Patent application number | Description | Published |
20100044089 | INTERPOSER INTEGRATED WITH CAPACITORS AND METHOD FOR MANUFACTURING THE SAME - An interposer integrated with capacitors ( | 02-25-2010 |
20100308474 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A substrate ( | 12-09-2010 |
20110302753 | CAPACITOR PRODUCING METHOD, CAPACITOR PRODUCING DEVICE, AND CAPACITOR PRODUCING PROGRAM - In a capacitor producing method, a bottom electrode, a thin-film dielectric, and a top electrode are deposited on a substrate so as to form a capacitor, wherein defects including particles and electrical short-circuits between the bottom electrode and the top electrode are detected before the capacitor is divided into capacitor cells. Next, defects such as particles and electrical short-circuits between the bottom electrode and the top electrode are removed before the capacitor is divided into capacitor cells. | 12-15-2011 |
20120112344 | SUBSTRATE FOR SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THEREOF - Disclosed is a substrate for a semiconductor package in which leakage of radiation noise from a gap between a semiconductor element and a mounting substrate can be prevented. The substrate for the semiconductor package includes a coplanar waveguide including a signal and ground electrodes on the mounting substrate, the signal electrode flip-chip connected to the semiconductor element, the ground electrodes arranged on both sides of the signal electrode with intervals therebetween. A step part is formed in the ground electrodes in an outer circumferential part of a mounting region of the semiconductor element, the step part having a larger distance between upper surfaces of the mounting substrate and the ground electrode in the outer circumferential part of the mounting region than such distance in the mounting region, and an insulator for covering the signal electrode in the outer circumferential part of the mounting region is formed. | 05-10-2012 |
20130005085 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A substrate and a semiconductor chip are connected by means of flip-chip interconnection. Around connecting pads of the substrate and input/output terminals of the semiconductor chip, an underfill material is injected. The underfill material is a composite material of filler and resin. Also, a first main surface of the substrate, which is not covered with the underfill material, and the side surfaces of the semiconductor chip are encapsulated with a molding material. The molding material is a composite material of filler and resin. An integrated body of the substrate and the semiconductor chip, which are covered with the molding material, is thinned from above and below. | 01-03-2013 |
20130012145 | RADIO MODULE AND MANUFACTURING METHOD THEREFOR - Provided is a radio module that includes a radio signal connection portion having a low insertion loss and high reliability. | 01-10-2013 |
20130316495 | SUBSTRATE FOR SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THEREOF - Disclosed is a substrate for a semiconductor package in which leakage of radiation noise from a gap between a semiconductor element and a mounting substrate can be prevented. The substrate for the semiconductor package includes a coplanar waveguide including a signal and ground electrodes on the mounting substrate, the signal electrode flip-chip connected to the semiconductor element, the ground electrodes arranged on both sides of the signal electrode with intervals therebetween. A step part is formed in the ground electrodes in an outer circumferential part of a mounting region of the semiconductor element, the step part having a larger distance between upper surfaces of the mounting substrate and the ground electrode in the outer circumferential part of the mounting region than such distance in the mounting region, and an insulator for covering the signal electrode in the outer circumferential part of the mounting region is formed. | 11-28-2013 |
20140068905 | CAPACITOR PRODUCING METHOD, CAPACITOR PRODUCING DEVICE, AND CAPACITOR PRODUCING PROGRAM - In a capacitor producing method, a bottom electrode, a thin-film dielectric, and a top electrode are deposited on a substrate so as to form a capacitor, wherein defects including particles and electrical short-circuits between the bottom electrode and the top electrode are detected before the capacitor is divided into capacitor cells. Next, defects such as particles and electrical short-circuits between the bottom electrode and the top electrode are removed before the capacitor is divided into capacitor cells. | 03-13-2014 |
20150034373 | WIRING STRUCTURE AND MANUFACTURING METHOD THEREOF - A wiring structure includes a substrate, a convexoconcave absorption layer including a convexoconcave portion on the substrate, a conductive layer pattern on at least a concave portion of the convexoconcave absorption layer, and an insulating layer pattern over the conductive layer pattern and the convexoconcave absorption layer, on at least the concave portion. This configuration provides a wiring structure and a manufacturing method thereof which enable to form fine multilayer wiring using microcontact printing or the like. | 02-05-2015 |
Patent application number | Description | Published |
