Patent application number | Description | Published |
20080274404 | Graphite Particles and Lithium Secondary Battery Using The Same As Negative Electrode - A graphite particle obtained by assembling or binding together a plurality of flat-shaped particles so that the planes of orientation are not parallel to one another, or a graphite particle in which aspect ratio is 5 or less or specific surface area is 8 m | 11-06-2008 |
20100159323 | Graphite Particles And Lithium Secondary Battery Using The Same As Negative Electrode - A graphite particle obtained by assembling or binding together a plurality of flat-shaped particles so that the planes of orientation are not parallel to one another, or a graphite particle in which aspect ratio is 5 or less or specific surface area is 8 m | 06-24-2010 |
20110045353 | NEGATIVE ELECTRODE FOR LITHIUM SECONDARY BATTERY AND LITHIUM SECONDARY BATTERY - A negative electrode for a lithium secondary battery includes a layer of a mixture containing graphite powder and an organic binder on a current collector, wherein a diffraction intensity ratio (002)/(110) measured by X-ray diffractometry of the layer of a mixture is 500 or less. A lithium secondary battery includes the negative electrode for a lithium secondary battery, and a positive electrode that includes a lithium compound. This results in less deterioration in the rapid charge and discharge characteristics and the cycle characteristics when the density of the negative electrode is made higher, thereby providing a high capacity lithium secondary battery having the improved energy density per unit volume of the secondary battery. | 02-24-2011 |
20110189542 | Graphite Particles And Lithium Secondary Battery Using The Same As Negative Electrode - A graphite particle obtained by assembling or binding together a plurality of flat-shaped particles so that the planes of orientation are not parallel to one another, or a graphite particle in which aspect ratio is 5 or less or specific surface area is 8 m | 08-04-2011 |
20120189905 | Graphite Particles And Lithium Secondary Battery Using The Same As Negative Electrode - A method for forming a negative electrode for a lithium secondary battery, includes providing a paste comprising graphite particulates comprise assembled or bound graphite particles in each of which a plurality of flat-shaped particles are assembled or bound together so that the planes of orientation are not parallel to one another, and the mixture including 3 to 10 parts by weight of the organic binder per 100 parts by weight of the graphite particulates, a binder and a solvent, coating the paste on a current collector, drying the paste coated on the current collector to form a mixture of the graphite particulates and the binder, and integrating the mixture with the current collector by pressing to provide a density of the mixture of graphite particulates and organic binder of 1.5 to 1.9 g/cm | 07-26-2012 |
20130143127 | ANODE MATERIAL FOR LITHIUM ION SECONDARY BATTERY, ANODE FOR LITHIUM ION SECONDARY BATTERY, AND LITHIUM ION SECONDARY BATTERY - An anode material for a lithium ion secondary battery that includes a carbon material having an average interlayer spacing d | 06-06-2013 |
Patent application number | Description | Published |
20100232040 | METHOD OF MANUFACTURING A PHOTOGRAPHIC LENS HAVING MULTIPLE LENS GROUPS TO CORRECT A FOCUS DEVIATION, PHOTOGRAPHIC LENS MANUFACTURED USING THE METHOD, AND PHOTOGRAPHIC APPARATUS INCLUDING THE PHOTOGRAPHIC LENS - A photographic lens of a photographic apparatus which includes a plurality of lens groups may be manufactured using a method which includes correcting a focus deviation from a designed value generated in one lens group by adjusting a distance between lenses of another lens group. The distance between lenses may be adjusted using a washer. The lenses between which the distance is adjusted may include a positive lens and a negative lens, and the lens group having the lenses between which the distance is adjusted may have a negative refractive power. | 09-16-2010 |
20100253830 | ZOOM LENS AND IMAGING OPTICAL DEVICE INCLUDING THE SAME - A zoom lens and an imaging optical device having the same. The zoom lens includes: in order from an object side, a first lens group having negative refractive power; a second lens group having positive refractive power; and a third lens group having positive refractive power. A light adjusting unit is disposed between the second and third lens groups. The first lens group includes a negative lens having an aspherical surface at least on an image side, and a positive lens having large curvature on the object side. The second lens group includes a front group on the object side, and a rear group. The front group includes a positive lens having an aspherical surface at the object side, the front group having positive refractive power as a whole. The rear group includes a doublet lens including positive and negative lenses. The rear group has negative refractive power as a whole. The front and rear groups are spaced apart from each other by an air gap. | 10-07-2010 |
20110085251 | COMPACT ZOOM LENS - A zoom lens including: a first lens group having a positive refractive power; a second lens group having a negative refractive power; a third lens group having a positive refractive power; and a fourth lens group having a positive refractive power, wherein the first lens group, the second lens group, the third lens group, and the fourth lens group are sequentially arranged in the order from an object side to an image surface side, while zooming from a wide-angle position to a telephoto position, the first lens group is moved in such a way that the distance between the first lens group and the second lens group is widened, the second lens group is moved along a trajectory convex toward the image surface side, the third lens group is moved from the image surface side to the object side, and the fourth lens group is moved along a trajectory convex toward the object side, and
