Patent application number | Description | Published |
20120233852 | ELECTRONIC COMPONENT MOUNTING APPARATUS - An electronic component mounting apparatus in which an electronic component may be checked to provide highly accurate and efficient electronic component mounting. The apparatus includes a camera unit fixed on a head support and images an electronic component absorbed or to be absorbed onto a nozzle. The camera unit contains a camera module including a camera obtaining an image, a first lighting section disposed adjacently on a side of the camera closer to the nozzle and emitting light toward an imaging region of the camera, a second lighting section disposed adjacently on a side of the camera farther from the nozzle and emitting light toward the imaging region of the camera, and a baffle; and a bracket fixed on the head support and supporting the camera, the first lighting section, the second lighting section and the baffle. | 09-20-2012 |
20130008019 | ELECTRONIC COMPONENT MOUNTING APPARATUS - An electronic component mounting apparatus includes a head unit, component supply device, camera unit, and controller controlling the head unit and component supply device. The component supply device has a holder holding electronic component accommodating tapes, each having storage cells arranged in a row, the storage cells storing electronic components, and a feeder forwarding the electronic component accommodating tapes and moving the storage cells to a suction area where the electronic component can be suctioned by the nozzle. The camera unit is fixed to a head support, and captures an image of the suction area. The controller analyzes the image of the suction area obtained by the camera unit. When the controller determines that a portion of the electronic component accommodating tape in the suction area is a spliced portion based on a result of the analysis, the controller determines that the electronic component accommodating tape is changed. | 01-10-2013 |
Patent application number | Description | Published |
20120057272 | LAMINATED CERAMIC CAPACITOR - A laminated ceramic capacitor which has high moisture resistance includes a laminated body including a plurality of stacked ceramic layers and internal electrodes placed between the ceramic layers; and an external electrode formed on an outer surface of the laminated body and electrically connected to the internal electrodes, and the laminated ceramic capacitor has the feature that the ceramic layers contain CaZrO | 03-08-2012 |
20130208402 | Laminated Ceramic Capacitor and Manufacturing Method Therefor - A laminated ceramic capacitor that includes a laminated body including dielectric ceramic layers having crystal grains and crystal grain boundaries, and including internal electrode layers. An external electrode is formed on a surface of the laminated body, and is electrically connected to the internal electrode layers exposed at the surface of the laminated body. The laminated body has a composition including a calcium zirconate based perovskite-type compound as a main constituent, and further including Mn, Sr, and Si. When the laminated body is dissolved, the Si contained therein is 0.1 parts by mol or more and 10 parts by mol or less with respect to 100 parts by mol of Zr, and the molar ratio of Mn to Sr is 0.3 or more and 3.2 or less. | 08-15-2013 |
20140043722 | LAMINATED CERAMIC CAPACITOR - laminated ceramic capacitor which has favorable moisture resistance includes an inner layer section that has dielectric ceramic layers and internal electrodes stacked alternately, and outer layer sections formed outside the inner layer section. The dielectric ceramic layers have a perovskite-type compound including a main constituent containing Ca and Zr, and an additive containing Si and Mn. The average grain size in the dielectric ceramic layers constituting the outer layer sections is smaller than the average grain size in the dielectric ceramic layers constituting the inner layer section. The Si/Mn molar ratio in the dielectric ceramic near the interfaces between the internal electrodes and the dielectric ceramic layers is ≦15. | 02-13-2014 |
20140285948 | LAMINATED CERAMIC CAPACITOR - A laminated ceramic capacitor having a laminated body composed of a plurality of ceramic layers for inner layers; a plurality of internal electrodes at the interfaces between the plurality of ceramic layers for inner layers; and a plurality of ceramic layers for outer layers, provided on the top and bottom so as to sandwich the plurality of ceramic layers for inner layers. The ceramic layers for inner layers are composed of a material containing a multiple oxide including an alkaline-earth metal. The ceramic layers for outer layers respectively have TiO | 09-25-2014 |
20150049413 | MULTILAYER CERAMIC CAPACITOR - A multilayer ceramic capacitor includes a ceramic main body including an inner layer portion including third ceramic layers and a plurality of inner electrodes arranged at interfaces between the third ceramic layers, and first and second outer layer portions respectively including first and second ceramic layers, the first and second ceramic layers being arranged vertically so as to sandwich the inner layer portion. The third ceramic layers and the first and second outer layer portions contain a perovskite-type compound represented by ABO | 02-19-2015 |
20150155099 | LAMINATED CERAMIC CAPACITOR AND MANUFACTURING METHOD THEREFOR - A laminated body that contains a perovskite-type compound containing Sr, Ba, Zr, and Ti and containing; Si; Mn; Al; and V. When the total content of Zr and Ti is 100 parts by mol, the total content m of Sr and Ba meets 100≦m≦105, the Si content a meets 0.1≦a≦4.0, the Mn content b meets 0.1≦b≦4.0, the Al content c meets 0.01≦c≦3.0, the V content d meets 0.01≦d≦0.3, the molar ratio w of Sr and Ba to Sr meets 0.60≦w≦0.95, the molar ratio z of the total of Zr and Ti to Zr meets 0.92≦z≦0.98, w and y meets and the crystal grains are 1.2 μm or less in average grain size. | 06-04-2015 |
20150162133 | MULTILAYER CERAMIC CAPACITOR - A multilayer ceramic capacitor includes a ceramic main body including an inner layer portion including third ceramic layers and a plurality of inner electrodes arranged at interfaces between the third ceramic layers, and first and second outer layer portions respectively including first and second ceramic layers, the first and second ceramic layers being arranged vertically so as to sandwich the inner layer portion. The third ceramic layers and the first and second outer layer portions contain a perovskite-type compound represented by ABO | 06-11-2015 |
20160005543 | MULTILAYER CERAMIC CAPACITOR - A multilayer ceramic capacitor includes a laminated body including an inner layer portion including ceramic dielectric layers and internal electrodes, and outer layer portions including ceramic dielectric layers. External electrodes connected to the internal electrodes are provided on both ends of the laminated body. The main constituent of the inner layer portion is a perovskite-type compound represented by ABO | 01-07-2016 |
