Patent application number | Description | Published |
20080253928 | Substrate for Biochip and Method for Manufacturing Substrate for Biochip - A substrate for biochips has a substrate surface having a reaction region capable of reacting with biological substances and a non-reaction region not reacting with the biological substances, sunken bottomed wells formed in the substrate surface, and a layer of a material capable of reacting with the biological substances having a surface exposed only at the bottoms of the bottomed wells, the exposed surface forming the reaction region. | 10-16-2008 |
20100233429 | Substrate for Biochip, Biochip, Method for Manufacturing Substrate for Biochip and Method for Manufacturing Biochip - A base plate having a surface on which a plurality of hydroxyl groups can be introduced, a metallic membrane disposed on the base plate and having a plurality of wells reaching the base plate, and a crosslinkable polymer membrane disposed on the metallic membrane are included. | 09-16-2010 |
20100288727 | METHOD FOR MANUFACTURING SUBSTRATE FOR BIOCHIP - A substrate for biochips is manufactured so that the substrate has a substrate surface having a reaction region capable of reacting with biological substances and a non-reaction region not reacting with the biological substances, sunken bottomed wells formed in the substrate surface, and a layer of a material capable of reacting with the biological substances having a surface exposed only at the bottoms of the bottomed wells, the exposed surface forming the reaction region. | 11-18-2010 |
20110174773 | SUBSTRATE FOR BIOCHIP, BIOCHIP, METHOD FOR MANUFACTURING SUBSTRATE FOR BIOCHIP, AND METHOD FOR MANUFACTURING BIOCHIP - A base plate having a surface on which a plurality of hydroxyl groups can be introduced, a metallic membrane disposed on the base plate and having a plurality of wells reaching the base plate, and a crosslinkable polymer membrane disposed on the metallic membrane are included. | 07-21-2011 |
20140199725 | MICROORGANISM DETECTING SYSTEM AND MICROORGANISM DETECTING METHOD - A microorganism detecting device is provided for illuminating a solution with light, for detecting fluorescent light that is produced by a microorganism included in the solution, and for detecting the number of microorganisms included in the solution. The microorganism detecting device includes a relationship storing device that stores a correlation relationship between a number of microorganisms in a solution and a number of colonies formed by the microorganisms on a culture medium, and a converting portion that uses the correlation relationship to convert, into a number of colonies that may be formed, the number of microorganisms detected by the microorganism detecting device. | 07-17-2014 |
20150346072 | PURIFIED WATER MANUFACTURING DEVICE MONITORING SYSTEM AND PURIFIED WATER MANUFACTURING DEVICE MONITORING METHOD - A purified water manufacturing device monitoring system includes: a detecting device that illuminates, with an inspection beam, water either that is in a process of being manufactured or that has been manufactured by a purified water manufacturing device, detects light in a region illuminated by the inspection beam, and detects a microorganism or a non-microorganism particle included in the water; a measured value specifying portion that specifies a measured value for a number of microorganisms detected and specifies a measured value for a number of non-microorganism particles detected; and a state evaluating portion that evaluates that a problem has occurred in the purified water manufacturing device when either or both the measured value for the number of microorganisms and the measured value for the number of non-microorganism particles are greater than a prescribed value. | 12-03-2015 |
20150346091 | DEVICE FOR DETECTING PARTICLES IN A LIQUID AND METHOD FOR DETECTING PARTICLES IN A LIQUID - A device, which detects particles in a liquid, includes: a flow cell through which a liquid flows; a light source that illuminates the flow cell with an inspection beam; a scattered light detector that detects scattered light that is produced in a region illuminated by the inspection beam; and an evaluating portion that evaluates that a particle is included in the liquid when the scattered light is detected for less than a prescribed time and evaluates that the flow cell is not filled with the liquid when the scattered light is detected for more than a prescribed time. | 12-03-2015 |
20150377785 | PARTICLE DETECTING DEVICE AND PARTICLE DETECTING METHOD - A particle detecting device includes: a storing device that stores first boundary information wherein the third light intensity is recorded in a first range at a discriminating boundary for particles of first and second classifications, second boundary information wherein the third light intensity is recorded in a second range at a discriminating boundary for particles of first and second classifications, and discriminating information wherein identifiers for particles of the first and second classifications are recorded in cells bounded and not bounded by the discriminating boundary, respectively; and a particle identifying portion that evaluates a particle being measured as a particle of the first classification when the identifier for a particle of the first classification is acquired based on the measured values for the first and second light intensities and the measured value for the third light intensity falls between the first and second boundary values. | 12-31-2015 |
