Patent application number | Description | Published |
20100057420 | APPARATUS FOR PROCESSING 3-DIMENSIONAL STRUCTURE OF PROTEIN, METHOD OF PROCESSING 3-DIMENSIONAL STRUCTURE OF PROTEIN, AND PROGRAM - An apparatus for processing 3-dimensional structure of protein includes a control unit and a storage unit, wherein the storage unit stores 3-dimensional structure information of protein, and the control unit predicts 3-dimensional structure information of protein after the mutation when an arbitrary amino acid residue A in the 3-dimensional structure information of protein stored in the storage unit is mutated into another amino acid residue a, thereof from the 3-dimensional structure information of protein before and after the mutation, collects the amino acid residue A, the amino acid residue a, environment information P, and environment information p, which are related to each other, as information on environmental change, when the environment information P around the amino acid residue A before the mutation changes to the environment information p around the amino acid residue a after the mutation, thereby storing information on the environmental change in the storage unit. | 03-04-2010 |
20100312538 | APPARATUS FOR IN SILICO SCREENING, AND METHOD OF IN SILOCO SCREENING - The present invention provides an apparatus including a compound database which has been produced by extracting fingerprints of compound related to plural atoms in a compound for each candidate compound, characterized by extracting the fingerprints of compound of binding compounds that are already known to bind to family proteins having 3-dimensional structure that is identical or similar to that of target protein, together with the 3-dimensional coordinates that have been converted into the coordinate system of the target protein, to produce a fingerprint set of binding compound, and for a candidate compound stored in the compound database, computing the 3-dimensional structure of the candidate compound with respect to the target protein, so that the interaction score based on the root-mean-square deviation of a unit of fingerprint of compound calculated on the basis of the 3-dimensional coordinates of the fingerprint set of binding compound is optimized. | 12-09-2010 |
Patent application number | Description | Published |
20150243960 | SECONDARY BATTERY COMPRISING CURRENT INTERRUPT DEVICE - In a secondary battery ( | 08-27-2015 |
20150333323 | NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY - A non-aqueous electrolyte secondary battery includes: a pressure-type current interrupt device arranged in a conductive path, for interrupting the conductive path when an internal pressure exceeds a working pressure; a non-aqueous electrolyte; and a positive electrode composite material layer. The non-aqueous electrolyte contains a gas generation agent that generates a gas in an overcharge region, and the positive electrode composite material layer contains a first positive electrode active material particle including lithium iron phosphate, and a second positive electrode active material particle including lithium-nickel composite oxide. A ratio of the first positive electrode active material particle to a total mass of the first positive electrode active material particle and the second positive electrode active material particle is 5% by mass or more and 20% by mass or less. | 11-19-2015 |
20150333324 | NONAQUEOUS ELECTROLYTE SECONDARY BATTERY AND METHOD OF PRODUCING SAME - A nonaqueous electrolyte secondary battery includes: a positive electrode collector core material; and a sheet body including a plurality of granulation bodies. The sheet body is disposed on the positive electrode collector core material. The granulation bodies each contain a first positive electrode active material particle, a second positive electrode active material particle, and expanded graphite, the first positive electrode active material particle including lithium-nickel composite oxide, the second positive electrode active material particle including lithium iron phosphate. | 11-19-2015 |
20150349303 | SECONDARY BATTERY AND METHOD FOR MANUFACTURING THE SAME - Provided is a secondary battery in which a battery lid is fixed to a battery case by inserting the battery lid into an opening of the battery case having the opening, and emitting laser beams to a butting portion between the battery case and the battery lid to perform butt welding, wherein, when a battery lid-side welding mark formed in the battery lid has a distance from a surface of the battery lid to a lower end of the battery lid-side welding mark which is defined as a battery lid-side welding depth, and a battery case-side welding mark formed in the battery case has a distance from the surface of the battery lid to a lower end of the battery case-side welding mark which is defined as a battery case-side welding depth, the battery lid-side welding depth is deeper than the battery case-side welding depth. | 12-03-2015 |
