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| 20090130418 | TRANSPARENT CONDUCTIVE FILM, ITS PRODUCTION METHOD AND SPUTTERING TARGET USED FOR ITS PRODUCTION - Providing a tin oxide target suitable for the formation of a transparent conductive film by DC sputtering method, DC pulse sputtering method or AC sputtering method. | 05-21-2009 |
| 20090153972 | TRANSLUCENT SUBSTRATE, PROCESS FOR PRODUCING THE SAME, ORGANIC LED ELEMENT AND PROCESS FOR PRODUCING THE SAME - The present invention provides an organic LED element in which the extraction efficiency is improved up to 80% of emitted light. Further, the invention relates to an electrode-attached translucent substrate having a translucent substrate, a scattering layer formed over the glass substrate and containing a base material having a first refractive index for at least one wavelength of wavelengths of emitted light of an organic LED element and a plurality of scattering materials positioned in the base material and having a second refractive index different from that of the base material, and a translucent electrode formed over the scattering layer and having a third refractive index equal to or lower than the first refractive index, in which distribution of the scattering materials in the scattering layer decreases from the inside of the scattering layer toward the translucent electrode. | 06-18-2009 |
| 20110284907 | TRANSLUCENT SUBSTRATE, PROCESS FOR PRODUCING THE SAME, ORGANIC LED ELEMENT AND PROCESS FOR PRODUCING THE SAME - The present invention provides an organic LED element in which the extraction efficiency is improved up to 80% of emitted light. Further, the invention relates to an electrode-attached translucent substrate having a translucent substrate, a scattering layer formed over the glass substrate and containing a base material having a first refractive index for at least one wavelength of wavelengths of emitted light of an organic LED element and a plurality of scattering materials positioned in the base material and having a second refractive index different from that of the base material, and a translucent electrode formed over the scattering layer and having a third refractive index equal to or lower than the first refractive index, in which distribution of the scattering materials in the scattering layer decreases from the inside of the scattering layer toward the translucent electrode. | 11-24-2011 |
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| 20080227910 | PROCESS FOR PRODUCTION OF ORGANIC POLYMER HAVING TRIMETHOXYSILYL TERMINUS - The object of the present invention is to provide a method for producing an organic polymer having a terminal trimethoxy silyl group. In the method, the exchange reaction into a methoxy group can proceed within a short time even with a small amount of a catalyst, and viscosity increase caused by a side reaction during the methoxy exchange reaction can be reduced. Obtained polymer has an excellent stability, and viscosity increase during the storage of the polymer after the exchange into a trimethoxysilyl group can be reduced. The present invention provides a method comprising the steps of allowing an organic polymer having a silicon atom at a molecular terminus to react with methanol in the presence of a catalyst removable from an organic polymer and/or a deactivatable catalyst, wherein three hydrolyzable groups are bonded to the silicon atom, with the proviso that at least one of the three groups is a functional group other than methoxy group; and then removing the catalyst from the reaction mixture and/or deactivating the catalyst in the reaction mixture, to give the organic polymer having a terminal trimethoxysilyl group. | 09-18-2008 |
| 20110028682 | PROCESS FOR PRODUCING POLYALKYLENE OXIDE - The present invention aims to provide a method for producing a polyalkylene oxide, which is capable of improving reduction in reactivity of a double metal cyanide complex catalyst in the case that a low molecular weight initiator is used, and producing the polyalkylene oxide with high productivity at low cost. The method for producing a polyalkylene oxide comprises carrying out a ring-opening addition reaction of an alkylene oxide with an initiator having at least one hydroxy group and having a molecular weight of not more than 300 per hydroxy group in the presence of a double metal cyanide complex catalyst in an organic solvent, wherein the organic solvent is used in an amount of 500 to 1,500 parts by weight relative to 100 parts by weight of the alkylene oxide used at the start of the reaction. | 02-03-2011 |
| 20110098410 | ROOM TEMPERATURE-CURABLE COMPOSITION AND CURED PRODUCT THEREOF - The present invention provides a novel acrylic/modified silicone room temperature-curable resin composition that serves as a material for sealants having high modulus and high strength after curing, and a cured product thereof. The room temperature-curable composition includes: a (meth)acrylate ester polymer (A) having a specific silicon-containing functional group and having an alkyl (meth)acrylate ester monomer unit in its molecular chain; and a polyoxyalkylene polymer (B) having a specific silicon functional group. | 04-28-2011 |
