Patent application number | Description | Published |
20110052662 | ANTIBACTERIAL MATERIAL AND ANTIBACTERIAL FILM AND ANTIBACTERIAL MEMBER USING THE SAME - In one embodiment, an antibacterial material includes at least one microparticles selected from tungsten oxide microparticles and tungsten oxide complex microparticles. The microparticles, which are undergone a test to evaluate viable cell count by inoculating in a test piece, to which the microparticles are adhered in a range of 0.02 mg/cm | 03-03-2011 |
20110212298 | HYDROPHILIC MEMBER AND HYDROPHILIC PRODUCT USING THE SAME - In one embodiment, a hydrophilic member includes a substrate having a surface and particles existing at least on the surface of the substrate. The particles are constituted of at least one selected from tungsten oxide particles and tungsten oxide composite particles. The substrate surface on which the particles exist has an arithmetic mean roughness Ra in the range of 1 nm to 1000 nm with a reference length of 100 μm, and exhibits hydrophilicity independently of light. | 09-01-2011 |
20110212832 | AQUEOUS DISPERSION LIQUID AND COATING MATERIAL, FILM, AND PRODUCT USING THE SAME - In one embodiment, an aqueous dispersion liquid contains at least one particles selected from tungsten oxide particles and tungsten oxide composite particles. A mean primary particle diameter (D50) of the particles is in the range of 1 nm to 400 nm. In the aqueous dispersion liquid, concentration of the particles is in the range of 0.1 mass % to 40 mass %, and pH is in the range of 1.5 to 6.5. The aqueous dispersion liquid excels in dispersibility of particles and capable of maintaining good liquidity for a long period. | 09-01-2011 |
20120201861 | ANTIVIRAL MATERIAL , ANTIVIRAL FILM, ANTIVIRAL FIBER, AND ANTIVIRAL PRODUCT - In one embodiment, an antiviral material includes at least one microparticles selected from tungsten oxide microparticles and tungsten oxide composite microparticles. The microparticles have an inactivation effect R of 1 or more expressed by [R=logC−logA], when there is evaluated a virus titer by inoculating on a specimen to which the microparticles are adhered, at least one virus selected from a low pathogenic avian influenza virus (H9N2), a high pathogenic avian influenza virus (H5N1) and a swine influenza virus, and irradiating the specimen with visible light having a wavelength of 380 nm or more and illuminance of 6000 1× for 24 hours. | 08-09-2012 |
20120316056 | AQUEOUS DISPERSION LIQUID AND COATING MATERIAL, FILM, AND PRODUCT USING THE SAME - In one embodiment, an aqueous dispersion liquid contains at least one particles selected from tungsten oxide particles and tungsten oxide composite particles. A mean primary particle diameter (D50) of the particles is in the range of 1 nm to 400 nm. In the aqueous dispersion liquid, concentration of the particles is in the range of 0.1 mass % to 40 mass %, and pH is in the range of 1.5 to 6.5. The aqueous dispersion liquid excels in dispersibility of particles and capable of maintaining good liquidity for a long period. | 12-13-2012 |
20130252084 | SUBSTRATE AND SECONDARY BATTERY - According to one embodiment, a substrate includes a semiconductor layer. The semiconductor layer comprises tungsten oxide particles having a first peak in a range of 268 to 274 cm | 09-26-2013 |
20140158627 | CATION ADSORBENT AND TREATMENT METHOD FOR SOLUTION USING THE SAME - A cation adsorbent of an embodiment includes tungsten oxide particles having a BET specific surface area in a range of 0.82 m | 06-12-2014 |
20140187412 | AQUEOUS DISPERSION LIQUID AND COATING MATERIAL, FILM, AND PRODUCT USING THE SAME - In one embodiment, an aqueous dispersion liquid contains at least one particles selected from tungsten oxide particles and tungsten oxide composite particles. A mean primary particle diameter (D50) of the particles is in the range of 1 nm to 400 nm. In the aqueous dispersion liquid, concentration of the particles is in the range of 0.1 mass % to 40 mass %, and pH is in the range of 1.5 to 6.5. The aqueous dispersion liquid excels in dispersibility of particles and capable of maintaining good liquidity for a long period. | 07-03-2014 |
20140234385 | ANTIVIRAL MATERIAL, ANTIVIRAL FILM, ANTIVIRAL FIBER, AND ANTIVIRAL PRODUCT - In one embodiment, an antiviral material includes at least one microparticles selected from tungsten oxide microparticles and tungsten oxide composite microparticles. The microparticles have an inactivation effect R of 1 or more expressed by [R=log C−log A], when there is evaluated a virus titer by inoculating on a specimen to which the microparticles are adhered, at least one virus selected from a low pathogenic avian influenza virus (H9N2), a high pathogenic avian influenza virus (H5N1) and a swine influenza virus, and irradiating the specimen with visible light having a wavelength of 380 nm or more and illuminance of 6000 lx. for 24 hours. | 08-21-2014 |
