Patent application number | Description | Published |
20090095637 | Electrochemical polishing method and polishing method - The present invention provides an electrochemical polishing method capable of increasing a polishing speed while preventing excessive polishing, such as dishing or erosion. In the electrochemical polishing method, when a voltage applied to a conductive film formed on the surface of a substrate is increased at a contact surface pressure of 0 between the surface of the substrate and a polishing pad, a voltage at a first change point C that allows a current density to start to decrease after an increase is referred to as a minimum voltage. In addition, when the voltage is increased at a contact surface pressure having a finite value, a voltage at a second change point B that allows the current density to be maintained constant after the decrease is referred to as a maximum voltage. In this case, the surface of the conductive film is polished while maintaining the voltage to be not lower than the minimum voltage and not higher than the maximum voltage. Further, the present invention provides an electrochemical polishing method capable of rapidly removing a conductive film in regions other than a contact plug or wiring line forming region while preventing excessive polishing, such as dishing or erosion. In the electrochemical polishing method, in a step of increasing a voltage, when the voltage is increased at a contact surface pressure of 0, a voltage at a first change point C that allows a current density to start to decrease after an increase is referred to as a threshold voltage, and the voltage is increased such that a voltage in a region in which a barrier film is exposed is higher than the threshold voltage. | 04-16-2009 |
20100081361 | DRESSING METHOD, METHOD OF DETERMINING DRESSING CONDITIONS, PROGRAM FOR DETERMINING DRESSING CONDITIONS, AND POLISHING APPARATUS - A method of dressing a polishing member with a diamond dresser having diamond particles arranged on a surface thereof is provided. The method includes determining dressing conditions by performing a simulation of a distribution of a sliding distance of the diamond dresser on a surface of the polishing member, and dressing the polishing member with the diamond dresser under the dressing conditions determined. The simulation includes calculation of the sliding distance corrected in accordance with a depth of the diamond particles thrusting into the polishing member. | 04-01-2010 |
20100325913 | SUBSTRATE PROCESSING METHOD AND SUBSTRATE PROCESSING APPARATUS - A substrate processing method dose not use or only use the least possible amount of an organic solvent, and can quickly and completely remove a liquid from a wet substrate surface without allowing the liquid to remain on the substrate surface. The substrate processing method for drying a substrate surface which is wet with a liquid, includes: removing the liquid from the substrate surface and sucking the liquid together with its surrounding gas into a gas/liquid suction nozzle, disposed opposite the substrate surface, while relatively moving the gas/liquid suction nozzle and the substrate parallel to each other; and blowing a dry gas from a dry gas supply nozzle, disposed opposite the substrate surface, toward that area of the substrate surface from which the liquid has been removed while relatively moving the dry gas supply nozzle and the substrate parallel to each other. | 12-30-2010 |
20140120808 | DRESSING METHOD, METHOD OF DETERMINING DRESSING CONDITIONS, PROGRAM FOR DETERMINING DRESSING CONDITIONS, AND POLISHING APPARATUS - A method dresses a polishing member with a diamond dresser having diamond particles arranged on a surface thereof. The method includes determining dressing conditions by performing a simulation of a distribution of a sliding distance of the diamond dresser on a surface of the polishing member, and dressing the polishing member with the diamond dresser under the determined dressing conditions. The simulation includes calculating the sliding distance corrected in accordance with a depth of the diamond particles thrusting into the polishing member. | 05-01-2014 |
Patent application number | Description | Published |
20080198526 | SEMICONDUCTOR DEVICE - A semiconductor device includes a switching element outputting from a sense terminal a sense current at a fixed rate relative to a main current flowing in the switching element; a sense resistor connected at a first end to the sense terminal and to ground at a second end; a correction current generating circuit that supplies and extracts a correction current to at the first end of the sense resistor; an overcurrent protective circuit that receives a sense voltage generated when the sense current and the correction current flow through the sense resistor, and outputs a stop signal when the sense voltage is larger than a reference voltage; and a driving circuit that stops driving the switching element when the stop signal is received from the overcurrent protective circuit. | 08-21-2008 |