Patent application number | Description | Published |
20120015263 | METHOD AND APPARATUS FOR DETERMINING HUMIDITY STATES OF INDIVIDUAL CELLS IN A FUEL CELL, METHOD AND APPARATUS FOR CONTROLLING HUMIDITY STATES OF INDIVIDUAL CELLS IN A FUEL CELL, AND A FUEL CELL SYSTEM - In order to cause a plurality of cells in a fuel cell to be recovered to a desired humidity state, it is configured to determine that the cells present a mixture of dry and overly humid states in the case where a predetermined condition is satisfied, and in the case where it is determined that the cells present the mixture, humidifying control is carried out to cause all the cells to attain the overly humid state, and thereafter, drying control is carried out to dry all the cells, to thereby cause the plurality of cells to be recovered to a predetermined humidity state. | 01-19-2012 |
20120058404 | FUEL CELL SYSTEM - The moisture state of a fuel cell is determined without causing any variation in the supply state of the reactant gas to be supplied to the fuel cell. An output current control section [[71]] temporarily performs a current sweep while maintaining the amount of oxidant gas to be supplied to the fuel cell. A resistance component calculation section [[72 | 03-08-2012 |
20120100445 | FUEL CELL SYSTEM AND METHOD OF OPERATING FUEL CELL SYSTEM - The invention is provided to reliably restore generated voltage that has declined due to clogging of water in a fuel cell stack. A method of operating a fuel cell system having a fuel cell stack that generates electricity through an electrochemical reaction between a fuel gas including hydrogen gas and an oxidation gas, wherein when a generated voltage of the fuel cell stack declines, the water-in-cell content of the fuel cell stack is adjusted so that a variation in cell pressure loss in the fuel cell stack decreases based on a characteristic curve of the water-in-cell content of the fuel cell stack and the cell pressure loss of the fuel cell stack. | 04-26-2012 |
20120141899 | METHOD OF CONTROLLING WATER CONTENT OF FUEL CELL AND FUEL CELL SYSTEM - The present invention is to properly adjust a water content in a cell of a fuel cell in response to a wide variety of conditions. A method of controlling a water content in a cell of a fuel cell, wherein a flow rate and pressure of a hydrogen gas supplied to an anode electrode of the cell of the fuel cell are adjusted so as to satisfy a restrictive condition in order to control a water content in the cell of the fuel cell. A water content state in the cell is detected and, based on the detection result, a flow rate and pressure of the hydrogen gas are adjusted so that a water content in the cell equals a target water content. | 06-07-2012 |
20120214079 | FUEL CELL SYSTEM - This fuel cell system is for suppressing a backflow of water from an exhaust pipe outlet that discharges a reactant-off gas, without decreasing the performance and fuel consumption of a fuel cell, the exhaust pipe being configured to switch between a main discharge pipe and a sub discharge pipe by a switching means to discharge the reactant-off gas. The sub discharge pipe includes a rising gradient portion formed to incline upwards above a gradient of the main discharge pipe and a falling gradient portion formed to incline downwards at the downstream of the rising gradient portion. The switching valve switches to allow the reactant-off gas to be discharged from the main discharge pipe if an amount of reactant-off gas to be discharged is equal to or above a threshold value of an amount of discharge, and allow the reactant-off gas to be discharged from the sub discharge pipe if the amount of reactant-off gas to be discharged is below the threshold value of the amount of discharge. | 08-23-2012 |
Patent application number | Description | Published |
20090236837 | AIRBAG DEVICE - An airbag device includes: a bag body that is deployed by internal pressure rising as a gas is supplied into the bag body; and a gas pressure adjustment portion that is provided on the bag body so as to be able to release the gas from the inside of the bag body during a deployed state of the bag body, and that is set so that the amount of the gas released from the bag body in the deployed state to an inward side in a vehicle width direction is larger than the amount of the gas released from the bag body in the deployed state to an outward side in the vehicle width direction. | 09-24-2009 |
20100052297 | FRONT PASSENGER SEAT AIR BAG APPARATUS - A passenger seat air bag apparatus includes an air bag which is housed folded inside an instrument panel, and inflates toward a passenger who is seated in a front passenger seat with a supply of gas during a frontal collision, and which has a vent hole that can be opened and closed; a first strap which is connected to both an area around the vent hole and a rear lower portion of a base cloth of the air bag in the longitudinal direction of the vehicle, and which closes the vent hole as the air bag inflates; and a second strap which is connected to an edge portion of the vent hole, and pulls on the edge portion of the vent hole and on the first strap around the vent hole so as to open the vent hole when the passenger who is wearing a seatbelt is restrained by the air bag. | 03-04-2010 |
20100123299 | FRONT PASSENGER AIRBAG DEVICE - A front passenger airbag device includes an airbag that deploys toward a front seat passenger, and an airbag door provided in a dashboard. The airbag door includes a central door that opens in a vehicle longitudinal direction, and lateral end doors that are provided on the lateral sides of the central door to open in the vehicle width direction due to the inflation pressure of the airbag. The inflation pressure of the airbag acts on the respective lateral end doors almost exclusively during the initial stage of the airbag deployment. | 05-20-2010 |
20100133798 | VEHICULAR AIRBAG DEVICE - A vehicular airbag device includes an airbag and an opening degree change portion. The airbag is folded and accommodated in an accommodation portion provided in front of a vehicle seat. The airbag is deployed toward an occupant seated in the vehicular seat by being supplied with a gas when a head-on collision occurs, and has a vent hole that allows the gas to be discharged in restraining the occupant. The opening degree change portion changes an opening area of the vent hole in accordance with a direction of impact of an upper body of the occupant with the airbag during deployment of the airbag. | 06-03-2010 |
Patent application number | Description | Published |