| 04-14-2011 |
20110134539 | COMPACT ZOOM LENS - A zoom lens including a first lens group having a negative refractive power, including a negative lens and a positive lens and having at least one aspherical surface, a second lens group having a positive refractive power, a third lens group having a positive refractive power, and a fourth lens group having a positive refractive power. During, zooming from a wide angle position to a telephoto position, the first lens group is moved so that the first lens group at the telephoto position is closer to the object side than the first lens group at the wide angle position, the second lens group is moved, the third lens group is moved toward the object side from the image side, and the fourth lens group is moved so that the distance between the third lens group and the fourth lens group at the telephoto position is larger than the distance therebetween at the wide angle position, and
| 06-09-2011 |
20110222166 | COMPACT ZOOM LENS - A zoom lens includes, in order from an object side to an image plane side, a first lens group fixed to the image plane during zooming, having a positive refractive power, and including a single lens having a negative refractive power, an optical path change member for changing an optical path, and a positive lens group having a positive refractive power, which are arranged in order from the object side, a second lens group having a negative refractive power and including a negative lens group and a positive lens group which are arranged in order from the object side with an air gap, a third lens group fixed to the image plane during zooming and having a positive refractive power, and at least one lens group having a positive refractive power. The zoom lens satisfies the conditions the 1.4<|fLG1/fw|<5.8 and −4.809-15-2011 | |
20110222167 | COMPACT ZOOM LENS - A zoom lens includes a first lens group including an optical path change member that changes an optical path, a second lens group including at least one negative lens and at least one positive lens, and lens groups having a positive refractive power. The first lens group is closer to an object side of the zoom lens and is fixed relative to an image plane during a zooming operation. The second lens group is adapted to move during the zooming operation. Each of the lens groups includes at least one positive lens, and the lens groups are closer to an image plane side of the zoom lens. The zoom lens satisfies vdLP>71, vdL2p<40, and ndL2m>1.71, wherein “vdLP” is an Abbe number, “vdL2p” is an Abbe number, and “ndL2m” is a refractive index. | 09-15-2011 |
Patent application number | Description | Published |
20130139644 | BACKHOE LOADER - A backhoe loader includes a multi-axis transmission that includes: an input shaft to which power is inputted; a front output shaft coupled to a front wheel; a rear output shaft disposed in a position higher than that of the front output shaft and coupled to a rear wheel; an intermediate shaft disposed between the input shaft and the front output shaft; a first power transmission mechanism configured to transmit power from the input shaft to the intermediate shaft; and a second power transmission mechanism configured to transmit power from the intermediate shaft to the front output shaft and to transmit power from the front output shaft to the rear output shaft. | 06-06-2013 |
20130144496 | BACKHOE LOADER - A backhoe loader includes: a transmission; a cab including an operator's seat allowed to be forwardly and backwardly oriented; a loader disposed forwards of the cab; a backhoe disposed rearwards of the cab; a hydraulic pump configured to supply an operating oil to a hydraulic clutch; a hydraulic circuit including a relief valve for setting an intra-circuit hydraulic pressure to be a first hydraulic pressure; a work mode determining unit configured to determine whether or not an operating mode is a backhoe work mode using the backhoe; and a relief valve controlling unit. The relief valve controlling unit is configured to control a relief pressure of the relief valve at a second hydraulic pressure lower than the first hydraulic pressure when the work mode determining unit determines that the operating mode is the backhoe work mode. | 06-06-2013 |
20130146412 | WORK VEHICLE - A work vehicle has a hydraulic pump and a transmission. The transmission includes a transmission body having a cylindrical input shaft, a torque converter body, a lock-up clutch device, a pump drive shaft, and an oil channel. The lock-up clutch device includes a piston, an oil chamber formed at a back surface of the piston, and a clutch portion. The pump drive shaft penetrates the input shaft and is disposed coaxially to the input shaft. The pump drive shaft transmits driving power to the hydraulic pump. The oil channel is formed between an inner circumference surface of the input shaft and an outer circumference surface of the pump drive shaft, and communicates with the oil chamber in the lock-up clutch device. | 06-13-2013 |
20130174682 | TRANSMISSION FOR WORK VEHICLE - A multi-shaft transmission is mounted on a work vehicle for performing loader work, and includes a power transmission mechanism for transmitting power from an input shaft through a countershaft to an output shaft. A shifting part shifts a drivetrain from the input shaft to the output shaft. The power transmission includes a forward clutch and a reverse clutch for forward-reverse shifting, and a plurality of speed stage shifting clutches for changing speed stages, wherein at least one of the forward clutch and the reverse clutch has a plurality of speed region shifting clutches. The shifting part shifts only one clutch among the plurality of speed stage shifting clutches and the plurality of speed region shifting clutches to change speeds when a plurality of speed stages are used in the loader work. | 07-11-2013 |
