Patent application number | Description | Published |
20120040601 | AIR CONDITIONING CONTROLLING DEVICE AND METHOD - After the commencement of air conditioning estimated control, a temperature error between a measured temperature, measured at a subject location within an air-conditioned space, and an estimated temperature at the subject location, obtained from a heat flow analysis processing portion, is compared to a tolerance range that is set in advance for the temperature error, to evaluate a switch to air conditioning feedback control for the subject location to correct the temperature error, and if air conditioning feedback control is necessary, and instruction is given by an air conditioning instructing portion to an air conditioning system | 02-16-2012 |
20120209435 | AIR-CONDITIONING CONTROLLING DEVICE AND METHOD - Distribution data indicating the distribution of the temperatures and airflows in an air-conditioned space are calculated through forward analysis of the state of the air-conditioned space through a distributed system heat flow analysis technique by the heat flow forward analysis processing portion based on spatial condition data and state data comprising boundary condition data and heat emitting object data, and setting data comprising this distribution data that has been obtained and the target data that indicate the target temperatures at the target locations is generated by the setting data generating portion, and new air-conditioning operating quantities are back-calculated from the new blowing speeds and blowing temperatures for the conditioned air at the blowing vents through reverse analysis of the distributions of the temperatures and airflows in the air-conditioned space, and the air-conditioning system is controlled based on the new air-conditioning operating quantities obtained thereby. | 08-16-2012 |
20120323376 | AIR CONDITIONING CONTROLLING DEVICE AND METHOD - In an operating quantity calculating portion, an operating quantity controlling an air-conditioned space to a target air-conditioning environment is calculated for each individual air-conditioning equipment through performing CFD reverse analysis on the air-conditioning environment of the air-conditioned space; in a state estimating portion, state setting values indicate the state of the target air-conditioning environment at the measurement locations of the individual sensors provided in the air-conditioned space are estimated respectively through CFD forward analysis on these operating quantities; and, in a feedback controlling portion, a coordinating factor is calculated based on the deviations between the state setting values obtained and the state measured values that are measured by the sensors, where coordinated operating quantities are calculated through correcting each of the operating quantities by the coordinating factor, and coordinated feedback control of the air-conditioning equipment is performed through sending, to the air-conditioning system, the individual coordinated operating quantities thus obtained. | 12-20-2012 |
Patent application number | Description | Published |
20090115070 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THEREOF - A semiconductor device includes a semiconductor chip | 05-07-2009 |
20090212423 | STACKED SOLDER BALLS FOR INTEGRATED CIRCUIT DEVICE PACKAGING AND ASSEMBLY - A semiconductor device is provided that includes a semiconductor chip, a plurality of solder bumps that electrically couple the semiconductor chip to the outside, and a metal bump being provided on the surface of each first solder bump which is at least a part of the plurality of solder bumps and being made of a metal having a melting point higher than that of the first solder bump. The wettability of the first solder bump is improved as each metal bump serves as a core when the corresponding first solder bump melts. Thus, the connection reliability of the first solder bump can be improved. | 08-27-2009 |
20090250800 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREFOR - A semiconductor device is provided that includes a semiconductor chip and a resin section that molds the semiconductor chip and has a first through-hole. A through electrode that is electrically coupled to the semiconductor chip, extends through the resin section, and extends between a top edge and a bottom edge of an inner surface of the first through-hole. A cavity which extends between planes corresponding to an upper surface and a lower surface of the resin section is formed inside the first through-hole. | 10-08-2009 |
20110201152 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREFOR - A semiconductor device is provided that includes a semiconductor chip and a resin section that molds the semiconductor chip and has a first through-hole. A through electrode that is electrically coupled to the semiconductor chip, extends through the resin section, and extends between a top edge and a bottom edge of an inner surface of the first through-hole. A cavity which extends between planes corresponding to an upper surface and a lower surface of the resin section is formed inside the first through-hole. | 08-18-2011 |
20120083096 | SEMICONDUCTOR DEVICE HAVING A SIMPLIFIED STACK AND METHOD FOR MANUFACTURING TEHREOF - Embodiments of the present invention are directed to provide a semiconductor device including a semiconductor chip formed of a conductive material, a connector terminal around the semiconductor chip, which is formed of a same material for forming the semiconductor chip, an insulating member for electrically insulating the semiconductor chip from the connector terminal, and a first connection member for electrically coupling the semiconductor chip with the connector terminal Simplified step of manufacturing the connector terminal may further simplify the steps of manufacturing the semiconductor device. | 04-05-2012 |
Patent application number | Description | Published |