20080253102 | ELECTRONIC DEVICES FOR SURFACE MOUNT - Electronic devices are disclosed that allow for surface-mounting using solder while preventing solder from overflowing between external terminals of the electronic device, or between pads on a circuit board to which the external terminals are soldered. An exemplary electronic device has a base board made of an insulating material and having an outer surface comprising at least one external terminal for surface mounting of the device to the circuit board. A groove is defined at least part way around the external terminal on the outer surface. The groove accommodates overflowed solder and thus prevents unintended spread flow of the solder to locations that otherwise could cause short circuits and the like. The electronic device can include a resin board containing a thermoset resin, wherein the groove is formed by thermal or mechanical processing. | 10-16-2008 |
20080284535 | Two-level mounting board and crystal oscillator using the same - The present invention relates to a two-level mounting board in which a second substrate is supported horizontally by a metal pin above a first substrate having a mounting electrode on an outer base surface, the free, lower end of the metal pin is inserted in a hole provided in the surface of the first substrate, and the metal pin is affixed by solder to an annular electrode land provided on the surface of the first substrate to form an outer periphery of the hole, wherein part of the ring of the annular electrode land is cut away to open the same. This provides a two-level mounting board in which metal pins can be connected reliably to the first substrate to support the second substrate horizontally, and a crystal oscillator using the same. | 11-20-2008 |
20130082573 | CRYSTAL UNIT AND METHOD FOR FABRICATING THE SAME - A method for fabricating a crystal unit, including a preparing step, a bonding step, and a separating step, is provided. The preparing step prepares a quartz plate and a supporting substrate with a recess that is larger than the vibrating region on a surface of the supporting substrate. The recess corresponds to a vibrating region in the crystal unit. The bonding step bonds the quartz plate to the surface of the supporting substrate such that the quartz plate is separated from the supporting substrate in the recess. The separating step separates the quartz plate into the vibrating region and the framing portion by performing dry etching on the quartz plate such that the quartz plate has a shape that connects the vibrating region to the framing portion via a supporting beam. The framing portion surrounds the vibrating region. | 04-04-2013 |
Patent application number | Description | Published |
20100078637 | PHOTOELECTRIC CONVERSION ELEMENT, PHOTOELECTRIC CONVERSION DEVICE, AND IMAGE SENSOR - A photoelectric conversion element includes a light receiving layer that is formed of microcrystal semiconductor, a first semiconductor layer of a first conductive type that is formed on one face side of the light receiving layer, and a first intermediate layer that is interposed between the first semiconductor layer and the light receiving layer and is formed of amorphous semiconductor. | 04-01-2010 |
20100155578 | LIGHT SOURCE INTEGRATED PHOTOELECTRIC CONVERSION APPARATUS - A light source integrated photoelectric conversion apparatus is provided, which includes: a light-emitting element that includes a light-emitting layer, and emits light in a predetermined emission direction through one surface of the light-emitting layer; and a plurality of photoelectric conversion elements that includes a photoelectric conversion layer formed on a region which is not overlapped with the light-emitting layer, and converts light having passed through one surface of the photoelectric conversion layer into an electrical signal. In the light source integrated photoelectric conversion apparatus, the light-emitting element is formed on the same substrate as that of the plurality of photoelectric conversion element, one surface of the photoelectric conversion layer is disposed on the side opposite to the emission direction further away from the other surface of the light-emitting layer, and one surface of the light-emitting layer and the substrate face each other. | 06-24-2010 |
20120205649 | PHOTOELECTRIC CONVERSION DEVICE AND ELECTRONIC APPARATUS - A photoelectric conversion device includes circuit portions disposed on a substrate, a first electrode electrically connected to one of the circuit portions, an optically transparent second electrode opposing the first electrode, and a photoelectric conversion portion disposed between the first electrode and the second electrode. The photoelectric conversion portion has a multilayer structure including a light absorption layer made of a p-type compound semiconductor film having a chalcopyrite structure, an amorphous oxide semiconductor layer, and a window layer made of an n-type semiconductor film. | 08-16-2012 |
Patent application number | Description | Published |
20080224594 | DISPLAY APPARATUS AND ELECTRONIC DEVICE - A display apparatus includes: a substrate; and a plurality of light emitting elements arrayed on the substrate and each formed from a lower electrode, a light emitting function layer and an upper electrode stacked in this order on the substrate. A rib for element isolation is provided on the substrate and has a plurality of openings individually corresponding to the light emitting elements. Each of the openings of the rib being formed such that at least one of sides which define a shape in plan is formed only from a curved line or extends in a non-parallel relationship to that of another one of the openings. | 09-18-2008 |
20080309650 | DISPLAY APPARATUS AND METHOD OF MANUFACTURING THE SAME - A display apparatus has a driving panel including a circuit part, a coating layer, and a display part, provided sequentially over a driving substrate. The driving panel includes: an adhesion region which includes the circuit part, the coating layer and the display part and to which a seal panel is adhered through an adhesive layer therebetween; and a terminal region protruding from the seal panel and the adhesive layer. A plurality of metallic wires electrically connected to the circuit part in the adhesion region are extended into the terminal region, and the coating layer is provided in the adhesion region with at least one separated region between the plurality of metallic wires. The separated region of the coating layer is so formed that an end edge thereof lies beyond the adhesion region to reach the terminal region but not to reach an end edge of the terminal region. | 12-18-2008 |
20140209914 | DISPLAY UNIT, METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC APPARATUS - A display unit includes: a display layer including a pixel electrode; a semiconductor layer provided in a layer below the display layer, the semiconductor layer including a wiring layer that includes a material removable by an etchant by which the pixel electrode is also removable; and a terminal section configured to electrically connect the semiconductor layer to an external circuit, the terminal section including a first electrically-conductive layer made of a material same as a material of the wiring layer. | 07-31-2014 |