20130239719 | TRANSMISSION FOR WORK VEHICLE - A transmission includes an input shaft, an output shaft and an intermediate shaft, a power transmission mechanism and a control unit. The power transmission mechanism includes a forward travelling lower speed clutch, a forward travelling higher speed clutch, a rearward travelling clutch and a plurality of speed stage switching clutches. The control unit is configured to switch a gear state into a shiftable rearward travelling gear stage by turning off either the forward travelling lower speed clutch or the forward travelling higher speed clutch and by turning on the rearward travelling clutch in executing an operation of switching from forward travelling to rearward travelling, and to switch a gear stage into a shiftable forward travelling gear stage by turning off the rearward travelling clutch and turning on the forward travelling lower speed clutch in executing an operation of switching from rearward travelling to forward travelling. | 09-19-2013 |
Patent application number | Description | Published |
20100049845 | COMPUTER SYSTEM AND A METHOD FOR MANAGING LOGICAL VOLUMES - A computer system manages logical volumes as operation map including a volume ID of the logical volume and a plurality of pieces of a predetermined operating information (for example, a path setting, main-volume, sub-volume, permanent storage setting, and storage period setting), when an operation is added to the logical volume, corresponding operating information is set to addition and when the operation is released, the information is set to release, and at a time when a predetermined operating information is all set to release, a corresponding logical volume to the volume ID is detected as being deletable, thereby detecting the deletable the logical volume automatically. | 02-25-2010 |
20110246648 | COMPUTER SYSTEM AND A METHOD FOR MANAGING LOGICAL VOLUMES - A computer system manages logical volumes as operation map including a volume ID of the logical volume and a plurality of pieces of a predetermined operating information (for example, a path setting, main-volume, sub-volume, permanent storage setting, and storage period setting), when an operation is added to the logical volume, corresponding operating information is set to addition and when the operation is released, the information is set to release, and at a time when a predetermined operating information is all set to release, a corresponding logical volume to the volume ID is detected as being deletable, thereby detecting the deletable the logical volume automatically. | 10-06-2011 |
Patent application number | Description | Published |
20090200608 | SEMICONDUCTOR DEVICE - To attain reduction in size of a semiconductor device having a power transistor and an SBD, a semiconductor device according to the present invention comprises a first region and a second region formed on a main surface of a semiconductor substrate; plural first conductors and plural second conductors formed in the first and second regions respectively; a first semiconductor region and a second semiconductor region formed between adjacent first conductors in the first region, the second semiconductor region lying in the first semiconductor region and having a conductivity type opposite to that of the first semiconductor region; a third semiconductor region formed between adjacent second conductors in the second region, the third semiconductor region having the same conductivity type as that of the second semiconductor region and being lower in density than the second semiconductor region; a metal formed on the semiconductor substrate in the second region, the third semiconductor region having a metal contact region for contact with the metal, the metal being electrically connected to the second semiconductor region, and a center-to-center distance between adjacent first conductors in the first region being smaller than that between adjacent second conductors in the second region. | 08-13-2009 |
20090212358 | Semiconductor device and a method of manufacturing the same - A technology is provided to reduce ON-resistance, and the prevention of punch through is achieved with respect to a trench gate type power MISFET. Input capacitance and a feedback capacitance are reduced by forming a groove in which a gate electrode is formed so as to have a depth as shallow as about 1 μm or less, a p | 08-27-2009 |
20110024802 | SEMICONDUCTOR DEVICE - To attain reduction in size of a semiconductor device having a power transistor and an SBD, a semiconductor device according to the present invention comprises a first region and a second region formed on a main surface of a semiconductor substrate; plural first conductors and plural second conductors formed in the first and second regions respectively; a first semiconductor region and a second semiconductor region formed between adjacent first conductors in the first region, the second semiconductor region lying in the first semiconductor region and having a conductivity type opposite to that of the first semiconductor region; a third semiconductor region formed between adjacent second conductors in the second region, the third semiconductor region having the same conductivity type as that of the second semiconductor region and being lower in density than the second semiconductor region; a metal formed on the semiconductor substrate in the second region, the third semiconductor region having a metal contact region for contact with the metal, the metal being electrically connected to the second semiconductor region, and a center-to-center distance between adjacent first conductors in the first region being smaller than that between adjacent second conductors in the second region. | 02-03-2011 |
