Patent application number | Description | Published |
20090296241 | LENS DRIVE APPARATUS AND IMAGE PICKUP APPARATUS INCLUDING LENS DRIVE APPARATUS - A lens drive apparatus that can prevent a propulsion force generated in a direction other than an optical axis direction without a second yoke, reduce a size of the entire apparatus, and high-accurately drive a lens holding frame in the optical axis direction. The apparatus including: a member to be driven that holds a lens, is movable in the optical axis direction, and is guided and supported in a lens barrel; a movable coil wound with at least two sides in parallel to the optical axis direction, and mounted to a part of the member to be driven; and a magnet placed to face the movable coil in parallel to the optical axis direction, and provided in the lens barrel, wherein the movable coil is configured so that at least one side of the two sides and one side other than the two sides face surfaces of the magnet. | 12-03-2009 |
20110032616 | OPTICAL UNIT AND OPTICAL APPARATUS - The optical unit includes a base member, a shift member configured to hold an image stabilizing lens and to be movable with respect to the base member in a plane orthogonal to an optical axis to reduce image blur, and an image stabilizing actuator configured to shift the shift member. The optical unit further includes a light controlling member disposed further inside than the image stabilizing actuator in a direction orthogonal to the optical axis and in an area where the image stabilizing actuator is disposed in a direction parallel to the optical axis. | 02-10-2011 |
20130176620 | IMAGE STABILIZING APPARATUS, LENS BARREL, AND OPTICAL APPARATUS - An image stabilizing apparatus includes a shift member holding a lens, a first driver moving the shift member in a first direction in a plane orthogonal to an optical axis, and a second driver moving the shift member in a second direction in the plane orthogonal to the optical axis. The first driver includes a first magnet, a first coil, and a first yoke in order in an optical axis direction, the second driver includes a second magnet, a second coil, and a second yoke in order in the optical axis direction, the first yoke has a protrusion that protrudes in the first direction at least one of end portions extending in a direction orthogonal to the first direction, and the second yoke has a protrusion that protrudes in the second direction at least one of end portions extending in a direction orthogonal to the second direction. | 07-11-2013 |
Patent application number | Description | Published |
20100151896 | PoC Server, PoC Terminal, Floor Control Method, and PoC Terminal Control Method - A floor can be fairly acquired in a PoC communication. In the PoC server which controls a floor in a PoC communication, a floor is put in an idle state in a PoC communication after a session establishing process required in the PoC communication. The information about the floor idle state is notified to terminals TA and TC which perform the PoC communication. When the PoC communication is initiated, the idle state of the floor is simultaneously noticed to both calling and called users, thereby realizing fair acquisition of a floor. | 06-17-2010 |
20130298401 | MANUFACTURING METHOD FOR BLADE MATERIAL AND MANUFACTURING DEVICE FOR BLADE MATERIAL - Provided are a manufacturing method for a blade material and a manufacturing device for a blade material, by which a long blade material can be manufactured without using a large-sized press forging machine. A manufacturing method for a blade material, in which hot forging is sequentially performed by molds from the root side to a blade (vane) tip, wherein when a root-side portion is grasped and a material to be forged is restrained by a mold, twisting is performed on a region between the grasped portion and the restrained portion. A manufacturing method for a blade material, in which hot forging and twisting are repeated, is preferable, and a manufacturing method for a blade material, in which hot forging is performed while molds are sequentially changed, is more preferable. | 11-14-2013 |
20150040639 | HOT FORGING DIE - Provided is an inexpensive hot forging die which allows a desired shape to be obtained even from a large-sized forging material. | 02-12-2015 |
