Patent application number | Description | Published |
20140343104 | OSTEOGENESIS PROMOTER AND USE THEREOF - The purpose of the present invention is to provide an osteogenesis promoter that can be administered locally and systemically and that is suitable for clinical application. Provided is an osteogenesis promoter that contains, as an active ingredient, at least one compound selected from the group consisting of phenazopyridine hydrochloride, riluzole hydrochloride, tranilast, rabeprazole, indoprofen, nabumetone, luteolin, leflunomide, lansoprazole, methiazole, thiabendazole, albendazole, tiaprofenic acid, balsalazide sodium salt, and cyclosporin A, or a pharmaceutically acceptable salt thereof. Preferably, rabeprazole or lansoprazole, which are proton pump inhibitors, is used as an active ingredient. | 11-20-2014 |
Patent application number | Description | Published |
20110227085 | SUBSTRATE FOR USE IN DISPLAY PANEL, AND DISPLAY PANEL INCLUDING SAME - The present invention is a substrate for use in a display panel. According to the substrate, lines ( | 09-22-2011 |
20110279766 | CONNECTING TERMINAL AND DISPLAY APPARATUS INCLUDING SAME - A connecting terminal has a configuration in which a plurality of parts of a first line ( | 11-17-2011 |
20120120616 | WIRING BOARD, METHOD FOR MANUFACTURING SAME, DISPLAY PANEL, AND DISPLAY DEVICE - A wiring board is provided which can prevent a metal electrode from corroding due to a defect in a transparent conductive electrode covering an end face of an organic insulating film. An active-matrix substrate includes: a glass substrate; a metal wire provided on the glass substrate; a gate insulating film covering the metal wire; an interlayer insulating film covering the gate insulating film; and a transparent electrode formed on the interlayer insulating film. The scanning wire provided with a terminal area where the transparent electrode is laminated directly on the scanning wire. The transparent electrode extends over the terminal area in such a way as to cover an end face of the interlayer insulating film that faces the terminal area and an end face of the gate insulating film that faces the terminal area. | 05-17-2012 |
20140014952 | ACTIVE MATRIX SUBSTRATE, DISPLAY PANEL, AND DISPLAY DEVICE - A drain electrode ( | 01-16-2014 |
20150206979 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME - This semiconductor device ( | 07-23-2015 |
20150221677 | ACTIVE MATRIX SUBSTRATE, DISPLAY DEVICE, AND PRODUCTION METHOD THEREFOR - The present invention provides an active matrix substrate including a thin film transistor that sufficiently achieves high reliability and a low capacitance, a production method for the active matrix substrate without an increase in the number of photomasks, a display device including the active matrix substrate, and a production method for the display device. The active matrix substrate of the present invention includes a thin film transistor that includes a semiconductor layer consisting of an oxide semiconductor. The active matrix substrate includes at least the semiconductor layer consisting of the oxide semiconductor, an etching stopper layer, and an interlayer insulating film formed from a spin-on-glass material. In the plan view of the principal surface of the substrate, the etching stopper layer covers at least part of the semiconductor layer, and the interlayer insulating film covers at least part of the etching stopper layer. | 08-06-2015 |
20150241724 | SEMICONDUCTOR DEVICE AND DISPLAY DEVICE - An array board (a semiconductor device) | 08-27-2015 |
Patent application number | Description | Published |
20130009160 | ACTIVE MATRIX SUBSTRATE - Disposed on an insulating substrate ( | 01-10-2013 |
20130048904 | ETCHING LIQUID FOR A COPPER/TITANIUM MULTILAYER THIN FILM - The present invention provides an etching liquid for a multilayer thin film containing a copper layer and a titanium layer, and a method of using it for etching a multilayer thin film containing a copper layer and a titanium layer, that is, an etching liquid for a multilayer thin film containing a copper layer and a titanium layer, which comprises (A) hydrogen peroxide, (B) nitric acid, (C) a fluoride ion source, (D) an azole, (E) a quaternary ammonium hydroxide and (F) a hydrogen peroxide stabilizer and has a pH of from 1.5 to 2.5, and a etching method of using it. | 02-28-2013 |
20150236687 | SEMICONDUCTOR DEVICE AND DISPLAY DEVICE - A semiconductor device is provided with an oxide semiconductor thin-film transistor (TFT); a calibration electrode that is positioned so as to face an oxide semiconductor layer with an insulating layer therebetween, and, when viewed from the direction of the substrate normal line, overlaps at least part of a gate electrode with the oxide semiconductor layer interposed therebetween; and a calibration voltage setting circuit that determines the voltage to be applied to the calibration electrode. The calibration voltage setting circuit is provided with: a monitor TFT that is configured using a second oxide semiconductor layer, which is substantially the same as the oxide semiconductor layer of the oxide semiconductor TFT; a detection circuit that is configured so as to be able to measure the device characteristics of the monitor TFT; and a voltage determination circuit that determines the voltage to be applied to the calibration electrode on the basis of the measured device characteristics. | 08-20-2015 |
