitis, atopic dermatitis, contact dermatitis, urticaria, eczema, psoriasis, allergic conjunctivitis, uveitis, cancer, leukemia and the like. The pyridine-3-carboxyamide derivative represented by the general formula (1): | 09-29-2011 |
20120004197 | PROPHYLACTIC AND/OR THERAPEUTIC AGENT FOR ANEMIA COMPRISING TETRAHYDROQUINOLINE COMPOUND AS ACTIVE INGREDIENT - Disclosed is a compound which has a low molecular weight and has an activity of enhancing the production of EPO and/or an activity of enhancing the production of hemoglobin. Specifically disclosed is and EPO production enhancer and/or a hemoglobin production enhancer comprising a 1-acyl-4-(substituted oxy, substituted amino, or substituted thio)-1,2,3,4-tetrahydroquinoline derivative, more specifically a tetrahydroquinoline compound represented by general formula (1) [wherein R | 01-05-2012 |
20120108581 | FUSED PIPERIDINE COMPOUND AND PHARMACEUTICAL CONTAINING SAME - The present invention provides a low molecular weight compound having EPO production-promoting action and/or hemoglobin production-promoting action. The present invention relates to a fused piperidine compound represented by the following general formula (1): | 05-03-2012 |
20130172345 | 1-ACYL-4-(PHENOXY, BENZYLOXY, OR PHENYLAMINO)-1,2,3,4-TETRAHYDROQUINOLINE DERIVATIVES - Disclosed is a low-molecular-weight compound having an EPO production-promoting activity and/or a hemoglobin expression-enhancing activity. Specifically disclosed is an EPO production promoter and/or a hemoglobin expression enhancer comprising a 1-acyl-4-(phenoxy, benzyloxy or phenylamino)-1,2,3,4-tetrahydroquinoline derivative, more specifically a tetrahydroquinoline compound represented by the general formula (1); | 07-04-2013 |
20140249144 | PROPHYLACTIC AND/OR THERAPEUTIC AGENT FOR ANEMIA COMPRISING TETRAHYDROQUINOLINE COMPOUND AS ACTIVE INGREDIENT - Disclosed is a compound which has a low molecular weight and has an activity of enhancing the production of EPO and/or an activity of enhancing the production of hemoglobin. Specifically disclosed is and EPO production enhancer and/or a hemoglobin production enhancer comprising a 1-acyl-4-(substituted oxy, substituted amino, or substituted thio)-1,2,3,4-tetrahydroquinoline derivative, more specifically a tetrahydroquinoline compound represented by general formula (1) [wherein R | 09-04-2014 |
20140309207 | NOVEL SPIROINDOLINE COMPOUND, AND MEDICINAL AGENT COMPRISING SAME - The present invention provides a novel compound represented by a general formula (1) as shown below, which has a glucokinase-activating action in the liver and pancreatic β-cells and which is useful as an agent for preventing and/or treating diseases caused by hyperglycemia, such as diabetes. | 10-16-2014 |