20150177556 | METHOD FOR MANUFACTURING BOARD DEVICE - According to one embodiment, provided is an array substrate that can effectively prevent an oxide conductive film and a silicon nitride film on the oxide conductive film from peeling without deteriorating reliability. A method for manufacturing the array substrate includes a surface treatment step and a nitride film forming step. In the surface treatment step, by plasma discharge, the oxide conductive film is cleaned without being reduced, and surface layers of the insulating film layer not covered by the oxide conductive film and portions of the insulating film layer in the regions covered by the oxide conductive film are etched to form recesses leading to portions under the oxide conductive film. In the nitride film forming step, successively from the surface treatment step, the silicon nitride film is formed by plasma CVD so as to cover the recesses and the oxide conductive film. | 06-25-2015 |
Patent application number | Description | Published |
20090165768 | OUTER BLADE CUTTING WHEEL AND MAKING METHOD - In an outer blade cutting wheel comprising an annular thin disc base of cemented carbide having an outer diameter of 80-200 mm, an inner diameter of 30-80 mm, and a thickness of 0.1-1.0 mm, and a blade section disposed on an outer periphery of the base, the blade section comprises diamond grains and/or CBN grains bound with a metal bond having a Young's modulus of 0.7-4.0×10 | 07-02-2009 |
20100112904 | METHOD AND APPARATUS FOR MULTIPLE CUTOFF MACHINING OF RARE EARTH MAGNET BLOCK, CUTTING FLUID FEED NOZZLE, AND MAGNET BLOCK SECURING JIG - In a method for multiple cutoff machining a rare earth magnet block, a cutting fluid feed nozzle having a plurality of slits is combined with a plurality of cutoff abrasive blades coaxially mounted on a rotating shaft, each said blade comprising a base disk and a peripheral cutting part. The slits in the feed nozzle into which the outer peripheral portions of cutoff abrasive blades are inserted serve to restrict any axial run-out of the cutoff abrasive blades during rotation. Cutting fluid is fed from the feed nozzle through slits to the rotating cutoff abrasive blades and eventually to points of cutoff machining on the magnet block. | 05-06-2010 |
20100123994 | CERAMIC ELECTRONIC COMPONENT - In a ceramic electronic component having a thin structure, the occurrence of cracks due to stress applied when the ceramic component is being mounted or in a mounted state are prevented. Each of first and second external terminal electrodes has a substantially rectangular region on a principal surface of a ceramic element body, the principal surface being directed to the mounting surface side. An end of the first external terminal electrode, which is arranged in contact with a gap region, and an end of the second external terminal electrode, which is positioned in contact with the gap region, each preferably have a concave-convex shape on the principal surface. | 05-20-2010 |
20110162504 | RARE EARTH MAGNET HOLDING JIG AND CUTTING MACHINE - A magnet holding jig comprises a platform and first and second holders disposed on opposite sides of the platform. The platform is provided with channels, the holders are comb-shaped to define digits and slits, the channels and the slits being aligned to define guide paths for permitting entry of a cutting tool therein, and the holders are also configured as digitate hooks. The holder hooks are in contact with a rare earth magnet block resting on the platform. The holders are pushed inward at their lower portions so as to elastically deform the digitate hook and move it backward and to bring the hook digits in pressure abutment with the magnet block, thereby holding the magnet block in place on the platform. | 07-07-2011 |
20110165822 | RARE EARTH MAGNET HOLDING JIG, CUTTING MACHINE, AND CUTTING METHOD - A magnet holding jig comprises a platform and first and second holders disposed on opposite sides of the platform. The platform is provided with channels, the holders are comb-shaped to define digits and slits, the channels and the slits being aligned to define guide paths for permitting entry of a cutting tool therein, and the holders are also configured as digitate hooks. The holder hooks are in contact with a rare earth magnet block resting on the platform. The holders are pushed inward at their lower portions so as to bring each hook digit of the second holder in pressure abutment with the magnet block at a higher level than each hook digit of the first holder for thereby holding the magnet block in place on the platform. | 07-07-2011 |