Patent application number | Description | Published |
20120216599 | GAS SENSOR, CONTACT MEMBER OF GAS SENSOR AND SENSOR ELEMENT RETAINING MEMBER FOR CONTACT MEMBER OF GAS SENSOR - To provide a gas sensor which can stably carry out a retention of a sensor element by a contact member and a reservation of an electric continuity between them. A contact member has an insertion port in which the sensor element is inserted and retained to obtain an electric connection with the sensor element. The contact member is provided with a plurality of sensor element retaining members which respectively have a plurality of abutting parts abutting on the sensor element, at least a part of a plurality of abutting parts is a first abutting part which has a leading end part formed as a linear shape or a point-like shape, and the leading end part of the first abutting part is a free end part which applies an elastic force to the sensor element while having point contact or line contact with the sensor element. | 08-30-2012 |
20150024292 | LITHIUM AIR SECONDARY BATTERY - The present invention provides a lithium-air secondary battery that is capable of effectively preventing deterioration of an alkaline electrolytic solution, air electrode, and negative electrode and has a long life and high long-term reliability. The lithium-air secondary battery comprises an air electrode | 01-22-2015 |
20160071552 | VOLATILE MEMORY BACKUP SYSTEM INCLUDING ALL-SOLID-STATE BATTERY - The present invention provides a volatile memory backup system including an all-solid-state battery. The backup system includes a volatile memory, a nonvolatile memory connected to the volatile memory so as to transfer data therebetween, an all-solid-state battery connected to the volatile memory and the nonvolatile memory, the battery continuously or intermittently supplying a current to the volatile memory during a power failure to retain data in the volatile memory, and a controller connected in parallel with the battery, the controller intermittently supplying a peak current to the volatile memory during the power failure and intermittently transferring divided volumes of data in the volatile memory to the nonvolatile memory by the peak current and a current from the battery temporarily increased in association with the peak current to store the data in the nonvolatile memory, thereby gradually accumulating the data in the volatile memory into the nonvolatile memory. | 03-10-2016 |
Patent application number | Description | Published |
20080229931 | HONEYCOMB STRUCTURE BODY AND METHOD FOR PRODUCING THE SAME - There is provided a honeycomb structure capable of suitably be used for a filter for trapping particulate matter, such as a diesel particulate filter (DPF) and capable of detecting an accumulation amount of particulate matter easily with high accuracy when the honeycomb structure is used for a filter for trapping particulate matter. The honeycomb structure 1 has a plurality of cells functioning as gas passages and partitioned and formed by the porous partition walls and has two or more electrodes therein. | 09-25-2008 |
20090284271 | INSTRUMENT FOR MEASURING CONCENTRATION OF PARTICULATES IN FLUID, MEASURING METHOD, AND MEASURING PROGRAM - There are disclosed an instrument for measuring the concentration of particulates in a fluid, which is capable of determining the concentration of the particulates in the fluid with high accuracy. The instrument for measuring the concentration of the particulates in the fluid includes particulate collecting means, temperature measuring means, flow rate measuring means, impedance measuring means, time measuring means, constant determining means for determining an impedance change per unit time-particulate concentration constant from temperature and flow rate, impedance change per unit time computing means for computing the change of an impedance per unit time, and particulate concentration determining means for determining the concentration of the particulates from the change of the impedance per unit time computed by the impedance change per unit time computing means. | 11-19-2009 |
20090309571 | PARTICULATE MATTER SENSOR - A particulate matter sensor ( | 12-17-2009 |
20090315569 | IMPEDANCE MEASURING INSTRUMENT AND IMPEDANCE MEASURING METHOD FOR FINE PARTICLE COLLECTOR - An impedance measuring instrument of a fine particle collector comprising a fine particle collection body for collecting fine particles in a fluid, a conductive can body for containing the fine particle collection body, and a buffering body disposed between the fine particle collection body and the conductive can body, wherein two or more electrodes are arranged on the fine particle collection body, at least one of the electrodes is connected with an AC power supply, at least the other electrode is connected with an ammeter, the AC power supply and the ammeter are interconnected and further connected with the conducive can body, and the conducive can body is grounded. | 12-24-2009 |
