Patent application number | Description | Published |
20100328038 | WIRELESS TAG READING APPARATUS AND METHOD FOR ARRANGING READER ANTENNA OF WIRELESS TAG READING APPARATUS - A wireless tag reading apparatus comprising: an electric field-type reader antenna which has an electromagnetic wave radiating side arranged toward a wireless tag for both near-field and far-field operation and which transmits and receives a signal to and from the wireless tag by an electric field; a magnetic field-type reader antenna which has an electromagnetic wave radiating side arranged toward the wireless tag from a different direction from the electromagnetic wave radiating side of the electric field-type reader antenna and not orthogonally to an antenna side of the wireless tag and which transmits and receives a signal to and from the wireless tag by a magnetic field; and an antenna switching unit which switches use of the magnetic field-type reader antenna and the electric field-type reader antenna. | 12-30-2010 |
20110156985 | COMMUNICATION ANTENNA DEVICE - A communication antenna device for use in radio communication between a moving body and an access point comprises an antenna main body for transmitting and receiving a signal, a base side member of the moving body for supporting the antenna main body, and a damping mechanism provided between the base side member and the antenna main body and suppressing high frequency vibration of the antenna main body that has an impact on the radio communication. The damping mechanism includes an elastic member for absorbing high frequency vibration that has an impact on the radio communication. The elastic member has such characteristics as absorbing high frequency vibration of the antenna main body that makes changes in amplitude or frequency of a transmission signal from the antenna main body to the extent of inducing a demodulation error when the transmission signal is received at an antenna of the other party. | 06-30-2011 |
20130099586 | POWER TRANSMISSION APPARATUS, POWER TRANSMISSION DEVICE, POWER RECEPTION DEVICE, AND POWER TRANSMISSION METHOD - A power transmission apparatus includes a power transmission device having a power transmission amount detecting unit that transmits power and detects a power transmission amount, a power transmission device communication unit that communicates with a power reception device, and a power transmission device controller that calculates power transmission efficiency from the power transmission amount and a power reception amount and stops transmitting power if it is determined that a relationship between the power transmission amount and the power transmission efficiency lies out of an operable region, and the power reception device having a power reception amount detecting unit that receives power from the power transmission device and detects the power reception amount, a power reception device communication unit that communicates with the power transmission device, and a power reception device controller that transmits the power reception amount to the power transmission device via the power reception device communication unit. | 04-25-2013 |
20140191584 | POWER TRANSMISSION DEVICE, AND POWER TRANSMITTER AND POWER RECEIVER FOR THE SAME - A power transmission device performs contactless power transmission from a power transmitter to a power receiver. The power transmitter includes a main body supporting the power receiver by first and second surfaces that are disposed adjacent to each other, a power transmitting coil disposed within the main body and having a first coil portion corresponding to the first surface and a second coil portion corresponding to the second surface, and a power source supplying power to the power transmitting coil. The power receiver includes a main body having a third surface and a fourth surface opposed to the first and second surfaces, respectively, and a power receiving coil disposed within the main body and having a third coil portion corresponding to the third surface and a fourth coil portion corresponding to the fourth surface. | 07-10-2014 |
Patent application number | Description | Published |
20080284695 | Display Device and Driving Method of Display Device - A IF inversion driving method writes signal voltage of the same polarity to a signal line over a 1F period, and therefore cannot prevent occurrence of crosstalk caused by coupling. Also, shading is caused. In an active matrix type liquid crystal display device including a pixel array unit | 11-20-2008 |
20090121984 | Electroluminescent display panel and electronic device - An EL display panel including: a pixel array section in which EL display elements whose light emission state is controlled by an active matrix driving system are arranged in a form of a matrix; a first writing control line driving section and a second writing control line driving section configured to drive each writing control line from both sides of the pixel array section; and a first power supply line driving section and a second power supply line driving section configured to drive a power supply line disposed along a direction of a horizontal line from both sides of the pixel array section, the first power supply line driving section and the second power supply line driving section being respectively arranged between the first writing control line driving section and the pixel array section and between the second writing control line driving section and the pixel array section. | 05-14-2009 |
