Patent application number | Description | Published |
20090206025 | SEPARATION MEMBRANE-POROUS MATERIAL COMPOSITE AND METHOD FOR MANUFACTURING THE SAME - A separation membrane-porous material composite | 08-20-2009 |
20090242478 | CARBON MEMBRANE LAMINATED BODY AND METHOD FOR MANUFACTURING THE SAME - A carbon membrane laminated body includes: a porous substrate, a first porous carbon membrane as a carbon membrane underlayer disposed on a surface of the porous substrate, and a second porous carbon membrane as a carbon membrane separation layer disposed on a surface of the carbon membrane underlayer, having a smaller film thickness, and a smaller average pore diameter, compared with those of the carbon membrane underlayer. It is preferable to form the carbon membrane underlayer and the carbon membrane separation layer by carbonizing a carbon membrane underlayer precursor disposed on a surface of the porous substrate and the carbon membrane separation layer precursor disposed on a surface of the carbon membrane underlayer precursor at 400 to 1000° C. in a non-oxidation atmosphere. The carbon membrane laminated body is a separation membrane excellent in both separation performance and flux when it is used as a separation membrane of a mixture. | 10-01-2009 |
20100072127 | SEPARATION MEMBRANE COMPLEX, AND METHOD FOR MANUFACTURING THE SEPARATION MEMBRANE COMPLEX - A separation membrane complex | 03-25-2010 |
20100075059 | COAT FILM FORMING METHOD AND COAT FILM FORMING APPARATUS - A coating membrane forming method for forming a coating membrane on an object to be coated, the method comprising the steps of: setting the object to be coated for forming a coating membrane thereon in a dipping tank; sending an application liquid for forming the coating membrane into the dipping tank to raise a liquid level of the application liquid till the top of a region for forming the coating membrane thereon in the object to be coated is immersed in the application liquid; and thereafter discharging the application liquid outside the dipping tank to lower the liquid level of the application liquid. | 03-25-2010 |
20100083837 | CARBON MEMBRANE AND METHOD OF MANUFACTURING THE SAME - A porous carbon membrane has as a loaded component water, alcohol, ether, or ketone loaded on a surface or in a pore, or on the surface and in the pore thereof. The carbon membrane has the loaded component preferably having a molecular weight of 100 or less. The carbon membrane has the loaded component preferably being linear alcohol or linear ether. The carbon membrane has the loaded component preferably being at least one selected from methanol, ethanol, n-propanol, and n-butanol. There is provided a carbon membrane having high separation performance and little change in the separation performance with the passage of time. | 04-08-2010 |
20130015134 | CARBON MEMBRANE AND METHOD FOR PERVAPORATION SEPARATION - There is provided a carbon membrane formed by carbonizing a phenol resin having at least one kind of atomic groups selected from the group consisting of a methylene bond, a dimethylene ether bond, and a methylol group, wherein the total mole content rate of the atomic groups is 100 to 180% with respect to the phenolic nuclei. | 01-17-2013 |
20140048482 | METHOD FOR CLEANING CERAMIC FILTER - There is provided a method for cleaning a ceramic filter which can shorten an operation time required to clean the ceramic filter. The method for cleaning the ceramic filter includes: reducing a pressure of a space on a secondary side of the uncleaned ceramic filter, while supplying a cleaning medium to a space on a primary side of the uncleaned ceramic filter, thereby passing the cleaning medium through the ceramic uncleaned filter, so that the uncleaned ceramic filter is cleaned. | 02-20-2014 |
20140199478 | METHOD FOR PRODUCING CARBON MEMBRANE - Provided is a method of producing a carbon membrane including dipping a porous support in a suspension of a phenolic resin or a suspension of a phenolic resin precursor, drying the resulting support to form a membrane made of the phenolic resin or the phenolic resin precursor, and heat treating and thereby carbonizing the resulting membrane into a carbon membrane. | 07-17-2014 |
20140374341 | PROCESS FOR PRODUCING SEPARATION MEMBRANE, PROCESS FOR PRODUCING SEPARATION MEMBRANE COMPOSITE, AND SEPARATION MEMBRANE COMPOSITE - There is disclosed a process for producing a separation membrane The process for producing the separation membrane includes a membrane forming step of passing a precursor solution of the separation membrane through cells of a monolith substrate to form a separation membrane precursor made of the precursor solution | 12-25-2014 |