20150034149 | ELECTRODE MATERIAL FOR BATTERIES, ELECTRODE MATERIAL PASTE FOR BATTERIES, METHOD FOR MANUFACTURING THE ELECTRODE MATERIAL FOR BATTERIES, DYE-SENSITIZED SOLAR CELL, AND STORAGE BATTERY - The present invention provides an electrode material for batteries made from tungsten oxide powder, wherein the tungsten oxide powder has a first peak present within a wavenumber range of 268 to 274 cm | 02-05-2015 |
Patent application number | Description | Published |
20120328244 | OPTICAL CONNECTOR, OPTICAL CONNECTING STRUCTURE AND METHOD OF MANUFACTURING OPTICAL CONNECTOR - An optical connecting member realizes an optical connecting between a multi-core fiber and a plurality of single-core fibers by a waveguide part which connects a first end face and a second end face. With the optical connecting member, a connected end which is connected to the first end face is a straight-line portion that is orthogonal to the first end face in each of the plurality of waveguide parts. In addition, a diverged end which is diverged to the second end face is a straight-line portion that is orthogonal to the second end face. Consequently, light that has passed through the waveguide parts is emitted from the first end face and the second end face substantially perpendicularly to the faces, thereby enabling optical connecting loss to be favorably inhibited. | 12-27-2012 |
20140219611 | OPTICAL CONNECTOR, OPTICAL CONNECTING STRUCTURE AND METHOD OF MANUFACTURING OPTICAL CONNECTOR - An optical connecting member realizes an optical connecting between a multi-core fiber and a plurality of single-core fibers by a waveguide part which connects a first end face and a second end face. With the optical connecting member, a connected end which is connected to the first end face is a straight-line portion that is orthogonal to the first end face in each of the plurality of waveguide parts. In addition, a diverged end which is diverged to the second end face is a straight-line portion that is orthogonal to the second end face. Consequently, light that has passed through the waveguide parts is emitted from the first end face and the second end face substantially perpendicularly to the faces, thereby enabling optical connecting loss to be favorably inhibited. | 08-07-2014 |
20140254983 | SEALING COMPONENT, OPTICAL DEVICE SEALING STRUCTURE, METHOD FOR PRODUCING SEALING COMPONENT, AND METHOD FOR PRODUCING OPTICAL DEVICE SEALING STRUCTURE - The sealing component | 09-11-2014 |
20160077284 | OPTICAL CONNECTOR AND MANUFACTURING METHOD FOR OPTICAL CONNECTOR - An optical connector | 03-17-2016 |
20160085030 | FERRULE | 03-24-2016 |
Patent application number | Description | Published |
20120228701 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - In accordance with an embodiment, a semiconductor device includes a semiconductor layer of a first conductivity type with a recess in the surface of the semiconductor layer, a pocket region of the first conductivity type in the semiconductor layer, a source region of a second conductivity type in the semiconductor layer, a drain region of the first conductivity type in the semiconductor layer, a gate insulating film over the surface of the recess, and a gate electrode. The second conductivity type is different from the first conductivity type. The pocket region includes a part under the surface of the recess. The source region is located adjacent to the pocket region. The drain region is located away from the source region and the pocket region. The gate electrode is configured to fill the recess via the gate insulating film. | 09-13-2012 |
20120326239 | SRAM DEVICE - An SRAM device has a first tunnel transistor that allows a current to flow in a direction from the non-inverting output terminal to the first bit line when the first tunnel transistor turns on. The SRAM device has a second tunnel transistor allows a current to flow in a direction from the first bit line to the non-inverting output terminal when the second tunnel transistor turns on. The SRAM device has a third tunnel transistor allows a current to flow in a direction from the inverting output terminal to the second bit line when the third tunnel transistor turns on. The SRAM device has a fourth tunnel transistor allows a current to flow in a direction from the second bit line to the inverting output terminal when the fourth tunnel transistor turns on. | 12-27-2012 |