20090128904 | Grid polarizing film, method for producing the film, optical laminate, method for producing the laminate, and liquid crystal display - A lengthy grid polarizer film comprising a lengthy resin film and a plurality of grid lines provided on the surface and/or inside of the resin film and extending substantially in parallel with each other are provided, the grid lines being made of a material G being 1.0 or more in the absolute value of the difference between the real part n | 05-21-2009 |
20090153961 | Grid Polarizer and Method for Manufacturing the Same - A grid polarizer comprising a first layer composed of a transparent material, a third layer composed of a transparent material, and a second layer laminated between the first layer and the third layer, the second layer having a plurality of layers A extended in an elongated linear state and a plurality of layers B extended in an elongated linear state, in which the layers A and the layers B are alternately arranged side by side, the layers A extended in an elongated linear state comprise a material with an absolute value of a difference between a real part n and an imaginary part κ in a complex refractive index (N=n−iκ) at 1.0 or more, the layers B extended in the elongated linear state comprise a gas, and the third layer is connected to the layers A through a chemical compound having a reactive group bindable with an inorganic material and a reactive group bindable with an organic material, comprises a transparent inorganic oxide or a transparent inorganic nitride, or comprises a porous substance. | 06-18-2009 |
20100196600 | APPARATUS AND METHOD FOR PRODUCING ALIGNED CARBON-NANOTUBE AGGREGATES - An apparatus of the present invention for producing an aligned carbon-nanotube aggregate is an apparatus for producing an aligned carbon-nanotube aggregate by synthesizing the aligned carbon-nanotube aggregate on a base material having a catalyst on a surface thereof, the apparatus including: a formation unit that processes a formation step of causing an environment surrounding the catalyst to be an environment of a reducing gas and heating at least either the catalyst or the reducing gas; a growth unit that processes a growth step of synthesizing the aligned carbon-nanotube aggregate by causing the environment surrounding the catalyst to be an environment of a raw material gas and by heating at least either the catalyst or the raw material gas; and a transfer unit that transfers the base material at least from the formation unit to the growth unit. Thus provided is a production apparatus and a production method that are capable of improving efficiency in the production of aligned CNT aggregates by preventing a decrease in production volume and deterioration in quality of aligned CNT aggregates in serial production and by making it easy to increase the size of the apparatus. | 08-05-2010 |
20110116995 | APPARATUS AND METHOD FOR PRODUCING ALIGNED CARBON-NANOTUBE AGGREGATES - An apparatus of the present invention for producing an aligned carbon-nanotube aggregate is an apparatus for producing an aligned carbon-nanotube aggregate by synthesizing the aligned carbon-nanotube aggregate on a base material having a catalyst on a surface thereof, the apparatus including: a formation unit that processes a formation step of causing an environment surrounding the catalyst to be an environment of a reducing gas and heating at least either the catalyst or the reducing gas; a growth unit that processes a growth step of synthesizing the aligned carbon-nanotube aggregate by causing the environment surrounding the catalyst to be an environment of a raw material gas and by heating at least either the catalyst or the raw material gas; and a transfer unit that transfers the base material at least from the formation unit to the growth unit. Thus provided is a production apparatus and a production method that are capable of improving efficiency in the production of aligned CNT aggregates by preventing a decrease in production volume and deterioration in quality of aligned CNT aggregates in serial production and by making it easy to increase the size of the apparatus. | 05-19-2011 |
20110308462 | APPARATUS FOR PRODUCING ALIGNED CARBON NANOTUBE AGGREGATES - An apparatus of the present invention for producing aligned carbon nanotube aggregates is an apparatus for producing aligned carbon nanotube aggregates, the apparatus being configured to grow the aligned carbon nanotube aggregate by: causing a catalyst formed on a surface of a substrate to be surrounded by a reducing gas environment constituted by a reducing gas; heating at least either the catalyst or the reducing gas; causing the catalyst to be surrounded by a raw material gas environment constituted by a raw material gas; and heating at least either the catalyst or the raw material gas, at least either an apparatus component exposed to the reducing gas or an apparatus component exposed to the raw material gas being made from a heat-resistant alloy, and having a surface plated with molten aluminum. | 12-22-2011 |
20120107220 | DEVICE FOR MANUFACTURING ALIGNED CARBON NANOTUBE ASSEMBLY - Provided is a production apparatus ( | 05-03-2012 |