20140312329 | DISPLAY UNIT, METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC APPARATUS - Provided is a display unit that includes: first electrodes; a metal member provided around the first electrodes; an insulating layer having a first opening on corresponding one of the first electrodes and a second opening on the metal member; an organic light emission layer provided on a surface including a bottom surface of the first opening, except for whole or part of a bottom surface of the second opening; a partition wall arranged in contact with at least the insulating layer, in which the partition wall is formed in a process different from a process of forming the insulating layer; and a second electrode provided in contact with a contact region and a portion above the bottom surface of the first opening in the organic light emission layer, in which the contact region is part of the bottom surface of the second opening. | 10-23-2014 |
20160035815 | DISPLAY UNIT, METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC APPARATUS - A display unit includes: a display layer including a pixel electrode; a semiconductor layer provided in a layer below the display layer, the semiconductor layer including a wiring layer that includes a material removable by an etchant by which the pixel electrode is also removable; and a terminal section configured to electrically connect the semiconductor layer to an external circuit, the terminal section including a first electrically-conductive layer made of a material same as a material of the wiring layer. | 02-04-2016 |
Patent application number | Description | Published |
20100176121 | MICROWAVE PROCESSING APPARATUS - A microwave oven includes a microwave generation device and a case. Three antennas are provided in the case. The two antennas are opposite each other along a horizontal direction. In the microwave generation device, a power distributor almost equally distributes a microwave generated by a microwave generator among phase variators. Each of the phase variators adjusts the phase of the fed microwave. This causes a phase difference between microwaves respectively radiated from the opposite two antennas to change. The microwaves are respectively radiated from the antennas. | 07-15-2010 |
20100176123 | MICROWAVE HEATING APPARATUS - A microwave heating apparatus includes a microwave generation part ( | 07-15-2010 |
20100224623 | MICROWAVE HEATING APPARATUS - To provide a microwave heating apparatus capable of heating various objects to be heated having different configurations, kinds, sizes, and amounts contained in a heating chamber with high efficiency by keeping low a reflected power of a microwave radiated from microwave supplying means, a microwave generator part includes oscillator parts ( | 09-09-2010 |
20140166645 | MICROWAVE HEATING DEVICE - In a microwave heating device of the present invention, a heating-chamber input portion is adapted to direct, to a heating chamber, microwaves having propagated through a waveguide tube and having passed through the positions where microwave radiating portions are formed, thereby realizing a state where progressive waves are dominant among the microwaves propagating through the waveguide tube, so that the microwave radiating portions are caused to radiate, to the inside of the heating chamber, microwaves based on the progressive waves propagating through the waveguide tube. This enables uniformly heating an object to be heated, without using a rotational mechanism. | 06-19-2014 |
20140361009 | MICROWAVE HEATING DEVICE - A microwave heating device mountable to an electric device, includes: a commercial power supply; an AC/DC converter which outputs a plurality of DC voltages according to power supplied from the commercial power supply; a controller which receives power from the AC/DC converter and totally controls the electric device; a microwave processing device using a compound semiconductor which receives a plurality of outputs of the AC/DC converter and outputs a microwave; and a plurality of loads connected between, of the DC voltages output from the AC/DC converter, a predetermined Vd voltage and ground through a plurality of contacts. The loads form a group of electric components in the electric device. The controller controls power supply to the loads, and controls on/off of the contacts to drive the loads by the Vd voltage regardless of the voltage of the commercial power supply. | 12-11-2014 |
20150041458 | MICROWAVE TREATMENT DEVICE - A microwave processing apparatus is provided with an oscillator, a power amplifier, a heating chamber that accommodates an object to be heated, a power feeder which is disposed on a wall surface of the heating chamber, which receives an output transmitted from a microwave generator and which radiatively feeds the microwave into the heating chamber, and a power detector that detects the power reflected from the power feeder to the power amplifier. The microwave processing apparatus determines a plurality of points of heating frequencies by using top several points of minimum point frequencies of the reflected power, and performs frequency hopping heating within a predetermined unit time. | 02-12-2015 |
20150136758 | MICROWAVE HEATING DEVICE - In order to radiate microwaves from a waveguide tube to a whole area from end to end of a radiation area within a heating chamber, and to heat uniformly an object to be heated without using a driving mechanism, a microwave heating device of the present invention includes openings for radiating the microwave from the waveguide tube to the inside of the heating chamber. The heating chamber includes a radiation area which has a length of approximate twice an in-tube wavelength in a propagation direction of the waveguide tube. Also, the openings are arranged to have an interval of approximate the in-tube wavelength in the propagation direction of the waveguide tube, and are symmetrically arranged to a center line which intersects perpendicularly to the propagation direction in the radiation area. | 05-21-2015 |
20150244055 | DIRECTIONAL COUPLER AND MICROWAVE HEATER PROVIDED WITH THE SAME - A directional coupler according to the invention includes an opening in a wall surface of a waveguide, and a coupling line on an outer side of the waveguide. The opening is configured to not cross a tube axis of the waveguide in plan view, and to emit a circularly polarized wave. The coupling line includes first and second transmission lines and output parts disposed at both ends, the first and second transmission lines extending across the opening to cross the tube axis in plan view and being opposed to each other across the center of the opening. The first and second transmission lines are interconnected at a position displaced from an area vertically above the opening. | 08-27-2015 |