20160064720 | SECONDARY-BATTERY COLLECTOR TERMINAL AND MANUFACTURING METHOD OF SECONDARY BATTERY - A secondary-battery collector terminal to be welded to an edge portion of an electrode body includes: a flat portion having a front surface and a back surface; and a welding projection portion having a linearly extending shape, the welding projection portion being formed by projecting a part of the flat portion. The welding projection portion has a shape projecting relative to the flat portion so that a front-surface side thereof exhibits a projecting shape and a back-surface side thereof exhibits a recessed shape. When a sectional shape of the welding projection portion in a direction perpendicular to an extending direction thereof is viewed, a surface shape of that first region of the welding projection portion which is placed on the front-surface is curved, and a surface shape of that second region of the welding projection portion which is placed on a back-surface side relative to the first region is flat. | 03-03-2016 |
20160093877 | NONAQUEOUS ELECTROLYTE RECHARGEABLE BATTERY - A positive electrode collector includes a main body layer and a surface layer. The surface layer is provided at least at a portion of a surface of the main body layer where the positive electrode mixture layer is provided, and is made of a carbon material. A first positive electrode active material is made of first lithium complex oxide having a layered crystal structure. A second positive electrode active material includes a particle made of second lithium complex oxide having an olivine crystal structure, a carbon film provided at least at a part of a surface of the particle, and alginic acid salt provided at least at a part of a surface of the carbon film. A conducting agent in the positive electrode mixture layer includes a carbon particle and alginic acid salt provided at least at a part of a surface of the carbon particle. | 03-31-2016 |
Patent application number | Description | Published |
20120244021 | PUMP MOUNTING STRUCTURE - A pump mounting structure is disclosed. The structure includes a mounting surface on a body having an insertion recess, and at least one mounting member having a mounting portion inserted into the insertion recess. The mounting portion has an outer surface and an insertion hole through which a bolt is inserted. A first gap is formed between the insertion hole and the bolt. A second gap is formed between the outer surface of the mounting portion and an inner surface of the insertion recess. A seal member is disposed on an open side of the insertion recess. | 09-27-2012 |
20120248915 | PERMANENT MAGNET EMBEDDED ROTOR FOR ROTATING ELECTRIC MACHINE AND ROTATING ELECTRIC MACHINE - An accommodating recess ( | 10-04-2012 |
20130043757 | INTERIOR PERMANENT MAGNET MOTOR - An interior permanent magnet motor includes a rotor and a stator. The rotor includes a rotor core. The rotor core is formed by laminating steel plates each including pairs of magnet insertion holes and pairs of cutouts. Each pair of magnet insertion holes includes two magnet insertion holes that are arranged in a V-shape, the wide end of which is relatively closer to the outer edge with a support portion located in between. Each pair of cutouts is formed at q-axis ends of the corresponding magnet insertion holes, and includes two cutouts connected to the outer edge of the rotor core. In a state where the permanent magnets are inserted in the magnet insertion holes, a gap is formed at a d-axis end of each magnet insertion hole. | 02-21-2013 |
20140287865 | ROTATING ELECTRIC MACHINE - A rotating electric machine includes a rotor having a cylindrical peripheral wall having a permanent magnet arranged circumferentially therein, and a stator provided on an outer side of the peripheral wall of the rotor. Further, the rotating electric machine includes a planetary roller provided in a planetary roller mechanism chamber on an inner side of the peripheral wall of the rotor so as to be rotated by a rotation of the rotor transmitted from the peripheral wall to a planetary roller surface of the planetary roller, an output shaft provided on the inner side of the peripheral wall of the rotor so as to be rotated by a rotation of the planetary roller transmitted to the output shaft via the planetary roller surface, and magnetic lubricating oil included in the inner side of the peripheral wall of the rotor. | 09-25-2014 |
20150267707 | MOTOR-DRIVEN TURBO COMPRESSOR - In a compressor of the present invention, an intermediate pressure port through which a first discharge chamber and a motor chamber communicate with each other is formed in a front housing. A refrigerant having an intermediate pressure is discharged to the first discharge chamber. Consequently, it is possible to guide the refrigerant having the intermediate pressure in the first discharge chamber to the motor chamber, and cool an electric motor, which generates heat during actuation, with the refrigerant having the intermediate pressure. In the compressor, a first impeller and a second impeller are disposed such that large diameter portions of the first impeller and the second impeller face each other. The second impeller is smaller in diameter than the first impeller. | 09-24-2015 |
Patent application number | Description | Published |
20080272708 | Driving circuit for and semiconductor device for driving laser diode - A driving circuit supplies a suppression current (I | 11-06-2008 |
