Patent application number | Description | Published |
20140162782 | GAME CONTROL METHOD, SERVER APPARATUS, AND STORAGE MEDIUM - When a mobile terminal obtains a container upon movement of a display range, a processor increases points in a storage unit. When the mobile terminal opens a container obtained by movement of the display range or as a present from another mobile terminal, the processor opens the container at predetermined success percentages, and writes an item obtained from the opened container in the storage unit. When the mobile terminal presents a container without opening it, the processor transmits screen data indicating a present to the other mobile terminal. The processor converts an item in the storage unit into points to increase the points in the storage unit based on an operation of the user of the mobile terminal. | 06-12-2014 |
20140349755 | GAME CONTROL METHOD, SERVER APPARATUS, AND STORAGE MEDIUM - When a mobile terminal obtains a container upon movement of a display range, a processor increases points in a storage unit. When the mobile terminal opens a container obtained by movement of the display range or as a present from another mobile terminal, the processor opens the container at predetermined success percentages, and writes an item obtained from the opened container in the storage unit. When the mobile terminal presents a container without opening it, the processor transmits screen data indicating a present to the other mobile terminal. The processor converts an item in the storage unit into points to increase the points in the storage unit based on an operation of the user of the mobile terminal. | 11-27-2014 |
Patent application number | Description | Published |
20090151998 | ELECTROMAGNETIC WAVE SHIELDING WIRING CIRCUIT FORMING METHOD AND ELECTROMAGNETIC WAVE SHIELDING SHEET - The electromagnetic wave shielding wiring circuit forming method of the present invention comprises the steps of: preparing a fine copper particle dispersion, by dispersing fine copper particles into a disperse medium (S) including an organic solvent (A) having an amide-based compound, an organic solvent (B) having a boiling point of 20° C. or higher at an ordinary pressure and having a donor number of 17 or more, an organic solvent (C) having a boiling point exceeding 100° C. at an ordinary pressure and comprising alcohol and/or polyhydric alcohol, and an organic solvent (E) having an amine-based compound, at specific ratios; coating or printing the fine copper particle dispersion onto a substrate, to form a wiring pattern comprising a liquid film of the fine copper particle dispersion; and firing the liquid film of the fine copper particle dispersion, to form a sintered wiring layer. | 06-18-2009 |
20090321689 | METHOD FOR PRODUCING FINE PARTICLE DISPERSION AND FINE PARTICLE DISPERSION - Disclosed is a method for producing a fine particle dispersion such as a dispersion of metal fine particles which is superior in dispersibility and storage stability. Specifically disclosed is a method for producing a fine particle dispersion wherein fine particles of a metal or the like, having a mean particle diameter of between 1 nm and 150 nm for primary particles, are dispersed in an organic solvent. This method for producing a fine particle dispersion is characterized by comprising the steps of: reducing a metal ion by liquid phase reduction in an aqueous solution wherein the metal ion and a polymer dispersing agent are dissolved, thereby forming a fine particle dispersion aqueous solution wherein fine particles having a mean particle diameter of between 1 nm and 150 nm for the primary particles and dispersed with being coated by the polymer dispersing agent (Process 1); adding an aggregation accelerator into the fine particle dispersion aqueous solution, the resulting solution is agitated for agglomerating or precipitating the fine particles, and then the agglomerated or precipitated fine particles are separated from the aqueous solution, thereby obtaining fine particles comprised of one type or not less than two types of a metal, an alloy and a metallic compound (Process 2); and re-dispersing the thus-obtained fine particles into an organic solvent or the like which contains an organic solvent (A) as between 25% and 70% by volume having an amide group, a low boiling point organic solvent (B) as between 5% and 25% by volume having a boiling point of between 20° C. and 100° C. at a normal pressure, and an organic solvent (C) as between 5% and 70% by volume having a boiling point of higher than 100° C. at a normal pressure and comprised of an alcohol and/or a polyhydric alcohol having one or not less than two hydroxyl groups in a molecule thereof (Process 3). | 12-31-2009 |