20140170316 | DEVICE FOR MANUFACTURING AND METHOD FOR MANUFACTURING ORIENTED CARBON NANOTUBE AGGREGATES - An apparatus of the present invention for producing an aligned carbon nanotube includes: at least one injection section including at least one injection hole from which a raw material gas is injected to a base substrate; an exhaust vent for exhausting the raw material gas; and an exhaust section including a plurality of exhaust vents, the plurality of exhaust vents being provided so as to be closer to the exhaust vent than a plurality of injection holes included in the at least one injection hole of the at least one injection section. | 06-19-2014 |
20160075558 | METHOD FOR PRODUCING ALIGNED CARBON NANOTUBE ASSEMBLY - Provided is a production apparatus ( | 03-17-2016 |
Patent application number | Description | Published |
20130149603 | NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY - A non-aqueous electrolyte secondary battery has a negative electrode containing graphite particles as a negative electrode active material, a positive electrode containing a lithium-containing oxide of a transition metal or a lithium-containing phosphate of a transition metal as a positive electrode active material, and a non-aqueous electrolyte in which a lithium salt is dissolved in an organic solvent. The graphite particles have an exposed crystal face and are bonded with each other to be parallel to the orientation plane of each other, and the non-aqueous electrolyte contains a phosphate ester compound represented by the following general formula (1) to which an alkynyl group is bonded and/or an unsaturated phosphate ester compound represented by the following general formula (2): | 06-13-2013 |
20130177822 | NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY - Disclosed is a non-aqueous electrolyte secondary battery using a polyanion compound or a lithium nickelate as a positive electrode active material, suppressing the elution of a transition metal from the polyanion compound or ameliorating the deterioration of a binder by a residual alkali component, and provides a non-aqueous electrolyte secondary battery having a negative electrode intercalating and deintercalating lithium ions, a positive electrode containing a lithium-containing compound as a positive electrode active material, and a non-aqueous electrolyte with a lithium salt dissolved in organic solvent. The lithium-containing compound is a polyanion compound or a lithium nickelate. The non-aqueous electrolyte contains a fluorosilane compound: | 07-11-2013 |
20130236777 | NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY - Provided is a non-aqueous secondary battery that uses a lithium-containing metal oxide that contains manganese as a positive electrode active material, and wherein a small internal resistance and a high electric capacity can be maintained even after high-temperature storage or charge and discharge at high temperatures, by suppressing elution of manganese from the positive electrode active material. Specifically provided is a non-aqueous electrolyte secondary battery with a negative electrode capable of intercalating and deintercalating lithium ions, a positive electrode with a lithium-containing compound as the positive electrode active material, and a non-aqueous electrolyte that has lithium salt dissolved in an organic solvent. Said non-aqueous electrolyte secondary battery is characterized by the lithium-containing compound being a lithium-containing metal oxide compound that contains manganese and by the non-aqueous electrolyte containing a fluorosilane compound indicated by general formula (1). (In the formula, R | 09-12-2013 |
20140242456 | NONAQUEOUS ELECTROLYTE AND NONAQUEOUS SECONDARY BATTERY USING SAME - The invention provides a nonaqueous electrolyte for batteries and a nonaqueous secondary battery using the same which maintains small internal resistance and high electric capacity in high temperature storage. The nonaqueous electrolyte has an electrolyte salt, a compound of general formula (1), and a compound of general formula (2) dissolved in an organic solvent. The ratio of the compound of formula (2) to the sum of the compound of formula (1) and the compound of formula (2) is 0.1 to 8 mass %. In the formulae, R | 08-28-2014 |
20150044551 | NONAQUEOUS SECONDARY BATTERY - Disclosed is a nonaqueous secondary battery using a positive electrode containing a transition metal and lithium. The battery is prevented from deterioration due to elution of the transition metal from the positive electrode and thereby capable of maintaining small internal resistance and high electrical capacity even after high temperature storage or high-temperature charge and discharge cycles. The battery includes a negative electrode capable of intercalating and deintercalating lithium, a positive electrode containing a transition metal and lithium, and a nonaqueous electrolyte having a lithium salt dissolved in an organic solvent, the nonaqueous electrolyte containing a polycarboxylic ester compound represented by general formula (1) or (2). | 02-12-2015 |
20150206664 | ELECTRICITY STORAGE DEVICE - An electricity storage device maintains low internal resistance and high electric capacity. The nonaqueous-electrolytic-solution hybrid electricity storage device employs an anode into/from which lithium can be intercalated and deintercalated and a cathode including activated carbon, even after high-temperature storage and/or high-temperature charging/discharging. Specifically, this electricity storage device includes an anode into/from which lithium can be intercalated and deintercalated, a cathode that includes activated carbon, and a nonaqueous electrolytic solution, wherein the electricity storage device employs a nonaqueous electrolytic solution that includes at least one type of compound represented by one of general formulas (1) to (5). Details on the general formulas (1) to (5) are as described in the Description. | 07-23-2015 |