20150056372 | SEPARATION MEMBRANE MANUFACTURING METHOD - Provided is a separation membrane manufacturing method capable of easily manufacturing a dense separation membrane. The separation membrane manufacturing method comprises a membrane forming step of forming a separation membrane precursor containing a separation membrane precursor solution on the surface of cells formed in a porous monolith substrate; and a drying step of performing ventilation drying by passing hot air through the cells having the separation membrane precursor in the monolith substrate to dry the separation membrane precursor. During the ventilation drying in the drying step, the temperature of the monolith substrate having the separation membrane precursor is raised to 90° C. within 15 minutes from the start of the passing of the hot air at such a rate of temperature rise that an average rate of temperature rise is 7° C./min or more from the start of the passing of the hot air until the temperature reaches 90° C. | 02-26-2015 |
20150076055 | CARBON MEMBRANE, METHOD FOR MANUFACTURING CARBON MEMBRANE, AND CARBON MEMBRANE FILTER - There is disclosed a method for manufacturing a carbon membrane in which a phenolic hydroxyl group is 10,000 ppm or less and whose separating function does not easily deteriorate even after exposure to acidic conditions. The method for manufacturing the carbon membrane has a drying step of drying a resin solution membrane including a phenol resin formed on a substrate; and a carbon membrane preparing step of heating the dried resin solution membrane at 600 to 900° C. in a vacuum or at 650 to 900° C. in a nitrogen atmosphere to carbonize the membrane, thereby obtaining the carbon membrane in which the concentration of the phenolic hydroxyl group is 10,000 ppm or less. | 03-19-2015 |
20150336055 | METHOD FOR USING CERAMIC FILTER, AND FILTER DEVICE - A method for using a ceramic filter including dividing a plurality of through channels into a plurality of zones including an outward path and a return path by use of through channel division means disposed along a row in which water collecting cells are arranged in at least one end face of a porous body constituting the ceramic filter in a state where the through channel division means is in contact with the row, so that a mixed fluid undergoes, at least once, a passing process of passing through the outward path in which the mixed fluid flows from the first end face to the second end face of the ceramic filter, returning and then passing through the return path in which the mixed fluid flows from the second end face to the first end face, and collecting a target permeable substance after permeation of a separation membrane. | 11-26-2015 |
Patent application number | Description | Published |
20130095991 | SHEET FOLDER - A sheet folder includes a blade for bending a sheet, a pair of folding rollers for sandwiching the sheet bent by the blade, a heating unit for heating a folded part of the sheet sandwiched between the pair of folding rollers by the blade, a temperature detection unit for detecting a temperature of the folded part, and a control unit for keeping a state in which the sheet is sandwiched between the pair of folding rollers until at least one of a temperature change and a temperature of the folded part that are detected by the temperature detection unit satisfies a prescribed condition after the blade allows the sheet to be sandwiched between the pair of folding rollers. | 04-18-2013 |
20140125751 | IMAGE FORMING APPARATUS - An image forming apparatus for performing laser exposure is provided. The image forming apparatus includes a driving circuit for supplying drive current to a laser light source in accordance with an image pulse signal; a pulse width expansion portion for expanding a pulse width of the image pulse signal supplied to the driving circuit; and an adjustment control portion for setting, based on state data indicating a state related to light emission start characteristics of the laser light source, a value of the bias current supplied as a part of the drive current to the laser light source and an amount of expansion of the pulse width in such a manner that laser light emission occurs in a period of time having a length equal to a length of a pulse width of each pulse in the image pulse signal. | 05-08-2014 |
20150028791 | IMAGE FORMING APPARATUS - An image forming apparatus drives and rotates at least one of a photosensitive drum and a transport roller with use of a stepping motor in a multi-phase excitation mode. The image forming apparatus includes: a constant-voltage control unit controlling the stepping motor by applying a constant voltage for each phase; a constant-current control unit controlling the stepping motor by regulating an amount of current for each phase by a chopping control; a measuring unit measuring a chopping count of each phase on a per-step basis; a chopping count determination unit determining whether the chopping count of each phase is less than or equal to a predetermined count; and a control switching unit causing the constant-voltage control unit to control the stepping motor when the chopping count determination unit determines affirmatively, and causing the constant-current control unit to control the stepping motor when the chopping count determination unit determines negatively. | 01-29-2015 |