20110233664 | Semiconductor device and a method of manufacturing the same - A technology is provided to reduce ON-resistance, and the prevention of punch through is achieved with respect to a trench gate type power MISFET. Input capacitance and a feedback capacitance are reduced by forming a groove in which a gate electrode is formed so as to have a depth as shallow as about 1 μm or less, a p | 09-29-2011 |
20110309437 | SEMICONDUCTOR DEVICE - To attain reduction in size of a semiconductor device having a power transistor and an SBD, a semiconductor device according to the present invention comprises a first region and a second region formed on a main surface of a semiconductor substrate; plural first conductors and plural second conductors formed in the first and second regions respectively; a first semiconductor region and a second semiconductor region formed between adjacent first conductors in the first region, the second semiconductor region lying in the first semiconductor region and having a conductivity type opposite to that of the first semiconductor region; a third semiconductor region formed between adjacent second conductors in the second region, the third semiconductor region having the same conductivity type as that of the second semiconductor region and being lower in density than the second semiconductor region; a metal formed on the semiconductor substrate in the second region, the third semiconductor region having a metal contact region for contact with the metal, the metal being electrically connected to the second semiconductor region, and a center-to-center distance between adjacent first conductors in the first region being smaller than that between adjacent second conductors in the second region. | 12-22-2011 |
20120280315 | SEMICONDUCTOR DEVICE - A semiconductor device for use in a power supply circuit has first and second MOSFETS. The source-drain path of one of the MOSFETS are coupled to the source-drain path of the other, and a load element is coupled to a connection node of the source-drain paths. The second MOSFET is formed on a semiconductor substrate with a Schottky barrier diode. First gate electrodes of the second MOSFET are formed in trenches in a first region of the semiconductor substrate, while second gate electrodes of the second MOSFET are formed in trenches in a second region of the semiconductor substrate. The first and second gate electrodes are electrically connected together. Portions of the Schottky barrier diode are formed between adjacent ones of the second gate electrodes. A center-to-center spacing between adjacent first gate electrodes is smaller than a center-to-center spacing between adjacent second gate electrodes. | 11-08-2012 |
20130214378 | SEMICONDUCTOR DEVICE INCLUDING A MOSFET AND SCHOTTKY JUNCTION - A semiconductor device for use in a power supply circuit has first and second MOSFETS. The source-drain path of one of the MOSFETS are coupled to the source-drain path of the other, and a load element is coupled to a connection node of the source-drain paths. The second MOSFET is formed on a semiconductor substrate with a Schottky barrier diode. First gate electrodes of the second MOSFET are formed in trenches in a first region of the semiconductor substrate, while second gate electrodes of the second MOSFET are formed in trenches in a second region of the semiconductor substrate. The first and second gate electrodes are electrically connected together. Portions of the Schottky barrier diode are formed between adjacent ones of the second gate electrodes. A center-to-center spacing between adjacent first gate electrodes is smaller than a center-to-center spacing between adjacent second gate electrodes. | 08-22-2013 |
20150054069 | SEMICONDUCTOR DEVICE INCLUDING A MOSFET - A semiconductor device for use in a power supply circuit has first and second MOSFETS. The source-drain path of one of the MOSFETS are coupled to the source-drain path of the other, and a load element is coupled to a connection node of the source-drain paths. The second MOSFET is formed on a semiconductor substrate with a Schottky barrier diode. First gate electrodes of the second MOSFET are formed in trenches in a first region of the semiconductor substrate, while second gate electrodes of the second MOSFET are formed in trenches in a second region of the semiconductor substrate. The first and second gate electrodes are electrically connected together. Portions of the Schottky barrier diode are formed between adjacent ones of the second gate electrodes. A center-to-center spacing between adjacent first gate electrodes is smaller than a center-to-center spacing between adjacent second gate electrodes. | 02-26-2015 |
Patent application number | Description | Published |
20100266706 | ORAL PARTICULATE ANTITUMOR PREPARATION - An oral particulate antitumor preparation, which allows safe intake of antitumor agents, handling of which could be in many cases dangerous due to their high pharmacological activity, and has a stability equivalent to that of capsules or tablets, is provided. | 10-21-2010 |
20130078309 | ORAL PARTICULATE ANTITUMOR PREPARATION - An oral particulate antitumor preparation, which allows safe intake of antitumor agents, handling of which could be in many cases dangerous due to their high pharmacological activity, and has a stability equivalent to that of capsules or tablets, is provided. An oral particulate antitumor preparation, in which a particulate composition containing an antitumor agent is coated with a saccharide other than a cellulose derivative. | 03-28-2013 |
20140335174 | DRY-COATED TABLET CONTAINING TEGAFUR, GIMERACIL AND OTERACIL POTASSIUM - The present invention provides a dry-coated tablet comprising: an inner core containing, as active ingredients, (a) tegafur, (b) gimeracil, and (c) oteracil potassium; and an outer shell. | 11-13-2014 |