20150048317 | SOLID STATE IMAGING DEVICE - According to one embodiment, solid state imaging device includes, a semiconductor substrate and a photoelectric conversion unit formed in the semiconductor substrate or above the semiconductor substrate. Further, the photoelectric conversion unit is provided with a first photoelectric conversion unit and a second photoelectric conversion unit. One of the first and second photoelectric conversion unit uses at least a part of the semiconductor substrate as a first photoelectric conversion layer, and the other of the first and second photoelectric conversion unit uses an inorganic semiconductor material that is of a different type from the semiconductor substrate as a second photoelectric conversion layer. The second photoelectric conversion unit photoelectrically converts light in a wavelength range that had permeated the first photoelectric conversion unit. | 02-19-2015 |
Patent application number | Description | Published |
20080229671 | MOUNTING STRUCTURE OF A POWER WINDOW APPARATUS - A drive unit is arranged in a side of one side surface of a panel constituting a part of a door, and a drum case of a driven unit is fixed to a side of another side surface of the panel. The side of another side surface of the panel is provided with a plurality of engagement portions, which are engaged respectively with a plurality of to be engaged portions provided in the drum case, thereby positioning the drum case. | 09-25-2008 |
20090064590 | WINDOW REGULATOR - A window regulator includes a carrier member to which a window panel is attached, a pair of sliding elements provided on the carrier member, and a positioning unit which relatively positions the pair of sliding elements in a state where the pair of sliding elements press the guide rail and the pair of sliding elements sandwich the guide rail. | 03-12-2009 |
20100031576 | Window regulator - A window regulator includes a carrier. The carrier includes a holding section and is capable slide along a guide rail with the holding section slidably contacting on the guide rail. The carrier supports a window panel. A brake mechanism is provided on the carrier. The brake mechanism prevents the window panel (the carrier) from self-weight drop by slidably contacting onto the guide rail by an urging force thereof. According to the window regulator, good down operations of the window panel can be maintained even if a slidably contacting portion(s) of the holding section that holds the guide rail becomes worn. | 02-11-2010 |
20100139107 | METHOD AND JIG FOR DEVICE FOR MEASURING THREE-DIMENSIONAL SHAPE OF CONNECTION ASSEMBLY OF STATOR COIL IN TURBINE GENERATOR - A method of measuring a three-dimensional shape of a connection assembly of a stator coil in a turbine generator, includes first measuring a three-dimensional shape of a measurement area of the connection assembly of the stator coil in a measurement range set in advance by a laser non-contact three-dimensional shape measurement device, second measuring a three-dimensional shape of a measurement area of the connection assembly of the stator coil in a measurement range set in advance by a multi-joint contact three-dimensional shape measurement device, the multi-joint contact three-dimensional shape measurement device including a plurality of arms being coupled via a joint including a built-in encoder, and integrally synthesizing the three-dimensional shape data measured in the first measurement, the three-dimensional shape data measured in the second measurement, and shape measurement data of a local area measured manually, thereby drafting a plan of the stator connection assembly. | 06-10-2010 |
20140144261 | DOOR OPENING AND CLOSING DEVICE - A door opening and closing device includes: a motor; an output shaft configured to output power of the motor; a transmission mechanism configured to transmit the power of the motor to the output shaft; and an accommodation member configured to accommodate the motor and the transmission mechanism. The door opening and closing device is installed in a vehicle main body or a door supported by the vehicle main body in an openable and closable manner, thereby opening and closing the door by the power that is output from the output shaft. The accommodation member is cylindrical in shape, and the motor and the transmission mechanism are accommodated in the accommodation member so that the motor, the transmission mechanism, and the output shaft are arranged in an axial direction of a rotary shaft of the motor. | 05-29-2014 |