20110312255 | METHOD FOR MULTIPLE CUTOFF MACHINING OF RARE EARTH MAGNET - A rare earth magnet block is cutoff machined into pieces by rotating a plurality of cutoff abrasive blades. Improvements are made by starting the machining operation from the upper surface of the magnet block downward, interrupting the machining operation, turning the magnet block upside down, placing the magnet block such that the cutoff grooves formed before and after the upside-down turning may be aligned with each other, and restarting the machining operation from the upper surface of the upside-down magnet block downward until the cutoff grooves formed before and after the upside-down turning merge with each other. | 12-22-2011 |
20120252330 | OUTER BLADE CUTTING WHEEL AND MAKING METHOD - In an outer blade cutting wheel comprising an annular thin disc base of cemented carbide having an outer diameter of 80-200 mm, an inner diameter of 30-80 mm, and a thickness of 0.1-1.0 mm, and a blade section disposed on an outer periphery of the base, the blade section comprises diamond grains and/or CBN grains bound with a metal bond having a Young's modulus of 0.7-4.0×10 | 10-04-2012 |
20120282847 | METHOD AND APPARATUS FOR MULTIPLE CUTOFF MACHINING OF RARE EARTH MAGNET BLOCK, CUTTING FLUID FEED NOZZLE, AND MAGNET BLOCK SECURING JIG - In a method for multiple cutoff machining a rare earth magnet block, a cutting fluid feed nozzle having a plurality of slits is combined with a plurality of cutoff abrasive blades coaxially mounted on a rotating shaft, each said blade comprising a base disk and a peripheral cutting part. The slits in the feed nozzle into which the outer peripheral portions of cutoff abrasive blades are inserted serve to restrict any axial run-out of the cutoff abrasive blades during rotation. Cutting fluid is fed from the feed nozzle through slits to the rotating cutoff abrasive blades and eventually to points of cutoff machining on the magnet block. | 11-08-2012 |
20120282848 | METHOD AND APPARATUS FOR MULTIPLE CUTOFF MACHINING OF RARE EARTH MAGNET BLOCK, CUTTING FLUID FEED NOZZLE, AND MAGNET BLOCK SECURING JIG - In a method for multiple cutoff machining a rare earth magnet block, a cutting fluid feed nozzle having a plurality of slits is combined with a plurality of cutoff abrasive blades coaxially mounted on a rotating shaft, each said blade comprising a base disk and a peripheral cutting part. The slits in the feed nozzle into which the outer peripheral portions of cutoff abrasive blades are inserted serve to restrict any axial run-out of the cutoff abrasive blades during rotation. Cutting fluid is fed from the feed nozzle through slits to the rotating cutoff abrasive blades and eventually to points of cutoff machining on the magnet block. | 11-08-2012 |
20140208663 | OUTER BLADE CUTTING WHEEL AND MAKING METHOD - In an outer blade cutting wheel comprising an annular thin disc base of cemented carbide having an outer diameter of 80-200 mm, an inner diameter of 30-80 mm, and a thickness of 0.1-1.0 mm, and a blade section disposed on an outer periphery of the base, the blade section comprises diamond grains and/or CBN grains bound with a metal bond having a Young's modulus of 0.7-4.0×10 | 07-31-2014 |
Patent application number | Description | Published |
20100060735 | DEVICE AND METHOD OF MONITORING SURROUNDINGS OF A VEHICLE - To generate information with high accuracy by compensating for the lack of synchronism between imaging timings of two or more imaging means. A device for monitoring surroundings of a vehicle according to the present invention comprises first imaging means for imaging outside of the vehicle in a first imaging area at a predetermined cycle period; second imaging means for imaging outside of the vehicle in a second imaging area at a predetermined cycle period, said second imaging area and the first imaging area overlapping each other at least partially; and information generating means for generating predetermined information in which a lag between imaging timing of the first imaging means and imaging timing of the second imaging means is corrected based on images of both the first and the second imaging means. | 03-11-2010 |
20140216882 | ROTATION TRANSMISSION DEVICE - A rotation transmission device is provided which includes a two-way clutch and an electromagnetic clutch for engaging and disengaging the two-way clutch and which can be easily assembled without the need for a shim to prevent movements of the clutches. The two-way clutch ( | 08-07-2014 |