Patent application number | Description | Published |
20110206823 | METHOD FOR PRODUCING AMINO ACID-RICH YEAST - The present invention provides: a method for producing an amino acid-rich yeast containing free amino acid in high concentration; a method for producing an amino acid-rich yeast, which includes liquid-culturing a yeast in a stationary phase of proliferation wherein the pH of a liquid medium is ≧7.5 and <11; a method for producing an amino acid-rich yeast, which includes adjusting the pH of the liquid medium to ≧7.5 and <11, and further culturing the yeast in this pH range; a method for producing an amino acid-rich yeast, wherein the yeast is | 08-25-2011 |
20110223287 | METHOD FOR PRODUCING YEAST WITH HIGH GLUTAMIC ACID CONTENT - Provided is a method for producing a yeast containing glutamic acid at a high concentration. In the method for culturing a yeast, a yeast in a stationary growth phase is subjected to liquid culture under the conditions that the pH of a liquid medium is 7.5 or higher and lower than 11. After the pH of the liquid medium for the yeast in a stationary growth phase is adjusted to 7.5 or higher and lower than 11, the yeast is further cultured, whereby a yeast with a high glutamic acid content can be produced. In the invention, as the yeast, | 09-15-2011 |
20110223288 | METHOD FOR PRODUCING ALANINE-RICH YEAST - The present invention relates to a method for producing an alanine-rich yeast containing alanine at a high concentration and includes: a method involving liquid-culturing a yeast in a stationary phase of proliferation under the condition that the pH of a liquid medium is ≧7.5 and <11; a method for producing an alanine-rich yeast by adjusting the pH of a liquid medium to ≧7.5 and <11, and then culturing the yeast in this pH range; a method of producing an alanine-rich yeast, wherein the yeast is | 09-15-2011 |
Patent application number | Description | Published |
20140041472 | TRANSMISSION - A transmission includes an input shaft for receiving rotation of an engine, an intermediate shaft connected to the input shaft via a damping mechanism, drive gears, driven gears, and an output shaft. Rotation of the input shaft is transmitted to the driven gears, which are inserted into the output shaft to be free to rotate, via the damping mechanism, the intermediate shaft, and the drive gears. A gear shift is performed by fixing one of the driven gears to the output shaft to be incapable of relative rotation using a selector mechanism. An impact generated when the gear is fixed is absorbed and dampened by the damping mechanism, which is interposed between the input shaft and the intermediate shaft. | 02-13-2014 |
20140041473 | TRANSMISSION - A transmission includes an input shaft to receive the rotation of an engine, drive gears attached to the input shaft so as to freely rotate, an output shaft to output rotation following a gear shift, driven gears that are attached to the output shaft so as to freely rotate and mesh with the drive gears, an engagement mechanism to fix a gear to be used in a gear shift, from among the drive gears, to the input shaft to be incapable of relative rotation prior to a gear shift, and a selector mechanism to fix, during the gear shift, the driven gear of a corresponding gear position, which meshes with the drive gear fixed to the input shaft by the engagement mechanism, to the output shaft to be incapable of relative rotation. | 02-13-2014 |
20140178996 | CULTURE CONTROL METHOD, CELL CULTURE APPARATUS, AND APPARATUS FOR EVALUATION OF CELLULAR CHARACTERISTICS - This invention provides a culture control method and a cell culture apparatus that enable stable cell culture by regulating shear stress to be applied to cells within an adequate range. With the application of such culture control method and cell culture apparatus, cell culture is performed under agitation culture conditions in which the shear stress distribution is 0.5 Pa to 20 Pa in 80% or more of the culture vessel by volume. | 06-26-2014 |
20150192568 | METHOD AND APPARATUS FOR DETERMINING DEGREE OF STRATIFICATION AND/OR DIFFERENTIATION - A method for easily and non-invasively determining a degree of stratification and/or differentiation of cultured cells, and an apparatus for determining a degree of stratification and/or differentiation of cultured cells are provided. The invention relates to a method for determining a degree of stratification and/or differentiation of cultured cells, including: (a) a harvesting step of harvesting a culture solution of the cultured cells; (b) an analytical step of analyzing at least one type of a metabolite of the pentose phosphate pathway and/or the TCA cycle in the culture solution; and (c) a determination step of referring to a database of correlations between prospectively-obtained degrees of stratification and/or differentiation of the cultured cells and analytical results of metabolites, for analytical results obtained in the analytical step, to determine the degree of stratification and/or differentiation of the cultured cells. | 07-09-2015 |
