Patent application number | Description | Published |
20090028950 | GRANULE DISPERSION COMPOSITION, PROCESS FOR PRODUCING THE SAME, AND GRANULAR MATERIAL AND MEDICINE - The subject matter of the present invention is to provide a new particulate material dispersion composite in which a material poorly soluble in water is micronized and dispersed. For the above purpose, a particulate material dispersion composite is produced in the present invention, wherein a particulate material containing a specific material which is poorly soluble in water, a polymer and a lipid is dispersed in water, the mean diameter of said particulate material is 1 μm or less, and the ratio of the combined weight of said polymer and said lipid to the weight of said specific material is 1.5 or larger. | 01-29-2009 |
20110177306 | Novel Core-Shell Structure - To provide a new structure-dispersed composite in which a substance poorly soluble in a medium is dispersed as micronized particles, a core-shell structure is dispersed in the medium, wherein said core-shell structure contains microparticles therein, and consists of a core comp rising a core compound that is poorly soluble in said medium and a liquid shell comprising a shell compound that is poorly soluble in said medium, and the mean diameter of said core-shell structure is 10 μm or less. | 07-21-2011 |
20110261443 | HEAT RAY REFLECTIVE FILM AND LAMINATE THEREOF, AND COATING FLUID FOR FORMING HEAT RAY REFLECTIVE LAYER - Disclosed is a heat ray reflective film having a single layer structure, which has high heat ray reflectivity, can relatively control visible light absorption and visible light reflection and has excellent heat stability. Also disclosed is a heat ray reflective laminate which has high environmental durability and is suitable as a window material for buildings or automobiles. | 10-27-2011 |
Patent application number | Description | Published |
20090101986 | SEMICONDUCTOR DEVICE AND ELECTRONIC APPARATUS - A semiconductor device includes: a substrate having a first surface; an insulation layer; a semiconductor layer disposed to the first surface of the substrate with the insulation layer interposed between the semiconductor layer and the first surface; and a piezoelectric layer that is positioned between the first surface and the semiconductor layer, and disposed in a region included and interposed in the insulation layer. | 04-23-2009 |
20120038244 | PIEZOELECTRIC VIBRATION DEVICE, METHOD OF MANUFACTURING THE SAME, AND METHOD OF ADJUSTING RESONANT FREQUENCY - A method of manufacturing a piezoelectric vibration device having a surface acoustic wave element includes a step of forming a functional film adapted to increase a velocity of a wave on a surface of the surface acoustic wave element. Further, the Young's modulus of the functional film is higher than the Young's modulus of each of the excitation electrode and the piezoelectric body, and the density of the functional film is lower than the density of each of the excitation electrode and the piezoelectric body. Thus, it is possible to develop the frequency rise due to the elastic modulus rise while suppressing the influence of the frequency drop due to the mass attachment effect to thereby raise the resonant frequency of the surface acoustic wave element. | 02-16-2012 |
20150054888 | PIEZOELECTRIC ELEMENT, LIQUID EJECTING HEAD, LIQUID EJECTING APPARATUS AND PIEZOELECTRIC DEVICE - Provided is a piezoelectric element that has a first electrode, a piezoelectric layer provided on the first electrode, and a second electrode provided on the piezoelectric layer, an average grain size of crystal grains aligned in a planar direction within 15° from a (100) plane is less than the average grain size of the crystal grains facing a planar direction inclined by more than 15° from the (100) plane, in a case in which the crystal orientation of the piezoelectric layer is analyzed using an electron beam backscatter diffraction method (EBSD). | 02-26-2015 |
Patent application number | Description | Published |
20080295770 | Liquid substance supply device for vaporizing system, vaporizer, vaporization performance appraisal method - In a liquid substance supply device, a three port two valve directional control valve is provided in a transfer line, and a substance container and the transfer line are connected together by a four port three valve directional control valve in such a way that the four port three valve directional control valve and the substance container can be removed from the transfer line as a unit. Furthermore, in a vaporizer, an orifice member is provided to surround the end portion of an internal conduit in which flows a mixture substance consisting of a gas and a liquid substance mixed therewith, and gas for atomization is spouted into a vaporization chamber through a gap defined between the internal conduit and the orifice member. Yet further, the temperature of a vaporization surface in the vaporization chamber can be controlled independently in correspondence with the nature of the liquid substance. | 12-04-2008 |