20150075935 | ROTATION TRANSMISSION DEVICE - A rotation transmission device includes a control retainer and a rotary retainer having bars arranged circumferentially alternating with each other such that pockets are defined between the adjacent pairs of bars. A pair of rollers are mounted in each pocket with an elastic member disposed between the pair of rollers such that the pair of rollers are pushed by the respective bars to their respective disengaged positions when the control retainer and the rotary retainer rotate relative to each other. A spring holder is fitted on an input shaft while abutting one axial end surface of an inner ring. The spring holder has spring support pieces on the outer periphery thereof to prevent radially outward movement of the elastic members. The spring support pieces are plate-shaped members disposed radially outwardly of the elastic members to extend in the axial direction in parallel to the outer periphery of the inner ring. | 03-19-2015 |
20150075936 | ROTATION TRANSMISSION DEVICE - A rotation transmission device includes a two-way clutch which is selectively engaged and disengaged by an electromagnetic clutch. The two-way clutch includes a control retainer and a rotary retainer. The control retainer and the rotary retainer have flanges and bars formed on outer peripheral portions of the respective flanges and arranged so as to circumferentially alternate with each other with pockets defined between adjacent bars. Two rollers are received in each pocket. When the control retainer and the rotary retainer are rotated relative to each other, the rollers are adapted to be pushed by the bars to the disengaged position. An anti-rotation arrangement is provided on opposed surfaces of an outer ring and the control retainer member. The anti-rotation arrangement is adapted to prevent the control retainer from rotating relative to the outer ring while the rollers are in engagement, thereby preventing the rollers from moving to the neutral position. | 03-19-2015 |
20150240896 | CLUTCH UNIT - A clutch unit includes a lever-side clutch portion for controlling transmission and interruption of rotational torque to an output side through lever operation, and a brake-side clutch portion for transmitting torque input from the lever-side clutch portion to the output side and for interrupting torque reversely input from the output side. The lever-side clutch portion has an outer centering spring provided between a lever-side outer ring to be rotated through the lever operation and a cover restricted in rotation, for accumulating an elastic force obtained by torque input from the lever-side outer ring and for restoring the lever-side outer ring to a neutral state with the accumulated elastic force through releasing of the torque input from the lever-side outer ring. | 08-27-2015 |
20150240897 | CLUTCH UNIT - A clutch unit includes a lever-side clutch portion for controlling transmission and interruption of rotational torque to an output side through lever operation, and a brake-side clutch portion for transmitting torque input from the lever-side clutch portion to the output side and for interrupting torque reversely input from the output side. The lever-side clutch portion has an outer centering spring provided between a lever-side outer ring to be rotated through the lever operation and a cover restricted in rotation, for accumulating an elastic force obtained by torque input from the lever-side outer ring and for restoring the lever-side outer ring to a neutral state with the accumulated elastic force through releasing of the torque input from the lever-side outer ring. | 08-27-2015 |
20150240898 | CLUTCH UNIT - A clutch unit includes a lever-side clutch portion for controlling transmission and interruption of rotational torque to an output side through lever operation, and a brake-side clutch portion for transmitting torque input from the lever-side clutch portion to the output side and for interrupting torque reversely input from the output side. The lever-side clutch portion has an outer centering spring provided between a lever-side outer ring to be rotated through the lever operation and a cover restricted in rotation, for accumulating an elastic force obtained by torque input from the lever-side outer ring and for restoring the lever-side outer ring to a neutral state with the accumulated elastic force through releasing of the torque input from the lever-side outer ring. | 08-27-2015 |
Patent application number | Description | Published |