20150288342 | MICROWAVE PROCESSING DEVICE - A microwave processing device includes: a periodic structure body which forms a surface-wave transmission line to transmit surface waves of microwaves; an oscillator which generates microwave power; and a transmitting part which transmits the microwave power generated by the oscillator to the periodic structure body, wherein a matching part is provided at a connecting portion between the periodic structure body and the transmitting part, and an impedance of the matching part is set to a value between an impedance of the periodic structure body and an impedance of the transmitting part. | 10-08-2015 |
Patent application number | Description | Published |
20110108548 | MICROWAVE HEATING APPARATUS - A microwave heating apparatus includes a microwave generation part | 05-12-2011 |
20110168699 | MICROWAVE HEATING APPARATUS - In a microwave heating apparatus of the invention, microwaves from oscillation parts | 07-14-2011 |
20120067873 | MICROWAVE HEATING DEVICE AND MICROWAVE HEATING METHOD - In order to provide a microwave heating device and a microwave heating method, which can surely prevent a microwave generating part from being destroyed by reflected power and which can heat a heating-target portion in a heating chamber with high efficiency, the present invention is configured such that, prior to a control part ( | 03-22-2012 |
20120111856 | MICROWAVE HEATING DEVICE AND MICROWAVE HEATING CONTROL METHOD - In order to provide a microwave heating device and a microwave heating control method which are capable of uniformly heating a to-be-heated object in a desired state, by employing plural feeding portions provided in a heating chamber on the basis of information about reflected electric power from the respective feeding portions; a control portion controls to supply microwave electric power from plural feeding portions to a heating chamber by operating a microwave generating portion at a heating frequency for heating a to-be-heated object, estimates a heating state for the to-be-heated object on the basis of per-unit-time increase/decrease change states of detected levels of detection signals detected by electric-power detection portions, and controls the heating frequency and the microwave electric power supplied from the feeding portions to the heating chamber. | 05-10-2012 |
20120138600 | ELECTROMAGNETIC WAVE HEATING DEVICE - It is an object to provide an electromagnetic-wave shield structure with a reduced size for an electromagnetic wave heating device, with a simple structure employing a meta-material formed from a lamination members including a dielectric member and conductive members laminated on each other such that the meta-material is placed in a choke slot. There are provided a heating chamber for housing a to-be-heated object, an electromagnetic-wave supply device, and a door. A choke slot and lamination members are provided in at least one of an opening peripheral portion and a door peripheral portion which is faced thereto in a state where the door is closed. This enables provision of an electromagnetic-wave shield structure with a smaller size. | 06-07-2012 |
20120152939 | MICROWAVE HEATING DEVICE - A microwave heating device according to the present invention includes a microwave oscillation portion including a reference-signal oscillator formed from a quarts oscillator, phase variable portions and phase-locked loops and, further, includes a control portion for controlling the microwave oscillation portion, and plural radiation portions placed on a wall surface of a heating chamber for housing a to-be-heated object, wherein microwaves supplied to plural microwave feeding points provided in the radiation portions are controlled in phase and electric power, thereby controlling the aspect of radiations of microwaves radiated from the radiation portions. | 06-21-2012 |
20120152940 | MICROWAVE HEATING DEVICE - In a microwave heating device, a control portion performs an operation for alternately repeating a sweeping operation for detecting reflected electric power with an electric-power detection portion while changing an oscillation frequency of an oscillation portion and fixing a phase value of a phase variable portion for detecting a reflected-electric-power characteristic with respect to the oscillation portion, and a sweeping operation for detecting reflected electric power with the electric-power detection portion while changing the phase value of the phase variable portion and fixing the oscillation frequency of the oscillation portion for detecting a reflected-electric-power characteristic with respect to the phase value, in order to determine an oscillation frequency and a phase value for use in heating a to-be-heated object. | 06-21-2012 |
20120160844 | MICROWAVE HEATING DEVICE - In order to provide a microwave heating device which includes radiation portions having a function of radiating microwaves forming both linearly polarized waves and circularly polarized waves and, further, having an electric-power synthesizing function, thereby offering new radiation functions. A heating chamber for housing a to-be-heated object therein is provided with plural radiation portions on a bottom wall surface thereof, and each of the radiation portions is provided with plural microwave feeding points, such that phase control and driving control are performed for each microwave feeding point. | 06-28-2012 |
20130008894 | DRAWER-TYPE HEATING APPARATUS - A drawer type heating apparatus includes a heating case forming a heating space, and an openable door adapted to be moved in a drawing manner relative to the heating case for opening and closing an opening portion, and includes a radio-wave transmission suppression portion which is faced to inner wall surfaces of the opening portion of the heating case, and placed such that there is a predetermined gap between the radio-wave transmission suppression portion and the entire periphery of the inner wall surfaces of the opening portion in the heating case, in a state where the openable door is closed, the radio-wave transmission suppression portion including a first radio-wave-propagation-direction suppression-area constituted by a surface with a plurality of steps, and a second radio-wave-propagation-direction suppression-area having suppression protruding portions which are periodically formed and placed in such a way as to face the first radio-wave-propagation-direction suppression-area with a predetermined interval. | 01-10-2013 |
20130008896 | MICROWAVE HEATING APPARATUS - A microwave heating apparatus includes, within a heating room, a placement table having a horizontal placement surface for placing an object to be heated, and a plurality of feeding portions which are placed on a wall surface of the heating room for supplying microwave electric power to the heating room. The microwave heating apparatus is adapted to relatively move the position of the straight line connecting two feeding portions to each other, with respect to the object to be heated, through a movement mechanism portion, and to detect a phase difference between the microwave electric powers which minimizes reflected electric power returning from the heating room to the two feeding portions, for detecting the state of placement of the object to be heated on the placement table. | 01-10-2013 |
