Patent application number | Description | Published |
20080219075 | Control of inputs to a memory device - A memory device includes a command decoder and control interface logic. One or more external inputs, such as row and column address strobes, communicate with the command decoder through the control interface logic. A control signal is also in communication with the control interface logic. During operation of a drowsy mode in the memory device, a self-refresh signal causes the control signal to disable the external inputs. With the external inputs disabled, command hazards are reduced when exiting drowsy mode. | 09-11-2008 |
20080298152 | POWER SAVING MEMORY APPARATUS, SYSTEMS, AND METHODS - Some embodiments include a voltage generator to generate a voltage to apply to a line used to access a memory cell of a memory device in which the voltage is applied to the line when the memory cell is not being accessed, and a power controller to cause the voltage to change during a time interval after a refresh operation of the memory device. Other embodiments including additional apparatus, systems, and methods are disclosed. | 12-04-2008 |
20100238750 | CONTROL OF INPUTS TO A MEMORY DEVICE - A memory device includes a command decoder and control interface logic. One or more external inputs, such as row and column address strobes, communicate with the command decoder through the control interface logic. A control signal is also in communication with the control interface logic. During operation of a drowsy mode in the memory device, a self-refresh signal causes the control signal to disable the external inputs. With the external inputs disabled, command hazards are reduced when exiting drowsy mode. | 09-23-2010 |
20110299353 | POWER SAVING MEMORY APPARATUS, SYSTEMS, AND METHODS - Some embodiments include a voltage generator to generate a voltage to apply to a line used to access a memory cell of a memory device in which the voltage is applied to the line when the memory cell is not being accessed, and a power controller to cause the voltage to change during a time interval after a refresh operation of the memory device. Other embodiments including additional apparatus, systems, and methods are disclosed. | 12-08-2011 |
20110317502 | CONTROL OF INPUTS TO A MEMORY DEVICE - A memory device includes a command decoder and control interface logic. One or more external inputs, such as row and column address strobes, communicate with the command decoder through the control interface logic. A control signal is also in communication with the control interface logic. During operation of a drowsy mode in the memory device, a self-refresh signal causes the control signal to disable the external inputs. With the external inputs disabled, command hazards are reduced when exiting drowsy mode. | 12-29-2011 |
20130077417 | CONTROL OF INPUTS TO A MEMORY DEVICE - A memory device includes a command decoder and control interface logic. One or more external inputs, such as row and column address strobes, communicate with the command decoder through the control interface logic. A control signal is also in communication with the control interface logic. During operation of a drowsy mode in the memory device, a self-refresh signal causes the control signal to disable the external inputs. With the external inputs disabled, command hazards are reduced when exiting drowsy mode. | 03-28-2013 |
20140078849 | CONTROL OF INPUTS TO A MEMORY DEVICE - A memory device includes a command decoder and control interface logic. One or more external inputs, such as row and column address strobes, communicate with the command decoder through the control interface logic. A control signal is also in communication with the control interface logic. During operation of a drowsy mode in the memory device, a self-refresh signal causes the control signal to disable the external inputs. With the external inputs disabled, command hazards are reduced when exiting drowsy mode. | 03-20-2014 |
20140247680 | POWER SAVING MEMORY APPARATUS, SYSTEMS, AND METHODS - Some embodiments include a voltage generator to generate a voltage to apply to a line used to access a memory cell of a memory device in which the voltage is applied to the line when the memory cell is not being accessed, and a power controller to cause the voltage to change between refresh operations of the memory device. Other embodiments including additional apparatus, systems, and methods are described. | 09-04-2014 |
Patent application number | Description | Published |
20100079050 | Light emitting device and method of manufacturing the same - A light emitting device includes: a glass package ( | 04-01-2010 |
20100163919 | Lighting device - Provided is a lighting device which includes a lead frame embedded in a glass material and has high reliability. The lighting device has a structure in which a light emitting element is mounted in a recess portion formed on a surface of a glass substrate and a sealing material is provided to cover the light emitting element. The lead frame is embedded in the glass substrate so as to be exposed on a side surface of the glass substrate and a bottom surface of the recess portion. A portion of the lead frame which is exposed in the recess portion is electrically connected with the light emitting element. With the structure as described above, the durability of the lighting device is improved. | 07-01-2010 |
20110210370 | Light emitting device - On a through-electrode ( | 09-01-2011 |
20110215366 | Light emitting device - A light emitting device ( | 09-08-2011 |
20130001409 | OPTICAL SENSOR DEVICE - Provided is a low-cost, compact, high-reliability optical sensor device serving to correspond to the visibility. In the optical sensor device, an optical sensor element is mounted in a package formed by a light shielding glass lid substrate ( | 01-03-2013 |
20150076645 | OPTICAL SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - Phosphate-based glass doped with copper ions having infrared blocking filter characteristics is formed into particles and is mixed with a transparent encapsulating resin to encapsulate a semiconductor element. The glass particles have a particle diameter four times or more as large as a wavelength of infrared radiation to be blocked. An optical semiconductor device can be obtained having a stable filter characteristics thereof even if an incident light angle changes and is resistant to moisture. | 03-19-2015 |