20140356431 | ORAL ADMINISTRABLE PHARMACEUTICAL COMPOSITION - The present invention provides an FTD and TPI-containing orally administrable pharmaceutical composition which can be orally administered and is stable even under high-humidity conditions. | 12-04-2014 |
20140363512 | ORAL PHARMACEUTICAL COMPOSITION - The present invention provides an FTD and TPI-containing oral pharmaceutical composition which can be orally administered and is stable even under high humidity conditions. | 12-11-2014 |
Patent application number | Description | Published |
20110110014 | LAMINATED CERAMIC ELECTRONIC COMPONENT AND MANUFACTURING METHOD THEREFOR - Changes in states giving rise to electrode breakage and ball formation are made less likely during firing step for sintering the laminated body, and the improvement in DC bias characteristics is achieved in laminated ceramic electronic components with a laminated body which has internal electrodes, even when ceramic layers and the internal electrodes are reduced in thickness. The laminated body is divided into a large grain region in which the ceramic has a relatively large grain diameter and a small grain region in which the ceramic has a relatively small grain diameter. The large grain region is located outside the small grain region, and a boundary surface between the large grain region and the small grain region is located inside the outer surface of the laminated body while surrounding a section in which the internal electrodes are present in the laminated body. In order to obtain the laminated body, a heat treatment is carried out in the firing step with a temperature profile in which the average rate of temperature increase from room temperature to the maximum temperature is 40° C./second or more. | 05-12-2011 |
20130222972 | LAMINATED CERAMIC ELECTRONIC COMPONENT - A laminated ceramic capacitor with a laminated body including a plurality of stacked ceramic layers and internal electrodes located between the ceramic layers. The laminated body has a pair of mutually opposed principal surfaces extending in the direction in which the ceramic layers extend, a pair of mutually opposed side surfaces and a pair of mutually opposed end surfaces which respectively extend in directions orthogonal to the principal surfaces. The internal electrodes are 0.4 μm or less in thickness, and are located in an area defined by a width-direction gap of 30 μm or less interposed with respect to each of the pair of side surfaces and an outer layer thickness of 35 μm or less interposed with respect to each of the pair of principal surfaces. | 08-29-2013 |
20130222973 | Laminated Ceramic Electronic Component and Manufacturing Method Therefor - A laminated ceramic capacitor including a laminated body having a plurality of stacked ceramic layers and internal electrodes located between the ceramic layers. The internal electrodes have a plurality of ceramic columnar members formed therein, which project into the internal electrodes from interfaces between the ceramic layers and the internal electrodes, but do not penetrate in the thickness direction of the internal electrodes. | 08-29-2013 |
20140078641 | LAMINATED CERAMIC ELECTRONIC COMPONENT AND MANUFACTURING METHOD THEREFOR - A laminated body is divided into a large grain region and a small grain region. The large grain region is located outside the small grain region, and a boundary surface between the regions is located inside the outer surface of the laminated body while surrounding a section in which internal electrodes are present in the laminated body. To obtain the laminated body, firing is carried out with a profile in which the average rate of increase from room to the maximum temperature is 40° C./second or more. | 03-20-2014 |
20150077897 | Multilayer Ceramic Electronic Component - A multilayer ceramic electronic component that has a multilayer portion having an outer layer portion adjacent region including an area in contact with an outer layer portion that forms a thermal-shock absorbing portion that includes curved ceramic layers and inner electrode layers smoothly varying in thickness from point to point. A region to an inside of the thermal-shock absorbing portion forms a normal multilayer portion that includes ceramic layers with less curvature than the ceramic layers in the thermal-shock absorbing portion and inner electrode layers with less variation in thickness from point to point in a direction along a principal surface of the outer layer portion than the inner electrode layers in the thermal-shock absorbing portion. | 03-19-2015 |
Patent application number | Description | Published |
20120023374 | INFORMATION PROCESSING DEVICE EQUIPPED WITH WRITE-BACK CACHE AND DIAGNOSIS METHOD FOR MAIN MEMORY OF THE SAME - The embodiments provide a failure diagnosis method for a main memory in an information processing device equipped with a write-back cache. According to the method, an application program stored in the main memory is divided by the storage size of write-back cache, and the regions are stored in advance. Then, a read signal from the main memory to the write-back cache is detected. It is determined whether the region corresponding to the read signal has yet to be diagnosed. If the region has yet to be diagnosed, a command to diagnose failure of the region is issued. If a write signal (write back) to a particular region is detected during the diagnosis of the particular region, the diagnosis of the particular region is stopped. Thus, the failure diagnosis of the main memory is executed in parallel with the execution of the application program. | 01-26-2012 |