20100118017 | ORGANIC ELECTROLUMINESCENT LIGHT EMITTING UNIT DRIVING METHOD - An organic electroluminescent light emitting unit driving method includes a process (a) to execute preprocessing, a process (b) to execute threshold voltage cancellation processing, a process (c) to execute writing processing, a process (d) to set a first node to a floating state, and a process (e) to execute a series of processes at least once wherein after driving an organic electroluminescent light emitting unit, a reverse voltage is applied between the anode and cathode electrodes of the organic electroluminescent light emitting unit, with a series of processes (a) through (e) being repeated, with an auxiliary driving process being provided wherein a forward voltage is applied between the anode and cathode electrodes of the organic electroluminescent light emitting unit over a certain period, and with a period between the termination of the auxiliary driving process and the termination of the next process (b) being suppressed to 1 millisecond or less. | 05-13-2010 |
20100201717 | Display device and driving method thereof - A driving method for a display device includes the steps of: performing writing processing to apply a video signal to a first node over a data line via a writing transistor with a predetermined driving voltage applied from a power supply to one of source/drain regions of a driving transistor, wherein the trailing edge of a scanning signal to be applied to a gate electrode of the writing transistor at the writing processing step is inclined; and the luminance characteristic of display elements connected onto each of a scan lines is controlled by controlling the crest value of the scanning signal, which is applied to first to M-th scan lines, for each of the scan lines. | 08-12-2010 |
20100259533 | DISPLAY AND A METHOD OF DRIVING THE SAME - A display includes: a pixel circuit array section including a plurality of light-emitting elements and a plurality of pixel circuits; a scanning line drive circuit sequentially selecting the plurality of light-emitting elements and the plurality of the pixel circuits; a signal line drive circuit writing a light emission potential corresponding to a signal potential to a selected pixel circuit; and a control circuit, in which in each frame period, the control circuit outputs a light-off control signal at a lapse of a first period after writing the light emission potential to the selected pixel circuit by the signal line drive circuit, and then the control circuit outputs a light-on control signal at a lapse of a second period, and after that, the control circuit outputs a light-off control signal at a lapse of a third period which is longer than the first period. | 10-14-2010 |
20140340378 | ELECTROLUMINESCENT DISPLAY PANEL AND ELECTRONIC DEVICE - An EL display panel including: a pixel array section in which EL display elements whose light emission state is controlled by an active matrix driving system are arranged in a form of a matrix; a first writing control line driving section and a second writing control line driving section configured to drive each writing control line from both sides of the pixel array section; and a first power supply line driving section and a second power supply line driving section configured to drive a power supply line disposed along a direction of a horizontal line from both sides of the pixel array section, the first power supply line driving section and the second power supply line driving section being respectively arranged between the first writing control line driving section and the pixel array section and between the second writing control line driving section and the pixel array section. | 11-20-2014 |
20150332657 | ELECTROLUMINESCENT DISPLAY PANEL AND ELECTRONIC DEVICE - An EL display panel including: a pixel array section in which EL display elements whose light emission state is controlled by an active matrix driving system are arranged in a form of a matrix; a first writing control line driving section and a second writing control line driving section configured to drive each writing control line from both sides of the pixel array section; and a first power supply line driving section and a second power supply line driving section configured to drive a power supply line disposed along a direction of a horizontal line from both sides of the pixel array section, the first power supply line driving section and the second power supply line driving section being respectively arranged between the first writing control line driving section and the pixel array section and between the second writing control line driving section and the pixel array section. | 11-19-2015 |
Patent application number | Description | Published |
20100075253 | RESIST UNDERLAYER FILM FORMING COMPOSITION CONTAINING LOW MOLECULAR WEIGHT DISSOLUTION ACCELERATOR - There is provided a resist underlayer film forming composition that is used in a lithography process for the production of semiconductor devices and that can be developed with an alkaline developer for photoresists, and a method of forming a photoresist pattern by using the resist underlayer film forming composition. The resist underlayer film forming composition used in a lithography process for a production of a semiconductor device comprising: an alkali-soluble resin (a); a polynuclear phenol (b); a compound (c) having at least two vinylether groups; and a photoacid generator (d). The alkali-soluble resin (a) may be a polymer containing a unit structure having a carboxyl group, and the polynuclear phenol (b) may be a compound having 2 to 30 phenolic hydroxyl groups in the molecule. | 03-25-2010 |