20090045531 | Liquid substance supply device for vaporizing system, vaporizer, vaporization performance appraisal method - In a liquid substance supply device, a three port two valve directional control valve is provided in a transfer line, and a substance container and the transfer line are connected together by a four port three valve directional control valve in such a way that the four port three valve directional control valve and the substance container can be removed from the transfer line as a unit. Furthermore, in a vaporizer, an orifice member is provided to surround the end portion of an internal conduit in which flows a mixture substance consisting of a gas and a liquid substance mixed therewith, and gas for atomization is spouted into a vaporization chamber through a gap defined between the internal conduit and the orifice member. Yet further, the temperature of a vaporization surface in the vaporization chamber can be controlled independently in correspondence with the nature of the liquid substance. | 02-19-2009 |
Patent application number | Description | Published |
20090155101 | MOTOR-DRIVEN COMPRESSOR - A motor-driven compressor has a compression mechanism, a rotary shaft, an electric motor, a motor drive circuit, a connecting terminal and a housing assembly. The compression mechanism, the electric motor, and the motor drive circuit are disposed along the axial direction of the rotary shaft in the housing assembly having first through third housings. The first housing is used for mounting the electric motor and the compression mechanism. The second housing has a terminal mounting portion for fixing the connecting terminal. The first and second housings have fastening portions at the radially peripheral portion thereof. The third housing is joined to the second housing to form an accommodation space for accommodating the motor drive circuit. The closed casing is formed by fastening the fastening portions of the first and second housings by means of a first bolt and connecting the second housing to the open end of the first housing. | 06-18-2009 |
20090162221 | MOTOR-DRIVEN COMPRESSOR - A motor-driven compressor includes a housing having an inlet port, a compression mechanism for compression of refrigerant introduced from an external refrigerant circuit via the inlet port into the housing, an inverter having a heat-generating component, an electric motor driven by the inverter, and a rotary shaft rotated by the electric motor thereby to drive the compression mechanism. The electric motor, the compression mechanism and the inverter are aligned in the housing in axial direction of the rotary shaft. An inlet pipe is connected to the inlet port. The housing has an outer peripheral surface in contact with the inlet pipe. The heat-generating component of the inverter is disposed adjacent to or in contact with the inlet pipe so as to be thermally coupled to the inlet pipe. | 06-25-2009 |
20090162222 | MOTOR-DRIVEN COMPRESSOR - A compressor includes a housing having an inlet port, a compression mechanism for compression of refrigerant introduced via the inlet port into the housing, a motor having a stator core and a coil, an inverter for driving the motor, and a rotary shaft rotated by the motor thereby to drive the compression mechanism. The compression mechanism, the motor and the inverter are aligned in the order in the housing in axial direction of the rotary shaft. The coil has a coil end projecting toward the inverter from the stator core and being disposed adjacent to an inner peripheral surface of the housing. The inlet port is located so as to face the coil end. A recess is formed on the inner peripheral surface of the housing for communicating with the inlet port. The recess extends in the axial direction of the rotary shaft toward the inverter beyond the coil end. | 06-25-2009 |
20140248172 | SCROLL COMPRESSOR - A scroll compressor includes a housing, a fixed scroll, and a movable scroll. A compression chamber is formed between the movable scroll and the fixed scroll. An opposing wall is located in and fixed to the housing. A back pressure region is formed between the opposing wall and the movable scroll, and a back pressure in the back pressure region urges the movable scroll toward the fixed scroll. An annular sealing member is arranged between the movable scroll and the opposing wall. The movable scroll includes a holding portion that holds the sealing member. The sealing member includes a rubber portion, which elastically deforms in the holding portion, and a resin portion, which is made of a material harder than the rubber portion. The resin portion at least partially projects out of the holding portion toward the opposing wall. The resin portion is in contact with the opposing wall. | 09-04-2014 |