20100113647 | FINE PARTICLE DISPERSION AND METHOD FOR PRODUCING FINE PARTICLE DISPERSION - Disclosed is a fine particle dispersion which is superior in dispersibility and storage stability. Specifically disclosed is a fine particle dispersion in which a fine particle (P) comprised of one type or not less than two types of a metal, an alloy, and/or a metallic compound, having a mean particle diameter of between 1 nm and 150 nm for primary particles thereof, with being coated at least a part of a surface thereof with a polymer dispersing agent (D), is dispersed in a mixed organic solvent. This fine particle dispersion is characterized in that a weight ratio of (D/P) between the polymer dispersing agent (D) coating the surface of the fine particle (P) and the fine particles (P) in the dispersion is between 0.001 and 10, and the mixed organic solvent is one of: (i) a mixed organic solvent which contains an organic solvent (A) as between 50% and 95% by volume having an amide group, and a low boiling point organic solvent (B) as between 5% and 50% by volume having a boiling point of between 20° C. and 100° C. at a normal pressure; (ii) a mixed organic solvent which contains the organic solvent (A) as between 50% and 95% by volume having the amide group, and an organic solvent (C) as between 5% and 50% by volume having a boiling point of higher than 100° C. at a normal pressure and comprised of an alcohol and/or a polyhydric alcohol having one or not less than two hydroxyl groups in a molecule thereof; or (iii) a mixed organic solvent which contains the organic solvent (A) as between 50% and 94% by volume having the amide group, the low boiling point organic solvent (B) as between 5% and 49% by volume having the boiling point of between 20° C. and 100° C. at the normal pressure, and the organic solvent (C) as between 1% and 45% by volume having the boiling point of higher than 100° C. at the normal pressure and comprised of the alcohol and/or the polyhydric alcohol having the one or not less than the two hydroxyl groups in the molecule thereof. | 05-06-2010 |
20130001775 | CONDUCTIVE CONNECTING MEMBER AND MANUFACTURING METHOD OF SAME - A conductive connecting member formed on a bonded face of an electrode terminal of a semiconductor or an electrode terminal of a circuit board, the conductive connecting member comprising a porous body formed in such manner that a conductive paste containing metal fine particles (P) having mean primary particle diameter from 10 to 500 nm and an organic solvent (S), or a conductive paste containing the metal fine particles (P) and an organic dispersion medium (D) comprising the organic solvent (S) and an organic binder (R) is heating-treated so as for the metal fine particles (P) to be bonded, the porous body being formed by bonded metal fine particles (P) having mean primary particle diameter from 10 to 500 nm, a porosity thereof being from 5 to 35 volume %, and mean pore diameter being from 1 to 200 nm. | 01-03-2013 |
20140127409 | METHOD FOR PRODUCING FINE PARTICLE DISPERSION - In a fine particle dispersion, a fine particle (P) is dispersed in a mixed organic solvent. The fine particle (P) is formed of one type or not less than two types of a metal, an alloy, and/or a metallic compound, and has a mean particle diameter between 1 nm and 150 nm for primary particles thereof. Further, the fine particle (P) has a surface at least a part thereof coated with a polymer dispersing agent (D). | 05-08-2014 |
20150132646 | NEGATIVE ELECTRODE FOR NONAQUEOUS ELECTROLYTE RECHARGEABLE BATTERY AND NONAQUEOUS ELECTROLYTE RECHARGEABLE BATTERY USING SAME - The purpose of the invention is to obtain a negative electrode for a large-capacity nonaqueous electrolyte rechargeable battery having good cycle characteristics. In the present invention, a negative electrode for a nonaqueous electrolyte rechargeable battery is used as a solution, said negative electrode being characterized by having an active material layer on a current collector, said active material layer containing at least granules, and one or more types of coating binder comprising any of a polyimide, polybenzimidazole, polyamide-imide and polyamide. The negative electrode is further characterized in that the granules contain at least active material particles containing: at least one type of element selected from a group comprising Si, Sn, Al, Pb, Sb, Bi, Ge, In and Zn; and a granulation binder. | 05-14-2015 |
Patent application number | Description | Published |
20090286076 | Material to be measured for stress analysis, coating liquid for forming coating film layer on the material to be measured, and stress-induced luminescent structure - In one embodiment of the present invention, on the surface of a material to be measured for stress analysis which has a stress-induced luminescent material layer formed thereon, a distortion energy is disclosed which is transmitted from a base material of a stress-induced luminescent material to the stress-induced luminescent material with high efficiency. The material to be measured for stress analysis has, on the surface thereof, a coating film layer, which emits light upon exposure to a change in distortion energy. The coating film layer is formed of a synthetic resin layer containing stress-induced luminescent particles, and the modulus of elasticity of a base material is not less than 1.0 GPa. The thickness of the coating film layer is preferably 1 μm to 500 μm. | 11-19-2009 |
20100304141 | CARBON MICROPARTICLE HAVING LIGNIN AS RAW MATERIAL AND PREPARATION METHOD THEREFOR - The present invention provides a method for preparing a carbon microparticle from an organic raw material having lignin as a main constituent, and a carbon microparticle obtained thereby. | 12-02-2010 |
20110281113 | HOLLOW CARBON MICROPARTICLE AND METHOD FOR PRODUCING SAME - Elastic and ultra-lightweight hollow carbon fine particles and a method for producing such hollow carbon fine particles are to be provided. In the method, fine droplets are formed from a mixed solution containing a water soluble organic substance and lithium carbonate; composite fine particles of the water soluble organic substance and the lithium carbonate are prepared by drying the fine droplets formed from the mixed solution; and the composite fine particles are decomposed at a temperature in a range of 500° C. to 900° C. | 11-17-2011 |