Patent application number | Description | Published |
20110133992 | ANTENNA APPARATUS - In an antenna apparatus, two pattern antennas are arranged side by side in an area close to a ground conductor layer on a surface of a dielectric substrate, in such a manner as to be formed substantially line-symmetrical with each other. Each of the pattern antennas includes a radiation element having a feed coupler, a mutual coupler, and a feed element fed by a high frequency circuit unit. An open end of the radiation element is located near the ground conductor layer. The feed element and the feed coupler are capacitively coupled with each other, whereby the radiation element is excited. At the excitation, the mutual couplers that extend substantially in parallel with and close to each other are capacitively coupled with each other, and hence, polarization planes of the electric fields radiated from the radiation elements can be made orthogonal to each other. | 06-09-2011 |
20130100946 | WIRELESS COMMUNICATION FUNCTION-EQUIPPED ELECTRONIC DEVICE - In an electronic device in which an electronic component (e.g., an encoder) including an operation body is mounted on a circuit board and a process corresponding to an input operation of the operation body is performed by a control section, a wireless communication processing section and a matching circuit which are provided on the circuit board are connected to each other via a transmission line, and in order to cause a mounting member (a mounting plate and an outer casing) of the electronic component, which is made of metal and is ungrounded, to operate as an antenna, a predetermined position (a leg piece) in the mounting plate and the matching circuit are connected to each other via a transmission line to cause the predetermined position to serve as a power supply section. Thus, a wireless communication function-equipped electronic device for which a dedicated antenna is unnecessary is obtained. | 04-25-2013 |
20130189936 | ELECTRONIC DEVICE - An electronic component (encoder) including an operation body is mounted on a circuit board. The electronic component causes a controller to perform processing in accordance with an operation input by the operation body. The mounting board includes a power-feeding leg piece connected to a wireless communication processor so that high frequency communication is allowed, a first short-circuiting leg piece that is adjacent to the power-feeding leg piece via a cut-out portion, and a second short-circuiting leg piece separated from the power-feeding leg piece. The short-circuiting leg pieces are connected to grounded portions. The impedance is adjusted by appropriately selecting the width or the depth of the cut-out portion. The resonance frequency is adjusted by appropriately selecting the size or the position of the short-circuiting leg piece. Thus, the mounting board operates as an inverted-F antenna in which the power-feeding leg piece functions as a power feeding portion. | 07-25-2013 |
Patent application number | Description | Published |
20120307468 | ELECTRONIC APPARATUS - An electronic apparatus includes a circuit board on which a plurality of electronic components are mounted, and a housing that is provided on the circuit board. The housing includes a mounting member that mounts the housing on the circuit board. The circuit board includes a plurality of circuit regions, an insulating region, and a mounting region. The plurality of electronic components is included in the plurality of circuit regions. The plurality of circuit regions are spaced from one another. The insulating region is located between adjacent circuit regions of the plurality of circuit regions to insulate between the adjacent circuit regions. In the mounting region, the mounting member is mounted on the circuit board. The mounting region is provided in the insulating region located between the adjacent circuit regions in a state where the housing is mounted on the circuit board. | 12-06-2012 |
20130070502 | POWER CONVERTER DESIGNED TO ENHANCE STABILITY IN OPERATION - A power converter equipped with a plurality of semiconductor modules, a cooling device, a control circuit board, a smoothing capacitor, and a discharging resistor. The discharging resistor mounted on the control circuit board in parallel connection to the smoothing capacitor. The control circuit board has fabricated thereon a timing controller working to control timings of on/off operations of the semiconductor modules, a driver coupled to control terminals of the semiconductor modules to control voltage applied to the control terminals, and a power supply circuit working to transform a voltage input to the control circuit board into operating voltages for the timing controller and the driver. The driver is disposed between at least one of the timing controller and the power supply circuit and the discharging resistor, thereby protecting the timing controller and/or the power supply circuit mounted on the control circuit board from thermal energy radiating from the discharging resistor. | 03-21-2013 |
20130207712 | DRIVE UNIT FOR REVERSE-CONDUCTING SWITCHING ELEMENT - In a drive unit for a reverse-conducting switching element which is a driven switching element, a process to transfer electric charges to a conductive control terminal of the driven switching element is performed on the basis of a turn-on command or a turn-off command, thereby turning on and off the driven switching element. A transfer rate of the electric charges is changed in a period from when the transfer of the electric charges to the conductive control terminal is started until when it is completed. While judged that forward current flows in a free-wheel diode, the electric charges are inhibited from being charged to the conduction control terminal which corresponds to the free-wheel diode in which the forward current is judged to flow. While the electric charges are inhibited from being charged to the conductive control terminal, a change of the transfer rate is disabled. | 08-15-2013 |
20140035629 | DRIVER APPARATUS FOR SWITCHING ELEMENTS - In a driver apparatus for driving a voltage-controlled switching element, an absolute value of a voltage difference between a voltage at a reference terminal that is one of terminals of a current path of the switching element and a voltage at the switching control terminal of the switching element is clamped at a clamping voltage greater than a threshold voltage. A voltage greater than the threshold voltage applied to the switching control terminal allows the switching element to be turned on. When the current flowing through the switching element becomes equal to or greater than a clamp threshold after the switching element transitions from an off-state to an on-state, a voltage-drop-rate at which the absolute value is decreased to the clamping voltage is decreased. | 02-06-2014 |