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| 20080257092 | PARALLEL-LINK OPERATIONAL DEVICE - A parallel-link operational device in which links of a link mechanism connecting rotary actuators and a movable member do not protrude outside an area of a base. Six flat rotary actuators driven to control position and posture of the movable member are provided on the base, rotary output shafts of which are disposed radially pointing toward the center of the base. The links fixedly mounted on the rotary output shafts of the actuators are connected by joints to one end of rods, and the other end of the rods are connected to the movable member by joints. An end effector mounted on the movable member is rotated by an actuator for posture control mounted on the base via a rotational-force transmission mechanism composed of joints, spline couplings, etc. The links rotate in planes parallel to the sides of the base without protruding beyond the area covered by the base. | 10-23-2008 |
| 20100148801 | CAPACITANCE-TYPE ENCODER - A capacitance-type encoder capable of obtaining position data of a movable element with low power-consumption. The capacitance-type encoder comprises a stator, a movable element arranged to confront the stator, an excitation device and a signal processing device. The stator has at least three excitation-electrode sets electrically independent from each other, each set constituted of excitation electrodes arranged cyclically and electrically connected with each other so that a predetermined number of excitation-electrode groups are formed. The movable element has connection electrodes having the same number as the excitation-electrode groups. The excitation device applies excitation signals to the excitation-electrode sets periodically in a predetermined sequence. The signal processing device determines which one of divided regions of one cycle of arrangement of the excitation electrodes the movable element is positioned in based on a combination pattern of detection signals generated in the connection electrodes. | 06-17-2010 |
| 20100148802 | CAPACITANCE-TYPE ENCODER - A capacitance-type encoder comprising a stator, a movable element, an excitation device and a signal processing device to obtain position data with low power-consumption. The stator has excitation-electrode sets electrically independent and displaced to have phase differences from each other to form a predetermined number of excitation-electrode groups. The movable element has connection electrodes having the same number as the excitation-electrode groups. The excitation device simultaneously applies a first pair of positive and negative pulse voltages respectively to two of the excitation-electrode sets having a phase difference of 180 degrees, and then simultaneously applies a second set of positive and negative pulse voltages respectively to the rest of the excitation-electrode sets. The signal processing device determines which one of four divided regions the movable element is positioned in based on a combination of detection signals when the first and second pairs of pulse voltages are applied respectively. | 06-17-2010 |
| 20100225333 | EXCITATION PHASE DETECTING CAPACITANCE-TYPE POSITION TRANSDUCER - An excitation phase detecting capacitance-type position transducer comprises a stationary part having a plurality of excitation electrode groups and a movable part having a plurality of coupling electrodes. The capacitance-type position transducer detects a signal of which phase varies according to the relative positions of the movable part with respect to the stationary par and calculates an intra-period phase angle φ from two excitation signals having a phase difference of 90° captured at a zero-cross point of the detection signal. | 09-09-2010 |
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| 20080251159 | Methods for Producing Raw Material Alloy for Rare Earth Magnet, Powder and Sintered Magnet - A method of making a material alloy for an R-T-Q based rare-earth magnet according to the present invention includes the steps of: preparing a melt of an R-T-Q based rare-earth alloy, where R is rare-earth elements, T is a transition metal element, Q is at least one element selected from the group consisting of B, C, N, Al, Si and P, and the rare-earth elements R include at least one element R | 10-16-2008 |
| 20080286595 | R-Fe-B Rare Earth Sintered Magnet and Method for Producing Same - In a method for producing an R—Fe—B based rare-earth sintered magnet according to the present invention, first, provided is an R—Fe—B based rare-earth sintered magnet body including, as a main phase, crystal grains of an R | 11-20-2008 |
| 20090053094 | RARE EARTH SINTERED MAGNET AND METHOD FOR PRODUCTION THEREOF - A rare-earth sintered magnet includes 12.0 at % to 15.0 at % of rare-earth element(s), which is at least one element selected from the group consisting of Nd, Pr, Gd, Tb, Dy and Ho and at least 50% of which is Nd and/or Pr; 5.5 at % to 8.5 at % of boron (B); a predetermined percentage of additive metal A; and iron (Fe) and inevitably contained impurities as the balance. The predetermined percentage of additive metal A includes at least one of 0.005 at % to 0.30 at % of silver (Ag), 0.005 at % to 0.40 at % of nickel (Ni), and 0.005 at % to 0.20 at % of gold (Au). | 02-26-2009 |
| 20100148897 | RARE EARTH SINTERED MAGNET AND METHOD FOR PRODUCING SAME - A sintered rare-earth magnet includes an Nd | 06-17-2010 |
| 20100182113 | R-Fe-B TYPE RARE EARTH SINTERED MAGNET AND PROCESS FOR PRODUCTION OF THE SAME - In an R—Fe—B based rare-earth sintered magnet according to the present invention, at a depth of 20 μm under the surface of its magnet body, crystal grains of an R | 07-22-2010 |