20120185858 | PROCESSOR OPERATION MONITORING SYSTEM AND MONITORING METHOD THEREOF - A processor includes a computation unit; a storage unit storing a program; and a data transmission circuit that transmits to an operation monitoring unit a signal corresponding to an instruction for reporting the execution stage of the program. The operation monitoring unit: includes a transition operation identification. circuit and a loop processing identification circuit. The transition operation identification circuit receives a start ID instruction with an attached ID that identifies a task; a termination ID instruction that identifies termination of task operation; and if the task is execution of loop processing, a loop instruction that reports the maximum value of the number of times of this loop processing. The transition operation identification circuit identifies success of the transition operations of the tasks of the program, based on the ID instructions. The loop processing identification circuit identifies abnormality of the number of times of loop processing. | 07-19-2012 |
20120303324 | CONTROL SYSTEM FOR PROVIDING DIAGNOSTIC PULSE SIGNAL, AND CONTROL DEVICE THEREFOR - A control device includes a diagnostic pulse signal generating section having an internal circuit that generates control data and generates diagnostic pulse data for diagnosing the operating terminal and diagnoses the function of the signal line and the operating terminal from the waveform of a feedback signal of the diagnostic pulse signal; a variable amplification circuit that multiplexes the diagnostic pulse signal on the control signal and sends the result to the operating terminal with a preset signal level; and a receiving circuit that receives the feedback signal and sends it to the internal circuit. The internal circuit comprises a correction pulse data generating section that corrects the diagnostic pulse data by correcting the rise time of the diagnostic pulse signal. Even if the length of the signal line is long, the diagnostic pulse signal reception can be achieved without expanding the pulse width of the diagnostic pulse signal. | 11-29-2012 |
20130082739 | CLOCK DIAGNOSIS CIRCUIT - A clock diagnosis circuit includes: a delay circuit to delay the clock by a prescribed time which is not more than the clock pulse width; an integral multiplication delay circuit to delay a delayed clock outputted from the delay circuit by a prescribed number of cycles; a first exclusive OR circuit to encode the clock using the delayed clock; a second exclusive OR circuit to decode an output of the first exclusive OR circuit using an output of the integral multiplication delay circuit; and a comparison circuit to compare the clock with an output of the second exclusive OR circuit to thereby detect a malfunction of the clock. | 04-04-2013 |
20140095949 | METHOD AND APPARATUS FOR DIAGNOSING A FAULT OF AMEMORY USING INTERIM TIME AFTER EXECUTION OF AN APPLICATION - An area of a memory has a diagnosis area and a non diagnosis area, with the diagnosis area divided into a plurality of Row areas which do not overlap each other, and each of the Row areas is divided into a plurality of Cell areas which do not overlap each other. A memory fault diagnostic method has a diagnostic step in a Row area to diagnose between Cell areas with respect to all the combinations of a set of Cell areas in the Row area, and a diagnostic step between Row areas to diagnose between Row areas with respect to all the combinations of a set of Row areas in the diagnosis area. A Row area size is determined to be a size in which a time of the diagnosis in a Row area becomes equal to a time of the diagnosis between Row areas. | 04-03-2014 |
Patent application number | Description | Published |
20090013765 | GAS LEAK DETECTION APPARATUS AND METHOD - According to the present invention, mistaken detection of a gas leak can be prevented even when using an appliance which has been newly installed in a dwelling receiving a gas supply, and whereby a gas leak can be detected rapidly, efficiently and accurately. The characteristics extraction means | 01-15-2009 |
20090018782 | GAS APPLIANCE JUDGMENT APPARATUS AND METHOD - According to the present invention, the type of gas appliance in use can be identified and a gas leak can be detected, efficiently and accurately. The flow volume data noise removal means | 01-15-2009 |
20110231115 | GAS APPLIANCE JUDGEMENT APPARATUS AND METHOD - A gas appliance judgment apparatus and method by which a type of gas appliance in use and the existence of a gas leak can be identified. In operation, noise is removed from measured instantaneous flow volume, whereupon the “length”, “initial flow volume” and “sequence of transited regions” of the variable portion of the flow volume and the “length”, “average value” and “gradient” of the flat portion of the flow volume are extracted. A rule having characteristics data which matches the characteristics of the variable portion and the flat portion of the flow volume is then searched, and points are added respectively for the type of gas appliance and for the existence of a gas leak. When the added points are not less than a previously established threshold value, then the type of gas appliance in use is determined, and appliance type information is output as a judgment result. | 09-22-2011 |
Patent application number | Description | Published |
20110198505 | RADIATION DETECTOR AND RADIATION DETECTION SYSTEM - A radiation detector includes a sensor panel including a photodetector and peripheral circuitry, the photodetector includes a two-dimensional array of photoelectric conversion elements arranged on a substrate, the peripheral circuitry is electrically connected to the photoelectric conversion elements and is disposed on the periphery of the photodetector; a scintillator layer is disposed on the photodetector of the sensor panel, the scintillator layer converts radiation into light that is detectable by the photoelectric conversion elements; a scintillator protection member covers the scintillator layer; and a sealing resin seals the scintillator layer, the sealing resin is disposed between the sensor panel and the scintillator protection member on the periphery of the scintillator layer; the sealing resin is disposed on top of the peripheral circuitry; and particles containing a radiation-absorbing material are dispersed in the sealing resin. | 08-18-2011 |