20140373454 | POWER DOOR OPENING/CLOSING APPARATUS - A power door opening/closing apparatus includes: a first unit including the motor, a first unit case including the motor, a first transmission mechanism received in the first unit case, and a rotation sensor which is received within the first unit case, and which is one of electrical components; and a second unit which includes a second unit case connected to the first unit case by a fixing member, a second transmission mechanism rotatably received within the second unit case, and connected to the first transmission mechanism, and an output shaft connected to an output side of the second transmission mechanism, and arranged to transmit a rotation of the second transmission mechanism to the door, and which does not include an electrical component. | 12-25-2014 |
Patent application number | Description | Published |
20080237888 | Multichip semiconductor device, chip therefor and method of formation thereof - A multichip semiconductor device is disclosed in which chips are stacked each of which comprises a semiconductor substrate formed on top with circuit components and an interlayer insulating film formed on the top of the semiconductor substrate. At least one of the chips has a connect plug of a metal formed in a through hole that passes through the semiconductor substrate and the interlayer insulating film. The chip with the connect plug is electrically connected with another chip by that connect plug. | 10-02-2008 |
20110101522 | Multichip semiconductor device, chip therefor and method of formation thereof - A multichip semiconductor device is disclosed in which chips are stacked each of which comprises a semiconductor substrate formed on top with circuit components and an interlayer insulating film formed on the top of the semiconductor substrate. At least one of the chips has a connect plug of a metal formed in a through hole that passes through the semiconductor substrate and the interlayer insulating film. The chip with the connect plug is electrically connected with another chip by that connect plug. | 05-05-2011 |
20110215443 | Multichip semiconductor device, chip therefor and method of formation thereof - A multichip semiconductor device is disclosed in which chips are stacked each of which comprises a semiconductor substrate formed on top with circuit components and an interlayer insulating film formed on the top of the semiconductor substrate. At least one of the chips has a connect plug of a metal formed in a through hole that passes through the semiconductor substrate and the interlayer insulating film. The chip with the connect plug is electrically connected with another chip by that connect plug. | 09-08-2011 |
20140322835 | METHOD OF MANUFACTURING LIQUID DISCHARGE HEAD - A method of manufacturing a liquid discharge head is provided. The method includes forming a heating element on a substrate in which a semiconductor element is arranged. The method further includes forming a protection layer to contact an upper surface of the heating element. Annealing is performed in a hydrogen-containing atmosphere before the step of forming the protection layer. | 10-30-2014 |
20150070434 | PRINT ELEMENT SUBSTRATE, METHOD OF MANUFACTURING THE SAME, PRINTHEAD AND PRINTING APPARATUS - A method of manufacturing a print element substrate, comprising preparing a substrate, including a first region and a second region, in which a printing portion is formed on the first region, and a wiring pattern connected to the printing portion is formed on the first region and the second region, forming an insulating film covering the printing portion and the wiring pattern, and forming a conductive cavitation-resistant film on the insulating film, wherein in the forming the insulating film, the insulating film is formed such that a side surface of a portion of the insulating film, which is formed on the second region, includes an inclined face. | 03-12-2015 |
Patent application number | Description | Published |
20090236526 | INFRARED RAY SENSOR ELEMENT - An infrared ray sensor element includes: a first signal wiring part including a first signal wire and provided on a first region of a semiconductor substrate different from a region on which a concave part is provided; a second signal wiring part including a second signal wire and provided on the first region so as to intersect the first signal wiring part; a supporter including a support wiring part disposed over the concave part, and including a first wire electrically connected at a first end thereof to the first signal wire, and a second wire insulated from the first wire, disposed in parallel with the first wire, and electrically connected at a first end thereof to the second signal wire; a thermoelectric transducer electrically connected to second ends of the first and second wires; an infrared ray absorption layer provided over the thermoelectric transducer; and a detection cell provided over the concave part. | 09-24-2009 |