20090147633 | OPTICAL DISK APPARATUS, SIGNAL PROCESSING SEMICONDUCTOR INTEGRATED CIRCUIT CONSTITUTING THE SAME, AND OPERATION METHOD - In order to cancel an offset caused by a variation of a signal inputted from an optical pickup, variations of elements in an integrated circuit, etc., a calibration circuit which generates and feeds back an offset adjustment amount that makes the offset zero by a comparison with a reference value, and an offset adjustment circuit that makes the offset zero using the fed-back control signal are provided in an analog front-end LSI. The offset adjustment by the calibration circuit is automatically done in response to commands supplied from a digital signal processing LSI, a host control device, etc. On the other hand, as for a signal on which arithmetic processing such as gain control, addition and subtraction, is performed, the offset adjustment is performed by sending the offset adjustment amount obtained by an arithmetic operation performed by software processing of the digital signal processing LSI to the analog front-end. | 06-11-2009 |
20100295461 | DRIVING CIRCUIT FOR AND SEMICONDUCTOR DEVICE FOR DRIVING LASER DIODE - A driving circuit supplies a suppression current (I | 11-25-2010 |
20120081021 | DRIVING CIRCUIT FOR AND SEMICONDUCTOR DEVICE FOR DRIVING LASER DIODE - A driving circuit supplies a suppression current (I | 04-05-2012 |
Patent application number | Description | Published |
20110203726 | METHOD FOR MANUFACTURING RESIN MOLDING - A method for manufacturing a resin molding that uses a laser beam can provide a high level of adhesion, an excellent appearance, and can include very strong welded portions. The method can include preparing a light-transmitting resin member having a protruding portion formed on a rear surface of the light-transmitting resin member and having an end surface, the protruding portion having both side surfaces having asymmetric inclination angles with respect to the normal of the end surface of the protruding portion. The method can also include arranging and pressing together the end surface of the protruding portion that is a welded region of the light-transmitting resin member, and a welded region of a corresponding light-absorbing resin member so that they are opposed to each other. A laser beam can be emitted from a laser light source to be incident on a surface of the light-transmitting resin member while the laser beam is refracted. The method can also include repeatedly irradiating the laser beam onto the welded regions to heat and fuse the entire welded regions to weld the light-transmitting resin member and the light-absorbing resin member while opposed to each other and pressed together, wherein the inclination angle of the side surface of the protruding member near the laser light source is equal to or more than a travel angle of the refracted laser beam. | 08-25-2011 |
20110298160 | METHOD FOR MANUFACTURING RESIN MOLDING AND LASER BEAM IRRADIATION APPARATUS - A method for manufacturing a resin molding can be provided that uses a laser beam. The method can include providing the resin molding including welded portions that can impart high level of adhesion, have excellent appearance and provide very strong bonding strength. The method can also include arranging and pressing a weld region of a light-absorbing resin member and corresponding weld region of a light-transmitting resin member that are opposed to each other, and setting a plurality of irradiation areas in the extending direction of the welded regions. The method can also include arranging a plurality of laser irradiation scanning heads corresponding to the irradiation areas. Here, the irradiation areas can include a single irradiation area which the corresponding scanning head can irradiate with the laser beam and a composite irradiation area which the adjacent scanning heads can irradiate with respective laser beams. The method can further include causing the plurality of laser beams emitted from the scanning heads to repeatedly scan the single irradiation area along a first trajectory in the extending direction of the single irradiation area and part of both the single irradiation area and the composite irradiation area along a second trajectory in the extending direction, so that the entire welded regions are heated and fused to weld the light-transmitting resin member and the light-absorbing resin member. | 12-08-2011 |
20110317443 | VEHICLE LIGHTING FITTING AND METHOD FOR MANUFACTURING VEHICLE LIGHTING FITTING - A vehicle lighting fitting can include a housing including an opening end portion, a lens, an outer peripheral portion of which is laser-welded to the opening end portion to define a lighting chamber, and a decorative member disposed in the lighting chamber. The resin decorative member can include an outer peripheral portion on which a joint portion and a non-joint portion are alternately formed along a perimeter thereof, wherein the joint portion of the decorative member and the opening end portion of the housing are laser-welded in a state in which clearances are maintained between the non-joint portion of the decorative member and the housing, and between the lens and the housing. | 12-29-2011 |
Patent application number | Description | Published |
20090025537 | APPARATUS AND METHOD FOR SYNTHESIZING A PLURALITY OF WAVEFORMS IN SYNCHRONIZED MANNER - A plurality of blocks of waveform data are stored in a memory, which also stores, for each of the blocks, synchronizing information representative of a plurality of cycle synchronizing points that are indicative of periodic specific phase positions where the block of waveform data should be synchronized in phase with another block of waveform data. Two blocks of waveform data (e.g., harmonic and nonharmonic components) are read out from the memory, along with the synchronizing information. On the basis of the synchronizing information, the readout of two blocks of waveform data is controlled using the synchronizing information. There is stored, for each of the blocks, at least one piece of synchronizing position information indicative of a specific position where the block should be synchronized with another block, and the readout of the individual blocks of waveform data is controlled so that the blocks are synchronized with each other using the synchronizing position information. | 01-29-2009 |