20150377786 | PARTICLE DETECTING DEVICE AND PARTICLE DETECTING METHOD - A particle detecting device includes: a light measuring instrument that measures measured values for intensities of first, second, and third lights of mutually differing wavelengths, produced by particles to be measured; a boundary information storing portion that stores a non-linear discriminating boundary for separating a class of a first classification of particles and a class of a second classification of particles; and a particle classifying portion that classifies the particle being measured into either of the classifications for the first and second classifications of particles, based on measured values for the intensities of the first through third lights and on the discriminating boundary. | 12-31-2015 |
Patent application number | Description | Published |
20140185918 | CHARGED PARTICLE BEAM APPARATUS THAT PERFORMS IMAGE CLASSIFICATION ASSISTANCE - An increase in the number of evaluation points of a semiconductor wafer is effective in improving evaluation accuracy of a manufacturing process. However, a method of automatically evaluating and classifying of these evaluation points by a defect review apparatus is lower in accuracy as compared with a manual work, and it is difficult to perfectly automate the method by these apparatuses. Therefore, the judgment as to whether the evaluation point is actually a defect is entrusted to manual evaluation, limiting the number of evaluable points. The present invention aims at lightening a burden of the manual work in process margin evaluation in a semiconductor manufacturing process. | 07-03-2014 |
20140198975 | REGION-OF-INTEREST DETERMINATION APPARATUS, OBSERVATION TOOL OR INSPECTION TOOL, REGION-OF-INTEREST DETERMINATION METHOD, AND OBSERVATION METHOD OR INSPECTION METHOD USING REGION-OF-INTEREST DETERMINATION METHOD - The present invention aims at efficiently determining the partial regions to be inspected with high sensitivity and measured with high accuracy. | 07-17-2014 |
20150139531 | DEFECT ANALYSIS ASSISTANCE DEVICE, PROGRAM EXECUTED BY DEFECT ANALYSIS ASSISTANCE DEVICE, AND DEFECT ANALYSIS SYSTEM - Conventionally, there was no method for automatically selecting the layers to be overlaid, so when the number of layers to be overlaid was large, there was a problem that much time was required for selecting the layers. It is an object of the present invention to provide a defect image analysis method capable of specifying patterns and layers in which a defect occurs by overlaying defect images to be analysis targets and design layout data, and a defect image analysis system capable of improving the efficiency to select the layers from the design layout data. The present invention is characterized in dividing analysis target images for each hierarchy corresponding to a manufacturing process and generating a plurality of layers; calculating a degree of matching between each of the layer division images and each design layer of the design layout data; and specifying a design layer with a highest degree of matching of the each design layer as a design layer corresponding to the layer division image. | 05-21-2015 |
20150228443 | CHARGED PARTICLE BEAM APPARATUS - A charged particle beam apparatus includes a charged particle beam source which irradiates a sample with a charged particle beam, an electromagnetic lens, a lens control electric source for controlling strength of a convergence effect of the electromagnetic lens; and a phase compensation circuit which is connected to the lens control electric source in parallel with the electromagnetic lens, and controls a lens current at the time of switching the strength of the convergence effect of the electromagnetic lens such that the lens current monotonically increases or monotonically decreases. | 08-13-2015 |
20150348750 | CHARGED PARTICLE BEAM DEVICE AND METHOD FOR ANALYZING DEFECT THEREIN - The present invention provides a charged particle beam device capable of automatically setting proper analysis positions for defects having various shapes. This charged particle beam device includes: an electron source for emitting an electron beam; a condenser lens for converging the electron beam emitted from the electron source; deflection means for changing a position of the electron beam converged by the condenser lens; an objective lens for constricting the electron beam changed by the deflection means so as to irradiate an inspection object therewith; a sample stage on which the inspection object is to be mounted; and defect analysis means for analyzing a defect based on information as to elements released from a defective portion of the inspection object by the irradiation with the electron beam, wherein the defect analysis means determines an analysis point based on a shape of the defect from among defect areas decided as one defect by the defect analysis means. | 12-03-2015 |