20100025584 | IMAGE SENSOR AND MANUFACTURING METHOD THEREOF - An image sensor includes a semiconductor substrate; first pixels laid out above cavities provided within the semiconductor substrate, the first pixels converting thermal energy generated by incident light into an electric signal; supporting parts connected between the first pixels and the semiconductor substrate, the supporting parts supporting the first pixels above the cavities; and second pixels fixedly provided on the semiconductor substrate without via the cavities, wherein a plurality of the first pixels and a plurality of the second pixels are laid out two-dimensionally to form a pixel region, and each of the second pixels is adjacent to the first pixels. | 02-04-2010 |
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 |
20130093902 | INFRARED SOLID STATE IMAGING DEVICE - An infrared solid state imaging device includes an infrared detection element unit having heat sensitive pixels, an AD conversion unit which conducts analog-to-digital conversion on an infrared image signal obtained by the infrared detection element unit, and a digital signal processing unit which converts the image signal converted to a digital signal. The digital signal processing unit stores an image value produced from the digital signal, and acquired in a frame immediately preceding a current frame, subtracts an image value obtained by multiplying the image value acquired in the frame immediately preceding the current frame by a predetermined constant α in a range of 0 to 1, from an image value acquired in the current frame, and conducts processing of multiplying a resultant image value obtained by the subtraction by 1/(1−α) so that an infrared image with less afterimage is provided. | 04-18-2013 |
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 |
20140132279 | APPARATUS AND METHOD FOR INSPECTING INFRARED SOLID-STATE IMAGE SENSOR - An apparatus includes: a current control unit to control an amount of constant current and supply a first and second constant currents to an infrared detection pixel; a constant current supply time control unit to control periods of time in which the first and second constant currents are supplied to the infrared detection pixel; an A-D converter to convert a first and second electrical signals from the infrared detection pixel into a first and second digital signals, the first and second electrical signals being generated when the first and second constant currents is supplied to the infrared detection pixel, respectively; a subtracting unit to calculate a difference between the first and second digital signals; and a determining unit to determine whether the infrared detection pixel is a defective pixel based on the absolute value of the difference calculated by the subtracting unit. | 05-15-2014 |
20140367576 | PHOTODETECTOR AND COMPUTED TOMOGRAPHY APPARATUS - A photodetector according to an embodiment includes: a photodetector element unit including a first cell array including a plurality of first cells arranged in an array and a second cell array including a plurality of second cells arranged in an array, each of the first and second cells including a photoelectric conversion element, the second cell array being arranged to be adjacent to the first cell array; a first pulse height analyzer unit analyzing a pulse height of an electrical signal outputted from the first cell array; a second pulse height analyzer unit analyzing a pulse height of an electrical signal outputted from the second cell array; and a signal processing unit determining non-uniformity of a distribution of photons entering the first and second cell arrays using an output signal of the first pulse height analyzer unit and an output signal of the second pulse height analyzer unit. | 12-18-2014 |
Patent application number | Description | Published |
20140285692 | IMAGE CAPTURING APPARATUS AND METHOD OF CONTROLLING THE SAME - An image capturing apparatus comprises a lens array, an image sensor, a display unit, a recording unit configured to record the video data read out from the image sensor, a readout control unit which has a first readout mode of reading out video data of pixels in first regions coinciding with a position relative to each lens and a second readout mode of reading out video data of pixels in second regions, and a control unit configured to perform control, upon reading out video data from the image sensor in the first readout mode, to read out video data from the image sensor in the second readout mode and display a video obtained from the video data read out in the first readout mode, and to record the video data read out in the second readout mode. | 09-25-2014 |