20150077496 | IMAGE FORMING APPARATUS - An image forming apparatus that forms a color image by layering toner images of different colors includes: a photoreceptor on which an electrostatic latent image is formed through charging and exposure; an exposure unit performing exposure-scanning on the photoreceptor in accordance with image signal; an intensity determination unit determining exposure intensity according to image forming condition; and a timing determination unit determining a timing of inputting image signal for each scanning line, wherein the exposure unit has a delay duration differing depending on the exposure intensity and being from input of image signal of each pixel to be exposed to exposure of the pixel at the exposure intensity, and the timing determination unit obtains the delay duration corresponding to the exposure intensity, and determines the timing such that image signal of an initial pixel to be initially exposed is input the delay duration before the initial pixel is exposed. | 03-19-2015 |
Patent application number | Description | Published |
20090263084 | ARRAYED WAVEGUIDE GRATING CIRCUIT - Two AWG circuits are integrated while preventing degradation in quality of a multiplexing/demultiplexing function. An arrayed waveguide grating circuit includes: a first slab waveguide ( | 10-22-2009 |
20100322569 | OPTICAL MODULE - An optical module has a structure for reducing the stress applied to a package. The optical module is structured so that an end face of a waveguide ( | 12-23-2010 |
20110229070 | OPTICAL MODULATOR - An optical modulator having a high stability is provided. In the optical modulator according to the present invention, a phase modulation by an electro-optic effect is made on an optical substrate of an electro-optic material while the setting of an operating point by a thermal-optic effect is made on a planar lightwave circuit (PLC) substrate of quartz, silicon, or the like. Such configuration can suppress the influence of thermal drift or the like because no heat is applied directly to the optical substrate of the electro-optic material. In addition, breakage and warpage of the substrate due to heat are also mitigated. Further, quartz used for the PLC has a low thermal conductivity, approximately one-fifth of that of the LN substrate (approximately 1 W/(m·K)), and therefore, a desired phase difference can be maintained with a low power consumption, and thus, the operating point becomes stabilized. | 09-22-2011 |
Patent application number | Description | Published |
20140051241 | METHOD FOR MANUFACTURING SILICON CARBIDE SEMICONDUCTOR DEVICE - A surface of a silicon carbide substrate on which a graphite layer is formed is covered with a metal layer which can form carbide. Then, the silicon carbide substrate is annealed to cause reaction between a metal in the metal layer which can form carbide and carbon in the graphite layer so as to change the graphite layer between the metal layer which can form carbide and the silicon carbide substrate to a metal carbide layer. Thus, the graphite layer is removed. The adhesion between the metal layer which can form carbide and the silicon carbide substrate can be improved so that separation of the metal layer which can form carbide can be suppressed. Graphite deposits can be suppressed due to the removal of the graphite layer so that separation of a wiring metal film formed on a surface of the metal layer which can form carbide can be suppressed. | 02-20-2014 |
20150048383 | SILICON CARBIDE SEMICONDUCTOR ELEMENT AND FABRICATION METHOD THEREOF | 02-19-2015 |
20150056786 | FABRICATION METHOD OF SILICON CARBIDE SEMICONDUCTOR APPARATUS AND SILICON CARBIDE SEMICONDUCTOR APPARATUS FABRICATED THEREBY - Process (A) of preparing a silicon carbide substrate of a first conductivity type; process (B) of forming an epitaxial layer of the first conductivity type on one principal surface of the silicon carbide substrate; process (C) of forming on another principal surface of the silicon carbide substrate, a first metal layer; process (D) of heat treating the silicon carbide substrate after the process (C) to form an ohmic junction between the first metal layer and the other principal surface of the silicon carbide substrate, and a layer of a substance ( | 02-26-2015 |