20110291018 | RADIATION DETECTION APPARATUS AND RADIATION IMAGING SYSTEM - A radiation detection apparatus including: a sensor panel having a first face on which a pixel region is formed and a second face that is opposite the first face and including a connecting portion at one or more sides; a scintillator layer formed over the pixel region; and a protective film covering the scintillator layer and a portion of the sensor panel is provided. The protective film has a hot-pressed part. At the side of the sensor panel where the connecting portion is formed, the hot-pressed part is formed in a portion of the protective film covering the first face. At other sides of the sensor panel, the hot-pressed part is formed in at least one of a portion of the protective film covering a lateral face of the sensor panel and the second face. | 12-01-2011 |
20110309258 | RADIATION DETECTION APPARATUS, MANUFACTURING METHOD THEREFOR, AND RADIATION IMAGING SYSTEM - A radiation detection apparatus comprising: a sensor panel including a photoelectric conversion region and an electrically conductive pattern that is electrically connected to the photoelectric conversion region; a scintillator layer disposed over the photoelectric conversion region of the sensor panel; a wiring member including a portion overlapping with the electrically conductive pattern and electrically connected to the electrically conductive pattern and; and a protective film covering the scintillator layer and the portion of the wiring member that overlaps with the electrically conductive pattern is provided. A region of the protective film that covers the wiring member includes a portion that is press-bonded to the sensor panel. | 12-22-2011 |
20120145905 | RADIATION DETECTION APPARATUS AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a radiation detection apparatus is provided. The method comprising: forming a set of columnar crystals capable of converting radiation into visible light on a base; forming a supporting layer that supports the set of columnar crystals; separating the set of columnar crystals supported by the supporting layer from the base; preparing a sensor panel having a photoelectric conversion unit; and adhering a surface of the set of columnar crystals, that surface having been in contact with the base, to the sensor panel using an adhesive material, such that the set of columnar crystals covers the photoelectric conversion unit. | 06-14-2012 |
20120187298 | SCINTILLATOR PANEL, METHOD OF MANUFACTURING THE SAME, AND RADIATION DETECTION APPARATUS - A scintillator includes a scintillator layer having a first surface and second surface which are surfaces opposite to each other, wherein the scintillator layer includes a plurality of columnar portions, each columnar portion including a columnar crystal for converting a radiation into light, and the columnar crystal of each columnar portion having a diameter which increases from an intermediate portion between the first surface and the second surface toward the first surface and the second surface. | 07-26-2012 |
20120187299 | SCINTILLATOR PANEL, RADIATION DETECTION APPARATUS, AND METHOD OF MANUFACTURING THEM - A method of manufacturing a scintillator panel including a scintillator layer which converts a radiation into light, includes a growing step of growing a scintillator including a plurality of columnar crystals on a first substrate; a fixing step of fixing a second substrate to a surface of the scintillator that is opposite to a surface on a side of the first substrate; a separation step of separating the first substrate from the scintillator; and a removal step of removing, from the scintillator, a portion of a predetermined thickness from an exposed surface of the scintillator that is exposed in the separation step, to form the scintillator layer. | 07-26-2012 |
20120219115 | RADIATION IMAGING APPARATUS AND RADIATION DETECTION SYSTEM - A radiation imaging apparatus includes a sensor which is placed in an internal space in the chassis and detects radiation. The apparatus includes a positioning mechanism which moves the sensor in the internal space to determine a position where radiation is detected, so as to change an area where radiation imaging is performed by detecting radiation using the sensor. | 08-30-2012 |
20120223240 | RADIATION DETECTION APPARATUS, SCINTILLATOR PANEL, METHOD FOR MANUFACTURING SAME AND RADIATION DETECTION SYSTEM - A radiation detection apparatus comprising a sensor panel and a scintillator panel is provided. The scintillator panel including a substrate, a scintillator disposed on the substrate, and a scintillator protective film that has a first organic protective layer and an inorganic protective layer, and covers the scintillator. The scintillator protective film is located between the sensor panel and the scintillator. The first organic protective layer is located on a scintillator side from the inorganic protective layer. A surface on a sensor panel side of the scintillator is partially in contact with the inorganic protective layer. | 09-06-2012 |
20130020493 | RADIATION IMAGING APPARATUS AND RADIATION IMAGING SYSTEM - A radiation imaging apparatus comprising: a detection apparatus having detection regions; at least one plate having transmitting regions arranged in an array for adjusting the amount of radiation incident on the detection regions by blocking radiation incident on a region other than the transmitting regions; a holding unit that holds the plate in such a manner that the plate can move along the detection surface while being kept in a position over the detection surface of the detection apparatus; and a drive unit that moves the plate, is provided. The drive unit can fix the plate in various positions relative to the detection surface, and the area of a part of the detection region on which radiation transmitted through the plate is incident varies depending on the position of the plate. | 01-24-2013 |