20120269715 | CARBON MICROPARTICLE HAVING LIGNIN AS RAW MATERIAL AND PREPARATION METHOD THEREFOR - A method for preparing a carbon microparticle from an organic raw material having lignin as a main constituent, wherein an aqueous solution with 5% total concentration of lignin and sodium hydroxide (the proportion in mass is 1:0.5) is spray-dried to prepare a complex microparticle. This complex microparticle is heat-processed under nitrogen atmosphere at 600° C. for one hour and cooled. Thereafter, this is washed with water and further dried to prepare a hollow carbon microparticle such as those shown in FIG. | 10-25-2012 |
Patent application number | Description | Published |
20150331625 | MEMORY SYSTEM AND METHOD OF CONTROLLING MEMORY SYSTEM - According to one embodiment, a memory system includes a nonvolatile memory including a plurality of blocks, and a controller controlling the nonvolatile memory. The controller cyclically executes patrol read, the patrol read including reading data and testing the read data, the read data being data of pages connected to some of word lines in each of the blocks of the nonvolatile memory. | 11-19-2015 |
20150332758 | MEMORY SYSTEM AND METHOD OF CONTROLLING MEMORY SYSTEM - According to an embodiment, a controller performs a coding process based on a first frame including data of a plurality of pages connected to first word lines being a predetermined number of consecutive word lines in a block, and performs, when padding data is written to a plurality of pages connected to second word lines being the predetermined number of word lines subsequent to the first word lines, the coding process based on a second frame obtained by excluding the padding data from a frame including data of the pages connected to the second word lines. | 11-19-2015 |
20150339069 | MEMORY SYSTEM AND METHOD - According to one embodiment, a memory system includes a first memory, a second memory, and a processor. The second memory stores first management information and second management information. The first management information has an information that associates a logical address with a physical address. The second management information has an information which has a volume of valid data in each block included in the first memory. The controller updates the first management information and the second management information. When saving a differential data in the first memory, the controller stores the differential data and the second management information in one page of the first memory. The differential data is a difference between before and after update of the first management information. When restoring the second management information, the controller loads to the second memory the second management information stored in the first memory. | 11-26-2015 |
20150339223 | MEMORY SYSTEM AND METHOD - According to one embodiment, a memory system includes a nonvolatile semiconductor memory and a controller. The nonvolatile semiconductor memory includes a plurality of parallel operation elements each having a plurality of physical blocks. The controller drives the plurality of parallel operation elements in parallel. The controller associates each of a plurality of logical blocks with a plurality of physical blocks each belonging to different parallel operation elements. The controller levels, among the plurality of logical blocks, the numbers of Bad blocks included in the plurality of physical blocks being associated with each of the plurality of logical blocks. | 11-26-2015 |
Patent application number | Description | Published |
20120254514 | MEMORY SYSTEM, CONTROLLER, AND METHOD FOR CONTROLLING MEMORY SYSTEM - According to one embodiment, a memory system includes nonvolatile memory and storage unit storing a translation table indicating, by a predetermined management unit, relationships between logical addresses specified by a host and physical addresses in the nonvolatile memory. A memory system of the embodiment includes a controller that when receiving from the host a delete notification indicating a delete area smaller than the management unit specified by a logical address, write a specified data pattern to an area of the nonvolatile memory having a physical address corresponding to the delete area. | 10-04-2012 |
20130246689 | MEMORY SYSTEM, DATA MANAGEMENT METHOD, AND COMPUTER - According to one embodiment, a memory system includes a non-volatile memory, a volatile memory, a controller, and a compression/decompression processor. When data transmission is performed through the volatile memory between a host apparatus and the non-volatile memory, the controller updates management information stored in the volatile memory. In addition, the compression/decompression processor compresses the management information in the case where a first condition is satisfied, and decompresses the compressed management information in the case where a second condition is satisfied. The controller stores the compressed management information in the non-volatile memory. | 09-19-2013 |
Patent application number | Description | Published |