20090066402 | GATE DRIVE CIRCUIT - A gate drive circuit includes a turn-on side circuit for turning on a gate of a power switching device, the turn-on side circuit including a first turn-on side power supply circuit and a second turn-on side power supply circuit, the first turn-on side power supply circuit including: a first turn-on voltage source for supplying a first turn-on voltage; first turn-on wiring; and a first turn-on switch connected in the first turn-on wiring and controlled by a gate drive signal; and the second turn-on side power supply circuit including: a second turn-on voltage source for supplying a second turn-on voltage applied to the gate of the power switching device to set the power switching device in a steady (on) state; second turn-on wiring; a second turn-on switch connected in the second turn-on wiring; and a turn-on side delay circuit for delaying the gate drive signal and passing it to the second turn-on switch. | 03-12-2009 |
20100148846 | GATE DRIVE CIRCUIT - A gate drive circuit includes a turn-on side circuit for turning on a gate of a power switching device, the turn-on side circuit including a first turn-on side power supply circuit and a second turn-on side power supply circuit, the first turn-on side power supply circuit including: a first turn-on voltage source for supplying a first turn-on voltage; first turn-on wiring; and a first turn-on switch connected in the first turn-on wiring and controlled by a gate drive signal; and the second turn-on side power supply circuit including: a second turn-on voltage source for supplying a second turn-on voltage applied to the gate of the power switching device to set the power switching device in a steady (on) state; second turn-on wiring; a second turn-on switch connected in the second turn-on wiring; and a turn-on side delay circuit for delaying the gate drive signal and passing it to the second turn-on switch. | 06-17-2010 |
20110221076 | SEMICONDUCTOR DEVICE - A semiconductor device according to the present invention includes: a power semiconductor element that is a semiconductor element; bonding parts provided for bonding of an upper surface and a lower surface of the semiconductor element; and metal plates bonded to the power semiconductor element from above and below through the bonding parts, wherein the bonding part includes a mesh metal body disposed between the semiconductor element and the metal plate, and a bonding member in which the mesh metal body is embedded. | 09-15-2011 |
20120032725 | POWER MODULE - A power module comprises: first and second terminals; first and second switching elements having a first electrode and a second electrode which is connected to the second terminal; first and second wirings respectively connecting the first electrodes of the first and second switching elements to the first terminal; and a third wiring directly connecting the first electrode of the first switching element to the first electrode of the second switching element, wherein parasitic inductances of the first and second wiring are different or switching characteristics of the first and second switching elements are different. | 02-09-2012 |
20130083442 | SEMICONDUCTOR DEVICE - A semiconductor device includes a sense resistor that converts a sense current flowing through a sense terminal of a switching element to a voltage (sense voltage), and an overcurrent protection circuit that performs a protection operation for the switching element when the sense voltage exceeds a threshold. The overcurrent protection circuit can switch the threshold to a first reference voltage, or to a second reference voltage which is lower than the first reference voltage. The overcurrent protection circuit sets the threshold to the second reference voltage at the time of the switching element being in a steady state, and sets the threshold to the first reference voltage during a mirror period immediately after turning-on of the switching element. | 04-04-2013 |
Patent application number | Description | Published |
20080238305 | WHITE LIGHT EMITTING ORGANIC ELECTROLUMINESCENT ELEMENT AND LIGHTING DEVICE - A white light-emitting organic electroluminescent element is disclosed, containing a substrate having thereon: an anode; a cathode; and a plurality of light emitting layers between the anode and the cathode, wherein the plurality of light emitting layers contains: a first light emitting layer which emits a light having a predetermined wavelength; a second light emitting layer which is located at a nearer position to the anode than the first light emitting layer and emits a light having a complementary color to the light having the predetermined wavelength; and a third light emitting layer which is located at a nearer position to the cathode than the first light emitting layer and emits the light having the complementary color to the light having the predetermined wavelength. | 10-02-2008 |
20100045172 | ORGANIC ELECTROLUMINESCENT ELEMENT - An organic electroluminescent element having at least an anode, a cathode, and a light-emitting layer held between the anode and the cathode on a substrate and emitting white light. The light-emitting layer consists of three or less layers, the light-emitting material contained entirely in the light-emitting layer consists of at least four kinds of light-emitting material having different emission maximum wavelengths (λmax). The four kinds of light emitting material have emission colors of blue, green, yellow red and red, and since one or more layers out of the three or less layers of the light-emitting layer contain two or more kinds of light-emitting material simultaneously, there is obtained an organic electroluminescent element excellent in color rendering and exhibiting high power efficiency in which variation in emission color is small even if current density varies. | 02-25-2010 |