Patent application number | Description | Published |
20110133065 | Standard Member for Correction, Scanning Electron Microscope Using Same, and Scanning Electron Microscope Correction Method - Disclosed is a standard specimen, used with an electron microscope to correct the magnification with high precision. A standard member used for correction corrects a scanning electron microscope that measures a pattern within an observation region based on information about the secondary electrons generated by scanning incident electron lines on the observation region on a measurement specimen, or information about the reflected electron intensity. The standard member has a first pattern region that corrects the magnification and that comprises a concavo-convex pattern (line/space pattern) in the cross section of a multilayer film that has been laminated, and a second pattern region near the first pattern at almost the same height that does not contain a pattern with the same periodicity as the pattern pitch size of the first region and that is used for beam adjustment. | 06-09-2011 |
20110208477 | MEASURING METHOD OF PATTERN DIMENSION AND SCANNING ELECTRON MICROSCOPE USING SAME - Provided is a technology of performing more highly accurate semiconductor inspection by detecting a pattern edge which does not contribute as a mask in an etching step and measuring a pattern without including such edge at the time of calculating dimensions. Since a pattern portion having a protruding shape is to be removed at the time of etching, a scanning electron microscope image is acquired such that the protruding edge not functioning as a mask is to be excluded at the time of calculating dimensions in pattern inspection. Then, the shape of the pattern edge is calculated, the portion of the protruding edge is corrected, and pattern dimensions mainly obtained from recessed edges are calculated. | 08-25-2011 |
20110274341 | CHARGED BEAM DEVICE - In order to provide a charged beam device capable of obtaining a precise image of a sample surface pattern while improving the accuracy of automatic focus/astigmatism correction, there are provided an electron gun ( | 11-10-2011 |
20120212602 | PATTERN DIMENSION MEASUREMENT METHOD AND CHARGED PARTICLE BEAM MICROSCOPE USED IN SAME - In order to provide a pattern dimension measurement method with a small measured error and excellent reproducibility even though defocus occurs and a charged particle beam microscope used in the same, in a method for applying a charged particle beam to a specimen formed with a pattern to measure a pattern dimension from a signal intensity distribution of signal charged particles from the specimen, edge index positions (X | 08-23-2012 |
20120286158 | SCANNING ELECTRON MICROSCOPE AND INSPECTION METHOD USING SAME - Provided is a high-resolution scanning electron microscope with minimal aberration, and equipped with an electro-optical configuration that can form a tilted beam having wide-angle polarization and a desired angle, without interfering with an electromagnetic lens. In the scanning electron microscope, an electromagnetic deflector ( | 11-15-2012 |
20120298865 | SCANNING ELECTRON MICROSCOPE - Disclosed is a scanning electron microscope provided with a calculation device ( | 11-29-2012 |
Patent application number | Description | Published |
20120226306 | CONTROLLED STRAIN SKIN TREATMENT DEVICES AND METHODS - Devices, kits and methods described herein may be for wound healing, including but not limited to the treatment, amelioration, or prevention of scars and/or keloids. The packaging, manipulation elements, applicator and/or tensioning device maybe used to apply and/or maintain a strain in an elastic dressing. | 09-06-2012 |
20130012858 | WOUND OR SKIN TREATMENT DEVICES AND METHODS - Devices, kits and methods described herein may be for treatment to skin, including but not limited to wound healing, the treatment, amelioration, and/or prevention of scars or keloids. A book-like packaging, applicator and/or tensioning device may be used to apply a dressing to a subject. The packaging, applicator and/or tensioning device may apply and/or maintain a strain in an elastic dressing. | 01-10-2013 |
20130110026 | STRAINED SKIN TREATMENT DEVICES AND METHODS | 05-02-2013 |
20130281904 | WOUND OR SKIN TREATMENT DEVICES AND METHODS - Devices, kits and methods described herein may be for treatment to skin, including but not limited to wound healing, the treatment, amelioration, and/or prevention of scars or keloids. A book-like packaging, applicator and/or tensioning device may be used to apply a dressing to a subject. The packaging, applicator and/or tensioning device may apply and/or maintain a strain in an elastic dressing. | 10-24-2013 |
20140088481 | CONTROLLED STRAIN SKIN TREATMENT DEVICES AND METHODS - Devices, kits and methods described herein may be for wound healing, including but not limited to the treatment, amelioration, or prevention of scars and/or keloids. The packaging, manipulation elements, applicator and/or tensioning device maybe used to apply and/or maintain a strain in an elastic dressing. | 03-27-2014 |
20140222070 | Surgical Incision and Closure Apparatus - An apparatus for closing a surgical incision comprises left and right base panels, a plurality of closure components, and a plurality of left and right axial supports coupled to the respective base panels. The closure components couple the left and right base panels to each other laterally and have left and right ends coupled to the respective base panels. The closure components are positioned laterally across the left and right panels, the left axial supports are disposed between pairs of left closure component ends, the right axial supports are disposed between pairs of right closure component ends, and the left and right axial supports are offset from one another such that a serpentine arrangement of consecutive closure components and axial supports is formed. The apparatus can be made of antimicrobial materials or materials impregnated with antimicrobial agents. A flexible adhesive cover can be provided over the apparatus when in use. | 08-07-2014 |
