Patent application number | Description | Published |
20090026297 | Powder Based Granules Disintegrating And Sizing Device - A powder based granules disintegrating and sizing device having a drive shaft in a horizontal direction inside a casing, a rotor fixed to the drive shaft, a sizing stator having an inclined surface a gap section A where the powder based granules settles being formed by the plate surface of the rotor and the inclined surface of the sizing stator, and a disintegrating and sizing section B being formed by the narrowest gap section between the circumferential edge of the rotor and the sizing stator. The drive shaft is supported in a cantilever fashion, the rotor is fixed to an open side end portion thereof, the sizing stator is installed over the whole circumference of the rotor, a raw material supply port is opened in the vicinity of the central portion of the rotor, and a product output port is opened in the vicinity of position directly below the rotor. | 01-29-2009 |
20090108112 | Powder Based Granules Disintegrating and Sizing Device, and Powder Based Granules Disintegrating and Sizing Method - A powder based granules disintegrating and sizing device, includes: a drive shaft that is inserted horizontally in the casing main body; a plurality of circular plates that are fixedly supported at intervals by the drive shaft; and a stator, the plate surface of the circular plate and the inclined surface of the stator configuring a gap portion A where a powder based granules accumulates, and a narrowest gap portion between the circumferential edge of the circular plate and the stator configuring a disintegrating and sizing portion B. The stator stretches over the entire circumference of the circular plate, a raw material feeding port is provided on a side wall in the vicinity of the drive shaft of the casing main body, and a cutout portion through which a raw material passes is formed on the plate surface of the circular plate. | 04-30-2009 |
Patent application number | Description | Published |
20090016228 | Transmitting apparatus, receiving apparatus, error correcting system, transmitting method, and error correcting method - A transmitting apparatus includes a generating unit and a transmitting unit. The generating unit generates first error correction packets by performing predetermined operation processing on a plurality of data packets arranged in a plurality of rows and columns respectively in each of the rows and columns and generating at least one second error correction packet by performing the predetermined operation processing on the data packets existing in a diagonal direction crossing the plurality of rows and columns. The transmitting unit transmits the plurality of data packets and the generated first and second error correction packets. | 01-15-2009 |
20100265932 | Wireless transmitter, wireless transmission method, wireless receiver and wireless reception method - A wireless transmitter which includes: a packetizer which generates a special packet with a payload containing transmitted video signals and a header containing distinguishing information used to distinguish the special packet from an IP packet; and a wireless transmitting section for generating and transmitting wireless radio signals which contain a special packet generated by the packetizer. | 10-21-2010 |
20140071232 | IMAGE DATA TRANSMISSION DEVICE, IMAGE DATA TRANSMISSION METHOD, AND IMAGE DATA RECEPTION DEVICE - A reception side is enabled to appropriately and accurately handle a dynamic variation in delivery content and to receive a correct stream. | 03-13-2014 |
20140168366 | ENCODING DEVICE AND ENCODING METHOD, AND DECODING DEVICE AND DECODING METHOD - The present technique relates to an encoding device and an encoding method, and a decoding device and a decoding method that can encode and decode high-frame-rate images by a method having compatibility with a method for conventional low-frame-rate images. A base encoder encodes conventional-frame-rate image data in high-frame-rate data as base views. A non-base encoder encodes the image data other than the base views in the high-frame-rate data as non-base views by referring to the base views. An SEI generation unit generates display control information. An antenna transmits the encoded base views, the encoded non-base views, and the display control information. The present technique can be applied to TV transmitters that transmit TV broadcasts, for example. | 06-19-2014 |
Patent application number | Description | Published |
20090116166 | APPARATUS AND METHOD FOR GENERATING ATMOSPHERIC-PRESSURE PLASMA - An apparatus for generating atmospheric-pressure plasma includes: a substrate; an antenna arranged on the substrate; a discharge tube arranged in the vicinity of the antenna; a high-frequency power supply for supplying VHF band high-frequency power to the antenna; and a matching circuit for receiving a high frequency from the high-frequency power supply and adjusting a reflection wave. In this apparatus for generating atmospheric-pressure plasma, a phase circuit is connected between the matching circuit and the antenna, and the phase circuit has a circuit constant setting such that a position of a maximum value of a current amplitude of a standing wave or a position of a minimum value of a voltage amplitude of the standing wave is in the vicinity of the antenna. This configuration can efficiently generate plasma and reduce the size of the apparatus. | 05-07-2009 |
20100035769 | BIOMOLECULE ASSAY CHIP - It is an object of the present invention to provide a method for producing a biomolecule assay chip using a microreactor technique, and a chip produced by the method. | 02-11-2010 |