20090229945 | ROTATION TRANSMISSION DEVICE - A rotation transmission device has a housing having an end wall with a shaft hole. An input shaft is inserted through the shaft hole, and an inner ring is mounted around the end of the input shaft inside the housing. A two-way clutch is provided between the inner ring and an outer ring around the inner ring, and an electromagnetic clutch is provided adjacently, controlling engagement and disengagement of the two-way clutch. A first bearing mounted between radially facing surfaces of the housing and the outer ring is an open bearing, provided with a labyrinth on its end near the side of the open end of the housing. A second, single-sealed bearing is provided between facing surfaces of the inner ring and the outer ring, supporting these rings rotatably relative to each other. Lubricating grease with same quality is used for the second bearing and the two-way clutch. | 09-17-2009 |
20130035191 | SPEED REDUCER - A speed reducer is proposed whose rollers are axially long relative to the axial length of its cage to extend its lifespan. The speed reducer includes an input shaft ( | 02-07-2013 |
20140162826 | MOTOR ASSEMBLY WITH SPEED REDUCER - A motor assembly includes an electric motor and a speed reducing mechanism. The speed reducing mechanism includes: a housing; an internal gear supported by the inner diameter surface of the housing; eccentric disks capable of rotating inside the internal gear when the rotating shaft of the electric motor rotates; an output shaft having at the axial end thereof a cage rotatably disposed between the internal gear and the eccentric disks, the cage being arranged coaxially with the rotation axis of the eccentric disks; and rolling elements retained by the cage and meshing with internal teeth of the internal gear, the number of the rolling elements being smaller than the number of the internal teeth. The eccentric disks are provided on the rotating shaft of the electric motor. | 06-12-2014 |
Patent application number | Description | Published |
20090146462 | VEHICLE BODY STRUCTURE - A vehicle body structure includes at least one side sill and at least one outrigger, the at least one side sill being connected to the at least one outrigger, wherein the at least one side sill is made of an extruded material and has a front end portion protruding vehicle frontward from a connecting portion between the at least one side sill and the at least one outrigger. In the vehicle body structure, the front end of the side sill is disposed frontward from a front end of a side sill in a conventional vehicle body structure and the front end of the side sill is formed to be a part for receiving a front wheel. | 06-11-2009 |
20140296019 | DIFFERENTIAL MECHANISM RESTRICTING DEVICE - A miniaturized differential mechanism restricting device that is mechanically connected to two operation elements. A plurality of holes are formed in an output-side cam, and pin holes are formed in a differential case in a penetrating manner such that the pin holes overlap with the plurality of holes. A plurality of first pins, which pass through the pin holes in a penetrating manner and are fitted in the holes, extend from a first slide member, and a plurality of second pins, which pass through the pin holes in a penetrating manner and are fitted in the holes, extend from a second slide member. The first slide member is moved in the axial direction by a first shift fork, and the second slide member is moved in the axial direction by a second shift fork. | 10-02-2014 |
20150096822 | DIFFERENTIAL GEAR PROVIDED WITH DIFFERENTIAL LOCK MECHANISM - A differential mechanism regulating device which is mechanically connected to two manipulators is miniaturized. When a first cable and a second cable are pulled, a collecting member moves its position. As a result of this movement, the collecting member tilts a portion of an arm by way of a rod. As a result, a differential lock is released. The operation of the first cable and the operation of the second cable can be merged by the collecting member, and it is sufficient to connect only a collecting transmission member to the arm. The connection between the arm and the collecting transmission member can be simplified thus realizing the miniaturization of the differential mechanism. | 04-09-2015 |
Patent application number | Description | Published |
20110290542 | CERAMIC ELECTRONIC COMPONENT AND METHOD FOR MANUFACTURING THE SAME - A ceramic electronic component includes a ceramic element assembly and external electrodes. The external electrodes are disposed on the ceramic element assembly. The external electrodes include an underlying electrode layer and a first Cu plating film. The underlying electrode layer is disposed on the ceramic element assembly. The first Cu plating film is disposed on the underlying electrode layer. The underlying electrode layer includes a metal that is diffusible in Cu and a ceramic bonding material. The metal that is diffusible in Cu is diffused in at least a surface layer in the underlying electrode layer side of the first Cu plating film. | 12-01-2011 |