20140276323 | WOUND OR SKIN TREATMENT DEVICES WITH VARIABLE EDGE GEOMETRIES - Devices, kits and methods described herein are provided for treatment to skin, including but not limited to wound healing, the treatment, amelioration, and/or prevention of scars or keloids. A book-like packaging, applicator and/or tensioning device can be used to apply a dressing to a subject. The packaging, applicator and/or tensioning device applies and/or maintain a strain in an elastic dressing, and include undulating edge configurations to reduce peak stresses applied to the skin compared to traditional dressing shapes | 09-18-2014 |
20140276324 | WOUND OR SKIN TREATMENT DEVICES WITH VARIABLE EDGE GEOMETRIES - Devices, kits and methods described herein are provided for treatment to skin, including but not limited to wound healing, the treatment, amelioration, and/or prevention of scars or keloids. A book-like packaging, applicator and/or tensioning device can be used to apply a dressing to a subject. The packaging, applicator and/or tensioning device applies and/or maintain a strain in an elastic dressing, and include undulating edge configurations to reduce peak stresses applied to the skin compared to traditional dressing shapes | 09-18-2014 |
Patent application number | Description | Published |
20110243616 | IMAGE DEVELOPER, PROCESS CARTRIDGE, AND IMAGE FORMING APPARATUS - An image developer, including a developer container containing a developer developing a latent image on a latent image bearer; a developer bearer bearing the developer, located close to or contacting the latent image bearer; and a developer feeding and collection roller feeding the developer onto the developer bearer and scraping the developer therefrom, rotating while contacting thereto with pressure, wherein the developer feeding and collection roller includes an inner layer formed of an electroconductive foamed rubber; and an outer layer formed of an insulative foamed rubber, and wherein the following relationship is satisfied: | 10-06-2011 |
20150078777 | DEVELOPING DEVICE, PROCESS CARTRIDGE, IMAGE FORMING APPARATUS, AND IMAGE FORMING METHOD - A developing device includes a developing roller including a base and a surface layer formed on the base, the surface layer including a polyurethane resin having a fluorine group and a polyfunctional isocyanurate structure, a toner storage chamber being partially in contact with the developing roller and to support the developing roller, and a sealing member provided at opposed ends of an end portion of the toner storage chamber in a rotating axis direction of the developing roller, and to seal in toner moving to the end portion of the toner storage chamber, the sealing member before use having a coefficient of static friction in a range of from 0.08 to 0.19. | 03-19-2015 |
20150078790 | DEVELOPING DEVICE, PROCESS CARTRIDGE, AND IMAGE FORMING APPARATUS - Provided is a developing device, including: a toner having an average circularity of from 0.880 to 0.960; and a developing roller configured to rotate while carrying the toner, wherein the developing roller has on a surface thereof, a plurality of streaky grooves each formed in a circumferential direction, and a plurality of steps each formed in a direction of a rotation axis. | 03-19-2015 |
Patent application number | Description | Published |
20090053121 | CATALYST FOR OXIDIZING MERCURY METAL, EXHAUST GAS PURIFYING CATALYST COMPRISING CATALYST FOR OXIDIZING MERCURY METAL, AND METHOD FOR PRODUCING SAME - A catalyst mainly containing silicon oxide and vanadium oxide and having an Si/V atomic ratio within the range from 99.5/0.5 to 85/15 is obtained by gelatinizing a liquid mixture of a colloidal silica and a vanadium compound in advance, then mixing the thus-obtained slurry by heating, and finally drying and/or firing the resulting mixture. As a catalyst for oxidizing mercury metal, this catalyst is brought into contact with an exhaust gas containing mercury metal, thereby oxidizing mercury metal. | 02-26-2009 |
20090246111 | EXHAUST GAS PURIFICATION CATALYST AND METHOD FOR PRODUCTION THEREOF - The invention realizes a catalyst which is hardly deteriorated even when volatile catalyst-poisoning compounds such as P and As are accumulated and which can reduce the rate of oxidation of SO | 10-01-2009 |
20090311155 | CATALYST FOR OXIDATION OF METAL MERCURY - A catalyst is provided having higher mercury oxidation performance than a conventional catalyst without increasing catalyst quantity or enhancing SO | 12-17-2009 |
20100183492 | EXHAUST GAS PURIFYING CATALYST - To overcome the problem of a conventional catalyst and to provide an exhaust gas purifying catalyst that meets the requirement concerning Hg oxidation activity and SO | 07-22-2010 |
20110116999 | EXHAUST GAS PURIFICATION CATALYST ON WHICH INFLUENCE OF IRON COMPOUND HAS BEEN SUPPRESSED - An exhaust gas purification catalyst is provided which contains titanium oxide as a main component and an oxide of one element or two or more elements selected from the group consisting of tungsten (W), molybdenum (Mo), and vanadium (V) as an active component, wherein the exhaust gas purification catalyst contains phosphoric acid or a water soluble phosphoric acid compound so that the atomic ratio of phosphorus (P) to a catalytically active component represented by the following formula is more than 0 and 1.0 or less; | 05-19-2011 |
20110189069 | EXHAUST GAS PURIFICATION CATALYST AND METHOD FOR PRODUCTION THEREOF - The invention realizes a catalyst which is hardly deteriorated even when volatile catalyst-poisoning compounds such as P and As are accumulated and which can reduce the rate of oxidation of SO | 08-04-2011 |