20150300454 | TRANSMISSION - A transmission includes an input shaft to receive a rotation of an engine, drive gears respectively attached to the input shaft to freely rotate individually, an output shaft disposed parallel to the input shaft in order to output rotation following a gear shift, driven gears respectively attached to the output shaft to freely rotate individually and to mesh with the drive gears, an engagement mechanism to fix a gear to be used in a gear shift individually, from among the drive gears, to the input shaft to be incapable of relative rotation, and a selector mechanism to fix, during the gear shift, the driven gear of a corresponding gear position individually, which meshes with the drive gear fixed to the input shaft by the engagement mechanism, to the output shaft to be incapable of relative rotation, and a hub that is fixed to the input shaft. | 10-22-2015 |
20150344831 | STIMULATION-RESPONSIVE MATERIAL AND CELL CULTURE CONTAINER MADE THEREOF - A stimulation-responsive material comprises regions of pH-responsive polymer and regions of temperature-responsive polymer, the regions existing at different locations. | 12-03-2015 |
20160136543 | SEPARATION DEVICE AND SEPARATION METHOD - An object of the present invention is to separate a material to be separated at a low cost and constant accuracy when the material to be separated is separated from a mobile phase containing the material to be separated through the passing of the mobile phase through a stationary phase, even if the mobile phase has a large volume. A separation device characterized in that a separation column provided with a stationary phase having a volume capable of processing the entire volume of a mobile phase containing a material to be separated is provided, the separation column is replaceable, and the usage count of the stationary phase reaches a lifetime count through the processing of one batch. | 05-19-2016 |
Patent application number | Description | Published |
20090214581 | EPITOPE PEPTIDES DERIVED FROM VASCULAR ENDOTHELIAL GROWTH FACTOR RECEPTOR 1 AND VACCINES CONTAINING THESE PEPTIDES - The present invention provides immunogenic peptides comprising the amino acid sequence of SEQ ID NO: 1, 2, 13, 32, and peptides comprising the above-mentioned amino acid sequences in which 1, 2, or several amino acids are substituted or added, and having cytotoxic T cell inducibility, and also provides drugs for treating or preventing tumors comprising these peptides. The peptides of this invention can be used as vaccines. | 08-27-2009 |
20110250219 | EPITOPE PEPTIDES DERIVED FROM VASCULAR ENDOTHELIAL GROWTH FACTOR RECEPTOR 1 AND VACCINES CONTAINING THESE PEPTIDES - The present invention provides immunogenic peptides comprising the amino acid sequence of SEQ ID NO: 1, 2, 13, 32, and peptides comprising the above-mentioned amino acid sequences in which 1, 2, or several amino acids are substituted or added, and having cytotoxic T cell inducibility, and also provides drugs for treating or preventing tumors comprising these peptides. The peptides of this invention can be used as vaccines. | 10-13-2011 |
20120294877 | EPITOPE PEPTIDES DERIVED FROM VASCULAR ENDOTHELIAL GROWTH FACTOR RECEPTOR 1 AND VACCINES CONTAINING THESE PEPTIDES - The present invention provides immunogenic peptides comprising the amino acid sequence of SEQ ID NO: 1, 2, 13, 32, and peptides comprising the above-mentioned amino acid sequences in which 1, 2, or several amino acids are substituted or added, and having cytotoxic T cell inducibility, and also provides drugs for treating or preventing tumors comprising these peptides. The peptides of this invention can be used as vaccines. | 11-22-2012 |
20140186381 | EPITOPE PEPTIDES DERIVED FROM VASCULAR ENDOTHELIAL GROWTH FACTOR RECEPTOR 1 AND VACCINES CONTAINING THESE PEPTIDES - The present invention provides immunogenic peptides comprising the amino acid sequence of SEQ ID NO: 1, 2, 13, 32, and peptides comprising the above-mentioned amino acid sequences in which 1, 2, or several amino acids are substituted or added, and having cytotoxic T cell inducibility, and also provides drugs for treating or preventing tumors comprising these peptides. The peptides of this invention can be used as vaccines. | 07-03-2014 |
Patent application number | Description | Published |
20120058333 | ORGANO POLYSILOXANE, HARD COATING COMPOSITION, AND RESIN SUBSTRATE HAVING HARD COATING LAYER - An organo polysiloxane to improve the abrasion and weather resistance of a hard coating layer obtained from a silicone-type hard coating composition. The hard coating composition contains a first organo polysiloxane having silicone-containing bond units selected from the group consisting of R—Si(—OX) | 03-08-2012 |
20120103166 | Signal Processing Device, Signal Processing Method, and Program - A signal processing device that identifies a piece of music of an input signal by comparing the input signal with a plurality of reference signals including only a piece of music includes a weight distribution generating section that generates a weight distribution corresponding to a likeness to music in regions of the input signal transformed into a time-frequency domain, and a similarity calculating section that calculates degrees of similarity between a feature quantity in the regions of the input signal transformed into the time-frequency domain and feature quantities in the regions of the reference signals transformed into the time-frequency domain on the basis of the weighting based on the weight distribution. | 05-03-2012 |