20110293894 | CERAMIC ELECTRONIC COMPONENT - A ceramic electronic component includes a ceramic body having a substantially rectangular parallelpiped shape. The ceramic body includes a central portion in which first and second internal electrodes are arranged, and first and second end portions in which the first and second internal electrodes are not arranged. The ceramic electronic component satisfies Expressions (1) and (2) below: | 12-01-2011 |
20120018204 | CERAMIC ELECTRONIC COMPONENT AND WIRING BOARD - A ceramic electronic component includes a ceramic element body having a substantially rectangular parallelepiped shape, and first and second external electrodes. The first and second external electrodes are provided on a first principal surface. Portions of the first and second external electrodes project further than the other portions in a thickness direction. A projecting portion of the first external electrode is provided at one end of the first external electrode in a length direction and a second projecting portion of the second external electrode is provided at another end of the second external electrode in the length direction. Thus, a concave portion is provided between the projecting portions, and a portion of the first principal surface provided between the first and second external electrodes is exposed. | 01-26-2012 |
20120018205 | METHOD OF MANUFACTURING CERAMIC ELECTRONIC COMPONENT, CERAMIC ELECTRONIC COMPONENT, AND WIRING BOARD - A method of manufacturing a ceramic electronic component prevents variations in characteristics even when the ceramic electronic component is embedded in a wiring board. Ceramic green sheets containing an organic binder having a degree of polymerization in a range from about 1000 to about 1500 are prepared. A first conductive paste layer is formed on a surface of each of the ceramic green sheets. The ceramic green sheets are laminated to form a raw ceramic laminated body. A second conductive paste layer is formed on a surface of the raw ceramic laminated body. The raw ceramic laminated body formed with the second conductive paste layer is fired. | 01-26-2012 |
20120019099 | CERAMIC ELECTRONIC COMPONENT - A ceramic electronic component includes a ceramic base, first and second internal electrodes, and first and second external electrodes. The first external electrode is disposed at a first end portion of a first major surface in the longitudinal direction. The second external electrode is disposed at a second end portion of the first major surface in the longitudinal direction. A portion of each of the first and second external electrodes is opposed in the thickness direction to a region where the first and second internal electrodes are opposed to each other in the thickness direction. A condition ( 1/10)t | 01-26-2012 |
20120188682 | CERAMIC ELECTRONIC COMPONENT - A ceramic electronic component includes a ceramic body, a first external electrode, and a second external electrode. The first and second external electrodes are disposed on a principal surface, which is directed to the mounting surface side, of the ceramic body so as to face each other with a predetermined gap region therebetween. The external electrodes each include a base layer and a Cu plating layer which covers the base layer. In each of the first and second external electrodes, an expression 0.1≦t/d≦0.5 is satisfied, where t is a thickness of the Cu plating layer at an end of the base layer on a gap region side, and d is a distance from the end of the base layer on the gap region side to an end of the Cu plating layer on the gap region side. | 07-26-2012 |
20130056133 | METHOD FOR MANUFACTURING MULTILAYER CERAMIC ELECTRONIC COMPONENT - A method for manufacturing a multilayer ceramic electronic component significantly reduces and prevents swelling or distortion when a conductive paste is applied to a green ceramic element body. A ceramic green sheet used in the method satisfies 180.56≦A/B wherein A is a polymerization degree of an organic binder contained in the ceramic green sheet, and B is a volume content of a plasticizer contained in the ceramic green sheet. | 03-07-2013 |