20110268638 | METHOD OF MERCURY REMOVAL FROM COMBUSTION EXHAUST GAS AND COMBUSTION EXHAUST GAS PURIFICATION APPARATUS - A method for removing mercury in a combustion exhaust gas includes injecting ammonia or urea as a reducing agent into a combustion exhaust gas containing nitrogen oxides, sulfur dioxide, metallic mercury, and hydrogen halides, and then introducing the combustion exhaust gas to a denitration apparatus filled with a denitration catalyst to cause a denitration reaction and oxidize the metallic mercury to produce mercury halide; and introducing the combustion exhaust gas through an air preheater and an electric dust collector to a wet desulfurization apparatus, thereby removing sulfur dioxides and the mercury halide, wherein the ammonia concentration of the combustion exhaust gas at an exit of the denitration apparatus is maintained at 5 ppm or higher, and the mercury halide is adsorbed or precipitated onto combustion ash and collected by the electric dust collector to discharge the mercury halide out of a system. | 11-03-2011 |
20130129590 | EXHAUST GAS PURIFYING CATALYST - To overcome the problem of a conventional catalyst and to provide an exhaust gas purifying catalyst that meets the requirement concerning Hg oxidation activity and SO | 05-23-2013 |
20130142719 | EXHAUST GAS PURIFICATION CATALYST AND PRODUCTION METHOD THEREFOR, AND METHOD FOR PURIFYING NITROGEN OXIDE IN EXHAUST GAS - An exhaust gas purification catalyst is made as a composition comprising titanium oxide (TiO | 06-06-2013 |
20130251612 | EXHAUST GAS PURIFICATION CATALYST SUPPRESSING INFLUENCE OF IRON COMPOUND - An exhaust gas purification catalyst contains titanium oxide as a main component and an oxide of one element or two or more elements selected from the group consisting of tungsten (W), molybdenum (Mo), and vanadium (V) as an active component, wherein the exhaust gas purification catalyst contains phosphoric acid or a water soluble phosphoric acid compound so that the atomic ratio of phosphorus (P) to a catalytically active component represented by the following formula is more than 0 and 1.0 or less; P/catalytically active component (atomic ratio)=number of moles of P/(number of moles of W+number of moles of Mo+number of moles of V). | 09-26-2013 |
Patent application number | Description | Published |
20100139451 | CRANKSHAFT MEMBER AND MANUFACTURING METHOD THEREOF - The invention relates to a crankshaft member having high fatigue strength and good bending correctability, and its method of manufacture. The steel made crankshaft member mainly consists of a two-phase structure of ferrite and perlite. The steel includes C, Ni, Mn, and Cr as required elements and Si, Cu, Mo, Ti, V, Nb, Ca, and S as optional elements that may be included, in the amounts of C within the range of 0.20 to 0.50 wt %, Si within the range of 0 to 0.6 wt %, Mn within the range of 0.5 to 1.5 wt %, Cu within the range of 0 to 0.7 wt %, Ni within the range of 0.05 to 1.5 wt %, Cr within the range of 0.05 to 0.45 wt %, and Mo within the range of 0 to 0.5 wt % to satisfy the condition 115≧70 C+8 Si+23 Mn+11 Cu+128 Cr+83 Mo≧50. A portion of the member surface is provided at least with a hard nitride layer having an average hardness within the range of 300 to 450 HV. Lamellar spacing of the perlite is 0.3 μm or less. | 06-10-2010 |
20110132138 | NITROCARBURIZED CRANKSHAFT MEMBER AND STEEL FOR NITROCARBURIZED CRANKSHAFTS - A nitrocarburized crankshaft member made of a steel that includes C in an amount by weight of 0.25 to 0.32% as a required element and an optional element that may be included, and Fe and inevitable impurities in a remaining portion. The steel-made crankshaft member mainly includes ferrite and perlite, wherein at least a portion of the steel surface thereof having a ferrite surface area of 50% or greater is imparted with a nitrocarburized hard layer. The nitrocarburized hard layer includes a surface compound layer suppressed to a thickness of 10 to 35 μm, and a nitrogen diffusion zone below the surface compound layer having a diffusion depth of 700 μm or greater. The steel includes C, Si, Mn, Cu, Ni, and Cr as the required elements and Mo, N, s-Al, and Ti as the optional elements. | 06-09-2011 |
20150083279 | NITROCARBURIZED CRANKSHAFT MEMBER AND STEEL FOR NITROCARBURIZED CRANKSHAFTS - A nitrocarburized crankshaft member made of a steel having essentially ferrite and perlite, and at least a portion of a steel surface thereof having a ferrite surface area of 50% or greater that is imparted with a nitrocarburized hard layer. The steel consists of C, Si, Mn, Cu, Ni, and Cr as required elements and Mo, N, s-Al, Ti, Pb, Bi, and Ca as optional elements that may be included, and Fe and inevitable impurities. C is within a range of 0.25 to 0.32%. The nitrocarburized crankshaft member includes a thickness of a surface compound layer of the nitrocarburized hard layer of 10 to 35 μm that is formed during establishment of a diffusion depth of a nitrogen diffusion zone below the surface compound layer of 700 μm or greater. | 03-26-2015 |
Patent application number | Description | Published |
20130035824 | DISPLAY DEVICE FOR CONSTRUCTION MACHINE - Disclosed is a display device that includes a display unit provided in a cabin of a construction machine, an operating unit with a switch for operating the display unit, and a monitor controller for controlling the display unit and the operating unit, wherein: upon some kind of abnormality being detected by abnormality detection means for detecting abnormalities in mechanisms equipped in/on the construction machine, a warning logo corresponding to the kind of abnormality is displayed on the display unit, and a warning item for displaying information inclusive of details of the abnormality is added to a menu in a list format that contains items, each for executing a previously assigned specific function. Thus, the device improves in a degree of freedom of its configuration and enhances efficiency of information display | 02-07-2013 |
20130169690 | DISPLAY SYSTEM FOR WORKING MACHINE - A display system for a working machine displays warning information while also displaying a high-quality camera image. The display redisplays a reduced camera image at a reduction scale of 60% according to an abnormality information signal. An open area | 07-04-2013 |
