Patent application number | Description | Published |
20110198668 | SEMI-CONDUCTOR LIGHT EMITTING DEVICE - A semi-conductor light emitting device | 08-18-2011 |
20110297989 | LIGHT EMITTING DEVICE - The light emitting device comprises a mounting substrate and an LED chip which comprises an n-type nitride semiconductor layer, a nitride light emission layer on the n-type nitride semiconductor layer, p-type nitride semiconductor layer on the nitride light emission layer, an anode electrode opposite of the nitride light emission layer from the p-type nitride semiconductor layer, and a cathode electrode on the n-type nitride semiconductor layer. The mounting substrate has a patterned conductor which is connected to the cathode electrode through a bump and also connected to the anode electrode through a bump. The LED chip further comprises one or more dielectric layer between the p-type nitride semiconductor layer and the anode electrode to have an arrangement which resembles an island. The p-type nitride semiconductor layer has a first region which is overlapped with the bump. The dielectric layer is not formed within the first region. | 12-08-2011 |
20130075776 | LIGHT DISTRIBUTION CONTROLLER, LIGHT-EMITTING DEVICE USING THE SAME, AND METHOD FOR FABRICATING LIGHT DISTRIBUTION CONTROLLER - A light distribution controller of a light-emitting device includes a first optical member formed of ZnO disposed over an LED interposing a transparent adhesive, and a second optical member which covers the first optical member. The first optical member includes a first concave portion having an opening in a regular hexagon shape whose area gradually increases. In the first concave portion, inner wall surfaces having inclined surfaces, each of whose bases is formed by one side of the hexagon of the opening shape, are formed. Outside of the first optical member, outer wall surfaces each having a trapezoidal shape are formed. The second optical member includes a second concave portion arranged so that light at an annular peak in the light distribution characteristic of the light traveled through the first optical member is totally reflected. | 03-28-2013 |
Patent application number | Description | Published |
20080272696 | Plasma Display Panel - A plasma display panel has a first substrate, plural pairs of display electrodes, a second substrate, and plural data electrodes. Each pair of the display electrodes is made up of a scanning electrode and a sustain electrode which are arranged parallel to each other on the first substrate. The second substrate is disposed opposite to the first substrate. A discharge space is formed between the first substrate and second substrate. The data electrodes are arranged in a direction perpendicular to the display electrodes on the second substrate. The data electrode is wider in peripheral portion of the second substrate than in a central portion of the second substrate. | 11-06-2008 |
20100015877 | METHOD FOR PRODUCING PLASMA DISPLAY PANEL - A method for producing a plasma display panel, the method comprising the steps of: (i) preparing a front panel and a rear panel, the front panel being a panel wherein an electrode A, a dielectric layer A and a protective layer are formed on a substrate A, and the rear panel being a panel wherein an electrode B, a dielectric layer B, a partition wall and a phosphor layer are formed on a substrate B; (ii) applying a glass frit material onto a peripheral region of the substrate A or B, and then opposing the front and rear panels with each other such that the glass frit material is interposed therebetween; (iii) supplying a gas into a space formed between the opposed front and rear panels from a direction lateral to the opposed front and rear panels, under such a condition that the front and rear panels are heated; and (iv) melting the glass frit material to cause the front and rear panels to be sealed. | 01-21-2010 |
20100308721 | PLASMA DISPLAY PANEL - A plasma display panel has high definition, high luminance, and low power consumption. In the plasma display panel, the front panel is provided thereon with display electrodes, a dielectric layer, and a protective layer. The display electrodes are formed on the front glass substrate. The dielectric layer coats the display electrodes, and the protective layer is formed on the dielectric layer. The rear panel is provided thereon with address electrodes and barrier ribs for partitioning the discharge space in the direction crossing to the display electrodes. The front and rear panels are opposed to each other with a discharge space therebetween filled with a discharge gas. The protective layer on the dielectric layer includes an underlying film, and aggregated particles adhered on the underlying film, the aggregated particles being formed by aggregating crystal grains of magnesium oxide. The underlying film contains metal oxides composed of at least two oxides selected from magnesium oxide, calcium oxide, strontium oxide, and barium oxide. According to an X-ray diffraction analysis of the surface of the underlying film, in a specific plane direction, the metal oxides have a diffraction angle peak between the minimum and maximum diffraction angles of simple substances of the oxides composing the metal oxides. | 12-09-2010 |
20110133639 | PLASMA DISPLAY PANEL - A plasma display panel (PDP) featuring the display performance of high definition display and a high brightness, and yet, a lower power consumption is disclosed. A front panel of this PDP includes display electrodes formed on a front glass substrate, a dielectric layer covering the display electrodes, and a protective layer formed on the dielectric layer. A rear panel of this PDP includes address electrodes formed along a direction intersecting with the display electrodes, and barrier ribs. The front panel and the rear panel confront each other to form a discharge space which is filled with discharge gas and is portioned by the barrier ribs. The protective layer is formed of a metal oxide made of MgO and CaO. X-ray diffraction analysis on the surface of the protective layer finds that the metal oxide has a peak between a diffraction angle where a peak of MgO occurs and a diffraction angle where a peak of CaO occurs along an identical orientation of the MgO peak. | 06-09-2011 |