20150281573 | IMAGING APPARATUS AND CONTROL METHOD THEREOF - During capturing, image data obtained by applying a simplified development process to RAW image data is recorded together with a RAW image. Afterward, image data obtained by applying a high quality development process to the RAW image data is generated, and this image data replaces the image data obtained by the simplified development. Information indicating a state of progress of the high quality development process is displayed in association with an image, thereby enabling selection of the processes in consideration of the state of progress. It is possible to achieve an imaging apparatus capable of recording a RAW image without the need of a circuit for performing a high-speed development process and in such a manner that the RAW image can be easily reproduced when necessary. | 10-01-2015 |
Patent application number | Description | Published |
20140079425 | HEATER CONTROL DEVICE, FIXING DEVICE, AND IMAGE FORMING APPARATUS - A heater control device that performs phase control of AC power and supplies phase-controlled power to a heater, the heater control device including: a control unit configured to, in the phase control, gradually increase an on-duty ratio until a target power amount is supplied to the heater; and a judgment unit configured to judge whether or not the on-duty ratio is within a predetermined range of on-duty ratios including a 50% on-duty ratio. The control unit (i) increases the on-duty ratio by a first amount while the on-duty ratio is within the predetermined range, and (ii) increases the on-duty ratio by a second amount while the on-duty ratio is not within the predetermined range. The first amount is greater than the second amount. | 03-20-2014 |
20140286666 | IMAGE FORMING APPARATUS - An image forming apparatus having: an endless fixing belt; a heating member heating the fixing belt; a support member maintaining the fixing belt substantially circular; a pressing member in contact with the fixing belt to form a fixing nip portion; a temperature sensor; a position detector; a storage storing temperatures and positions of the fixing belt detected by the temperature sensor and the position detector; and a control unit. The control unit is operable in a characteristic storing mode and in a fixing mode. In the characteristic storing mode, temperatures of the fixing belt associated with positions are detected, and the detected temperatures and positions are stored in the storage. In the fixing mode, temperatures of the fixing nip portion are predicted with reference to the temperatures and positions stored in the storage, and the heating member is controlled such that the predicted temperatures become a target temperature. | 09-25-2014 |
20140348528 | FIXING UNIT AND IMAGE FORMING APPARATUS - An image forming apparatus is provided with a fixing unit in which flickers can be effectively reduced while inhibiting electric current imbalance. The fixing unit comprises a fixing heater, a switching unit for switching the fixing heater on/off with an AC power source, and a control unit which controls the switching unit to switch in units of the half wave period of the AC power source AC, and a storing unit for storing a plurality of energization patterns which define the ways of performing the switch control. Each energization pattern corresponds to a control cycle which contains a three or more odd number of the half wave periods each of which is either an OFF period and an ON period, and all the half wave periods of the smaller in number of the ON periods and the OFF periods are not successively arranged. | 11-27-2014 |
Patent application number | Description | Published |
20100015378 | TRANSPARENT PLASTIC CONTAINER FOR ANTICOUNTERFEIT SYSTEM - A transparent plastic container which is transparent, allows good design and can be used for an anticounterfeit system that determines authenticity by visual check with the use of polarization property. A transparent plastic sheet of a polystyrene-based resin having a total light transmission of 85% or higher and a haze of 7% or less is subjected to vacuum, pneumatic or vacuum/pneumatic forming at a sheet temperature ranging from a glass transition temperature plus 50 degrees C. to a glass transition temperature plus 130 degrees C., thereby obtaining a transparent plastic container having a planar portion with a strain amount of 150 nm or less. | 01-21-2010 |