20130176120 | DISPLAY SYSTEM FOR WORKING MACHINE - A display system for a working machine displays basic information at all times and, in case of an abnormality, displays the details of the warning in addition to the basic information to enable an operator to reliably recognize details of the warning. For example, a first warning display function, upon receiving an abnormality information signal relating to a charge warning, displays an appropriate warning icon in a warning icon display region. A simplified basic-information display function, then displays simplified basic-information images and a second warning display function displays, in a free area of the display, a second warning message inclusive of a “Charge warning” message as display details of the warning icon, and of character information relating to a simplified remedial action. The operator can then reliably recognize the “Charge warning” and understand its details as well, by viewing the second warning message in addition to the warning icon. | 07-11-2013 |
20130312616 | EXHAUST PURIFICATION SYSTEM FOR WORKING MACHINE - An exhaust purification system for a working machine reliably issues filter regeneration warnings to the operator, prompting manual regeneration, so that damage to the DPF device can be avoided. When a PM estimate becomes higher than a given value, a screen displays a warning message prompting manual regeneration. If the warning message fails to prompt the operator to perform manual regeneration and reference time t | 11-28-2013 |
20130342340 | DISPLAY DEVICE FOR WORK MACHINE - Disclosed is a display device | 12-26-2013 |
Patent application number | Description | Published |
20090217969 | Method for Manufacturing Photoelectric Converter and Photoelectric Converter - Disclosed is a method for manufacturing a photoelectric converter wherein a lower electrode layer, a compound semiconductor thin film having a chalcopyrite structure which serves as a light absorptive layer and a light-transmitting electrode layer that are laminated to form layers are each patterned by photolithography, thereby minimizing damages to the crystals of the compound semiconductor thin film. | 09-03-2009 |
20100102368 | SOLID STATE IMAGING DEVICE AND FABRICATION METHOD FOR THE SAME - A solid state imaging device with an easy structure in which have the high sensitivity which reaches the wide wavelength region from visible light to near infrared light wavelength region, and dark current is reduced, and a fabrication method for the same, are provided. | 04-29-2010 |
20100163864 | SEMICONDUCTOR DEVICE - An object of the present invention is to increase the light emission efficiency of a ZnO-based optical semiconductor device. An optical semiconductor device B has a structure which includes n-type Zn | 07-01-2010 |
20110024859 | PHOTOELECTRIC CONVERSION DEVICE, FABRICATION METHOD FOR THE SAME, AND SOLID STATE IMAGING DEVICE - A photoelectric conversion device has a high S/N ratio and can increase the detection efficiency even under a low luminance. The photoelectric conversion device generates an increased electric charge by impact ionization in a photoelectric conversion unit formed from a chalcopyrite type semiconductor, so as to improve dark current characteristic. The photoelectric conversion device includes: a lower electrode layer; a compound semiconductor thin film of chalcopyrite structure disposed on the lower electrode layer and having a high resistivity layer on a surface; and a transparent electrode layer disposed on the compound semiconductor thin film, wherein the lower electrode layer, the compound semiconductor thin film, and the transparent electrode layer are laminated one after another, and a reverse bias voltage is applied between the transparent electrode layer and the lower electrode layer, and the multiplication by the impact ionization of the electric charge generated by photoelectric conversion is generated within the compound semiconductor thin film. It is also possible to provide a fabrication method for such photoelectric conversion device, and a solid state imaging device using the photoelectric conversion device. | 02-03-2011 |
20130095594 | SOLID STATE IMAGING DEVICE AND FABRICATION METHOD FOR THE SAME - A solid state imaging device includes a circuit unit formed on a substrate and a photoelectric conversion unit. The photoelectric conversion circuit includes a lower electrode layer placed on the circuit unit, a compound semiconductor thin film of chalcopyrite structure which is placed on the lower electrode layer and functions as an optical absorption layer, and an optical transparent electrode layer placed on the compound semiconductor thin film. The lower electrode layer, the compound semiconductor thin film, and the optical transparent electrode layer are laminated one after another on the circuit unit. | 04-18-2013 |
Patent application number | Description | Published |
20090088281 | AUTOMATIC TRANSMISSION - An automatic transmission is provided. One embodiment of the automatic transmission may include a valve body including control valves for hydraulically controlling a friction engaging element provided within said transmission. The automatic transmission may further include an electric control unit located on said valve body for controlling gear shifting of said automatic transmission. The automatic transmission may further include a transmission case having a peripheral wall for at least partially enclosing a gear shift mechanism and an outer wall provided adjacent to said peripheral wall, wherein said electric control unit is located within a containing space surrounded by said peripheral wall, said outer wall and said valve body. | 04-02-2009 |
20110232409 | CONTROL APPARATUS FOR AUTOMATIC TRANSMISSION - There is provided, in one aspect of the present description, an automatic transmission. In one example, the automatic transmission comprises a transmission case, a valve body which is arranged in the transmission case, a control valve mechanism which controls oil pressures in parts of the automatic transmission and is installed in the valve body, and a solenoid valve which is attached to the valve body and is arranged at a first side of the valve body and in the transmission case. The automatic transmission further comprises an electronic control unit which controls the solenoid valve, is attached to the valve body, and is arranged at a second side of the valve body that is opposite to the first side across the valve body. | 09-29-2011 |