Patent application number | Description | Published |
20080220361 | DEVELOPING ROLLER AND IMAGE FORMING METHOD EMPLOYING THE SAME - An objective is to provide a developing roller possessing a surface layer capable of suppressing the residual potential during repetitive use with no damage of interlayer adhesiveness, preventing toner leakage and contaminations caused by adhesion matter on the surface, and preventing developing unevenness because of even toner electrification; and also to provide an image forming method employing the developing roller. Also disclose is a developing roller possessing a conductive shaft, and a resin layer provided around an outer circumferential surface of the conductive shaft, wherein the resin layer possesses a surface layer containing a silicone copolymer resin as a principal component and a layer containing a polyamide resin as a principal component, that is provided immediately below the surface layer. | 09-11-2008 |
20080220363 | DEVELOPING ROLLER AND IMAGE FORMING METHOD USING THE SAME - A developing roller for electrophotographic image forming apparatus is disclosed. The developing roller has a shaft and a resin layer, and the resin layer comprises a binder resin, a resin particle having a particle diameter of 5 μm to 30 μm and a content of from 10% to 50% by weight with respect to the resin layer, and inorganic oxide particles having a number based average primary particle diameter of 5 nm to 100 nm and a content of 1% to 40% by weight with respect to the resin layer. An image forming method employing the developer roller is also disclosed. | 09-11-2008 |
20090245892 | DEVELOPING ROLLER - In the present invention, provided can be a developing roller through which neither fog nor contamination inside the apparatus is generated, and no insufficient image density is produced, even though printing a large number of paper sheets (5000 paper sheets, for example). Also disclosed is a developing roller possessing a conductive shaft and a coating layer provided on an outer circumference of the conductive shaft, wherein the coating layer possesses a resin and a surface roughness particle, and the coating layer surface has a surface roughness Ra of 0.5-2.5 μm and a Young's modulus Y of 1-200 MPa. | 10-01-2009 |
20090291377 | ELECTROPHOTOGRAPHIC TONER - A set of toners comprising a yellow toner, a magenta toner, a cyan toner and a black toner for forming a full color image with an electrophotographic method, wherein the yellow toner comprises toner particles containing at least one pigment selected from the group consisting of C. I. Pigment Yellow 74, C. I. Pigment Yellow 139, C. I. Pigment Yellow 155, C. I. Pigment Yellow 180 and C. I. Pigment Yellow 185; the magenta toner comprises toner,particles containing a dye represented by Formula (X-1) and a metal compound represented by Formula (1); and the cyan toner comprises toner particles containing a silicon phthalocyanine represented by Formula (2): | 11-26-2009 |
20090291378 | ELECTROPHOTOGRAPHIC TONER SET - Provided is a set of toners comprising a yellow toner, a magenta toner, a cyan toner and a black toner for forming a full color image with an electrophotographic method, wherein the yellow toner comprises toner particles containing at east one pigment selected from the group consisting of C. I. Pigment Yellow 74, C. I. Pigment Yellow 139, C. I. Pigment Yellow 180, C. I. Pigment Yellow 185 and C. I. Pigment Yellow 155; the magenta toner comprises toner particles containing a rhodamine based dye represented at least by Formula (1) and Formula (2), and the cyan toner comprises toner particles containing a phthalocyanine based dye represented by Formula (5): | 11-26-2009 |
20100136476 | IMAGE FORMING METHOD - Provided is a method for forming an image with a set of electrostatic charge image developing toners using a digital electrophotographic method, provided that the set of electrostatic charge image developing toners comprises a black toner and a light gray toner, the method comprising the steps of: forming an electrostatic latent image on an image support; developing the electrostatic latent image with the black toner to form a black toner image; developing the electrostatic latent image with the light gray toner to form a light gray toner image; and fixing the black toner image and the light gray toner image, wherein the black toner and the light gray toner each independently contains a wax having an endothermic peak in the range of 60 to 105° C.; and the light gray toner has a transmittance in the range of 40 to 90%. | 06-03-2010 |