20150054365 | MOTOR-DRIVEN COMPRESSOR - A motor-driven compressor includes a metal housing accommodating a compression unit and an electric motor and a cover coupled to the housing. The cover and the housing define an accommodation chamber that accommodates a motor driving circuit that drives the electric motor. The cover includes a metal shield that blocks electromagnetic noise, a resin outer insulator that is fixed to an outer side of the shield and includes an outer circumferential portion, and a resin inner insulator that is fixed to an inner side of the shield and includes an outer circumferential portion. The shield, the outer insulator, and the inner insulator are separate from one another and stacked together. The shield is held between the outer insulator and the inner insulator. The outer circumferential portion of the outer insulator is joined to the outer circumferential portion of the inner insulator. | 02-26-2015 |
Patent application number | Description | Published |
20130229665 | STRUCTURED ILLUMINATION APPARATUS, STRUCTURED ILLUMINATION MICROSCOPY APPARATUS, AND PROFILE MEASURING APPARATUS - A structured illumination apparatus includes a light modulator being disposed in an exit flux of light from a light source and in which a sonic wave propagation path is arranged in a direction traversing the exit flux of light; a driving unit generating a sonic standing wave in the sonic wave propagation path by giving a driving signal for vibrating a medium of the sonic wave propagation path to the light modulator; and an illuminating optical system making mutually different diffracted components of the exit flux of light passed through the sonic wave propagation path to be interfered with each other, and forming interference fringes of the diffracted components on an observational object. | 09-05-2013 |
20140055594 | STRUCTURED ILLUMINATING MICROSCOPY AND STRUCTURED ILLUMINATING OBSERVATION METHOD - In order to realize a high-speed switching of structured pattern, a structured illuminating microscopy includes a driving unit generating a sonic standing wave in a sonic wave propagation path by giving a driving signal for vibrating a medium of the sonic wave propagation path to a light modulator, an illuminating optical system making at least three diffracted components of the exit light flux passed through the sonic wave propagation path to be interfered with one another, and forming interference fringes on an observational object, an image-forming optical system forming an image by an observational light flux from the observational object on a detector, and a controlling unit controlling a contrast of an image by modulating at least one of an intensity of the exit light flux, an intensity of the observational light flux, and the detector with a modulating signal of 1/N frequency of the driving signal. | 02-27-2014 |
20140092463 | STRUCTURED ILLUMINATION APPARATUS, STRUCTURED ILLUMINATION MICROSCOPY, AND STRUCTURED ILLUMINATION METHOD - A structured illumination apparatus includes a light modulator being disposed in a light path of an exit light flux from a light source, and in which a sonic wave propagation path is arranged in a direction traversing the exit light flux; a driving unit generating a sonic standing wave in the sonic wave propagation path by giving a driving signal for vibrating a medium of the sonic wave propagation path to the light modulator; an illuminating optical system making at least three diffracted lights of the exit light flux passed through the sonic wave propagation path to be interfered with one another, and forming interference fringes of the diffracted lights on an observational object; and a controlling unit controlling a contrast of the interference fringes by modulating a phase of at least one diffracted light among the diffracted lights in a predetermined pitch. | 04-03-2014 |
Patent application number | Description | Published |
20090027988 | Memory device, memory controller and memory system - An image memory, image memory system, and memory controller that are capable of efficiently accessing a rectangular area of two-dimensionally arrayed data are provided. The memory device has: a memory cell array that has a plurality of memory unit areas, each of which is selected by addresses; a plurality of input/output terminals; and an input/output unit provided between the memory cell array and the plurality of input/output terminals. Each of the memory unit areas stores therein data of a plurality of bytes or bits corresponding to the plurality of input/output terminals respectively, and the memory cell array and the input/output unit access a plurality of bytes or bits stored in a first memory unit area corresponding to the input address and in a second memory unit area adjacent to the first memory unit on the basis of the input address and combination information of the bytes or bits in response to a first operation code, and then, from the plurality of bytes or bits within the accessed first and second memory unit areas, associate a combination of the plurality of bytes or bits based on the combination information, with the plurality of input/output terminals. | 01-29-2009 |