20130287378 | HEATER - The heater includes a heater main body, a housing storing the heater main body therein, and a coating material arranged in at least a part between the heater main body and the housing and covering at least a part of the heater main body. The coating material is a material containing at least one of ceramic and glass, the heater main body has a cylindrical honeycomb structural portion having partition walls separating and forming a plurality of cells and a pair of electrode portions disposed on a side face of the honeycomb structural portion, the housing contains the heater main body so as to cover the side face side of the heater main body, and the partition walls of the honeycomb structural portion is of a material containing ceramic as the main component and produces heat by energization. | 10-31-2013 |
20140072870 | ALL-SOLID-STATE CELL - An all-solid-state cell has a positive electrode layer containing a positive electrode active material, a solid electrolyte layer containing a lithium ion conducting material, and a negative electrode layer containing a negative electrode active material. The negative electrode active material in the negative electrode layer contains a plurality of cylindrical carbon nanotube molecules, and the axes of the carbon nanotube molecules are oriented in a predetermined direction. | 03-13-2014 |
20150037688 | All-Solid-State Cell - An all-solid-state cell contains at least a positive electrode layer, a solid electrolyte layer, and a negative electrode layer, which are arranged in a stack. The positive electrode layer contains only a positive electrode active material, and a predetermined crystal plane of the positive electrode active material is oriented in a direction of lithium ion conduction. The negative electrode layer contains a carbonaceous material, and the volume ratio of the carbonaceous material to the negative electrode layer is 70% or greater. | 02-05-2015 |
Patent application number | Description | Published |
20080232736 | Optical Functional Circuit - The present invention provides an optical functional circuit where a holographic wave propagation medium is applied and a circuit property is excellent such as small transmission loss and crosstalk. The optical functional circuit where a plurality of circuit elements are formed on a substrate includes the wave propagation medium for converting an optical path of a leakage light so that the leakage light that is not emitted from a predetermined output port of the circuit element is not coupled to a different circuit element. This wave propagation medium is constituted by an optical waveguide that is provided with a clad layer formed on the substrate and a core embedded in the clad layer, and a part of the optical waveguide is formed in accordance with a refractive index distribution which is multiple scattered. | 09-25-2008 |
20100274541 | Planer Lightwave Circuit, Design Method for Wave Propagation Circuit, and Computer Program - A planar lightwave circuit is provided which can be easily fabricated by an existing planar-lightwave-circuit fabrication process, which can lower the propagation loss of signal light and which can convert inputted signal light so as to derive desired signal light. A planar lightwave circuit having a core and a clad which are formed on a substrate, has input optical waveguide(s) ( | 10-28-2010 |
20120170891 | OPTICAL WAVELENGTH MULTI/DEMULTIPLEXER - An optical wavelength multi/demultiplexer having transmission characteristics with a higher rectangular degree than a conventional one includes an AWG and two-stage lattice circuit. An example of a two-stage lattice circuit according to the present invention includes an input waveguide, a third optical coupler, a third and fourth arm waveguides, a second optical coupler, a first and second arm waveguides, a first optical coupler, and output waveguides. The optical path length differences between the third and fourth arm waveguides and between the first and second arm waveguides are designed to be ΔL. The path passing the third and first arm waveguides differs by 2·ΔL in optical length from that the fourth and second arm waveguides. The paths passing the third and second arm waveguides and passing the fourth and first arm waveguides differ by ΔL from that passing the fourth and second arm waveguides. | 07-05-2012 |
20120304143 | Planar Lightwave Circuit, Design Method for Wave Propagation Circuit, and Computer Program - A planar lightwave circuit is provided which can be easily fabricated by an existing planar-lightwave-circuit fabrication process, which can lower the propagation loss of signal light and which can convert inputted signal light so as to derive desired signal light. A planar lightwave circuit having a core and a clad which are formed on a substrate, has input optical waveguide(s) ( | 11-29-2012 |