20130026377 | RADIATION DETECTION APPARATUS, MANUFACTURING METHOD THEREOF, AND RADIATION DETECTION SYSTEM - A method of manufacturing a radiation detection apparatus is provided. The apparatus comprises a first scintillator layer, a second scintillator layer, and a sensor panel that detects light emitted by the first scintillator layer and the second scintillator layer. The method comprises preparing a sensor unit having the sensor panel and the first scintillator layer which includes a set of columnar crystals formed on the sensor panel, and a scintillator panel having a scintillator substrate and the second scintillator layer which includes a set of columnar crystals formed on the scintillator substrate, and fixing the scintillator panel to the sensor panel such that the first scintillator layer and the second scintillator layer face each other. | 01-31-2013 |
20130134312 | RADIATION DETECTION APPARATUS AND RADIOGRAPHIC SYSTEM - A radiation detection apparatus including a sensor unit having photoelectric conversion units two-dimensionally arranged and a scintillator layer which converts radiation into light, comprising a first member disposed on the sensor unit, and a second member disposed on the first member, wherein the scintillator layer is disposed on the second member, and letting n | 05-30-2013 |
20130153775 | RADIATION DETECTION APPARATUS - A radiation detection apparatus comprising, a sensor panel including sensor unit disposed on a plurality of photoelectric converters on a substrate, a first scintillator layer disposed on the sensor panel, and a second scintillator layer disposed on the first scintillator layer, wherein the first scintillator layer and the second scintillator layer respectively emit light beams having different wavelengths, and the sensor unit which includes a first photoelectric converter configured to detect the light beam emitted by the first scintillator layer, a first transistor configured to output a signal from the first scintillator layer, a second photoelectric converter configured to detect the light beam emitted by the second scintillator layer, and a second transistor configured to output a signal from the second scintillator layer, and individually convert the light beams having the different wavelengths into electrical signals. | 06-20-2013 |
20130168559 | RADIATION DETECTION APPARATUS - A radiation detection apparatus including a sensor panel which includes a plurality of pixels two-dimensionally arranged on a substrate and detects light, and a scintillator layer which is disposed on the sensor panel and converts radiation into light, the apparatus, comprising members embedded in regions between the plurality of pixels in the scintillator layer, wherein the member satisfies a relationship of μ | 07-04-2013 |
20150014546 | RADIATION DETECTION APPARATUS, MANUFACTURING METHOD THEREOF, AND RADIATION DETECTION SYSTEM - A method of manufacturing a radiation detection apparatus is provided. The apparatus comprises a first scintillator layer, a second scintillator layer, and a sensor panel that detects light emitted by the first scintillator layer and the second scintillator layer. The method comprises preparing a sensor unit having the sensor panel and the first scintillator layer which includes a set of columnar crystals formed on the sensor panel, and a scintillator panel having a scintillator substrate and the second scintillator layer which includes a set of columnar crystals formed on the scintillator substrate, and fixing the scintillator panel to the sensor panel such that the first scintillator layer and the second scintillator layer face each other. | 01-15-2015 |
Patent application number | Description | Published |
20080252721 | Film detection device and method, and picture signal processing device and method - Disclosed herein is a film detection device for determining whether an input picture signal is an interlaced signal generated by the telecine process, the film detection device including, a frame motion detection section, a field motion detection section, a motion judder detection section, and a film determination section. | 10-16-2008 |
20110121866 | FREQUENCY DIFFERENCE DETECTION APPARATUS AND METHOD, FREQUENCY DISCRIMINATION APPARATUS AND METHOD, AND FREQUENCY SYNTHESIS APPARATUS AND METHOD - An apparatus having a complex sine wave generating circuit ( | 05-26-2011 |
20110167184 | ACCESS CONTROL APPARATUS, DATA PROCESSING APPARATUS, ACCESS CONTROL METHOD, AND PROGRAM - An access control apparatus includes: a determination section; and an update section. | 07-07-2011 |
20140176794 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - An image processing apparatus includes: a normal interpolated image generation unit to generate an image that is interpolated between a plurality of original images reproduced along time series, the image being a normal interpolated image, based on each of the plurality of original images; a high-frequency area extraction unit to extract a high-frequency area having a spatial frequency higher than a predetermined value in each of the plurality of original images; a high-frequency area interpolated image generation unit to generate an image that is interpolated between the plurality of original images, the image being a high-frequency area interpolated image, based on a change in position of the high-frequency area along with an elapse of time on the time series and on each of the plurality of original images; and a combination unit to execute combining processing to combine the normal interpolated image and the high-frequency area interpolated image. | 06-26-2014 |