20150076520 | SILICON CARBIDE SEMICONDUCTOR ELEMENT AND FABRICATION METHOD THEREOF - In a fabrication method of a silicon carbide semiconductor element including a drift layer playing a role of retaining a high withstand voltage on a front side of a semiconductor substrate of silicon carbide and including an ohmic electrode on a backside, dicing is added to form at least one dicing line in an element active region on a surface of the semiconductor substrate on a side opposite of the drift layer before forming the ohmic electrode on the backside of the semiconductor substrate. Thus, a silicon carbide semiconductor element and fabrication method thereof is provided such that even if the semiconductor substrate is made thinner to reduce the on-resistance, the strength of the substrate can be maintained and cracking of the wafer during wafer processing can be reduced. | 03-19-2015 |
20150115285 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD OF SEMICONDUCTOR DEVICE | 04-30-2015 |
20150129894 | WIDE BAND GAP SEMICONDUCTOR APPARATUS AND FABRICATION METHOD THEREOF - A silicon carbide epitaxial layer formed by a low concentration wide band gap semiconductor of a first conductivity type is formed on the surface of a silicon carbide substrate formed by a high concentration wide band gap semiconductor of the first conductivity type. A Schottky electrode is formed on the silicon carbide epitaxial layer. The interface between the Schottky electrode and the silicon carbide epitaxial layer is used as a Schottky interface. Plural impurity regions of a second conductivity type are disposed at predetermined intervals in a lateral direction, in the silicon carbide epitaxial layer, at a position in the lower portion of the Schottky electrode in the depth direction. Because of the shape of the impurity regions, any leak current can be suppressed without raising the ON-resistance. | 05-14-2015 |
20150144965 | SILICON CARBIDE SEMICONDUCTOR DEVICE AND FABRICATION METHOD OF SILICON CARBIDE SEMICONDUCTOR DEVICE - A p-type region, a p | 05-28-2015 |
20150194313 | FABRICATION METHOD OF SILICON CARBIDE SEMICONDUCTOR APPARATUS - An ohmic electrode ( | 07-09-2015 |
Patent application number | Description | Published |
20080198731 | OPTICAL INFORMATION RECORDING MEDIUM - An optical information recording medium having a disk-shaped substrate formed with spiral grooves on one main surface, and having an optical reflection layer formed with grooves at the surface corresponding to the grooves of the substrate for reflecting a laser beam, an optical recording layer, a protective layer, and an optical transparency layer in this order on the main surface thereof. The optical information recording medium has a main information area and a sub-information area to the inner circumferential side thereof, in which the track pitch TrB of the grooves in the sub-information area is about 0.32 μm or less, and the depth D of the grooves and the half-band width W of the grooves satisfy a relation represented by: W≧2D+70, whereby the difference between the reflectivity at the land surface and the reflectivity at the groove surface in the sub-information area can be restricted to less than 30%, thereby preventing occurrence of mis-decipherment for BCA marks. | 08-21-2008 |
20080248254 | METHOD OF MANUFACTURING OPTICAL INFORMATION RECORDING MEDIUM AND THE OPTICAL INFORMATION RECORDING MEDIUM - An optical information recording medium of which the commercial value is not reduced is provided, in which a light reflection layer, an optical recording layer, a first light transmission layer, and a second light transmission layer are provided in this order on one main surface of a disk-shaped substrate, and a method of manufacturing the optical information recording medium is provided. A light reflection layer, an optical recording layer, a protection layer, a first light transmission layer, and a second light transmission layer may be provided in this order on the one main surface of the disk-shaped substrate. The substrate has a first groove and a second groove approximately concentrically formed nearer an inner circumference of the substrate than an area in which the optical recording layer is to be provided. The first light transmission layer is provided such that an edge thereof is situated near an edge of an outer circumferential side of the first groove. The second light transmission layer is provided such that an edge thereof is situated near an edge of an outer circumferential side of the second groove. Therefore, each of the first and second light transmission layers does not meander at an inner circumferential edge thereof in a circumferential direction, leading to excellent quality in appearance. | 10-09-2008 |