20120146974 | PLASMA DISPLAY PANEL - A plasma display panel has a first substrate, plural pairs of display electrodes, a second substrate, and plural data electrodes. Each pair of the display electrodes is made up of a scanning electrode and a sustain electrode which are arranged parallel to each other on the first substrate. The second substrate is disposed opposite to the first substrate. A discharge space is formed between the first substrate and second substrate. The data electrodes are arranged in a direction perpendicular to the display electrodes on the second substrate. The data electrode is wider in peripheral portion of the second substrate than in a central portion of the second substrate. | 06-14-2012 |
20140084177 | RADIATION DETECTOR - The radiation detector includes: a housing defining an enclosed space filled with a radiation detection gas; first and second electrodes opposing each other across the enclosed space; insulating materials covering surfaces of the first and second electrodes facing the enclosed space; and a voltage source for applying a voltage to the first and second electrodes, whereby a radiation sensor is formed. The radiation sensor is configured so that: in a radiation detection period, a predetermined voltage is applied between the first and second electrodes, and an electric charge is accumulated on the insulating materials by ions and/or electrons generated by ionization of the gas by incident radiation; and in a radiation measurement time, an electric discharge is caused by applying a reverse bias voltage from that applied to the first and second electrodes in the radiation detection period, and a firing voltage is measured. | 03-27-2014 |
20150221870 | METHOD FOR PRODUCING EL DISPLAY DEVICE, TRANSFER SUBSTRATE USED IN PRODUCTION OF EL DISPLAY DEVICE, AND METHOD FOR PRODUCING TRANSFER SUBSTRATE USED IN PRODUCTION OF EL DISPLAY DEVICE - A method for manufacturing an EL display device, the EL display device including: a light-emitter emitting light of at least red, green, and blue colors; and a thin-film transistor array device controlling light-emission of the light-emitter, the light-emitter including at least red, green, and blue light-emitting layers arranged within regions partitioned by banks, and being sealed with a sealing layer, the method including: preparing at least three types of transfer substrates corresponding to red, green, and blue colors, each transfer substrate having a supporting substrate on which a transfer layer including at least red, green, or blue light-emitting material is formed by an inkjet method; and when forming the light-emitting layers, repeatedly performing a transfer process that includes transferring the transfer layer onto a transfer-target substrate of the EL display device by using the transfer substrate. | 08-06-2015 |
20150249232 | METHOD FOR PRODUCING EL DISPLAY DEVICE - A method including: forming a thin-film transistor array device that constitutes a pixel circuit; forming light-emitting layers; and after forming a light-emitter by forming the light-emitting layers, sealing the light-emitter entirely. The forming of the light-emitting layers includes: preparing transfer substrates, each transfer substrate having a supporting substrate on which a transfer layer including at least one of red, green, and blue light-emitting materials is formed; and transferring the corresponding transfer layer onto a transfer-target substrate of an EL display device by using the corresponding transfer substrate, and the forming of the light-emitting layers, the sealing, and the forming of the transfer layer of each transfer substrate are performed within an isolation atmosphere for preventing exposure to the air. | 09-03-2015 |
Patent application number | Description | Published |
20100321414 | DISPLAY DEVICE - It is an object of the present invention to provide a display device that can improve the color reproductivity on a displayed image and improve the display quality. A liquid crystal display device ( | 12-23-2010 |
20110090265 | IMAGE DISPLAY DEVICE AND IMAGE DISPLAY METHOD - There is provided an image display device capable of suppressing the occurrence of a color shift while ensuring a sufficient color reproduction range. An in-area maximum luminance obtaining unit ( | 04-21-2011 |
20110157259 | LAMP ON/OFF OPERATION CONTROL METHOD, CLOCK GENERATION METHOD, CLOCK GENERATION CIRCUIT, LIGHT SOURCE CONTROL CIRCUIT, AND DISPLAY DEVICE - A PLL as a clock generation circuit that generates a PWM clock based on a reference clock, which PWM clock is used for controlling, in a pulse width modulation method, a lamp on time and a lamp off time of a light source illuminating a liquid crystal panel by synchronizing with a video signal that performs display in a set period on the liquid crystal panel, includes a configuration that generates a PWM clock that can maintain a fixed ratio of the lamp on time to the lamp off time within one period even if the set period is changed, by changing a pulse interval of the reference clock in conjunction with the change in the set period. | 06-30-2011 |
20110248974 | BACKLIGHT DRIVE DEVICE AND DISPLAY DEVICE HAVING SAME - Backlight drive units included in a backlight drive device of at least one embodiment of the present invention each have a plurality of metal pads functioning as a plurality of address setting terminals. To provide a potential for setting a unique address by coming into contact with the metal pads, metal protrusions are provided at corresponding locations of a backlight housing. A backlight drive control unit is directly connected to each unit through an IIC bus by a bus scheme and receives, via the IIC bus, a detected amount of light and temperature from each unit identified by the address. With such a simple configuration, a unique address can be automatically set for each unit, obtaining the commonization of backlight drive units. | 10-13-2011 |