20100127246 | WHITE ORGANIC ELECTROLUMINESCENT ELEMENT AND LIGHTING DEVICE - Disclosed is a white light-emitting organic electroluminescent device, which is excellent in stability of emission chromaticity over a long operation period, while having high electrical efficiency, long life, excellent storage stability and excellent color rendering properties. Also disclosed is an illuminating device using such an organic electroluminescent device. Specifically disclosed is an organic electroluminescent device having a light-emitting layer between an anode and a cathode, which is characterized by comprising a light-emitting layer A having a maximum emission wavelength of not more than 480 nm and containing a phosphorescent dopant having a maximum emission wavelength of not more than 480 nm, and a light-emitting layer B arranged between the light-emitting layer A and the anode, which has a maximum emission wavelength of not less than 510 nm and contains a phosphorescent dopant. This organic electroluminescent device is also characterized in that the concentration of the phosphorescent dopant contained in the light-emitting layer A varies in the thickness direction of the light-emitting layer A. Also specifically disclosed is an illuminating device using such a white light-emitting organic electroluminescent device. | 05-27-2010 |
20100221547 | ELECTROLUMINESCENT ELEMENT - Provided is an organic electroluminescence element which is driven with a reduced drive voltage without deteriorating emission luminance and has a high power efficiency. The organic electroluminescence element having at least one light emitting layer is characterized in that two or more types of light emitting dopants having different emission colors are included in at least one light emitting layer, the concentration of all the light emitting dopants included in the light emitting layer is 5 Vol % or more, and the concentration of the light emitting dopant giving a main emission color among the light emitting dopants in the light emitting layer is 2 Vol % or less. | 09-02-2010 |
20100244007 | ORGANIC ELECTROLUMINESCENT ELEMENT - The present invention provides a white organic electroluminescent element which can emits white light and is free from deviation of chromaticity. This organic electroluminescent element comprises a substrate and, provided on the substrate, at least an anode, a cathode, and a light emitting layer held between the anode and the cathode. This organic electroluminescent element is characterized in that the light emitting layer contains at least three types of light emitting materials different from each other in X max, and the absolute value of HOMO level of the light emitting material having the shortest wavelength is smaller than the absolute value of HOMO level of the other light emitting materials. | 09-30-2010 |
20100267180 | METHOD FOR MANUFACTURING ORGANIC ELECTRONIC ELEMENT - Provided is a manufacturing method by which each functional layer of various types of organic electronic elements can be uniformly formed by wet process. Specifically, a method for manufacturing an organic electronic element which uniformly emits light with high emission efficiency is provided. The method for manufacturing the organic electronic element includes a step of forming a functional layer by laminating at least an organic layer (A) and an organic layer (B) in this order on a substrate. After forming at least the organic layer (A), the organic layer (B) is applied and formed on the organic layer (A) by using a fluorine-containing solvent. | 10-21-2010 |
20110084601 | WHITE LIGHT EMISSION ORGANIC ELECTROLUMINESCENT ELEMENT, ILLUMINATING DEVICE AND DISPLAY - Disclosed is a coating type organic EL element having excellent chromaticity stability to driving current, excellent chromaticity stability during continuous driving and excellent color rendering property. | 04-14-2011 |
20110279024 | ORGANIC ELECTROLUMINESCENCE ELEMENT AND ILLUMINATION DEVICE USING THE SAME - Disclosed are an organic electroluminescence element with significantly improved light extraction efficiency and improved film properties and an illumination device that uses said element. The organic electroluminescence element has a transparent electrode, an organic electroluminescence layer, and a cathode sequentially stacked on a transparent base material. The element is characterized in that the transparent base material is a transparent resin film, there is a hard coat layer on both sides, the respective refractive indices satisfy the expressions (1)-(4), and there is a function to scatter light to the light emission side with respect to the organic electroluminescence layer. Expression (1): −0.2≦n(H1)−n(A)≦0.2, Expression (2): −0.1≦n(H1)−n(B)≦0.1, Expression (3): −0.1≦n(H2)−n(B)≦0.1, Expression (4): −0.1≦n(H1)−n(H2)≦0.1. In the expressions, n(A) is the refractive index of the transparent electrode; n(H1) is the refractive index of the hard coat layer (on the transparent electrode side); n(H2) is the refractive index of the hard coat layer (on the side opposite the transparent electrode); and n(B) is the refractive index of the transparent resin film. | 11-17-2011 |