20100159383 | METHOD FOR PRODUCING COLOR PRINT - The method for manufacturing a color print by an electrophotographic image forming process employs forming toner images by non-contact developing electrostatic latent images on electrostatic latent image holding members in developing devices. For each color, cyan, magenta and yellow, there is a separate electrostatic latent image, a separate electrostatic latent image holding member and a separate developing device. In each developing device the holding member is arranged in a non-contact position with respect to the electrostatic latent image holding member at a development portion. The non-contact developing is carried out by flying the toner from the toner holding member to the electrostatic latent image holding member. The cyan toner exhibits a maximum chroma at lightness L* | 06-24-2010 |
20110151367 | ELECTROSTATIC CHARGE IMAGE DEVELOPING TONER - Provided is an electrostatic charge image developing toner capable of reproducing color exhibiting high lightness and chroma, and obtaining a wide color reproduction range. Disclosed is the toner possessing a toner particle containing at least a binder resin and a colorant, wherein the colorant possesses a yellowish color nonfluorescent dye exhibiting a peak wavelength of an absorption spectrum being in a wavelength range of 400-480 nm, and a fluorescent dye exhibiting a peak wavelength of an emission spectrum being in a wavelength range of 480-560 nm, wherein the nonfluorescent dye has a content of 2-8 parts by weight, based on 100 parts by weight of the binder resin, and the fluorescent dye has a content of 0.05-0.2 parts by weight, based on 100 parts by weight of the resin, provided that a content ratio of the nonfluorescent dye to the fluorescent dye is 15-150. | 06-23-2011 |
20110151371 | TONER FOR ELECTROSTATIC LATENT IMAGE DEVELOPMENT AND IMAGE FORMING METHOD - A toner for electrostatic latent image development is disclosed, comprising colored particles containing a binder resin and a colorant, and an external-additive, wherein the external additive comprises boron nitride particles exhibiting a number average primary particle size of 10 to 500 nm. The production method of the toner is also disclosed. | 06-23-2011 |
20120094227 | TONER FOR DEVELOPING ELECTROSTATIC LATENT IMAGE - A toner for developing an electrostatic latent image is disclosed, the toner being composed of toner particles which comprises toner mother particles containing a binding resin having a hydrophilic polar group, a coloring agent and a releasing agent, and an external additive, wherein a mass of Na atoms in a neighborhood of surface of the toner particles measured by the measuring method described below is 50 to 750μg in 1 g of toner particles. | 04-19-2012 |
20120264046 | TONER FOR ELECTROSTATIC IMAGE DEVELOPMENT - Disclosed is a toner for electrostatic image development that satisfies both low-temperature fixing ability and excellent high-temperature storage stability, achieves excellent charge property and shatter resistance, and consequently can form a high-quality image even by a high-performance machine such as a high-speed machine. | 10-18-2012 |
20130004890 | TONER FOR ELECTROSTATIC LATENT IMAGE DEVELOPMENT - A toner used for electrostatic latent image development which is excellent in fixing separability with maintaining sufficient low temperature fixability even in a high-speed machine and is also superior in crashing resistance, comprising toner particles, each comprising a core particle and a shell layer provided on the surface of the core particle, wherein the core particle comprises a binder resin containing a styrene-acrylic resin and a first styrene-acrylic modified polyester, and the shell comprises a second styrene-acrylic modified polyester resin. | 01-03-2013 |
20150248069 | IMAGE FORMING METHOD - An image forming method includes: charging a surface of an electrostatic latent image holder with a charging roller; exposing the charged surface so as to form an electrostatic latent image; and developing the formed electrostatic latent image with toner. The toner contains at least a toner base particle and an external additive minute particle. The external additive minute particle contains a silica-polymer composite minute particle. A silicon atom abundance ratio obtained from abundances of a carbon atom, an oxygen atom and a silicon atom present on an outermost surface and within 3 nm from the outermost surface in a depth direction of the silica-polymer composite minute particle are measured with an x-ray photoelectron spectrometer satisfies at least the following condition A. | 09-03-2015 |
20150309433 | ELECTROSTATIC CHARGE IMAGE DEVELOPING TONER - An electrostatic charge image developing toner includes: toner matrix particles containing a binder resin; and an external additive added to the toner matrix particles, wherein the external additive includes joined particles each including a secondary particle including a plurality of spherical primary particles joined together, the joined particles include at least particles with a secondary particle size d2 in the range of 70 nm to 400 nm, and particles with a ratio d2/d1 in the range of 1.6 to 4.2 make up at least 50% by number of the particles with a secondary particle size d2 in the range of 70 nm to 400 nm, wherein d1 is the diameter of primary particles in the joined particle, and d2 is the secondary particle size. | 10-29-2015 |
