Patent application number | Description | Published |
20080259252 | LIQUID CRYSTAL DISPLAY DEVICE - An illumination device using a plurality of LED light sources each of which is driven by a single power supply is provided to attain simple operational response and voltage control. | 10-23-2008 |
20080298055 | Illumination device and liquid crystal display device using the same - The present invention provides an illumination device capable of improving an efficiency of acquiring light emitted by light emitting diodes, which are provided in a light source module and used as a light source, and capable of achieving a uniform luminance distribution, and provides a liquid crystal display device using the illumination device. The illumination device includes a circuit board, red, green and blue light emitting diodes, and a lens body. Each red, green and blue light emitting diode is mounted on the circuit board and connected with a wiring pattern formed on the circuit board. The lens covers the red, green and blue light emitting diodes, and includes first portions each having two first side surfaces and second portions each having two second side surfaces. The first and second portions are alternately arranged. A distance between the first side surfaces is larger than a distance between the second side surfaces. The three red, green and blue light emitting diodes are provided in each first portion of the lens. | 12-04-2008 |
20080303977 | Liquid Crystal Display Device - An object of the present invention is to provide a liquid-crystal display device which includes a diffuser board that does not produce striped mura on the surface of a liquid crystal panel even if point light sources are used as light sources of a backlight. | 12-11-2008 |
20100165246 | Illuminating Device And Liquid-Crystal Display Device Using The Same - An illuminating device capable of being produced at low costs and irradiating rays of light uniformly to a liquid crystal panel. The illuminating device has a plurality of LED packages each having LED's and a lens, the LED packages being congregated on a plane in a large area. Each of the LED packages includes at least four LED's corresponding to LED's for emitting at least red, green and blue, and at least two of the LED's in each LED package are positioned symmetrically to the center of the lens and emit the same color. | 07-01-2010 |
20110267559 | Illuminating Device And Liquid-Crystal Display Device Using The Same - An illuminating device capable of being produced at low costs and irradiating rays of light uniformly to a liquid crystal panel. The illuminating device has a plurality of LED packages each having LED's and a lens, the LED packages being congregated on a plane in a large area. Each of the LED packages includes at least four LED's corresponding to LED's for emitting at least red, green and blue, and at least two of the LED's in each LED package are positioned symmetrically to the center of the lens and emit the same color. | 11-03-2011 |
20110278557 | ORGANIC LIGHT EMITTING DIODE AND LIGHT SOURCE DEVICE INCLUDING THE SAME - An organic light emitting diode has a reflection electrode, an organic layer with a luminous point, a transparent electrode, an output-side substrate, and a light scattering layer in contact with the output-side substrate. The light scattering layer is made of a base material and particles contained therein. These particles are higher in refractive index than the base material and the output-side substrate. The luminous point emits light at an emission peak wavelength λ (nm). Letting a height from an interface between the electrode and the organic layer to the luminous point be “a×d” (where d (nm) is the thickness of the organic layer, | 11-17-2011 |
20130033741 | Suspended Particle Device, Light Control Device Using the Same, and Method for Driving the Same - The suspended particle device includes a first substrate and a second substrate, a first electrode, a second electrode, a third electrode and a suspension disposed between the first substrate and the second substrate, wherein the first electrode is formed on the first substrate, the second electrode and the third electrode are formed on the second substrate, the suspension includes light-control particles and a disperse medium, the light-control particles are charged, an orientation state of the light-control particles is controlled by applying AC voltage to at least any one of the first electrode, the second electrode, and the third electrode, and the light-control particles are dispersed in the suspension or biased to the third electrode by applying DC voltage to at least one of the first electrode, the second electrode, and the third electrode. | 02-07-2013 |
20130154473 | ADHESIVE SHEET, AS WELL AS OPTICAL MEMBER AND ORGANIC LIGHT EMISSION DEVICE USING THE SAME - An adhesive sheet | 06-20-2013 |