20110076553 | BATTERY COVER MEMBER - A battery cover member ( | 03-31-2011 |
20140295259 | SEALING ARRANGEMENT OF A BATTERY FILLING PORT USING A RIVET - A sealed battery includes a filling hole, and a gasket and a blind rivet that seal the filling hole. A tapered surface that is inclined toward an inside of a battery case is formed around the filling hole of the battery case. The filling hole is sealed by the gasket and the blind rivet by the blind rivet plastic deforming. | 10-02-2014 |
20140322565 | HERMETICALLY SEALED BATTERY - A hermetically sealed battery is provided with a sealing member for air-tightly sealing the through-hole of a battery case from the outside. The sealing member has: a covering member secured to the battery case from the outside; an insertion portion inserted into the through-hole; an annular pressure contact portion in air-tight pressure contact with the hole surrounding portion of the battery case; and a connecting portion disposed between the insertion portion and the annular pressure contact portion so as to be integral with the insertion portion and the annular pressure contact portion. The connecting portion is provided with an annular groove surrounding the insertion portion. | 10-30-2014 |
20150017501 | BATTERY, ASSEMBLED BATTERY, AND MOUNTING DEVICE - A battery includes a bottomed case of box shape housing a power-generating element, a lid component for the case, a terminal electrode provided outside the case and extending in the direction of the thickness of the lid component, a take-out electrode passing through the lid component, provided for taking out an electric power of the power-generating element to the outside of the case, and disposed at a position different from that of the terminal electrode within a plane including the lid component, and a connecting member connecting the terminal electrode and the take-out electrode and including a thinner portion allowing bending of the connecting member in response to an external force applied to the terminal electrode in the direction of the thickness of the lid component. | 01-15-2015 |
20150104700 | SEALED BATTERY AND METHOD FOR MANUFACTURING THE SAME - Provided is a technique for suppressing welding faults caused in sealing a case of a sealed battery by laser welding. A step for manufacturing a sealed battery having a case sealed by a sealing plug and a sealing plate, which includes a sealing step for fitting the sealing plug into a pouring hole formed in a recess of a lid portion and inserting the sealing plate into the recess, and a welding step for joining the sealing plate to the recess by laser welding. In the sealing step, a heat-insulating member is provided in a minute space defined by the recess, the sealing plug and the sealing plate so as to block at least a part of the boundary portion between the sealing plate and the recess. In the welding step, welding is completed at a position where the heat-insulating member is present in the boundary portion. | 04-16-2015 |
20150118546 | BATTERY AND METHOD FOR PRODUCING THE BATTERY - A battery includes an external terminal member and an insulating member on an outer surface of a lid member so that an interval between the insulating member and the lid member is smaller in a long side of the lid member than in a short side. A weld mark is formed over the entire circumference of the lid member to extend across the outer surface of the lid member and an open end face of the case body. The weld mark not only extends across the outer surface of the lid member and the open end face of the case body but also reaches an outer side surface of the case body in a zone of the long side of the lid member facing the insulating member, but does not reach the outer side surface of the case body in a zone except the former zone. | 04-30-2015 |
20150140415 | BATTERY SEALING MEMBER - A battery sealing member: has a power generating element, a case body member, a case lid member, and an electrode terminal member having an insert-through part inserted in a through-hole provided in the case lid member. The electrode terminal member is electrically connected to the power generating element. The battery sealing member is made of a synthetic resin and has a sealing part held between the electrode terminal member and the inner surface of the case lid member. The crystallinity of the sealing part of the sealing member is higher than the crystallinity of a portion other than the seal section. | 05-21-2015 |
20150155532 | BATTERY - A battery is provided with a lid member that closes a case, a collector terminal member having an insert-through part, an insulator that electrically insulates the lid member and the collector terminal member, and a gasket that provides a seal between the lid member and the collector terminal member. The lid member has a protrusion protruding downward in the vertical direction from the bottom. A gasket is in the same position as the protruding section in an inside-outside direction, which is perpendicular to the vertical direction, and has a sealing part pressed by the protruding section. At least one gap exists in the vicinity of the seal section in a different position to the seal section in the inside-outside direction, and at least portions of the gaps are enclosed by the gasket and the collector terminal member. | 06-04-2015 |
20150179992 | BATTERY - A lid member of a battery case has a protruding section including an inside-outside direction an outside tapered surface, and a top surface between the inside tapered surface and the outside tapered surface. In a cross section, the area of a first imaginary area enclosed by a first line segment of the inside tapered surface, a first imaginary line extending downward from the top of the first line segment, and a second imaginary line extending in an inside-outside direction from the top surface, is smaller than the area of a second imaginary area enclosed by a second line segment of the outside tapered surface, a third imaginary line extending downward from the top of the second line segment, and the second imaginary line. | 06-25-2015 |