20130279073 | CERAMIC ELECTRONIC COMPONENT AND METHOD FOR MANUFACTURING THE SAME - A ceramic electronic component includes a ceramic element assembly and external electrodes. The external electrodes are disposed on the ceramic element assembly. The external electrodes include an underlying electrode layer and a first Cu plating film. The underlying electrode layer is disposed on the ceramic element assembly. The first Cu plating film is disposed on the underlying electrode layer. The underlying electrode layer includes a metal that is diffusible in Cu and a ceramic bonding material. The metal that is diffusible in Cu is diffused in at least a surface layer in the underlying electrode layer side of the first Cu plating film. | 10-24-2013 |
20140049873 | CERAMIC ELECTRONIC COMPONENT AND METHOD FOR MANUFACTURING THE SAME - A ceramic electronic component includes a ceramic element assembly and external electrodes. The external electrodes are disposed on the ceramic element assembly. The external electrodes include an underlying electrode layer and a first Cu plating film. The underlying electrode layer is disposed on the ceramic element assembly. The first Cu plating film is disposed on the underlying electrode layer. The underlying electrode layer includes a metal that is diffusible in Cu and a ceramic bonding material. The metal that is diffusible in Cu is diffused in at least a surface layer in the underlying electrode layer side of the first Cu plating film. | 02-20-2014 |
20140127493 | CERAMIC ELECTRONIC COMPONENT AND METHOD FOR MANUFACTURING THE SAME - A ceramic electronic component includes a ceramic element assembly and external electrodes. The external electrodes are disposed on the ceramic element assembly. The external electrodes include an underlying electrode layer and a first Cu plating film. The underlying electrode layer is disposed on the ceramic element assembly. The first Cu plating film is disposed on the underlying electrode layer. The underlying electrode layer includes a metal that is diffusible in Cu and a ceramic bonding material. The metal that is diffusible in Cu is diffused in at least a surface layer in the underlying electrode layer side of the first Cu plating film. | 05-08-2014 |
20140312743 | CERAMIC ELECTRONIC COMPONENT - A ceramic electronic component includes a ceramic base, first and second internal electrodes, and first and second external electrodes. The first external electrode is disposed at a first end portion of a first major surface in the longitudinal direction. The second external electrode is disposed at a second end portion of the first major surface in the longitudinal direction. A portion of each of the first and second external electrodes is opposed in the thickness direction to a region where the first and second internal electrodes are opposed to each other in the thickness direction. A condition ( 1/10)t | 10-23-2014 |
20140332260 | METHOD OF MANUFACTURING CERAMIC ELECTRONIC COMPONENT, CERAMIC ELECTRONIC COMPONENT, AND WIRING BOARD - A method of manufacturing a ceramic electronic component prevents variations in characteristics even when the ceramic electronic component is embedded in a wiring board. Ceramic green sheets containing an organic binder having a degree of polymerization in a range from about 1000 to about 1500 are prepared. A first conductive paste layer is formed on a surface of each of the ceramic green sheets. The ceramic green sheets are laminated to form a raw ceramic laminated body. A second conductive paste layer is formed on a surface of the raw ceramic laminated body. The raw ceramic laminated body formed with the second conductive paste layer is fired. | 11-13-2014 |
Patent application number | Description | Published |
20130257722 | TIME INFORMATION ACCEPTING APPARATUS, TIME INFORMATION ACCEPTING METHOD, COMPUTER PROGRAM AND RECORDING MEDIUM - It is expected to provide a time information accepting apparatus and the like, which can accept time information by an intuitive and simple operation without a slide bar. A time information accepting apparatus, accepting time information by detecting a movement operation of a coordinate point in a predetermined coordinate system, has a determining means for determining a unit quantity of time corresponding to a moving amount of a coordinate point in the predetermined coordinate system by calculating a moving amount and/or moving speed of a coordinate point due to a first operation, a calculating means for calculating a moving amount of a coordinate point due to a second operation, and a time information determining means for determining time information based on the moving amount calculated by the calculating means and the unit quantity determined by the determining means. | 10-03-2013 |