Patent application number | Description | Published |
20130082283 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURE THEREOF - A semiconductor device includes an insulating substrate, a wiring pattern formed on the insulating substrate, a semiconductor chip secured to the wiring pattern, a junction terminal formed of the same material as the wiring pattern and electrically connected to the semiconductor chip, one end of the junction terminal being secured to the insulating substrate, the other end of the junction terminal extending upward away from the insulating substrate, and a control circuit for transmitting a control signal for the semiconductor chip, the control circuit being electrically connected to the junction terminal. | 04-04-2013 |
20130286622 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THEREOF - A semiconductor device includes a first printed circuit board, a flat cable having electrical wires and a coating film which covers the electrical wires except for both ends, one end of each of the electrical wires is connected to the first printed circuit board, and a second printed circuit board connected to other end of each of the electrical wires. The flat cable is bent in such a manner that the first printed circuit board and the second printed circuit board face each other. A flat surface is formed in a portion of the coating film. | 10-31-2013 |
20140291825 | SEMICONDUCTOR DEVICE AND SEMICONDUCTOR MODULE - A semiconductor device in the preferred embodiment includes: a lead frame comprising a die pad and an electrode terminal; and at least one semiconductor chip bonded to a surface of the die pad, wherein the lead frame excluding a bottom surface thereof and the semiconductor chip are sealed by a sealing resin, and an unevenness is introduced on a bonding interface between the surface of the die pad and the semiconductor chip. | 10-02-2014 |
20150163916 | ELECTRONIC COMPONENT MOUNTING DEVICE AND SEMICONDUCTOR DEVICE INCLUDING THE SAME - An electronic component mounting device includes an insulating substrate having a metal pattern formed thereon and a MELF electronic component. The MELF electronic component is fitted into a first receiving portion configured with the metal pattern and the insulating substrate exposed from a lacking portion of the metal pattern. The electronic component mounting device further includes a conductive member formed between the MELF electronic component and the metal pattern, and the conductive member is not formed between the MELF electronic component and the insulating substrate. | 06-11-2015 |
20150221525 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURE THEREOF - A semiconductor device includes an insulating substrate, a wiring pattern formed on the insulating substrate, a semiconductor chip secured to the wiring pattern, a junction terminal formed of the same material as the wiring pattern and electrically connected to the semiconductor chip, one end of the junction terminal being secured to the insulating substrate, the other end of the junction terminal extending upward away from the insulating substrate, and a control circuit for transmitting a control signal for the semiconductor chip, the control circuit being electrically connected to the junction terminal. | 08-06-2015 |
20150289356 | POWER MODULE - In a power module, a power semiconductor element is mounted on a heat dissipation substrate having a tilted part formed at an end portion thereof, a resin case is arranged so as to surround the power semiconductor element and to contact the heat dissipation substrate, and a cooling fin is arranged so as to contact a surface of the heat dissipation substrate opposite a surface of the heat dissipation substrate on which the power semiconductor element is mounted. The power module includes pressure member contacting the tilted part of the heat dissipation substrate to press the heat dissipation substrate against the cooling fin. | 10-08-2015 |
20160079152 | Semiconductor Device - A semiconductor device according to the present invention includes: an insulating substrate; a circuit pattern having a first surface that is bonded to a first main surface of the insulating substrate and a second surface opposite to the first surface on which a semiconductor element is bonded; a back surface pattern having a first surface that is bonded to a second main surface of the insulating substrate; and a heat dissipation plate bonded to a second surface of the back surface pattern opposite to the first surface of the back surface pattern. A curvature of a corner portion of the circuit pattern is greater than a curvature of a corner portion of the back surface pattern, and the corner portion of the circuit pattern is located inside the corner portion of the back surface pattern in a plan view. | 03-17-2016 |