20150180004 | BATTERY PACK - A battery pack has a plurality of series-connected batteries each having an electrode body, a battery case, a positive extending member, a positive external terminal mechanically joined and electrically connected to a positive external extending part of the positive extending member, by caulking deformation thereof, a negative extending member, and a negative external terminal mechanically joined and electrically connected to a negative external extending part of the negative extending member, by caulking deformation thereof. Among the positive and negative external extending parts, the positive and negative external terminals, the metal making up the positive external extending part has the lowest tensile strength. The battery pack includes bus bars; positive fastening members for fastening the positive external terminals to the bus bars; and negative fastening members for fastening the negative external terminals to the bus bars. The negative external terminal is thinner than the positive external terminal. | 06-25-2015 |
20150200386 | BATTERY AND METHOD FOR PRODUCING SAME - A battery houses an electrode body inside a battery case including a bottomed cylindrical case body having an opening part, and a plate-like lid member inserted in the opening part so as to seal the opening. The opening part and a lid peripheral edge part are welded hermetically by an energy beam irradiated from outside in the thickness direction of the lid member. In a specific section, the inner peripheral surface of the opening part and the peripheral edge surface of the lid peripheral edge part are welded in close contact with each other. A bead at the specific section takes a fan shape having a central angle of 160 to 200 degrees in a cross section, and the center of the fan shape is positioned on the inner peripheral surface and the peripheral edge surface. | 07-16-2015 |
20150207136 | BATTERY - A battery includes a winding electrode body, a battery case provided with a liquid inlet and positive and negative terminal members. The positive terminal member has a junction part compressed in a direction orthogonal to a winding axis direction. The negative terminal member has a junction part compressed in the direction orthogonal to the winding axis direction. The liquid inlet is positioned leaning to either the positive terminal junction part or the negative terminal junction part. In the winding electrode body, a separation distance from the junction part further away from the liquid inlet to the end lying on the relevant junction side in the winding axis direction is greater than a separation distance from the junction part closer to the liquid inlet to the end on the relevant junction side in the winding axis direction. | 07-23-2015 |
20150325833 | BATTERY - A battery includes: a battery case having a case body member and a case lid member having a through hole; a rivet that engages with the through hole; and a gasket. The through hole is hermetically sealed with the gasket interposed between the circumferential outer surface of the case lid member and an outer flange of the rivet. The case lid member is configured such that, in a state wherein a peripheral edge portion connected to an opening end portion of the case body member, the circumferential outer surface is positioned in the axial outward direction such that the circumferential outer surface faces further towards the outer side along the axis line of the through hole than the peripheral edge portion and the opening end portion. | 11-12-2015 |
20160099441 | SEALED BATTERY - A sealed battery | 04-07-2016 |
Patent application number | Description | Published |
20100194771 | LIQUID CRYSTAL DISPLAY DEVICE - There is provided a liquid crystal display device that can easily suppress color variation, even if there is a difference in white tolerance of the backlight. The liquid crystal display device includes a liquid crystal display panel to which an image signal is input, and a backlight provided on one side of the liquid crystal display panel, using a light emitting diode as a light source of the backlight. Information about the white tolerance of the light source using the light emitting diode, which indicates one rank of plural ranks assigned to the white tolerance, is clearly indicated in a portion of the backlight. The information is input to an image quality processing circuit in order to correct gamma characteristics of the image signal according to the information. | 08-05-2010 |
20120200796 | LIQUID CRYSTAL DISPLAY DEVICE - In a liquid crystal display device having a front window, light from a backlight is prevented from leaking through chamfered edges of the front window. An upper polarizing plate is formed on an opposing substrate and a light shielding material is formed abutting on an outer edge of the upper polarizing plate. Edges of the upper polarizing plate are located inward of edges of the front window. The upper polarizing plate and the front window are bonded with a boding material including an ultraviolet curable resin. The ultraviolet curable resin also lies over the light shielding material. Chamfers are formed in the front window and the ultraviolet curable resin does not adhere to the chamfers of the front window. By this structure, light from the backlight is prevented from entering the internal part of the front window through the chamfers of the front window and light leakage is prevented. | 08-09-2012 |
20120200805 | Liquid Crystal Display Device - Light emitted by a backlight can be prevented from leaking through a chamfered portion of a front window of a liquid crystal display device. | 08-09-2012 |
