Patent application number | Description | Published |
20090263283 | MEASUREMENT CELL - A measurement cell | 10-22-2009 |
20100240966 | LIFESTYLE HABIT IMPROVEMENT SUPPORTING APPARATUS AND METHOD THEREOF - A lifestyle habit improvement supporting apparatus which allows a stage, at which the subject working on lifestyle habit improvement is, to be judged more accurately is provided. | 09-23-2010 |
20110280424 | SYSTEM, METHOD, PROGRAM, AND INTEGRATED CIRCUIT FOR HEARING AID - To provide a hearing aid system ( | 11-17-2011 |
20130051573 | METHOD FOR FITTING A HEARING AID, AND HEARING AID - This method for fitting a hearing aid involves displaying the coordinate positions of parameters produced on the basis of a plurality of fitting theories, and the evaluation results for these parameters, on a display section | 02-28-2013 |
20130202138 | HEARING AID, HEARING AID FITTING MANAGEMENT SYSTEM, SERVER DEVICE, AND COMPUTER DEVICE - A hearing aid fitting management system comprises a fitting device, a server, and a client device that are connectable to each other in a network. The server stores hearing ability data received from the client device as a hearing ability certificate, produces a prescription number corresponding to the hearing ability certificate, and sends the prescription number to the client device. The fitting device sends the server the prescription number that has been inputted. The server sends the fitting device the hearing ability certificate corresponding to the prescription number received from the fitting device. The fitting device sends the hearing ability certificate to a hearing aid, and limits the settings in the fitting of the hearing aid to within the range of the hearing ability data. | 08-08-2013 |
Patent application number | Description | Published |
20100253712 | PLASMA DISPLAY DEVICE AND PLASMA DISPLAY PANEL DRIVE METHOD - Sustain discharge is stably caused while power consumption is reduced, and image display quality is improved. A plasma display device has a plasma display panel, an electric power recovering circuit for raising or falling a sustain pulse by resonating an inductor and the inter-electrode capacity of a display electrode pair, and a sustain pulse generating circuit for alternately applying, to the display electrode pair, as many sustain pulses as the number corresponding to the luminance weight in the sustain period of a plurality of subfields that are disposed in one field and have initializing, address, and sustain periods. The sustain pulse generating circuit switches and generates at least three kinds of sustain pulses including a first sustain pulse serving as a reference, a second sustain pulse that rises more gently than the first sustain pulse, and a third sustain pulse that rises more steeply than the first sustain pulse. | 10-07-2010 |
20100259521 | DRIVING DEVICE AND DRIVING METHOD OF PLASMA DISPLAY PANEL AND PLASMA DISPLAY APPARATUS - A two-phase driving operation is performed by a first circuit and a second circuit in at least one sub-field. The first circuit applies a first ramp waveform that drops from a first potential to a second potential to a plurality of first scan electrodes in a setup period, and sequentially applies a scan pulse to the plurality of first scan electrodes in a write period. The second circuit applies a second ramp waveform that drops from the first potential to a third potential that is higher than the second potential to a plurality of second scan electrodes, and then raises the plurality of second scan electrodes to a fourth potential in the setup period, and holds the plurality of second scan electrodes at a fifth potential that is higher than the third potential and lower than the fourth potential in a period where the first scan pulse is applied, and then sequentially applies a scan pulse to the plurality of second electrodes in the write period. Discharge failures during write discharges can be prevented from occurring by employing the two-phase driving operation. | 10-14-2010 |
20100265219 | DRIVING DEVICE AND DRIVING METHOD OF PLASMA DISPLAY PANEL AND PLASMA DISPLAY APPARATUS - A two-phase driving operation is performed by a first circuit and a second circuit in at least one sub-field. The first circuit applies a first ramp waveform that drops from a first potential to a second potential to a plurality of first scan electrodes in a setup period, and sequentially applies a scan pulse to the plurality of first scan electrodes in a write period. The second circuit applies a second ramp waveform that drops from the first potential to a third potential that is higher than the second potential to a plurality of second scan electrodes in the setup period, and holds the second scan electrodes at a fourth potential that is higher than the third potential in a period where the scan pulse is applied to the first scan electrodes, and then sequentially applies a scan pulse to the plurality of second electrodes in the write period. Discharge failures during write discharges can be prevented from occurring by applying the two-phase driving operation. | 10-21-2010 |
20110128308 | PLASMA DISPLAY DEVICE, AND METHOD FOR DRIVING PLASMA DISPLAY PANEL - In a plasma display panel, abnormal discharge in address periods is suppressed to enhance image display quality. The scan electrode driving circuit generates a first falling down-ramp voltage i.e. down-ramp voltage L | 06-02-2011 |
Patent application number | Description | Published |