20120263932 | RESIN SUBSTRATE PROVIDED WITH HARD COATING FILM AND ITS PRODUCTION PROCESS - It is to provide a resin substrate provided with a hard coating film having a silicone type hard coating layer provided on a resin substrate via a primer layer, having excellent abrasion resistance and also having excellent weather resistance such as weather-resistant adhesion and weather-crack resistance of the hard coating layer, and it production process. | 10-18-2012 |
20120266743 | MUSIC SEARCH APPARATUS AND METHOD, PROGRAM, AND RECORDING MEDIUM - An index calculating unit calculates a tonality index of a signal component of each area of the input signal transformed into a time frequency domain based on intensity of the signal component and a function obtained by approximating the intensity of the signal component. A similarity calculating unit calculates a similarity between a feature quantity in each area of the input signal obtained based on the index and the feature quantity in each area of the reference signal obtained based on the index calculated on the reference signal transformed into the time frequency domain. A music identifying unit identifies music of the input signal based on the similarity. The present technology can be applied to a music search apparatus that identifies music from an input signal. | 10-25-2012 |
20120276394 | PROCESS FOR PRODUCING RESIN SUBSTRATE HAVING HARD COATING LAYER, AND RESIN SUBSTRATE HAVING HARD COATING LAYER - A process for producing a resin substrate having a hard coating layer on at least one side of a resin substrate, comprising, in the following order, a step of applying a hard coating composition containing an organopolysiloxane to at least one side of the resin substrate to form a coating film of the composition, and then applying a first heat treatment to the coating film to form a cured film; an irradiation step of applying a Xe | 11-01-2012 |
20120308812 | RESIN SUBSTRATE HAVING HARD COATING LAYER - There is provided a resin substrate having a hard coating layer in which a silicone type hard coating layer is provided on the resin substrate via a primer layer, the resin substrate having the hard coating layer being excellent in the abrasion resistance and excellent in the weather resistance. A resin substrate having a hard coating layer comprising a primer layer containing an acrylic polymer, as a main component, and a hard coating layer formed of a cured product of a hard coating agent composition containing organopolysiloxane, sequentially laminated on at least one surface of the resin substrate, wherein the primer layer contains an acrylic polymer (A) in which at least one member selected from a specific alkyl acrylate and a specific alkyl methacrylate is set as main monomer units, a triazine type ultraviolet absorber (B), and a hindered amine photostabilizer (C). | 12-06-2012 |
20130164543 | FRONT PANEL FOR TOUCH SENSOR - A front panel for a touch sensor, which comprises a transparent substrate, and a high resistance layer and an insulating layer having electrical insulating properties stacked in this order on the transparent substrate, wherein the surface resistivity of the high resistance layer is from 1 to 100 MΩ/□, and the luminous transmittance of the front plate for a touch sensor is at least 85%. | 06-27-2013 |
20140091419 | OPTICAL FILTER, SOLID-STATE IMAGING ELEMENT, IMAGING DEVICE LENS AND IMAGING DEVICE - The present invention relates to an optical filter, a solid-state imaging element and an imaging device lens which contain a near infrared ray absorbing layer having a specific near infrared ray absorbing dye dispersed in a transparent resin having a refractive index of 1.54 or more, and also relates to an imaging device containing the solid-state imaging element or the imaging device lens. The near infrared ray absorbing layer has a transmittance of visible light of from 450 to 600 nm of 70% or more, a transmittance of light in a wavelength region of from 695 to 720 nm of not more than 10%, and an amount of change of transmittance of not more than −0.8 | 04-03-2014 |
20140140519 | SOUND PROCESSING DEVICE, SOUND PROCESSING METHOD, AND PROGRAM - There is provided a sound processing device including an input signal processing unit configured to calculate a first acoustic feature quantity indicating a likelihood being of a sinusoidal wave of a signal in each time frequency domain and a second acoustic feature quantity different from the first acoustic feature quantity based on an input signal of content to be identified, a reference signal processing unit configured to calculate the first acoustic feature quantity and the second acoustic feature quantity based on a reference signal of content prepared in advance, and a matching processing unit configured to calculate a similarity between the input signal and the reference signal based on the first and second acoustic feature quantities of the input signal and the first and second acoustic feature quantities of the reference signal. | 05-22-2014 |