20130237430 | PROTEIN OR PEPTIDE PRINTING METHOD, PROTEIN ARRAY OR PEPTIDE ARRAY AND FUNCTIONAL PROTEIN OR FUNCTIONAL PEPTIDE IDENTIFICATION METHOD - The present invention relates to a protein or peptide printing method, comprising (a) a step for preparing nucleic acids and a cell-free protein synthesis system in an engraved plate composed of microscopic grooves having a specific opening shape, (b) a step for superimposing a substrate on the engraved plate so as to contact a protein or peptide to be synthesized in the microscopic grooves, and (c) a step for synthesizing the protein or peptide from the nucleic acids using the cell-free protein synthesis system in the microscopic grooves, and immobilizing the protein or peptide on the substrate along the specific opening shapes of the microscopic grooves. | 09-12-2013 |
20140296111 | Protein-Immobilizing Solid Phase, Polynucleotide-Immobilizing Solid Phase, and Nucleic Acid Recovery Method - A protein-immobilizing solid phase is a protein-immobilizing solid phase comprising an mRNA-nucleic acid linker-protein complex, obtained by linking the mRNA and the protein encoded by that mRNA through the nucleic acid linker, immobilized on the solid phase, wherein the nucleic acid linker has a photocleavage site and a solid phase binding site. | 10-02-2014 |
20150028235 | VALVE, MICROFLUIDIC DEVICE, MICROSTRUCTURE, VALVE SHEET, METHOD OF MANUFACTURING VALVE SHEET, AND METHOD OF MANUFACTURING MICROFLUIDIC DEVICE - Provided is a valve formed of a shape-memory polymer disposed in a flow channel, in which a flow of fluid in the flow channel is adjusted by deformation of the valve. | 01-29-2015 |
20150051105 | NUCLEIC ACID DETECTION METHOD, DETECTION PROBE, DETECTION PROBE SET, AND NUCLEIC ACID QUANTIFICATION METHOD - A method for detecting a target nucleic acid, comprising: (a) contacting a nucleic acid sample comprising a target nucleic acid, comprising a first portion and a second portion, with: (i) a detection probe, wherein the detection probe is labeled with a labeling substance and comprises a nucleic acid sequence that forms a stem-loop structure and having a 5′ protruding end or a 3′ protruding end that is capable of hybridizing to the second portion, and (ii) a capture probe comprising a nucleic acid sequence capable of hybridizing to the first portion, wherein the capture probe is immobilized to a substrate, under conditions to form a target nucleic acid-detection probe-capture probe complex by hybridizing the second portion to the detection probe and hybridizing the first portion to the capture probe; (b) ligating a first end of the detection probe with an end of the target nucleic acid and ligating a second end of the detection probe with an end of the capture probe; and (c) detecting the labeling substance of the nucleic acid-detection probe-capture probe complex formed on the substrate. | 02-19-2015 |
Patent application number | Description | Published |
20090128965 | CPP MAGNETO-RESISTIVE ELEMENT PROVIDED WITH A PAIR OF MAGNETIC LAYERS AND NICR BUFFER LAYER - A magnetic field detecting element has a stack which includes a NiCr layer, a first magnetic layer whose magnetization direction varies in accordance with an external magnetic field, a non-magnetic spacer layer, and a second magnetic layer whose magnetization direction varies in accordance with the external magnetic field, said NiCr layer, said first magnetic layer, said spacer layer and said second magnetic layer being disposed in this order and being arranged in contact with each other, wherein a sense current is adapted to flow in a direction that is perpendicular to a film surface of said stack; and a bias magnetic layer which is disposed on a side of said stack, said side being opposite to an air bearing surface of said stack, wherein said bias magnetic layer is adapted to apply a bias magnetic field to said stack in a direction that is perpendicular to said air bearing surface. Both first and second magnetic layers have bcc crystalline structures, and said non-magnetic spacer layer has a film configuration in which an insulating layer or a semiconductor layer is inserted into a metal layer. | 05-21-2009 |
20090168264 | Magnetoresistive element and magnetic head - In an MR element, first and second ferromagnetic layers are antiferromagnetically coupled to each other through a spacer layer, and have magnetizations that are in opposite directions when no external magnetic field is applied thereto and that change directions in response to an external magnetic field. The spacer layer and the second ferromagnetic layer are stacked in this order on the first ferromagnetic layer. The first ferromagnetic layer includes a plurality of ferromagnetic material layers stacked, and an insertion layer made of a nonmagnetic material and inserted between respective two of the ferromagnetic material layers that are adjacent to each other along the direction in which the layers are stacked. The ferromagnetic material layers and the spacer layer each include a component whose crystal structure is a face-centered cubic structure. The spacer layer and the insertion layer are each composed of an element having an atomic radius greater than that of at least one element constituting the ferromagnetic material layers. | 07-02-2009 |
20090303640 | MAGNETO-RESISTANCE EFFECT ELEMENT PROVIDED WITH CURRENT LIMITING LAYER INCLUDING MAGNETIC MATERIAL - A magneto resistance effect element includes a first magnetic layer, a second magnetic layer and a spacer layer interposed between the first and second magnetic layers. The magneto resistance effect element is configured to allow sense current to flow in a direction that is perpendicular to film planes of the first magnetic layer, the second magnetic layer and the spacer layer so that a relative angle between a magnetization direction of the first magnetic layer and a magnetization direction of the second magnetic layer varies depending on an external magnetic field. The present invention aims at providing a magneto resistance effect element which ensures high resistance to sense current, while limiting the influence of the current limiting layer on the magnetic layer, and which thereby achieves a high magneto resistance ratio. | 12-10-2009 |