20130061442 | METHOD FOR MANUFACTURING AUTOMATIC TRANSMISSION - It is intended to make it possible to, even in a situation where a program and/or data to be written to a memory device of an electronic control unit provided in an automatic transmission become different in content, depending on a specification of a vehicle to be mounted with the automatic transmission, manage the electronic control unit while distinguishing only by a difference in hardware configurations thereof. Disclosed is a method which comprises: an assembling step ( | 03-14-2013 |
20130275016 | AUTOMATIC TRANSMISSION CONTROL APPARATUS - The present invention provides an automatic transmission control apparatus which comprises a first temperature detection device for detecting a temperature of hydraulic oil stored in an automatic transmission; an automatic transmission control device installed in a same casing as that in which the hydraulic oil is stored; a second temperature detection device for detecting a temperature of the automatic transmission control device; and a malfunction determination section for comparing the temperature of the automatic transmission control device detected by the second temperature detection device with the temperature of the hydraulic oil detected by the first temperature detection device to determine whether or not a malfunction occurs in the first temperature detection device. | 10-17-2013 |
Patent application number | Description | Published |
20110132786 | PACKING CONFIGURATION OF CABLE - A packing configuration of a cable hardly collapsing the cylindrical shape of a cable bundle and hardly producing a bending tendency and a knot on the cable. The packing configuration includes the cylindrical cable bundle formed by coiling the cable in an 8-shape, a binding member which is disposed on the outer peripheral part of the cable bundle and which binds the cable bundle, and a storage container for storing the cable bundle and the binding member. | 06-09-2011 |
20110150402 | OPTICAL FIBER CABLE - An optical fiber cable which is suitably set in a conduit by pushing the optical fiber cable into the conduit so as to insert the optical fiber cable through the conduit and which does not reduce the ease of manufacture and the mechanical characteristics of the optical fiber cable. The optical fiber cable includes an optical fiber cable core wire and a sheath covering the optical fiber cable core wire, wherein a dynamic friction coefficient between a surface of the sheath of the optical fiber cable and a surface of a sheath of another optical fiber cable is 0.17 to 0.34, and a dynamic friction coefficient between the surface of the sheath of the optical fiber cable and a surface of a sheet composed of polyvinyl chloride is 0.30 to 0.40. | 06-23-2011 |
20140230375 | METHOD FOR PACKING CABLE - Provided is a method for packing a cable having a static friction coefficient of 0.15 or more and 0.50 or less, a dynamic friction coefficient of 0.10 or more and 0.40 or less and a bending rigidity of 60 gf or more and 350 gf or less. The method includes the steps of: (1) winding the cable into a figure-of-eight shape to form a cylindrical cable bundle, (2) winding a wrapping film as a restraining member, which restrains the cable bundle, around an outer circumferential portion of the cable bundle, (3) winding a wrapping film as a closing member which closes openings on both ends of the cable bundle, and (4) housing the cable bundle being wound with the restraining member and the closing member in a housing container. | 08-21-2014 |
Patent application number | Description | Published |
20100317508 | PROCESS FOR PRODUCING ALUMINUM TITANATE CERAMICS - The invention is to provide a process for producing an aluminium titanate ceramic by firing a pre-mixture of a titania source powder, an alumina source powder and a magnesia source powder, for a short period of time. The production process of the invention comprises mixing a titania source powder and an alumina source powder followed by dry process grinding in the presence of grinding media under a grinding condition of an acceleration of at least 2G to give a pre-mixture, and firing the resulting pre-mixture. The titania source powder and the alumina source powder may be mixed together with a magnesia source powder and a silica source powder. Preferably, a vibration mill is used for the grinding. Grinding the aluminium titanate ceramic produced according to the production process of the invention gives an aluminium titanate ceramic powder. | 12-16-2010 |
20110077143 | PROCESS FOR PRODUCING ALUMINUM MAGNESIUM TITANATE - The invention is to provide a process capable of producing aluminium magnesium titanate having a small coefficient of thermal expansion at a firing temperature lower than 1500° C. The production process of the invention comprises maintaining a pre-mixture containing a titania source powder, an alumina source powder, a magnesia source powder and a silica source powder within a temperature range of from 1100° C. to 1350° C. for at least 3 hours, followed by heating up to a temperature not lower than 1400° C. and firing at the temperature. The silica source powder is preferably a powder of alkali feldspar. Aluminium magnesium titanate is prepared according to the production process of the invention, and the resulting aluminium magnesium titanate is ground to give an aluminium magnesium titanate powder. | 03-31-2011 |
20110156323 | PROCESS FOR PRODUCING ALUMINUM TITANATE-BASED CERAMICS - The invention provides a process for producing a shaped body of aluminum titanate-based ceramic such as aluminum titanate or aluminum magnesium titanate having smaller shrinkage ratio relative to a shaped body of a starting material mixture, and having a smaller coefficient of thermal expansion. The invention is a process for producing an aluminum titanate-based ceramic, comprising firing a starting material mixture containing a titanium source material and an aluminum source material, wherein the BET specific surface area of the aluminum source material is 0.1 m | 06-30-2011 |