20150046103 | OPERATIONAL STATE ESTIMATING APPARATUS FOR ELECTRICAL DEVICE, OPERATIONAL STATE ESTIMATING METHOD FOR ELECTRICAL DEVICE, PROGRAM, FEATURE VECTOR REGISTERING APPARATUS FOR ELECTRICAL DEVICE, FEATURE VECTOR REGISTERING METHOD FOR ELECTRICAL DEVICE, SERVER DEVICE, AND OPERATIONAL STATE ESTIMATING SYSTEM FOR ELECTRICAL DEVICE - Estimating operational states of a plurality of electrical devices connected to an electrical power line, that is, an electricity usage condition is appropriately carried out. | 02-12-2015 |
20150219801 | MANUFACTURING METHOD FOR A GLASS THAT HAS AN ANTIREFLECTION PROPERTY AND GLASS THAT HAS AN ANTIREFLECTION PROPERTY - A manufacturing method for a glass that has an antireflection property includes (a) a step of causing a process gas that includes a fluorine compound to contact a surface of a glass substrate within a temperature range of 250° C.-650° C. under an air atmosphere at an ordinary pressure, and (b) a step of forming a layer of an organic fluorine-containing compound on the surface. | 08-06-2015 |
20150331025 | SENSOR, SENSOR SIGNAL PROCESSOR, AND POWER LINE SIGNAL ENCODER - Provided is a sensor in which a current sensor that detects a current of a power line as a change in a magnetic field and a voltage sensor that detects a voltage of the power line using capacitive coupling are integrally formed. The transmission of signals related to substantially the same sections is omitted in order to effectively compress an output signal from the sensor and an output signal from the voltage sensor. When the amplitude and phase of a fundamental wave which are estimated from the output signal from the sensor and the amplitude and phase of harmonics are encoded, the amplitude and phase of the harmonics are relativized with a value for the fundamental wave. | 11-19-2015 |
20160054840 | TOUCH SENSOR WITH FRONT PANEL - A front panel for a touch sensor, which comprises a transparent substrate, and a high resistance layer and an insulating layer having electrical insulating properties stacked in this order on the transparent substrate, wherein the surface resistivity of the high resistance layer is from 1 to 100 MΩ/□, and the luminous transmittance of the front plate for a touch sensor is at least 80%. | 02-25-2016 |
Patent application number | Description | Published |
20130328626 | BIAS CONTROL CIRCUIT - The problem to be solved is to alleviate the distortion characteristic of an amplifier and to prevent the drop in gain with respect to a low-level high-frequency signal. A bias control circuit ( | 12-12-2013 |
20140070891 | HIGH FREQUENCY AMPLIFIER - To prevent a wrap-around signal from an output detection circuit unit that occurs when commonality is achieved between the power supply of the output detection circuit unit and the bias power supply of a power amplification unit. When commonality is achieved between the power supply of a diode of an output detection circuit unit and the power supply of a bias circuit, a resonance circuit is connected between the bias circuit and the output detection circuit unit, thereby preventing a wrap-around signal from the output side of a power amplification transistor from being input to the input side of the power amplification transistor. | 03-13-2014 |
20140210556 | HIGH-FREQUENCY AMPLIFIER - Since a high-frequency signal that is output from a high-frequency oscillator circuit section is detected in a detector circuit and a bias of a negative voltage is supplied from a bias circuit section to the high-frequency amplifier circuit section with a detection voltage that is detected, a negative power supply circuit such as a DC/DC converter or a peripheral circuit is not required, and since a negative bias voltage can be supplied to a high-frequency amplifier circuit, downsizing can be achieved with a low cost. | 07-31-2014 |
20140312972 | HIGH-FREQUENCY AMPLIFIER CIRCUIT, SEMICONDUCTOR DEVICE, AND MAGNETIC RECORDING AND REPRODUCING DEVICE - A high-frequency amplifier circuit includes a balanced-unbalanced converter converting a single-ended signal into differential signals. The output of a first amplifier amplifying the single-ended signal is connected to the signal terminal on the unbalanced side of the balanced-unbalanced converter. The input of a second amplifier amplifying one of the differential signals is connected to one signal terminal on the balanced side of the balanced-unbalanced converter. The input of a third amplifier amplifying another of the differential signals is connected to another signal terminal on the balanced side of the balanced-unbalanced converter. An impedance element is inserted between an element on the balanced side of the balanced-unbalanced converter and a ground. | 10-23-2014 |
20150180419 | HIGH-FREQUENCY AMPLIFIER - There is provided a high-frequency amplifier including a divider, a plurality of amplifiers for amplifying a high-frequency signal distributed by the divider and outputting the amplified high-frequency signal, a combiner for combining amplified high-frequency signals, a base substrate, a conductor pattern that is connected to a ground end of each of the amplifiers, and a ground electrode. Each of the conductor patterns has a first conductive portion. A slot is disposed between the two conductor patterns connected to the corresponding adjacent amplifiers. Between the adjacent amplifiers, two vias are formed so that the slot is sandwiched between the vias. One of the two conductor patterns is connected to the ground electrode via one of the two vias, and the other one of the conductor patterns is connected to the ground electrode via the other one of the two vias. | 06-25-2015 |