20150212370 | LIQUID CRYSTAL DISPLAY DEVICE - Light emitted by a backlight can be prevented from leaking through a chamfered portion of a front window of a liquid crystal display device. An upper polarizing plate is bonded over the counter substrate, and a front window is bonded over the upper polarizing plate with a UV-curable resin adhesive. The front window is chamfered and a light shielding member is formed on the chamfered portion. The UV adhesive exists between the chamfered portion and the surface of the upper polarizing plate or the counter substrate, and an outer end of the polarizing plate exists at a point outer than an outer end of the front window. Since the light shielding member for the chamfered portion is formed, light from the backlight does not penetrate from the chamfered portion. Thus, light leakage at a periphery of a screen can be prevented even when the view angle is large. | 07-30-2015 |
Patent application number | Description | Published |
20100002212 | SCANNING EXPOSURE APPARATUS, EXPOSURE METHOD, AND DEVICE MANUFACTURING METHOD - An apparatus includes a control unit configured to control an exposure unit and a driving unit such that exposure of a first region of a substrate starts and ends while a substrate stage is accelerated in a first direction parallel to a scanning direction, an absolute value of maximum acceleration of the substrate stage during a deceleration period is greater than an absolute value during a first approach run period, and a distance by which the substrate stage moves during the first approach run period is approximately equal to a distance by which the substrate stage moves during the deceleration period. | 01-07-2010 |
20100123891 | SCANNING EXPOSURE APPARATUS AND DEVICE MANUFACTURING METHOD - An apparatus including an original stage that holds an original, a substrate stage that holds a substrate, and a projection optical system that projects a pattern of the original onto the substrate, and being configured to scan and expose the substrate during a period in which the speeds of the original stage and the substrate stage change, comprises a controller configured to correct, a distortion generated in an image transferred onto the substrate due to at least one of deformation of the original stage in response to a change in speed of the original stage and deformation of the substrate stage in response to a change in speed of the substrate stage, based on a correction value determined by an acceleration of the substrate stage. | 05-20-2010 |
20120170008 | EXPOSURE APPARATUS AND METHOD OF MANUFACTURING DEVICE - A scanning exposure apparatus exposes a plurality of shot regions on a substrate to light while scanning an original and the substrate. The apparatus includes: a stage which holds the substrate and moves; and a controller which controls movement of the stage based on a driving profile that defines the movement of the stage. A portion in the driving profile, which defines the movement of the stage during exposure of at least one shot region, is formed by a sine wave having a frequency lower than a resonance frequency in a stage controller. | 07-05-2012 |
20130265558 | CONTROL APPARATUS, LITHOGRAPHY APPARATUS, AND METHOD OF MANUFACTURING ARTICLE - The present invention provides a control apparatus including a feed-forward controller configured to perform feed-forward control of a controlled object, the apparatus being configured to obtain a first response data sequence of the controlled object measured by applying a first manipulated variable to the controlled object, and determining, assuming that a second response data sequence of the controlled object to be obtained if a second manipulated variable data sequence, obtained by respectively multiplying the first manipulated variable by gains as variables which can vary with time, is applied to the controlled object, is expressed as a linear combination of the first response data sequence with the gains as coefficients of the liner combination, the gains so that a discrepancy between the second response data sequence and a target data sequence falls within a tolerance. | 10-10-2013 |
20140016111 | EXPOSURE APPARATUS, CALIBRATION METHOD, AND METHOD OF MANUFACTURING ARTICLE - The present invention provides an exposure apparatus which exposes a substrate to light, the apparatus comprising a substrate stage, a position measurement unit configured to measure a position of the substrate stage, a structure configured to support the position measurement unit, a force measurement unit configured to measure a force that acts on the structure, a correction unit configured to correct a command for controlling the position of the substrate stage, based on the measurement value obtained by the force measurement unit, and a correction coefficient, and a calculation unit configured to calculate the correction coefficient based on position deviation information between adjacent shot regions in an evaluation substrate including a plurality of shot regions exposed without correction by the correction unit, and the measurement value obtained by the force measurement unit in exposing each shot region. | 01-16-2014 |
20140104590 | EXPOSURE APPARATUS AND METHOD OF MANUFACTURING DEVICE - The present invention provides an exposure apparatus including a stage control system configured to control a stage for holding a substrate in accordance with a command value, a specifying unit configured to specify an exposure start time at which exposure on the substrate starts upon detecting exposure light illuminated on the substrate, and a main control system configured to calculate positions of the stage at a plurality of times in an exposure period for the substrate based on position information of the stage at an exposure start time specified by the specifying unit, obtain an average position of the stage in at least a partial period in the exposure period from the calculated positions of the stage at the plurality of times, and give a command value for matching the average position of the stage with a target position to the stage control system. | 04-17-2014 |