20120106746 | Technique for Estimating Particular Audio Component - Candidate frequencies per unit segment of an audio signal are identified. First processing section identifies an estimated train that is a time series of candidate frequencies, each selected for a different one of the segments, arranged over a plurality of the unit segments and that has a high likelihood of corresponding to a time series of fundamental frequencies of a target component. Second processing section identifies a state train of states, each indicative of one of sound-generating and non-sound-generating states of the target component in a different one of the segments, arranged over the unit segments. Frequency information which designates, as a fundamental frequency of the target component, a candidate frequency corresponding to the unit segment in the estimated train is generated for each unit segment corresponding to the sound-generating state. Frequency information indicative of no sound generation is generated for each unit segment corresponding to the non-sound-generating state. | 05-03-2012 |
20120106758 | Technique for Suppressing Particular Audio Component - A coefficient train processing section, which sequentially generates per unit segment a processing coefficient train for suppressing a target component of an audio signal, includes a basic coefficient train generation section and coefficient train processing section. The basic coefficient train generation section generates a basic coefficient train where basic coefficient values corresponding to frequencies within a particular frequency band range are each set at a suppression value that suppresses the audio signal while coefficient values corresponding to frequencies outside the particular frequency band range are each set at a pass value that maintains the audio signal. The coefficient train processing section generates the processing coefficient train, per unit segment, by changing, to the pass value, each of the coefficient values corresponding to frequencies other than the target component among the coefficient values corresponding to the frequencies within the particular frequency band range. | 05-03-2012 |
20120201385 | Graphical Audio Signal Control - Signal processing section of a terminal converts acquired audio signals of a plurality of channels into frequency spectra set, calculates sound image positions corresponding to individual frequency components, and displays, on a display screen, the calculated sound image positions results by use of a coordinate system having coordinate axes of the frequency components and sound image positions. User-designated partial region of the coordinate system is set as a designated region and an amplitude-level adjusting amount is set for the designated region, so that the signal processing section adjusts amplitude levels of frequency components included in the frequency spectra and in the designated region, converts the adjusted frequency components into audio signals and outputs the converted audio signals. | 08-09-2012 |
20130243211 | SOUND PROCESSING APPARATUS - In a sound processing apparatus, a likelihood calculation unit calculates an in-region coefficient and an out-of-region coefficient indicating likelihood of generation of each frequency component of a sound signal inside and outside a target localization range, respectively, according to localization of each frequency component. A reverberation analysis unit calculates a reverberation index value according to the ratio of a reverberation component for each frequency component. A coefficient setting unit generates a process coefficient for suppressing or emphasizing a reverberation component generated inside or outside the target localization range, for each frequency component of the sound signal, on the basis of the in-region coefficient, the out-of-region coefficient and the reverberation index value. A signal processing unit applies the process coefficient of each frequency component to each frequency component of the sound signal. | 09-19-2013 |
20150277731 | SCORE DISPLAYING METHOD AND STORAGE MEDIUM - Once obtained a turn-over instruction to proceed a score on one image area to which one grand staff among plural grand staves displayed on a screen of a user I/F belongs, a controller of a score displaying apparatus performs a process of scrolling the image areas upward on the screen of the user I/F, disposing the image area on which the turn-over instruction is accepted at a highest level of the screen of the user I/F, sequentially aligning a plurality of consecutive image areas in a forward direction on a timeline of the score with respect to the image area on which the turn-over instruction is accepted below the image area on which the turn-over instruction is accepted, and displaying the image areas on the screen of the user I/F. | 10-01-2015 |
20150279342 | SCORE DISPLAYING METHOD AND STORAGE MEDIUM - A controller of a score displaying apparatus operates in a view mode displaying a score on a screen of a user I/F | 10-01-2015 |