20160093318 | MAGNETIC HEAD, HEAD GIMBAL ASSEMBLY, AND MAGNETIC RECORDING AND REPRODUCING APPARATUS - A magnetic head has a magnetic head slider that includes a recording element that generates a recording signal magnetic field, a microwave magnetic field generating element that generates a microwave magnetic field, a terminal electrode, and a first transmission line that interconnects the terminal electrode and the microwave magnetic field generating element. A second transmission line is connected to the terminal electrode, the second transmission line being used to transmit a microwave signal from the outside of the magnetic head slider to the magnetic head slider. A capacitor connected to the first transmission line is provided between the terminal electrode and the microwave magnetic field generating element. Accordingly, in the magnetic head, a microwave signal is efficiently propagated. | 03-31-2016 |
Patent application number | Description | Published |
20110154632 | METHOD FOR MANUFACTURING NIOBIUM SOLID ELECTROLYTIC CAPACITOR - The present invention relates to a method for producing a niobium solid electrolytic capacitor using niobium as an anode body, which comprises a step of chemically converting the anode, wherein the chemical conversion step comprises a first chemical conversion step of forming a chemical conversion coating of the anode, a step of heating the anode body having been subjected to the first chemical conversion step, and a second chemical conversion step of once again chemically converting the heated anode body; wherein electrolytic chemical conversion is performed in the first chemical conversion step and the second chemical conversion step using a chemical conversion liquid, which contains a metal nitrate salt as an electrolyte, at a temperature from 40° C. to the boiling point of the solvent; and wherein the heating step is performed at a temperature of 150 to 300° C. The method for producing a niobium solid electrolytic capacitor of the present invention can increase the stability of an oxide film which functions as a dielectric body and prevent increase in leakage current, thereby improving the yield and reliability in the method for producing a niobium solid electrolytic capacitor. | 06-30-2011 |
20110239424 | METHOD FOR MANUFACTURING CAPACITOR ELEMENT - A capacitor element is obtained by chemically converting an anode body comprising a niobium or niobium alloy in an electrolyte solution, which is obtained by dissolving an oxygen supply agent such as hydrogen peroxide, a freezing point depressant such as ethylene glycol, and an electrolyte such as phosphoric acid in water, at a solution temperature lower than the freezing point of a solution having the composition of the electrolyte solution excluding the freezing point depressant, for forming a dielectric layer in the surface of the anode body or repairing a dielectric layer formed in the surface of the anode body. An electrolytic capacitor is obtained by forming a cathode on the dielectric layer of the capacitor element, electrically connecting the anode body and the cathode respectively to external terminals, and then sealing them. | 10-06-2011 |
20150340162 | CHEMICAL CONVERSION BODY FOR NIOBIUM CAPACITOR POSITIVE ELECTRODE, AND PRODUCTION METHOD THEREFOR - A chemical conversion body, electrolytic capacitor and production method are disclosed. The capacitor contains a chemical conversion body obtained by sintering a niobium granulated product. The sintered product is obtained by mixing niobium hydride and a niobium-aluminum intermetallic compound, pulverizing the mixture, and allowing the mixture to agglomerate by heat treatment to thereby form a granulated product; sintering the granulated product; and subjecting the sintered body to electrolytic oxidation to form a dielectric layer on the surface of the sintered body; in which chemical conversion body the sites of aluminum localization having a size of 0.1 μm to 0.5 μm are scattered in a depth of less than 0.06 μm from the surface of the dielectric layer. Nb | 11-26-2015 |
20150352637 | CHEMICAL CONVERSION BODY FOR NIOBIUM CAPACITOR POSITIVE ELECTRODE, AND PRODUCTION METHOD THEREFOR - A chemical conversion body obtained from a niobium granulated product being porous and having high binding strength, an electrolytic capacitor including the chemical conversion body and a production method thereof. The capacitor includes a chemical conversion body which has a dielectric layer on its surface and a metal element other than niobium distributed therein so that the metal element surrounds niobium; and a cathode formed on the dielectric layer on the surface of the chemical conversion body. The chemical conversion body is produced by mixing niobium hydride and a compound containing a metal element other than niobium; and subjecting the mixture to heat treatment at a temperature higher than a diffusion starting temperature of the compound containing a metal element other than niobium to obtain a niobium granulated product; sintering the granulated product; and subjecting the sintered body to electrolytic oxidation to form a dielectric layer on its surface. | 12-10-2015 |