20120120045 | ACTIVE MATRIX SUBSTRATE AND ORGANIC EL DISPLAY DEVICE - The present invention provides an active matrix substrate and an organic EL display device in which reduction in the response rate of a current-driven light-emitting element is suppressed. The active matrix substrate of the present invention is an analog gradation-driving active matrix substrate, including multiple pixels each including a current-driven light-emitting element and a drive transistor. The current-driven light-emitting element includes a pixel electrode electrically coupled with the drive transistor. The drive transistor supplies a current to the current-driven light-emitting element through the pixel electrode. The multiple pixels include a first pixel and a second pixel disposed adjacent to each other. A gate electrode of the drive transistor of the first pixel is disposed between the pixel electrode of the current-driven light-emitting element of the first pixel and the pixel electrode of the current-driven light-emitting element of the second pixel in a plan view of a main face of the substrate. | 05-17-2012 |
20120127220 | ACTIVE MATRIX SUBSTRATE, DISPLAY DEVICE, AND ORGANIC EL DISPLAY DEVICE - The present invention provides an analog gradation-driving active matrix substrate suppressing reduction in the response time of the current-driven light-emitting element; a display device; and an organic EL display device. The active matrix substrate of the present invention is an analog gradation-driving active matrix substrate, comprising:
| 05-24-2012 |
20120199854 | ACTIVE MATRIX SUBSTRATE AND ORGANIC EL DISPLAY DEVICE - The present invention provides an active matrix substrate driven by an analog gray scale method, and an organic EL display device, in which decrease in response speed of a current emissive element is suppressed. The active matrix substrate of the present invention is driven by an analog gray scale method and is provided with a pixel that has a current emissive element and a transistor that supplies current to the current emissive element. The pixel further has a compensation circuit for compensating variability of threshold voltage in the transistor; the current emissive element has a pixel electrode electrically connected to the transistor; a gate electrode of a transistor that makes up the compensation circuit forms a region covered with the pixel electrode; and a part or the entirety of the gate electrode that is positioned within the region is provided in a wiring layer that is lower than a wiring layer directly below the pixel electrode. | 08-09-2012 |
20130106823 | DISPLAY DEVICE AND METHOD FOR DRIVING SAME | 05-02-2013 |
20140340377 | COLOR DISPLAY DEVICE - In a pixel circuit ( | 11-20-2014 |
20150138183 | DISPLAY DEVICE AND DRIVING METHOD THEREOF - A gate driver divides n scanning lines (G | 05-21-2015 |
20150145899 | DISPLAY DEVICE AND METHOD FOR DRIVING SAME - In a pixel circuit, during a period during which an organic EL element is not emitting light, transistors are in an “on” state and the organic EL element is reversed-biased by a low-level power-supply potential and a reverse-biasing power-supply potential. A reverse-direction voltage determined by a reverse-direction current that depends on the degree to which degradation of the organic EL element has progressed is thus written to a capacitor. A data voltage is then supplied to the capacitor via another capacitor, bringing the drive voltage of a transistor that controls the current that drives the organic EL element to Vsig+Voledr. This makes it possible to minimize decreases in the emission luminance of an electrooptical element such as an organic EL element due to degradation thereof over time. | 05-28-2015 |
20150146129 | DISPLAY DEVICE AND METHOD FOR DRIVING SAME - In a pixel circuit, during a period during which an organic EL element is not emitting light, transistors are in an “on” state and the organic EL element (OLED) is reversed-biased by a low-level power-supply potential and a reverse-biasing power-supply potential. A reverse-direction voltage determined by a reverse-direction current that depends on the degree to which degradation of the organic EL element has progressed is thus written to a capacitor. A data voltage is then supplied to the capacitor via another capacitor, bringing the drive voltage of a transistor (T | 05-28-2015 |
20150179101 | PIXEL CIRCUIT, DISPLAY DEVICE INCLUDING THE SAME AND DRIVING METHOD OF THE DISPLAY DEVICE - A pixel circuit is capable of maintaining a display quality even in cases where an input transistor has a low mobility, or where it is impossible to take a sufficient selection period for each scanning line. A pixel circuit includes an organic EL element (OLED), transistors, and a capacitor. A drive transistor has its drain terminal connected to a HIGH level power supply line, and has its source terminal connected to an anode terminal of the OLED. The first input transistor has its gate terminal connected to a scanning line Si, and is disposed between a data line Dj and the gate terminal of the drive transistor. The second input transistor has its gate terminal connected to a scanning line (Si- | 06-25-2015 |
20150199932 | DISPLAY DEVICE AND METHOD OF DRIVING THE SAME - An organic EL display device includes an emission driver that has an ON-control transistor (T | 07-16-2015 |
20150213757 | DISPLAY DEVICE AND METHOD FOR DRIVING THE SAME - An organic EL display device includes a controller, a data driver, and a DRAM which provides a gain correction memory and a threshold voltage correction memory. The data driver sends, to the controller, first and second measurement data Im corresponding to the first and second measuring data voltages Vm, respectively. The controller compares ideal characteristic data IO(P) with the first and second measurement data Im, and updates threshold voltage correction data Vt and gain correction data B | 07-30-2015 |