| 20100231338 | R-Fe-B RARE-EARTH SINTERED MAGNET AND PROCESS FOR PRODUCING THE SAME - First, an R—Fe—B based rare-earth sintered magnet body including, as a main phase, crystal grains of an R | 09-16-2010 |
| 20110012699 | R-Fe-B RARE EARTH SINTERED MAGNET - An R—Fe—B based rare-earth sintered magnet according to the present invention includes, as a main phase, crystal grains of an R | 01-20-2011 |
| 20110205006 | R-Fe-B ANISOTROPIC SINTERED MAGNET - An R—Fe—B based anisotropic sintered magnet according to the present invention has, as a main phase, an R | 08-25-2011 |
| 20110260816 | R-Fe-B RARE-EARTH SINTERED MAGNET AND PROCESS FOR PRODUCING THE SAME - First, an R—Fe—B based rare-earth sintered magnet body including, as a main phase, crystal grains of an R | 10-27-2011 |
| 20120114844 | PROCESS FOR PRODUCTION OF R-Fe-B-BASED RARE EARTH SINTERED MAGNET, AND STEAM CONTROL MEMBER - A sintered R—Fe—B based rare-earth magnet body | 05-10-2012 |
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| 20080307075 | Sensor-net system and sensor node - A sensor-Net system includes sensor nodes which are in intermittent operation so as to save power by repeating activated state and inactivated state at a regular interval. Synchronization of time in the system is executed by aligning to the intermittent operation of the sensor nodes. A management server issues a setTime command for configuring the time to each gateway node at a specified interval. Each router node sets or corrects the time of it based on the time received from the gateway node and thereafter turns ON the time configuration flag for each sensor node in order to expand the setTime command to all of its sibling sensor nodes. The router node, upon reception of a polling, which is a command request, from the sensor node, obtains the time at that time, then uses the time to generate a setTime command to transmit to that sensor node. | 12-11-2008 |
| 20090018899 | User collaboration system and server - There is provided a facile sound communication tool that can quickly communicate with a necessary partner when needed. The real-time contexts of users are detected from sensors that are worn by the users, and diverse sensors that are located around the respective users to obtain data. The data is transmitted to a server. A context analyzer of a processor in the server determines the busyness of the respective users on the basis of the data, and a collaboration controller controls a communication between the respective users on the basis of the busyness. | 01-15-2009 |
| 20100085202 | SENSOR DRIVE CONTROL METHOD AND SENSOR-EQUIPPED RADIO TERMINAL DEVICE - A network system including: a first sensor device which includes a first sensor unit which detects an action of a detection object; and a first transmission unit which transmits first data regarding the action and first identification information to a server via a first base station: a second sensor device which includes; a second sensor unit which obtains sensing data; and a second transmission unit which transmits second data including the sensing data and second identification information to the server via a second base station; wherein the server is configured to: associate the first and second data based on the detection of the action; to access predetermined normal data correlating data; and, detect an abnormal condition if a combination of the action detected via the first sensor unit and the sensing data obtained by the second sensor unit conflict with the correlated normal data. | 04-08-2010 |
| 20100161630 | Sensor Net System, Sensor Net System Data Managing Method, and Sensor Net System Data Managing Program - In order to easily provide data successively generated from a real world sensor network in a time series to a user, a unit for generally and flexibly performing mapping between a source for generating physical electronic information (for example, a tiny sensor node) and sensing data to be provided to the user is provided. Therefore, a manager of the sensor network is composed of a device management table for mapping among a wireless sensor node, a wireless base station, and a data managing server, a real world model table capable of including device information and giving plural attributes, a registration/search processing unit for registering/searching that information, and a data manager for data mapping between the tables. | 06-24-2010 |
| 20100183000 | VIDEO DELIVERING SYSTEM, VIDEO DELIVERING DEVICE, AND SYNCHRONIZATION CORRECTING DEVICE - The video receiving device delivers reproducible video streams by synchronizing video images. The video delivering device determines the delivery time for each RTP packet based on the time information for plural video streams corresponding to plural contents, adds the determined delivery time (timestamp) to each RTP packet, and delivers RTP packets by using the counter common among plural contents. The video relaying device corrects the transfer timing for RTP packets based on the counter common among plural contents and the delivery time (timestamp) and sends them to the video receiving device. The video receiving device plays back the video images from the received RTP packets. | 07-22-2010 |