20130189533 | RESIST UNDERLAYER FILM FORMING COMPOSITION FOR LITHOGRAPHY CONTAINING POLYETHER STRUCTURE-CONTAINING RESIN - There is provided a resist underlayer film forming composition for forming a resist underlayer film providing heat resistance properties and hardmask characteristics. A resist underlayer film forming composition for lithography, comprising: a polymer containing a unit structure of Formula (1): | 07-25-2013 |
20130280913 | COMPOSITION FOR FORMING A RESIST UNDERLAYER FILM INCLUDING HYDROXYL GROUP-CONTAINING CARBAZOLE NOVOLAC RESIN - There is provided a composition for forming a resist underlayer film having heat resistance for use in a lithography process in semiconductor device production. A composition for forming a resist underlayer film, comprising a polymer that contains a unit structure of formula (1) and a unit structure of formula (2) in a proportion of 3 to 97:97 to 3 in molar ratio: | 10-24-2013 |
20140106570 | COMPOSITION FOR FORMING ORGANIC HARD MASK LAYER FOR USE IN LITHOGRAPHY CONTAINING POLYMER HAVING ACRYLAMIDE STRUCTURE - Whereas, conventionally, ashing had been used at the time of removal, the present invention provides a material for forming an organic hard mask that can be removed by an alkaline aqueous solution, and thus can be expected to reduce damage to the substrate at the time of the removal. A composition for forming an organic hard mask layer comprising: a polymer (A) including a structural unit of Formula (1) and a structural unit of Formula (2); a crosslinkable compound (B) including at least two of blocked isocyanate groups, methylol groups, or C | 04-17-2014 |
Patent application number | Description | Published |
20120142285 | ANTENNA SWITCHING SYSTEM AND ANTENNA SWITCHING METHOD - According to one embodiment, an antenna switching system includes a (a≧3) antennas and a selector. The selector selects b | 06-07-2012 |
20150015080 | POWER TRANSMISSION APPARATUS AND COIL DEVICE - In a power transmission apparatus which transmits power from a power transmission device to a power reception device in a noncontact manner through electromagnetic coupling, the power transmission device includes a power transmission coil, and an AC power source supplying AC power to a resonance element including the power transmission coil. The power reception device includes a power reception coil that receives power, and a rectifying circuit rectifying AC power induced in a resonance element including the power reception coil. One of the power transmission coil and the power reception coil includes a blank region formed at a central portion, and a first coil pattern formed in a planar shape at a peripheral portion of the blank region, and the other of the power transmission coil and the power reception coil includes a second coil pattern formed in a planar shape so as to correspond to the blank region. | 01-15-2015 |
20150015082 | POWER TRANSMISSION APPARATUS, POWER TRANSMISSION DEVICE AND POWER RECEPTION DEVICE FOR POWER TRANSMISSION APPARATUS - In a power transmission apparatus which transmits power from a power transmission device to a power reception device in a noncontact manner, the power transmission device includes a first main body supporting the power reception device on adjacent first and second surfaces, and a power transmission coil formed by planar coils which are respectively symmetrically disposed on the first and second surfaces with respect to an intersection between the first and second surfaces inside the first main body, and includes an extension region in which an occupation area of the coils gradually increases while becoming distant from a part close to the intersection. The power reception device includes a second main body that includes third and fourth surfaces which respectively face the first and second surfaces, and a power reception coil disposed in the second main body so as to correspond to the third and fourth surfaces. | 01-15-2015 |
Patent application number | Description | Published |
20160072307 | NON-CONTACT POWER TRANSMITTING DEVICE - A non-contact power transmitting device includes a power receiving device that includes a rectification circuit, a voltage converting circuit, and a switching circuit for connecting or disconnecting the voltage converting circuit to or from a load circuit, and a power transmitting device that includes a power transmitting circuit, a detection circuit that detects a current that is supplied to the power transmitting circuit, and a determination circuit that compares the detected current value with a threshold current set in advance, and determines whether the load circuit of the power receiving device is in contact with the power transmitting device, where the power transmitting device transmits power to the power receiving device in a non-contact manner. | 03-10-2016 |
20160094046 | NON-CONTACT POWER SUPPLY DEVICE - A non-contact power supply device, which supplies electric power to a power reception coil from a power transmission coil in a non-contact manner, includes a power transmission coil, a power transmission circuit switchably coupling a voltage source to the power transmission coil, the power transmission circuit configured to resonate at a fundamental frequency, and a serial LC resonant circuit in parallel with the power transmission coil, and configured to resonate at a frequency of a harmonic wave of the fundamental frequency. The non-contact power supply device suppresses a harmonic wave noise by providing a resonant circuit that resonates at a specific harmonic wave. | 03-31-2016 |