20150235595 | DISPLAY DEVICE AND METHOD FOR DRIVING SAME - In a pixel circuit, during a period during which an organic EL element is not emitting light, a transistor is in an “on” state and a reverse-direction voltage determined by a reverse-direction current that depends on the degree to which degradation of the organic EL element has progressed is written to a capacitor. The transistor then turns off, another transistor turns on, and a compensating current that depends on the reverse-direction voltage flows from another capacitor towards a reverse-biasing power-supply line, causing a drive voltage maintained by the capacitor to change by a compensating voltage change. This makes it possible to minimize decreases in the emission luminance of an electro-optical element such as an organic EL element due to degradation thereof over time. | 08-20-2015 |
20150248856 | DATA LINE DRIVING CIRCUIT, DISPLAY DEVICE INCLUDING SAME, AND DATA LINE DRIVING METHOD - A detection output circuit provided in a source driver compares a voltage detected by a resistor and a voltage of a driving signal using comparators drives a transistor, a capacitor and an operational amplifier using a ramp signal so that they are maintained at voltages corresponding to a current flowing through a data line, and performs feedback control so that the potential of the data line is a desired potential. With this simple configuration, a data line circuit can be achieved that is capable of eliminating variation in driving transistor characteristics and the like, while performing current protection at high speed. | 09-03-2015 |
20150317952 | DISPLAY DEVICE AND METHOD FOR DRIVING SAME - An embodiment of the present invention realizes a display device equipped with a self light-emitting type display element driven by a current, by using a pixel circuit having a configuration simpler than a conventional configuration. A pixel circuit includes a driving transistor (T | 11-05-2015 |
Patent application number | Description | Published |
20080213583 | Electrically-Conductive Laminated Film, Touch Panel Electrode Plate, Touch Panel, and Pressure-Sensitive Adhesive for Use in Electrically-Conductive Laminated Film - An electrically-conductive laminated film of the invention comprises a first transparent substrate having first and second surfaces; an electrically-conductive film comprising a second transparent substrate having first and second surfaces and a transparent electrically-conductive thin layer provided on the first surface of the second transparent substrate; and a pressure-sensitive adhesive layer, wherein the first transparent substrate and the electrically-conductive film are arranged in such a manner that the second surface of the first transparent substrate is opposed to the second surface of the second transparent substrate, wherein the first transparent substrate and the electrically-conductive film are bonded to each other with the pressure-sensitive adhesive layer interposed therebetween; wherein each of the first and second transparent substrates is formed of a plastic material, wherein the pressure-sensitive adhesive layer is formed of a pressure-sensitive adhesive comprising an acrylic polymer comprising 1 to 35% by weight of a methyl (meth)acrylate monomer unit, 60 to 98% by weight of an alkyl (meth)acrylate monomer unit having an alkyl group of 2 to 12 carbon atoms, and 0.1 to 10% by weight of a functional group-containing monomer unit. The electrically-conductive laminated film can suppress to become the pressure-sensitive adhesive layer a pear skin appearance. | 09-04-2008 |
20090029151 | TRANSPARENT CONDUCTIVE FILM AND TOUCH PANEL - A transparent conductive film of the present invention comprises: a transparent film substrate; a hard-coating layer provided on one side of the transparent film substrate; and a transparent conductive thin layer provided on another side of the transparent film substrate, wherein the hard-coating layer is made from a material containing a urethane acrylate, a polyol (meth)acrylate and a (meth)acrylic polymer having an alkyl group containing two or more hydroxyl groups. The transparent conductive film of the present invention has good scratch resistance. | 01-29-2009 |
20090117405 | TRANSPARENT CRYSTALLINE ELECTRICALLY-CONDUCTIVE THIN FILM, METHOD OF PRODUCTION THEREOF, TRANSPARENT ELECTRICALLY-CONDUCTIVE FILM, AND TOUCH PANEL - A transparent crystalline electrically-conductive thin film of the present invention comprises an indium tin oxide as a main component, wherein the indium tin oxide contains 9% by weight or less of tin oxide based on the total amount of indium oxide and tin oxide, wherein the transparent crystalline electrically-conductive thin film contains 0.45 atomic % or less of nitrogen. The transparent crystalline electrically-conductive thin film of the present invention has a high resistance value and good reliability in a high-temperature, high-humidity environment. | 05-07-2009 |
20110141065 | TRANSPARENT CONDUCTIVE LAMINATED BODY - A transparent conductive laminated body comprising: a transparent film substrate having a thickness of 2 to 200 μm, and a first transparent dielectric thin film, a second transparent dielectric thin film and a transparent conductive thin film that are formed on one side of the substrate in this order from the side of the substrate, wherein the first transparent dielectric thin film is formed by vacuum deposition, sputtering or ion plating and comprises a complex oxide containing 0 to 20 parts by weight of tin oxide and 10 to 40 parts by weight of cerium oxide relative to 100 parts by weight of indium oxide, and the relationship: n | 06-16-2011 |