20100302486 | DISCRIMINATION MEDIUM AND PRODUCTION METHOD THEREFOR - A discrimination medium, which can have much information, can be produced on a small scale at low cost, and enables change of a sticker design at low cost, is provided. A cholesteric liquid crystal layer, having a fine asperity for forming a hologram, is formed on a transparent first substrate. A print layer composed of a black ink is formed on a transparent second substrate. The substrates are affixed to each other via a bond layer, so that a discrimination medium is obtained. In the discrimination medium, the display content obtained by the print layer is changed, so that the display content for discrimination can be changed at low cost. | 12-02-2010 |
20130208226 | DISCRIMINATION MEDIUM AND PRODUCTION METHOD THEREFOR - A discrimination medium, which can have much information, can be produced on a small scale at low cost, and enables change of a sticker design at low cost, is provided. The discrimination medium includes an optically transparent first substrate on which a cholesteric liquid crystal layer is formed, the cholesteric liquid crystal layer being formed with a fine asperity used for displaying a hologram, an optically transparent second substrate on which a print layer is formed, the print layer having a predetermined pattern made of ink and having a transparent portion without the ink of the pattern around the pattern, the pattern reflecting or absorbing a light of a predetermined wavelength, and a transparent adhesive layer,wherein the optically transparent first substrate, the optically transparent second substrate, and the transparent adhesive layer, are disposed in turn from a side checked visually. | 08-15-2013 |
Patent application number | Description | Published |
20120147232 | IMAGING APPARATUS - An imaging apparatus has two-dimensional image sensors which are discretely disposed, an imaging optical system which enlarges an image of an object and forms an image thereof on an imaging plane of the two-dimensional image sensors, and a moving unit which moves the object in order to execute a plurality of times of imaging while changing the divided area to be imaged by each of the two-dimensional image sensors. At least a part of the plurality of divided areas is deformed or displaced on the imaging plane due to aberration of the imaging optical system. Each position of the two-dimensional image sensors is adjusted according to a shape and position of the corresponding divided area on the imaging plane. | 06-14-2012 |
20140015954 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING SYSTEM, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING PROGRAM - An image processing apparatus which processes virtual slide image data to be displayed in an image display apparatus includes an image data obtaining unit which obtains image data obtained by capturing an image of a target object, and an image data generation unit which generates display image data corresponding to the image of the target object to be displayed in the image display apparatus in a display magnification corresponding to a predetermined field number of a microscope. | 01-16-2014 |
20140333751 | IMAGE PROCESSING APPARATUS AND SYSTEM, METHOD FOR PROCESSING IMAGE, AND PROGRAM - An image processing apparatus includes an image data acquisition unit, a display control unit, an area-information acquisition unit, and a detection unit. The image data acquisition unit acquires Z-stack image data including multiple layer images obtained by using a microscope apparatus. The display control unit displays at least one of the layer images on a display apparatus as an observation image. The area-information acquisition unit acquires information about a target area in the observation image specified by a user. The detection unit detects in-focus information for a corresponding area for the target area in each of the layer images. The display control unit displays an image indicating a positional relationship between the target area and the corresponding area which is closer to an in-focus state than the target area, along with the target area on the display apparatus, based on the result from the detection unit. | 11-13-2014 |
20140362205 | IMAGE FORMING APPARATUS AND CONTROL METHOD FOR THE SAME - The apparatus has a drive system that drives at least one of the imaging element and a holding member to change their positions, a drive control unit that drives the drive system, every time a small image is captured, in such a way that the positions of the imaging element and the holding member are set to predetermined positions, an obtaining unit that obtains, as after-driving position information, the position of at least one of the imaging element and the holding member after driving by the drive system by measurement or estimation, a correction unit that corrects deformation of the small images caused by a difference between the target imaging position and an actual imaging position on the basis of the after-driving position information, and a forming unit that forms an overall image of the object by stitching the small images after correction. | 12-11-2014 |