20140062361 | DRIVER FOR SWITCHING ELEMENT AND CONTROL SYSTEM FOR ROTARY MACHINE USING THE SAME - In a driver, a discharging module discharges, at a discharging rate, the on-off control terminal of a switching element in response to a drive signal being shifted from an on state to an off state. A changing module determines whether a condition including a level of a sense signal being higher than a threshold level during the on state of the drive signal is met, and changes the discharging rate of the on-off control terminal in response to the drive signal being shifted from the off state to the on state upon determination that the condition is met. A loosening module loosens the condition after a lapse of a period since the shift of the drive signal from the off state to the on state in comparison to the condition immediately after the shift of the drive signal from the off state to the on state. | 03-06-2014 |
20140092653 | ELECTRONIC CIRCUIT OPERATING BASED ON ISOLATED SWITCHING POWER SOURCE - In an electronic circuit, a first circuit region is electrically connected to an input circuit region of an isolated switching power source, and a second circuit region is electrically connected to an output circuit region thereof. A driver of an IC is located in the second circuit region and drives a target device based on output power supplied to the second circuit region via the output circuit region from the isolated switching power source. A transferring module of the IC transfers a value of a parameter indicative of the output power from the second circuit region to the first circuit region while maintaining electrical isolation between the first and second circuit regions. An operating module of the IC performs on-off operations of a switching element to perform feedback control of the value of the parameter indicative of the output power to a target value. | 04-03-2014 |
20140307492 | DRIVE UNIT FOR SWITCHING ELEMENT - An inverter for driving a motor generator has series connection units, each of which has two switching elements, connected in series, in high and low voltage sides, respectively. A drive unit is arranged for each switching element. A gate of the switching element is connected to an emitter thereof through a first cutoff resistance and a first cutoff switching element in the drive unit. The gate of the switching element is also connected to the emitter thereof through a second cutoff resistance and a second cutoff switching element in the drive unit. A resistance value of the first cutoff resistance is higher than a resistance value of the second cutoff resistance. A software cutoff process is performed when the switching element is in a completely turned-on state so that the first cutoff switching element is turned on and the second cutoff switching element is turned off. | 10-16-2014 |
20140340948 | POWER CONVERSION APPARATUS - A power conversion apparatus has a structure in which the negative terminal of an insulated power supply is connected to one of connection nodes of a negative side bus with U-phase, V-phase and W-phase lower-arm switching elements except the end-side ones. That is the negative terminal of the insulated power supply is connected to the connection node between the negative side bus and the V-phase lower arm switching element to enable suppressing variations of input voltages supplied from the insulated power supply to respective drive circuits for driving the lower-arm switching elements by using low pass filters having smaller filtering capacity and smaller size. | 11-20-2014 |
Patent application number | Description | Published |
20090232454 | VACUUM OPTICAL FIBER CONNECTOR AND OPTICAL FIBER TERMINAL STRUCTURE - A vacuum optical fiber connector includes a port flange attached to a vacuum flange for housing a first waveguide connector to which an optical fiber bundle is attached, an optical transparent body placed on the outside of the port flange, and an attachment member formed with a fit shape relative to the port flange for housing a second waveguide connector to which an optical fiber bundle is attached. The first and second waveguide connectors are positioned at least in two directions orthogonal to an optical axis with optical coupling of the first and second waveguide connectors. | 09-17-2009 |
20100072348 | Optical encoder - In an optical encoder for measuring relative displacement, a scale | 03-25-2010 |
20110085178 | OFFSET AMOUNT CALIBRATING METHOD AND SURFACE TEXTURE MEASURING MACHINE - An offset amount calibrating method that obtains the offset amount between a contact-type detector and an image probe is provided. The method includes: setting on a stage a calibration chart that includes not less than two non-parallel linewidth patterns being disposed relative to a reference position of the calibration chart and each having a known width and a level difference; capturing an image of the linewidth patterns of the calibration chart by an image probe to obtain the reference position of the calibration chart; measuring at least two of the linewidth patterns of the calibration chart by a contact-type detector to obtain the reference position of the calibration chart; and calculating a difference between the reference position obtained by using the image probe and the reference position obtained by using the contact-type detector to obtain the offset amount. | 04-14-2011 |
20110229151 | PHOTOELECTRIC ENCODER - A photoelectric encoder includes a scale; a detector; alight application section; a pair of origin signal reception sections; and a signal processing section adapted to provide the maximum value of the signal level output from the origin signal reception sections by side lobe light occurring as reflected on the origin mark as a stipulated value, provide an effective area of origin detection between the first position at which output of one of the origin signal reception sections for outputting a larger signal level than the stipulated value earlier than the relative displacement becomes a larger signal level than the stipulated value and the first position at which output of the other origin signal reception section exceeds the stipulated value and then becomes a smaller signal level than the stipulated value, and configured to generate the origin detection signal in the effective area. | 09-22-2011 |