20130285039 | Organic Light-Emitting Device and Light Source Device Using the Same - In order to improve an external quantum efficiency of an organic light-emitting element, a first light extraction layer is formed over the surface of a second substrate on the side where the second substrate is present, a second light extraction layer is formed over the surface of the second substrate on the other side, the first and second light extraction layers contain fine particles and a binder, the average particle diameter of the fine particles contained in the first and second light extraction layers are 0.05 μm or more and 2 μm or less and 1 μm or more and 10 μm or less, respectively, and an optical length L | 10-31-2013 |
20130286464 | Light Control Device - The purpose of the present invention is to provide a light control device having a fast light control of a transmitting state and a light shielding state and a retention of the transmitting state at a voltage non-applying state which are compatible with each other, and is to provide a driving method thereof. | 10-31-2013 |
Patent application number | Description | Published |
20080294324 | Engine Control Unit - An engine control unit for controlling an automobile engine, which is equipped with a booster circuit for boosting the voltage of battery power source, an injector driving circuit for driving an injector by making use of a boosted high voltage, and a microcomputer for controlling the engine; wherein the engine control unit is featured in that an LC module mounted with a booster coil constituting the booster circuit and with an electrolytic capacitor, a power module mounted with a rectifying device constituting the booster circuit and the injector driving circuit and with a switching device, and a control circuit board mounted with the microcomputer and with a connector acting as an interface for an external member of the engine control unit are laminated each other. The power module is partitioned into at least two portions and fixedly contacted, through a heat radiation part, with a housing cover, and heat radiation fins are arranged on an outer surface of the housing cover where the power module is disposed. | 11-27-2008 |
20090262503 | Control Device - A control device as a module comprises a control board, a sub-module and a housing cover. A microcomputer is mounted on the control board. The sub-module has a sub-module case provided with a wiring layer into a wall of the sub-module case. Electronic parts are mounted in the sub-module case to electrically connect to the control board through the wiring layer. A housing cover accommodates the control board and the sub-module. A housing base is joined with the housing cover. The accommodation portion has a shape corresponding to a shape of each of the electronic parts is arranged in the housing cover. The sub-module is mounted to the housing cover with a heat radiation adhesive between the accommodation portion and each of the electronic parts. | 10-22-2009 |
20130265724 | Power Module and Power Conversion Device Using Power Module - A power module includes a power unit equipped with plural power semiconductor devices, heat sinks, and a housing case. The power unit includes the power semiconductor devices, lead frames, and a sealing resin. The lead frames are coupled to the surfaces of each of the power semiconductor devices, and parts of the external surfaces of the upper and lower lead frames are bared out of the sealing resin. The housing case includes a housing base and a housing cover. The housing base, heat sink, power unit, heat sink, and housing cover are layered in that order. Assuming that S | 10-10-2013 |
20130279230 | Power Module - Provided is a power conversion device including an insulating member manufactured such that a thickness di (mm) of the insulating member made from a resin, provided between a heat dissipating surface of a conductor plate bonded to a power semiconductor device and a heat dissipating plate that dissipates the heat of the power semiconductor device satisfies a relation of di>(1.36×10-8×Vt2+3.4×10-5×Vt−0.015)×εr, where a relative permittivity of the insulating member is Er and a surge voltage generated between the conductor plate and the heat dissipating plate accompanied by an ON/OFF switching operation of the power semiconductor device is Vt (V). The conductor plate of the power semiconductor device, the insulating member, and the heat dissipating plate are bonded by thermocompression bonding. | 10-24-2013 |
20140098588 | Power Module and Power Conversion Apparatus Using Same - A power module includes a plurality of semiconductor devices constituting upper/lower arms of an inverter circuit, a plurality of conductive plates arranged to face electrode surfaces of the semiconductor devices and a module case configured to accommodate the semiconductor devices and conductive plates, wherein the module case includes a heat-radiation member made of plate-like metal and facing a surface of the conductive plate and a metallic frame body having an opening that is closed by the heat-radiation member, and wherein a heat-radiation fin unit having a plurality of heat-radiation fins vertically arranged thereon is provided at a center of the heat-radiation member, and a joint portion with the frame body is provided at an peripheral edge of the heat-radiation member, and the heat radiation member has a heat conductivity higher than that of the frame body, and the frame body has a higher rigidity than that of the heat-radiation member. | 04-10-2014 |