20150145983 | IMAGE ACQUISITION DEVICE, IMAGE ACQUISITION METHOD, AND COMPUTER-READABLE STORAGE MEDIUM - An image acquisition device acquires an image of a subject by capturing images of plural regions of the subject. The image acquisition device includes an image capturing device including an image formation optical unit and an image capturing unit, a temperature measurement unit that measures a temperature of the image capturing device, a selection unit that selects the temperature or an evaluation function by referring to an image of a first region from among the plural regions, the temperature or the evaluation function being selected as reference information for a second region adjacent to the first region, an information acquisition unit that acquires the temperature or the evaluation function, and a control unit that adjusts relative positions of a surface conjugated with a light reception surface of the image capturing unit and the subject, and causes the image capturing unit to capture an image of the second region. | 05-28-2015 |
20150234171 | IMAGING SYSTEM, IMAGING APPARATUS, AND IMAGE PROCESSING APPARATUS - A imaging apparatus images a plurality of areas of an object such that end portions of adjacent areas overlap each other and generates, for each of the plurality of areas, image data of the area and peripheral data, which is data of an overlapping portion of the area and an area adjacent to the area and lossily compresses the image data. A image processing apparatus acquires the lossily compressed image data and the peripheral data of each of the plurality of areas and determines, using peripheral data of adjacent two areas, a parameter used for stitching image data of the two areas and decodes the lossily compressed image data and stitches the decoded image data of the plurality of areas using the parameter. | 08-20-2015 |
Patent application number | Description | Published |
20140362467 | HEAD SUSPENSION ASSEMBLY AND DISK DEVICE WITH THE ASSEMBLY - According to one embodiment, a head suspension assembly includes a base plate, a load beam including a proximal end secured onto the base plate, a head supported on the load beam via a gimbal, a flexure attached on the load beam and the base plate, and first and second piezoelectric elements in first and second openings of the base plate. The proximal end of the load beam includes first and second extended connections bifurcated from the proximal end and connected to the base plate, first and second island connections, and an opening region exposing the base plate. The flexure extends between the first and second extended connections and between the first and second island connections, and is directly provided on the base plate. | 12-11-2014 |
20150243309 | HEAD GIMBAL ASSEMBLY AND DISK DEVICE WITH THE SAME - According to an embodiment, a head gimbal assembly includes a support plate, a wiring member, a magnetic head and drive members. A gimbal portion of the wiring member includes a thin metallic plate including a tongue portion mounted with a magnetic head, a proximal end portion fixed to the support plate, support projections, and link portions, an insulating layer including first bridge portions extending from the proximal end portion to the tongue portion, and second bridge portions extending from the proximal end portion to middle portions of the first bridges, and a conducive layer including signal wirings extending to the tongue portion through the second and first bridge portions, and reinforcement wiring portions. The drive members are provided at the first bridge portions. | 08-27-2015 |
20150262600 | HEAD ASSEMBLY AND DISK DEVICE PROVIDED WITH THE SAME - According to one embodiment, a head gimbal assembly includes a support plate, a wiring member including a thin metallic plate, an insulating layer and a conductive layer, the wiring member including a tongue portion located on a convex portion of the support plate, a proximal end portion fixed onto the support plate, and a bridge portion bridged between the tongue portion and the proximal end portion and including a inflection point with respect to a height direction of warping, a magnetic head attached to the tongue portion, and a piezoelectric element bonded to the bridge portion at a section between the proximal end portion and the inflection point. | 09-17-2015 |