20090190671 | TRANSCODING DEVICE, TRANSCODER, DECODER, AND TRANSCODING METHOD - A transcoding device has been disclosed, which reduces the influence of an error even if the error has occurred in a decode image before re-encoding (transcoding). The transcoding device includes a decoder that decodes image data encoded in a first format and a transcoder that re-encodes image data supplied from the decoder into a second format, wherein the decoder calculates and outputs an amount of decode errors at the time of decoding and a transcoder | 07-30-2009 |
20100146201 | MEMORY DEVICE, MEMORY CONTROLLER AND MEMORY SYSTEM - Provided is a memory device in which the decrease of the effective bandwidth caused by the refresh operation of the memory device has been solved, a memory controller of the memory device, and a memory system thereof. A memory device that is operated in response to a command from a memory controller has a plurality of banks that respectively have memory cores including memory cell arrays and decoders and are selected by bank addresses; and a control circuit, which, in response to a background refresh command, causes the memory cores within refresh target banks set by the memory controller to successively execute refresh operation a number of times corresponding to refresh burst length that is set by the memory controller, and, in response to a normal operation command, further causes the memory cores within banks other than the refresh target banks and selected by the bank addresses to execute normal memory operation corresponding to the normal operation command, during the refresh operation executed by the memory cores within the refresh target banks. | 06-10-2010 |
20100172200 | MEMORY DEVICE, MEMORY CONTROLLER AND MEMORY SYSTEM - Provided is a memory device in which the decrease of the effective bandwidth caused by the refresh operation of the memory device has been solved, a memory controller of the memory device, and a memory system thereof. A memory device that is operated in response to a command from a memory controller has a plurality of banks that respectively have memory cores including memory cell arrays and decoders and are selected by bank addresses; and a control circuit, which, in response to a background refresh command, causes the memory cores within refresh target banks set by the memory controller to successively execute refresh operation a number of times corresponding to refresh burst length that is set by the memory controller, and, in response to a normal operation command, further causes the memory cores within banks other than the refresh target banks and selected by the bank addresses to execute normal memory operation corresponding to the normal operation command, during the refresh operation executed by the memory cores within the refresh target banks. | 07-08-2010 |
20140133568 | MOVING IMAGE PROCESSING APPARATUS - A moving image processing apparatus has an encoder unit configured to include a plurality of encoders which respectively encode a plurality of divided images into which images of a moving image are divided in such a manner that each divided image includes an overlapped area to generate encoded divided image data; and a decoder unit configured to include a plurality of decoders which respectively decode the plurality of encoded divided image data inputted from the encoder unit and respectively extract information on motion vectors of the divided images; and a composition unit which blends a plurality of decoded divided images decoded and generated by the plurality of decoders respectively in the overlapped area to output the images of the moving image. And the composition unit determines a blend ratio of the overlapped area based on the information on the motion vectors. | 05-15-2014 |
Patent application number | Description | Published |
20100179010 | HYBRID VEHICLE POWER TRANSMISSION DEVICE AND HYBRID VEHICLE - A hybrid vehicle power transmission device provided with a power distribution mechanism composed of a planetary gear device for distributing motive power of a drive source to a motor and an output shaft is further provided with a damper device in a power transmission path between the power distribution mechanism and a first motor. Consequently, the damper device receives only reaction torque dealt by the first motor through the power distribution mechanism with respect to drive torque of an engine. Thus, since the torque transmitted to the damper device is smaller than the drive torque of the engine, the torque capacity of the damper device can be decreased and the size of the damper device can be reduced. As a result, the overall size of the power transmission device can be similarly reduced. | 07-15-2010 |