20080298203 | OPTICAL INFORMATION RECORDING MEDIUM AND METHOD OF FABRICATING THE SAME - Proposed are a method of fabricating an optical information recording medium that can prevent the degradation of the appearance caused by a hardening resin entering between a center cap and a substrate due to capillary action, and an optical information recording medium using a substrate for implementing the method. | 12-04-2008 |
20090010147 | OPTICAL DISK AND MOLDING DIE APPARATUS - A stamper is mounted to a surface of at least one of a stationary-side die and a movable-side die. A transfer surface of the stamper is positioned substantially flush with a first surface of an inner peripheral holding member for holding the stamper near an inner periphery thereof which first surface is positioned adjacent to the transfer surface of the stamper. A first distal end of the inner peripheral holding member, which is positioned to face the cavity, and a second distal end of a die member, which is positioned to face the cavity, the die member being disposed adjacent to the inner peripheral holding member, are both projected more into the cavity than the transfer surface of the stamper. A molding burr can be suppressed from projecting upward from the vicinity of an inner peripheral edge of the substrate surface substantially flush with the transfer portion. | 01-08-2009 |
20090116369 | OPTICAL INFORMATION RECORDING MEDIUM - An optical information recording medium includes a disk-like substrate having a hole in a central portion thereof, and a light-reflective layer, a dye recording layer containing an organic dye, an intermediate layer composed of an inorganic substance, and a light-transmissive layer composed of a resin disposed in that order on one principal surface of the substrate, in which information is recorded/reproduced by irradiation of laser light from the light-transmissive layer side. In the optical information recording medium, the light-transmissive layer covers a surface of the intermediate layer from an inner peripheral edge of the intermediate layer to an outer peripheral edge of the intermediate layer, and a vicinity of an outer peripheral edge of the light-transmissive layer is in contact with the substrate in an annular region extending around an outer peripheral side of the substrate. | 05-07-2009 |
Patent application number | Description | Published |
20140013064 | CONTROL DEVICE, STORAGE DEVICE, AND CONTROL METHOD PERFORMED BY CONTROL DEVICE - A control device, which controls access to the data stored in a memory device, includes a selector, a changing unit, a notification unit, and a power supply controller. When the number of accesses to a memory device is out of a range of a predetermined threshold, the selector selects a piece of data from pieces of data controlled by the control device itself or another control device. The changing unit changes a control device for controlling access to the selected a piece of data. The notification unit notifies an information processing device of a control device after changed and the selected a piece of data to be controlled by the control device after changed. The power supply controller controls a power supply of the control device after changed or a power supply of a control device that has controlled access to the selected a piece of data. | 01-09-2014 |
20140189277 | STORAGE CONTROLLER SELECTING SYSTEM, STORAGE CONTROLLER SELECTING METHOD, AND RECORDING MEDIUM - A storage controller selecting system includes a time information storage unit, a receiver, and a processor. The time information storage unit is configured to store internal processing time information for each of a plurality of storage controllers. The internal processing time information for each individual storage controller relates to an internal processing time taken for processing performed within the individual storage controller in response to an access request to a logical volume. The receiver is configured to receive a creation request for requesting creation of a new logical volume. The processor is configured to select a certain storage controller from among the plurality of storage controllers according to the internal processing time information, and to cause the certain storage controller to create the new logical volume. | 07-03-2014 |
20150220271 | STORAGE CONTROL APPARATUS, STORAGE APPARATUS, AND COMPUTER PRODUCT - A storage control apparatus configured to control a storage in a storage apparatus includes memory which stores assignment information that includes an assignment state of memory areas of the storage; and a processor which obtains performance information that indicates response performance for accessing the storage, and controls based on the obtained performance information, execution of an initialization process for a memory area in the storage, identified by the assignment information, and subject to initialization. | 08-06-2015 |