| 20100194894 | DATA ACQUISITION SYSTEM AND TRANSMISSION CONTROL DEVICE - A transmit-side transmission control device for sending data generated by a data generator device to a data utilization point receives and retains notification of the allowable data transmission quantity from a receive-side transmission control device, and adjusts the data quantity sent from the data generator device so as to fit within that allowable data transmission quantity range, and/or when a request is issued to change that data transmission quantity, the receive-side transmission control device is notified of that allowable data transmission quantity change request. The receive-side transmission control device retains the respective allowable data transmission quantities for transmit-side transmission control device, and when a change request is issued, reallocates the allowable data transmission quantities for all transmit-side transmission control devices to fit within the data processing load range stored beforehand within the data utilization point, and notifies the corresponding transmit-side transmission control device of these reallocated allowable data transmission quantities. | 08-05-2010 |
| 20110182196 | NETWORK SYSTEMS, NETWORK INTERCONNECTION DEVICES, AND DATA TRANSMISSION SCHEME - A network system includes one or more terminals which transmit acquired data to a first network, a network interconnection device which is connected to the terminal via the first network and which receives the data from the terminal, and a management server which is connected to the network interconnection device via a second network and which receives the data from the network interconnection device; the terminal transmits the same data to the network interconnection device via the first network by a frequency corresponding to redundancy; the data contains the priority according to the contents of the data; and the network interconnection device acquires the communication quality of the second network and instructs the terminal to transmit the data according to redundancy determined based upon the acquired communication quality and the priority. | 07-28-2011 |
| 20110196955 | Sensor Network System for Managing the Latest Data and History Data - In a sensor network system comprising a sensor terminal and a management server, the sensor terminal transmits observation data acquired using the sensor, the management server has a latest data storage manager which manages the latest observation data among observation data received from the sensor terminal, a history data storage manager which manages the history of the observation data from any time when data was received from the sensor terminal to the latest observation data, and a missing data manager which manages missing history data, and compensates the missing history data based on a predetermined rule, and when a request for such observation data is received, at least one of the latest observation data managed by the latest data storage manager, and history data wherein the missing data has been compensated and managed by the history data storage manager, is output according to the type of request. | 08-11-2011 |
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| 20080284874 | IMAGE CAPTURING APPARATUS AND IMAGE CAPTURING METHOD - An image capturing apparatus performs photographing multiple times and composing these multiple images to obtain one image of a correct exposure. The apparatus includes an image capturing unit, an illumination unit and an image composition unit. The image capturing unit captures an optical image of an object as an electrical signal. The illumination unit performs illumination on photographing by the image capturing unit. The image composition unit composes multiple images obtained by multiple times of photographing by the image capturing unit. All of the multiple images are the images shot by performing illumination with the illumination unit. A light amount of each photographing in multiple times of photographing by performing illumination with the illumination unit is obtained by dividing light amount required for the correct exposure based on the number of photos taken of an image to be composed. | 11-20-2008 |
| 20090310013 | FLASH DEVICE, IMAGING APPARATUS, CAMERA SYSTEM, AND CONTROL METHOD FOR FLASH DEVICE - A flash device connectable to an imaging apparatus includes a light emission unit arranged for continuous light emission, a calculation unit configured to calculate a reach distance of flash light from the light emission unit based on an exposure time for flash photographing set in the imaging apparatus, and a display control unit configured to cause information indicating the reach distance calculated by the calculation unit to be displayed. | 12-17-2009 |
| 20100177216 | IMAGE RECORDING APPARATUS, AND CONTROL METHOD AND PROGRAM THEREFOR - An image recording apparatus for recording an image captured by use of electronic zoom, comprises an electronic-zoom setting unit configured to set a zoom magnification when using the electronic zoom, a recording-mode selection unit configured to select at least either a non-compression format or a compression format as a recording mode in recording the captured image, a recording-size setting unit configured to set a recording size in each recording mode, and a control unit configured to, when the zoom magnification is set to a magnification at which an image is enlarged, control a recording size in the non-compression format to be larger than the recording size set by the recording-size setting unit. | 07-15-2010 |