20120004555 | METHOD OF STRETCHING ORGANIC PIEZOELECTRIC MATERIAL, METHOD OF MANUFACTURING ORGANIC PIEZOELECTRIC MATERIAL, ULTRASONIC TRANSDUCER, ULTRASONIC WAVE PROBE AND ULTRASONIC WAVE MEDICAL IMAGE DIAGNOSIS DEVICE - Provided is a stretching method of an organic piezoelectric material which sequentially performs a primary stretching step for carrying out primary stretching of an organic piezoelectric material which has not been stretched, a heat treatment step for heat treating the organic piezoelectric material subjected to primary stretching, and a cooling step for carrying out secondary stretching of the heat treated organic piezoelectric material while the organic piezoelectric material is cooled down to the room temperature, and is characterized in that tension is applied continuously to the organic piezoelectric material from the primary stretching step to the cooling step without releasing the tension, and heat treatment is carried out while keeping the tension in a range of 0.1-500 kPa. A stretching method and a production method for producing an organic piezoelectric material exhibiting excellent planarity, machining characteristics and piezoelectric characteristics and suitable for high frequency and broadband are thereby provided, and an ultrasound transducer using the organic piezoelectric material produced by the method, and an ultrasound medical image diagnosis device are also provided. | 01-05-2012 |
20120041314 | ORGANIC PIEZOELECTRIC MATERIAL, ULTRASOUND PROBE, AND ULTRASOUND IMAGE DETECTOR - In the present invention, provided is an organic piezoelectric material specifically exhibiting high orientation and thermal stability as an organic piezoelectric material exhibiting an excellent piezoelectric characteristic and having piezoelectricity and pyroelectricity, which is capable of converting thermal or mechanical simulation into electrical energy, and also provided are an ultrasound probe for which the organic piezoelectric material is used, and an ultrasound image detector thereof. It is a feature that an organic piezoelectric material of the present invention possesses a compound represented by Formula (1) and a base material made of an organic polymeric material, satisfying Expression (1): |CLogP (1)−CLogP (base material)|≦3.0 when CLogP values of the compound and the base material are expressed as CLogP (1) and CLogP (base material), respectively. | 02-16-2012 |
20120065516 | ORGANIC PIEZOELECTRIC MATERIAL, ULTRASOUND TRANSDUCER, ULTRASOUND PROBE, AND ULTRASOUND MEDICAL DIAGNOSTIC IMAGING SYSTEM - Disclosed is an organic piezoelectric material which has excellent piezoelectric characteristics and excellent handling properties. Also disclosed are an ultrasound transducer using the organic piezoelectric material, an ultrasound probe, and an ultrasound medical diagnostic imaging system. Specifically disclosed is an organic piezoelectric material which contains a base material that is formed from a resin, and a specific compound (1) that has at least one linking group selected from among specific linking groups. The organic piezoelectric material is characterized in that the relation shown below is satisfied when the CLogP values of the specific compound (1) and the base material are respectively represented by CLogP(1) and CLogP(base material). Relation: |CLogP(1)−CLogP(base material)|≦3.0. | 03-15-2012 |
20120220872 | ULTRASOUND PROBE AND ULTRASOUND DIAGNOSTIC APPARATUS - An ultrasound probe includes a piezoelectric section to transmit and receive ultrasound, wherein the piezoelectric section includes a plurality of laminated piezoelectric layers each of which includes piezoelectric members and non-piezoelectric members both of which are arranged alternately in parallel to each other in an arrangement direction, and wherein the arrangement direction of the piezoelectric members and the non-piezoelectric members in at least one piezoelectric layer of the plurality of laminated piezoelectric layers is different from that in other one piezoelectric layer of the plurality of laminated piezoelectric layers. | 08-30-2012 |
20120256521 | LAMINATED PIEZOELECTRIC MATERIAL, ULTRASOUND PROBE, AND ULTRASOUND DIAGNOSTIC APPARATUS - A laminated piezoelectric material has a four-layered piezoelectric material and electrode layers for applying a voltage to each layer of the four-layered piezoelectric material. Each piezoelectric material has an inorganic piezoelectric material with a remanent polarization in a thickness direction. The layers are laminated so that a direction of an electric field is counter to a direction of the remanent polarization in one of the layers and the direction of the electric field coincides with the direction of the remanent polarization in the other three layers, or the direction of the electric field coincides with the direction of the remanent polarization in one of the layers and the direction of the electric field is counter to the direction of remanent polarization in the other three layers, when a voltage is applied to each piezoelectric material of the four-layered piezoelectric material via electrode layers. | 10-11-2012 |
20130085390 | ULTRASOUND TRANSDUCER, ULTRASOUND PROBE, AND ULTRASOUND DIAGNOSTIC APPARATUS - Object is that an output sound pressure at transmission or an output voltage at reception of a predetermined higher resonance component becomes higher than those of the primary resonance component. The piezoelectric material layer | 04-04-2013 |