20110267384 | ILLUMINATION DEVICE, DISPLAY DEVICE, DATA GENERATION METHOD, DATA GENERATION PROGRAM, AND RECORDING MEDIUM - Under control of a main microcomputer, an LED controller generates two frame-type LED control signals corresponding to two frame image signals arranged in time series in accordance with a panel processing color video signal. Furthermore, the LED controller generates from two frame-type LED control signals, a frame-type LED signal corresponding to an interpolation frame image signal temporally between the two frame image signals. | 11-03-2011 |
Patent application number | Description | Published |
20120019119 | ELECTRIC DISCHARGE TUBE, METHOD FOR FORMING REFLECTIVE FILM OF ELECTRIC DISCHARGE TUBE, AND LIGHT EMITTING DEVICE - A light emitting device includes a glass bulb and a reflective film formed in a region having an angle of at least 230° on an outer peripheral surface of the glass bulb. The light emitting device can obtain the reflective film having a sufficient film thickness in a wide region on an outer peripheral surface of an electric discharge tube and has a uniform light intensity distribution. | 01-26-2012 |
20120212949 | STROBE DEVICE AND IMAGE-CAPTURING DEVICE USING SAME - A strobe device includes an electric discharge tube and a reflection member. The reflection member has an inner peripheral surface formed by a curved line in cross section orthogonal to a direction of the axis of the electric discharge tube so that a space therein expands toward an exit opening from an entrance opening, and two lines tangent to the inner peripheral surface at end points of the entrance opening of the reflection member intersect with each other at a point on a rear side of the axis of the electric discharge tube and on a front side of an exterior surface of a glass bulb that forms the electric discharge tube. | 08-23-2012 |
20120257372 | STROBE DEVICE AND IMAGING DEVICE - A strobe device includes a discharge tube having a light transparent section and an optical member disposed in front of the light transparent section. The optical member includes a first incident face receiving a main beam radiated forward from the light transparent section, a pair of second incident faces receiving a complementary beam radiated forward and obliquely from the light transparent section, a pair of total reflection faces for reflecting totally and forwardly the complementary beam coming from the second incident faces, and an beam-emitting face through which the main beam and the complementary beam go outward. Each of the pair of total reflection faces is formed of a curved face such that the space between the curved faces expands toward the front side from the discharge tube side between the total reflection faces expanding, and two tangential lines to the curved faces at starting points located on the discharge tube side cross each other at an intersection point behind the center of the discharge tube and yet in front of the outer peripheral face of the glass tube. | 10-11-2012 |
20120293060 | DISCHARGE TUBE AND STROBOSCOPIC DEVICE - A discharge tube includes a reflective film formed on an outer periphery of a cylindrical glass bulb by metal deposition. The reflective film is deposited in a range of 240° or more in the circumferential direction, and the range being larger in a center part than at each end in the axial direction. A stroboscopic device is equipped with this discharge tube. | 11-22-2012 |
20130343047 | STROBE DEVICE - A strobe device of the present invention includes a cylindrical flashtube, a reflector for reflecting light coming from the flashtube, a trigger circuit for applying a trigger voltage to the reflector, and a conductive abutting section that is disposed on at least one of the flashtube and reflector and abuts on at least the other of the flashtube and reflector. The conductive abutting section is disposed in the axial direction of the flashtube. Thus, a strobe device that generates light of stable brightness can be achieved. | 12-26-2013 |
20140185298 | STROBE DEVICE - A strobe device having small variations in the amount of light includes the following components: a flash discharge tube having an anode on one side and a cathode on the other side, the cathode having a metal sintered body at an end thereof; a conductive reflector composing an external trigger electrode, and storing a part of the flash discharge tube; and a trigger coil having a primary winding and a secondary winding around a hollow core. A portion of the cathode of the flash discharge tube not including the metal sintered body is inserted into the core of the trigger coil. The reflector, which is connected to the secondary winding of the trigger coil, has a bottom in contact with the outer peripheral surface of the flash discharge tube in such a manner as to cover at least the region extending from the anode to the cathode and the metal sintered body. | 07-03-2014 |
20140233207 | STROBE DEVICE - A strobe device of the present invention includes a flash discharge tube having an anode electrode and a cathode electrode on both ends thereof, and a conductive reflector in contact with an outer peripheral surface of the flash discharge tube. The reflector houses a part of the flash discharge tube inside, and functions as an external trigger electrode. The reflector has a bottom that is in contact with a portion of the outer peripheral surface of the flash discharge tube, the portion covering at least an area between the anode electrode and the cathode electrode and a sintered metal of the cathode electrode. This can suppress variation in discharge path at every light emission from the flash discharge tube. As a result, variation in light quantity and variation in light distribution of light emitted from the strobe device can be suppressed. | 08-21-2014 |