20110236688 | PROCESS FOR PRODUCING A POWDER OF ALUMINUM TITANATE-BASED CERAMICS - The invention is to provide a process of producing the powder of aluminum titanate-based ceramics in which the formation of fine particulate component and coarse particulate component is inhibited, and having a very sharp grain size distribution, efficiently and at good yield. The invention is a process for producing a powder of aluminum titanate-based ceramics, comprising a step of keeping a precursor mixture containing a titanium source powder, an aluminum source powder and a silicon source powder at a temperature range of from 1100° C. to 1350° C. for 3 hours or more, followed by a step of heating the precursor mixture up to 1400° C. or more and thereafter firing, at this temperature, the precursor mixture after the keeping to obtain a fired body of aluminum titanate-based ceramics, and a step of pulverizing and classifying the fired body of aluminum titanate-based ceramics, wherein the step of pulverizing and classifying the fired body of aluminum titanate-based ceramics comprises; a step (A) of pulverizing the fired body of aluminum titanate-based ceramics with the application of an impact and classifying the pulverized ceramics to obtain a powder of aluminum titanate-based ceramics having a prescribed grain diameter or less, and a step (B) of re-pulverizing the rest of the pulverized ceramics with the application of an impact and classifying the obtained pulverized ceramics to obtain a powder of aluminum titanate-based ceramics having a prescribed grain diameter or less. | 09-29-2011 |
20110287921 | PROCESS FOR PRODUCING ALUMINUM TITANATE-BASED FIRED BODY - The invention is to provide a process for producing a fired body comprising an aluminum titanate-based ceramic of which the shrinkage ratio in firing (firing shrinkage ratio) can be suppressed low and which is excellent in thermal decomposition resistance. The invention is a process for producing an aluminum titanate-based fired body comprising a step of firing a shaped body of a starting material mixture containing an aluminum source powder, a titanium source powder and a magnesium source powder, wherein the titanium source powder has a specific particle diameter distribution characteristic. In the starting material mixture, the ratio of the Al | 11-24-2011 |
20120003464 | POROUS CERAMICS SHAPED BODY, AND PROCESS FOR PRODUCING SAME - The process for producing a porous ceramics shaped body comprises a step of firing a shaped body of a starting material mixture which contains an aluminum source powder and a titanium source powder, and
| 01-05-2012 |
20120028784 | PROCESS FOR PRODUCING ALUMINUM TITANATE-BASED FIRED BODY - The invention is to provide a process which can produce a fired body comprising aluminum titanate-based ceramics being excellent in thermal decomposition resistance and having high mechanical strength. The invention is a process for producing an aluminum titanate-based fired body, comprising a step of firing a shaped body of a starting material mixture which contains an aluminum source powder and a titanium source powder, and the aluminum source powder satisfies the following formula (1). In the formula, D90 is a particle diameter corresponding to a cumulative percentage of 90% on a volume basis and D10 is a particle diameter corresponding to a cumulative percentage of 10% on a volume basis, and these are determined from a particle size distribution of the aluminum source powder measured by a laser diffractometry. | 02-02-2012 |
20120241998 | PROCESS FOR PRODUCING ALUMINUM TITANATE-BASED CERAMICS FIRED BODY - The present invention aims to provide a process for producing an aluminum titanate-based ceramics fired body wherein a cracking of a ceramics shaped body during a degreasing step is suppressed and also sufficient mechanical strength for handling is provided to the ceramics shaped body for such a case of the transfer from a degreasing step to a firing step. The present invention is a process for producing an aluminum titanate-based ceramics fired body comprising a shaping step of obtaining a ceramics shaped body by shaping a starting material mixture containing inorganic components including an aluminum source powder and a titanium source powder and organic components; a degreasing step for removing the organic components contained in the ceramics shaped body in atmosphere with an oxygen concentration of not higher than 0.1% and under the temperature condition that the highest temperature is not lower than 700° C. and not higher than 1100° C.; and a firing step for firing the ceramics shaped body under the temperature condition that the highest temperature is not lower than 1300° C.; in this order, wherein the atmosphere at a heating step to 1300° C. during the firing step has an oxygen concentration of not lower than 1% and not higher than 6%. | 09-27-2012 |
20120282562 | PROCESS FOR PRODUCING CERAMICS FIRED BODY - The present invention aims to provide a process for producing a fired body with a high linear shrinkage ratio during firing (firing shrinkage ratio) without a damage of the shape of the shaped body, such as the honeycomb structure. The present invention is a process for producing a ceramics fired body comprising a step of firing a shaped body, wherein a linear shrinkage ratio in dimension of the fired body to the shaped body (the linear shrinkage ratio (%)=(dimension of the shaped body−dimension of the fired body)/(dimension of the shaped body)×100) is not lower than 1% and the shaped body is fired while being disposed on a mat made of a ceramics having a high thermal conductivity. | 11-08-2012 |
20130241120 | METHOD FOR PRODUCING FIRED BODY AND FIRING FURNACE USED THEREFOR - The method for producing a fired body of the invention has the steps of: preparing a starting material mixture; molding the mixture to obtain a green molded body; a first heating step to make the molded body contain residual carbon-containing substances in a furnace by increasing the temperature of the furnace while introducing an oxygen containing gas; and a second heating step to obtain a fired body by further increasing the temperature of the furnace without introducing the oxygen containing gas; wherein the conditions for the first heating step are set so that when the molded body is allowed to stand after the first heating step in an oxygen-containing atmosphere at 900° C., the temperature at the center section of the molded body is at least 20° C. higher than the temperature of the atmosphere in the furnace. | 09-19-2013 |