20120276397 | VACUUM FILM FORMATION METHOD AND LAMINATE OBTAINED BY THE METHOD - A method of continuously subjecting an elongated substrate to vacuum film formation is disclosed. The method comprises the steps of: feeding a first substrate from a first roll chamber in a first direction from the first chamber toward a second roll chamber; degassing the first substrate; forming a film of a second material on the first substrate, in a second film formation chamber; and rolling up the first substrate in the second roll chamber, thereby producing the first substrate, and further comprises similar steps to produce a second substrate. In advance of producing the first substrate with the second material film, the first cathode electrode of the first film formation chamber is removed from the first film formation chamber, and, in advance of producing the second substrate with the first material film, the second cathode electrode of the second film formation chamber is removed from the second film formation chamber. | 11-01-2012 |
20130087372 | TRANSPARENT CONDUCTIVE FILM - There is provided a transparent conductive film which comprises: a film substrate; a plurality of transparent conductor patterns formed on the film substrate; and a pressure-sensitive adhesive layer wherein the transparent conductor patterns are embedded. The plurality of transparent conductor patterns respectively have a two-layer structure wherein a first indium tin oxide layer and a second indium tin oxide layer are laminated on the film substrate in this order, and the first indium tin oxide layer has a greater tin oxide content than the second indium tin oxide layer does. The first indium tin oxide layer has a smaller thickness than the second indium tin oxide layer does. | 04-11-2013 |
20140050908 | TRANSPARENT CONDUCTIVE FILM - A transparent conductive film comprises: a film substrate having two main surfaces; and a transparent conductor layer formed on one main surface of the film substrate. The transparent conductor layer is composed of three layers in which a first indium tin oxide layer, a second indium tin oxide layer, and a third indium tin oxide layer are laminated in this order from the film substrate side. The first indium tin oxide layer has a smaller tin oxide content than the second indium tin oxide layer has. The third indium tin oxide layer has a smaller tin oxide content than the second indium tin oxide layer has. | 02-20-2014 |
20140124247 | TRANSPARENT CONDUCTIVE FILM - There is provided a transparent conductive film which comprises: a film substrate; a plurality of transparent conductor patterns formed on the film substrate; and a pressure-sensitive adhesive layer wherein the transparent conductor patterns are embedded. The plurality of transparent conductor patterns respectively have a two-layer structure wherein a first indium tin oxide layer and a second indium tin oxide layer are laminated on the film substrate in this order, and the first indium tin oxide layer has a greater tin oxide content than the second indium tin oxide layer does. The first indium tin oxide layer has a smaller thickness than the second indium tin oxide layer does. | 05-08-2014 |
Patent application number | Description | Published |
20140290561 | IMPACT DETECTION APPARATUS - An impact detection apparatus according to one aspect of the present disclosure includes first and second detection portion, and connection portion. First and second detection portion each include solution container, solution absorption portion, mount-surface portion, and exterior portion. Solution container is configured to store colored solution therein, and has outlet enabling colored solution to flow out when being subjected to pressing force. Solution absorption portion is capable of absorbing colored solution that has flowed out from the outlet. Exterior portion is disposed on mount-surface portion, forms, together with mount-surface portion therebetween, housing space housing solution container and solution absorption portion, and has transparent portion. When colored solution flows out from outlet of one of solution containers due to being subjected predetermined pressing force, colored solution is absorbed by one of solution absorption portions, and one of solution absorption portions colored by colored solution is visually recognized through transparent portion. | 10-02-2014 |
20140319011 | PACKAGING CASE AND PACK BODY - A packaging case includes a body, a fixed support portion, and a movable support portion. Body includes storage space, and has openings that are formed in top face thereof and bottom face thereof and that are in communication with storage space. Fixed support portion is fixed to body and is provided at first position at which fixed support portion is capable of supporting article to be packed stored in storage space. Movable support portion is provided in body so as to be movable in storage space, is configured to support article at first position, along with fixed support portion, and is configured to move, when packaging case has been taken out of exterior case and placed on predetermined face, to second position defined above first position to support article in a state where at least a part of article is exposed from opening in top face to outside. | 10-30-2014 |