20140210813 | THREE-DIMENSIONAL IMAGE DATA GENERATING METHOD AND THREE-DIMENSIONAL IMAGE DATA GENERATING DEVICE - The present invention provides an image data generating method in which a combined image is not distorted at the boundary area between a left eye image and a right eye image even when the combined image has been compressed with lossy compression among three-dimensional image data generating methods in which a combined image is generated by combining a left eye image and a right eye image. The three-dimensional image data generating method includes a combined image generating step (SA | 07-31-2014 |
20150058762 | INTERFACE DEVICE, INTERFACE METHOD, INTERFACE PROGRAM, AND COMPUTER-READABLE RECORDING MEDIUM STORING THE PROGRAM - An interface device includes a display unit that displays icons, a rotating unit that orders changes in orientations of the icons, and an executing unit that orders execution of applications corresponding to the icons. The display unit changes and displays the orientations of the icons in response to the icon orientation change order issued by the rotating unit, and also displays, upon accepting that the executing unit has specified an icon and ordered execution of an application, a window with an orientation that coincides with the orientation of the icon, such that users located around the display screen view icons and windows in orientations that are easily comprehensible to each user. | 02-26-2015 |
Patent application number | Description | Published |
20130270924 | ELECTRONIC EQUIPMENT, MODULE, AND SYSTEM - An electronic equipment is provided with an antenna including a coil, a load, a power feeding unit for feeding power received by the antenna to the load, a communication unit for communicating with the outside world via the antenna, a switching circuit installed between the antenna and the communication unit, and a switching control unit for controlling ON/OFF of the switching circuit according to power to be received by the antenna. | 10-17-2013 |
20130342026 | POWER-RECEIVING DEVICE AND NON-CONTACT POWER TRANSMISSION SYSTEM USING SAME - A power-receiving device in a non-contact power transmission system includes a power-receiving antenna circuit for receiving power transmitted from a power-transmitting device, a rectification circuit for rectifying power received by the power-receiving antenna circuit, a frequency-changing circuit for changing a received power frequency of the power-receiving antenna circuit, and a drive circuit for driving the frequency-changing circuit. The power-receiving antenna circuit includes two terminals, La and Lb. The frequency-changing circuit includes a circuit configuration symmetrical about the circuit center (center tap (CT)) thereof, and is connected between the terminals La and Lb. The rectification circuit is a single-phase bridge rectification circuit. A ground terminal of the rectification circuit is connected to the circuit center (center tap (CT)) of the frequency-changing circuit. | 12-26-2013 |
20140152120 | ELECTRONIC DEVICE AND SYSTEM - This primary-side device (electronic device) is provided with a first coil for non-contact power transmission, a second coil for communication, a protection circuit containing an intermediate tap of the second coil, and a control circuit. The control circuit sends a control signal to the protection circuit when the first coil is used to transmit power. The protection circuit opens the second coil when the control signal is received. | 06-05-2014 |
20150280429 | COMMUNICATION APPARATUS AND ELECTRONIC DEVICE - A communication apparatus includes: a communication antenna, a communication unit which can transmit and receive signals, a switch connected between the communication antenna and the communication unit and composed of a semiconductor switch, a switch control unit, and a high-voltage output means. The switch, when receiving a connection command signal causes the communication unit to be electrically connected with the communication antenna, and when not receiving the signal cuts them off. The switch control unit outputs the signal to the switch under prescribed conditions, and stops the signal when overvoltage applied to the communication unit is detected. The high-voltage output means, connected between the switch control unit and the switch, sets voltage of the signal received from the switch control unit to a voltage at which the communication unit in a transmitting mode would not be cut off from the communication antenna, and outputs the voltage to the switch. | 10-01-2015 |