20140327191 | TUNNEL KILN AND METHOD FOR PRODUCING FIRED BODY USING SAME - The tunnel kiln according to the present invention includes a tunnel kiln main body having an inner wall constituted by a furnace material, and having a debinding zone and a sintering zone wherein respectively debinding and sintering of a body to be fired containing an organic component are performed; a conveying unit for conveying the body to be fired from an inlet side to an outlet side of the tunnel kiln main body; and a lining provided so that at least an inner wall of the debinding zone of the inner wall of the tunnel kiln main body is covered therewith. | 11-06-2014 |
Patent application number | Description | Published |
20080280079 | COMPOSITE LUMINOUS VESSELS - A composite luminous vessel container | 11-13-2008 |
20090029087 | Method for producing sintered body, and sintered body - A first inorganic powder molded body | 01-29-2009 |
20090091062 | MOLD AND MOLDING METHOD - A mold includes a gate communicating with the entire perimeter of a cavity serving as a space configured to form a molded article. A self-curable molding material with flowability is fed into the perimeter of the cavity through the gate; hence, the mold has a small number of dead ends compared with the case where, for example, the molding material is fed into the cavity through a part of the cavity, preventing the formation of bubbles left in the cavity. The arrangement of a gate and a bent each making an acute angle results in the spontaneous separation of the molded article in the cavity from solidified material portions in the gate and the vent due to shrinkage on curing. | 04-09-2009 |
20110059839 | TRANSLUCENT POLYCRYSTALLINE SINTERED BODY, METHOD FOR PRODUCING THE SAME, AND ARC TUBE FOR HIGH-INTENSITY DISCHARGE LAMP - A translucent polycrystalline sintered body is mainly composed of an alumina, is suitable for the manufacture of an arc tube for a high-intensity discharge lamp, and has an average grain diameter of 35 to 70 μm, preferably 50 to 60 μm. In a case where the sintered body is in a 0.5-mm-thick flat plate shape, the in-line transmittance of the sintered body is 30% or more, preferably 50% or more. In this case, the ratio between maximum and minimum in-line transmittance values is 2:1 to 1:1 in the visible region of 360 to 830 nm. The bending strength of the sintered body is 250 MPa or more, preferably 300 MPa or more. | 03-10-2011 |
20110114352 | CERAMIC TUBE FOR HIGH-INTENSITY DISCHARGE LAMP AND METHOD OF PRODUCING THE SAME - The present invention relates to a ceramic tube for a high-intensity discharge lamp, comprising a hollow member and a plug member. The hollow member contains a substantially cylindrical body and a closure for closing one end of the body, and the plug member is inserted into an insertion opening formed at the other end of the body. Before the insertion of the plug member, the insertion opening has a tapered portion with a diameter decreasing in the direction from the open end to the inside at least in an area into which the plug member is inserted. After the insertion of the plug member, an outer wall of the plug member is bonded to an inner wall of the insertion opening. | 05-19-2011 |
20120133279 | ARC TUBE AND METHOD OF MANUFACTURING SAME - An arc tube includes a light emitting body for light therein and a ceramic tube having a first capillary and a second capillary integral with respective opposite sides of the light emitting body. A first electrode is inserted and sealed in the first capillary, and a second electrode is inserted and sealed in the second capillary. The first electrode is sealed in the first capillary by shrink fitting. | 05-31-2012 |
20120267412 | METHOD OF PRODUCING CERAMIC SUBSTRATES - A ceramic base plate is divided into a plurality of substrate regions | 10-25-2012 |
Patent application number | Description | Published |
20120153487 | SUBSTRATE FOR ELECTRON-BEAM DRAWING - A substrate for electron-beam drawing, characterized by including a base layer | 06-21-2012 |
20130258452 | LIGHT DEFLECTING ELEMENT - According to an embodiment, a light deflecting element includes a dielectric body, a first electrode, a second electrode, and a third electrode. Each of the second electrode and third electrode is configured to sandwich the dielectric body with the first electrode. The second electrode includes an electrode having a side that lies substantially orthogonal to an incident direction of a light beam, a side that is substantially parallel to the incident direction, and a side that intersects with the incident direction. The third electrode includes an electrode having a side that is aligned with the second electrode, a side that is substantially parallel to an incident direction of the light beam, and a side that intersects with the light beam, and that slopes in an opposite to that of the side of the second electrode that intersects with the light beam. | 10-03-2013 |
20130259417 | LIGHT DEFLECTING ELEMENT - According to an embodiment, a light deflecting element includes a dielectric body, a first electrode, and a second electrode. The second electrode is configured to sandwich the dielectric body with the first electrode so as to apply a voltage to the dielectric body. The second electrode includes orthogonal portions that are substantially orthogonal to an incident direction of a light beam passing through the dielectric body, parallel portions that are substantially parallel to the incident direction of the light beam. The orthogonal portions and the parallel portions are formed in an alternate manner on the light beam incident side of the dielectric body. The second electrode includes a linear sloping portion that slopes in a direction toward intersection with the incident direction of the light beam. The orthogonal portions, the parallel portions, and the linear sloping portion are formed integrally. | 10-03-2013 |