20120115619 | DAMPER MECHANISM - In this damper mechanism, when small fluctuations in torque input to the damper mechanism occur, small hysteresis torque is produced as a result of pressure contact between a radial plate and a first friction section. Consequently, the small torque fluctuations can be damped between the radial plate and the first friction region of the damper mechanism and can be output to an input shaft. In addition, along the direction of relative rotation of an annular plate and the radial plate, the friction coefficients of the annular plate and the radial plate become larger as the torsion angles of both plates become larger. Therefore, even when torque fluctuations become large, the hysteresis torque can be produced in accordance with the magnitude of the torque fluctuations. | 05-10-2012 |
Patent application number | Description | Published |
20090169768 | Substrate processing method and substrate processing apparatus - A substrate can be appropriately oxidized, while oxidation of the substrate can be suppressed. | 07-02-2009 |
20120252220 | SUBSTRATE PROCESSING APPARATUS, METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE, METHOD FOR PROCESSING SUBSTRATES - A substrate supporting member provided in a processing chamber for processing the substrate and configured to support the substrate, has on its upper surface, a protruding area that supports an edge side of the substrate from below; a recessed area provided inside of the protruding area so as not to be brought into contact with the substrate supported by the protruding area; and an auxiliary protruding area formed lower than the protruding area and provided in the recessed area, and has a flow passage that is communicated with inside of the recessed area, for escaping gas between the substrate and the substrate supporting member from the recessed area side. | 10-04-2012 |
20130095669 | SUBSTRATE PROCESSING METHOD AND SUBSTRATE PROCESSING APPARATUS - A substrate can be appropriately oxidized, while oxidation of the substrate can be suppressed. | 04-18-2013 |
20130252433 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD, SUBSTRATE PROCESSING APPARATUS, AND NON-TRANSITORY RECORDING MEDIUM - A method of manufacturing a semiconductor device includes: accommodating a substrate having an oxide film formed thereon into a processing chamber; supplying a process gas to the substrate; performing a preprocessing step in which the process gas is excited in a state that a pressure within the processing chamber is kept at a first pressure and an electric potential of the substrate is kept at a first electric potential; and performing a main processing step by which the process gas is excited in a state that the pressure within the processing chamber is kept at a second pressure and the electric potential of the substrate is kept at a second electric potential, wherein the first pressure is lower than the second pressure and the first electric potential is lower than the second electric potential. | 09-26-2013 |
20140087567 | SUBSTRATE PROCESSING APPARATUS AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - Provided is a substrate processing apparatus including: a substrate mounting portion provided in a process chamber and capable of mounting a plurality of substrates in a circumferential direction; a rotating mechanism that rotates the substrate mounting portion at a predetermined angular velocity; dividing structures provided in a radial form from a center of a lid of the process chamber so as to divide the process chamber into a plurality of areas; and gas supply areas disposed between the adjacent dividing structures, wherein an angle between the adjacent dividing structures with one gas supply area interposed is set to an angle corresponding to the angular velocity and a period in which a portion of the substrate mounting portion passes through the gas supply area. | 03-27-2014 |
20160086797 | SUBSTRATE PROCESSING METHOD AND SUBSTRATE PROCESSING APPARATUS - A manufacturing method of a semiconductor device includes generating hydrogen radicals by plasma excitation of hydrogen gas and exposing a surface of a substrate on which silicon and metal are exposed to a reducing atmosphere created with the hydrogen radicals, and generating hydrogen radicals and hydroxyl radicals by plasma excitation of a mixed gas of hydrogen gas and oxygen-containing gas and oxidizing the silicon exposed on the surface of the substrate by exposing the surface of the substrate to the hydrogen radicals and hydroxyl radicals to obtain the substrate on which the metal and oxidized silicon are formed. | 03-24-2016 |