20120193523 | OPTICAL ENCODER WITH MISALINGMENT DETECTION AND ADJUSTMENT METHOD ASSOCIATED THEREWITH - An optical encoder includes a scale having diffraction gratings formed at predetermined pitches in a measurement axis direction, a detection head relatively movable with respect to the scale, the detection head including a light source portion configured to irradiate the scale with light, and a plurality of receiver portions configured to receive light reflected by or transmitted through the diffraction gratings of the scale, at different phases, and a signal processing device configured to perform signal processing to light reception signals output from the receiver portions of the detection head, to produce quadrature differential signals. The signal processing device is configured to calculate alignment adjustment monitor signals corresponding to a Lissajous radius of the quadrature differential signals in order to detect misalignment of the detection head with respect to the scale. | 08-02-2012 |
Patent application number | Description | Published |
20110007015 | INFORMATION INPUT APPARATUS AND INFORMATION INPUT METHOD - An information input apparatus which displays a plurality of buttons on a display unit, detects an indicated position by a positional coordinate detection unit arranged on the display unit and inputs information corresponding to an indicated button includes: an incorrect input judgment unit for judging whether or not input information which is input when a to-be-selected button selected from the plurality of buttons is indicated is incorrect input; a pattern selection unit which makes a user select one button arrangement pattern from a plurality of button arrangement patterns including the to-be-selected button at a predetermined position when the incorrect input judgment unit judges that the input information is incorrect input. | 01-13-2011 |
20110025718 | INFORMATION INPUT DEVICE AND INFORMATION INPUT METHOD - An information input device, which displays button images showing a plurality of buttons on a display unit, detects an indication position by a position coordinate detection unit installed in the display unit, and thereby inputs information corresponding to the button which is indicated, includes, an enlargement display unit configured to generate a first enlargement image, which includes an indicated first button among the plurality of buttons, where the vicinity of the first button is enlarged as a display region, and to display the generated first enlargement image on the display unit; a determination unit configured to determine whether an indication region which is indicated in the first enlargement image is included in a first region which is movable in the first enlargement image, or in a second region which instructs the changing of the display region. | 02-03-2011 |
20110032190 | INFORMATION INPUT APPARATUS AND INFORMATION INPUT METHOD - An information input apparatus which displays a plurality of buttons on a display unit, detects an indicated position by a positional coordinate detection unit arranged on the display unit to input information corresponding to the indicated button includes: an incorrect input judgment unit that judges whether information input when a first button among the plurality of buttons is indicated is incorrect input; an incorrect input reason specification unit that specifies a reason of the incorrect input based on an indicated region of the first button with respect to an indicatable region of the first button displayed on the display unit, when the incorrect input judgment unit judges that the input information is the incorrect input. | 02-10-2011 |
Patent application number | Description | Published |
20100320063 | SWITCHGEAR APPARATUS - A switchgear apparatus is provided in which an impact induced by a close operation is mitigated, featuring space saving and high reliability with low costs. | 12-23-2010 |
20120228267 | POWER SWITCHGEAR - A power switchgear according to the present invention includes a pass-through hole which is formed in a fixed side contact case that is supported by a fixed side insulation supporter to fix and retain the fixed side of a vacuum valve and has a larger inner diameter than an outer diameter of the vacuum valve so that the vacuum valve is capable of horizontally passing through and the fixed side end portion of the vacuum valve is placed by passing through; and a fixed side connection conductor attached to the fixed side contact case and connected to the fixed side end portion of the vacuum valve. | 09-13-2012 |
20130146565 | POWER SWITCHGEAR - A vacuum valve includes a fixed side electrode on a fixed side current-carrying shaft and a movable side electrode on a movable side current-carrying shaft. An opening and closing unit is coaxially disposed with the movable side current-carrying shaft, and drives the movable side current-carrying shaft. A chattering suppression structure is coaxially disposed with the fixed side current-carrying shaft on the fixed side of the vacuum valve, and suppresses chattering. The opening and closing unit includes an electromagnetic operating mechanism which drives the movable side current-carrying shaft when energized. A contact pressure spring is coaxially disposed with the electromagnetic operating mechanism, and applies contact pressure between the movable side electrode and the fixed side electrode during contact closing of the vacuum valve. A release spring is coaxially disposed with the electromagnetic operating mechanism, and assists driving force of the electromagnetic operating mechanism during contact opening of the vacuum valve. | 06-13-2013 |
20140076851 | ELECTROMAGNETIC OPERATING DEVICE - An electromagnet mechanism is coaxially disposed with a vacuum interrupter that is disposed in a circuit breaker, and has a movable core and a fixed core facing each other and an electromagnetic coil that makes the movable core and the fixed core separate or come into contact in response to electromagnetic force. A driving rod which is movably disposed in the axial direction of the electromagnet mechanism is coupled to the movable core, and in which one side is coupled to the circuit breaker and the other side passes through an opening side end plate of the electromagnet mechanism to be extended outward from the opening side end plate of the electromagnet mechanism. An indication unit is disposed on the opening side end plate of the electromagnet mechanism, and indicates a state of the circuit breaker in conjunction with the movement of the driving rod. | 03-20-2014 |
20150270080 | VACUUM MONITORING APPARATUS - A vacuum monitoring device of a vacuum circuit breaker with a line of a vacuum valve led out to the external of a metal tank through a bushing having a shield working as a low-pass filter, includes: a first antenna; a second antenna; a first and a second detection portion measuring intensity of an electromagnetic wave detected by the antennas; and a determination portion determining a vacuum deterioration of the circuit breaker by comparing the intensity of the electromagnetic wave detected by the first and the second detection portions, wherein the first and second detection portion include frequency filters passing a frequency band, of electromagnetic waves resulting from discharges occurring when the vacuum valve deteriorates in vacuum, which is attenuated by the shield. | 09-24-2015 |