20120311516 | Planar Lightwave Circuit, Design Method for Wave Propagation Circuit, and Computer Program - A planar lightwave circuit is provided which can be easily fabricated by an existing planar-lightwave-circuit fabrication process, which can lower the propagation loss of signal light and which can convert inputted signal light so as to derive desired signal light. A planar lightwave circuit having a core and a clad which are formed on a substrate, has input optical waveguide(s) ( | 12-06-2012 |
20140186040 | LIGHT MERGING/BRANCHING DEVICE, BIDIRECTIONAL LIGHT PROPAGATION DEVICE, AND LIGHT TRANSMISSION/RECEPTION SYSTEM - The present invention relates to an optical coupling/splitting device that realizes the splitting of a down-signal and the coupling of up-signals by the same optical device, and reduces coupling losses of the up-signal. An optical coupling/splitting device in the present invention comprises an optical coupling/splitting means for coupling a plurality of up-signals in a multi-mode for output and splitting a down-signal in a single mode for output, and a two-way optical propagation means for propagating the up-signal that is output from the optical coupling/splitting means in a multi-mode for output and propagate the down-signal in a single mode to be output to the optical coupling/splitting means. | 07-03-2014 |
20140376861 | ARRAYED WAVEGUIDE GRATING, OPTICAL MODULE PROVIDED WITH SAID ARRAYED WAVEGUIDE GRATING, AND OPTICAL COMMUNICATIONS SYSTEM - An arrayed waveguide grating provided with a first slab waveguide formed on a substrate; a second slab waveguide formed on the substrate; a first input/output waveguide connected to the first slab waveguide; a second input/output waveguide connected to the second slab waveguide; two or more channel waveguide groups connecting the first and second slab waveguides, each of the channel waveguide groups formed of an aggregate of a plurality of channel waveguides having path lengths sequentially becoming longer by a predetermined path length difference; and an optical filter arranged in at least one of the first and second slab waveguides. | 12-25-2014 |
Patent application number | Description | Published |
20110116802 | Optical Wavelength Multiplexing/ De-multiplexing Circuit - An optical wavelength multiplexing/de-multiplexing circuit having a low loss and a flat transmission spectrum is provided. The optical wavelength multiplexing/de-multiplexing circuit compensates a temperature dependence of a center transmission wavelength which remains in an athermal AWG, and has an excellent accuracy of the center transmission wavelength in a whole operating temperature range or has a comparatively wide operable temperature range. The temperature dependence of the transmission wavelength in the athermal MZI is modulated and set so as to cancel the temperature dependence of the center wavelength which remains in the athermal AWG. The present invention focuses particularly on an optical coupler in the MZI and modulates the temperature dependence of the transmission wavelength in the MZI by providing the optical coupler itself with a mechanism which changes a phase difference between two outputs by temperature. | 05-19-2011 |
20110268447 | Optical Wavelength Multiplexing/Demultiplexing Circuit, Optical Module Using Optical Wavelength Multiplexing/Demultiplexing Circuit, and Communication System - When a conventional synchronized AWG is employed to extend a transmission passband, an increase in loss near the optical center frequency can not be avoided. Because of passband width limit, a problem has existed in that the synchronized AWG could not be applied for a large, complicated communication system wherein a signal light passes a number of points. Therefore, an optical wavelength multiplexing/demultiplexing circuit of the present invention is a synchronized AWG, which includes an optical splitter arranged in an interference circuit that is connected on the side of one slab waveguide. The splitting ratio of the optical splitter varies, depending on the optical frequency, and the value becomes minimum near the optical center frequency of the synchronized AWG. The optical splitter is operated so that the splitting ratio is comparatively great at optical frequencies distant from the optical center frequency. | 11-03-2011 |
20120063716 | Wideband Interferometer Type Polarized Light Combiner and Splitter - A interferometer type polarization beam combiner and splitter, which can combine or split polarized light over a wide band, is provided. The interferometer type polarization beam combiner and splitter includes: an optical splitter; an optical coupler; an optical path length difference imparting unit, which includes a plurality of optical waveguides arranged between the optical splitting unit and the optical coupling unit; one or two input/output ports connected to the optical splitter; and two input/output ports connected to the optical coupler. A half-integer of a wavelength of λc is set as a normalized phase difference, for the optical path length difference imparting unit, between two polarization states, and means for generating a difference in refractive index dispersion is provided between the optical waveguides of the optical path length difference imparting unit, so that the change rate of the transmittance with respect to wavelength is suppressed for the two polarization states. | 03-15-2012 |