20120086331 | WHITE LIGHT EMITTING ORGANIC ELECTROLUMINESCENT ELEMENT - Provided is a white light-emitting organic EL element wherein a flexible plastic substrate is used, but the resistance to negative effects caused by the flexibility is excellent; a removal of a light emitting layer interface caused by folding the element and a contact failure do not tend to occur, and the drive voltage can be reduced. The white light-emitting organic EL element is formed by providing at least two layers, i.e., a light emitting layer (A) and a light emitting layer (B) on the plastic substrate. The white light-emitting organic EL element is characterized in that the light emitting layer (A) contains more than three kinds of luminescent dopants including a red luminescent dopant, a green luminescent dopant, and a blue luminescent dopant; the light emitting layer (B) contains the blue luminescent dopant; the light emitting layer (A) and the light emitting layer (B) are adjacent to each other, the light emitting layer (A) is formed on the side adjacent to the positive electrode, and the light emitting layer (B) is formed on the side adjacent to the negative electrode; and a mixed area is provided between the light emitting layer (A) and the light emitting layer (B). | 04-12-2012 |
20130062654 | LIGHT EXTRACTION SHEET, ORGANIC ELECTROLUMINESCENCE ELEMENT AND ILLUMINATION DEVICE - Disclosed is a novel light extraction sheet which not only improves light extraction efficiency but suppresses color change with the angle of observation, an organic EL dement employing this light extraction sheet, and art illumination device employing the element. The light extraction sheet is featured in that it comprises a transparent resin film and provided thereon, a light scatter layer containing a binder resin and light scattering particles with an average particle size of front 0.2 to 1.0 μm dispersed in the binder resin and a concavo-convex layer containing a binder resin and spherical particles with an. average particle size of from 3 to 10 μm. | 03-14-2013 |
20140220721 | WHITE LIGHT EMITTING ORGANIC ELECTROLUMINESCENT ELEMENT WITH MIXING REGION BETWEEN TWO LIGHT EMITTING LAYERS - Provided is a white light-emitting organic EL element wherein a flexible plastic substrate is used, but the resistance to negative effects caused by the flexibility is excellent; a removal of a light emitting layer interface caused by folding the element and a contact failure do not tend to occur; and the drive voltage can be reduced. The white light-emitting organic EL element is formed by providing at least two layers, i.e., a light emitting layer and a light emitting layer on the plastic substrate. The white light-emitting organic EL element is characterized in that the light emitting layer contains more than three kinds of luminescent dopants including a red luminescent dopant, a green luminescent dopant, and a blue luminescent dopant; the light emitting layer contains the blue luminescent dopant; the light emitting layer and the light emitting layer are adjacent to each other; the light emitting layer is formed on the side adjacent to the positive electrode, and the light emitting layer is formed on the side adjacent to the negative electrode; and a mixed area is provided between the light emitting layer and the light emitting layer. | 08-07-2014 |
Patent application number | Description | Published |
20090282973 | Fume Removal Method for a Reflow Furnace and a Reflow Furnace - In a conventional reflow furnace equipped with a fume removal device, fume solids adhere to the inside of piping connecting it to the removal device, and a great amount of trouble was required for removal of the fume solids. The present invention maintains a fumes-containing gas discharged from a furnace at a temperature of at least the liquefication temperature of the fumes until the gas reaches a removal device so that fume solids do not adhere to the inside of piping. A removal device installed on a reflow furnace according to the present invention comprises an elongated-hole filter and a labyrinth filter, and fumes are completely removed by both filters. | 11-19-2009 |
20100012705 | Reflow furnace and heater for blowing hot air - A reflow furnace using a conventional heater for blowing hot air has difficulty in reducing Δt and in stabilizing the oxygen concentration at a low level. In addition, it is difficult to uniformly discharge hot air from the discharge holes in a perforated plate of a conventional heater for blowing hot air. In a reflow furnace according to the present invention, the total area per unit area of discharge holes formed in a perforated plate in a heater for blowing hot air installed in a main heating zone is 1.5-5 times the total area per unit area of the discharge holes formed in a perforated plate of a heater for blowing hot air installed in a preheating zone. A heater for blowing hot air has a body divided into three chambers by partitions. | 01-21-2010 |
20100012709 | Reflow furnace - A reflow furnace includes a suction pipe extending within a heating region along a rail on which a conveyor travels. Suction ports are formed on the inner side of the suction pipe. Flux fumes inside the reflow furnace are sucked into the suction ports and transported to the exterior of a tunnel of the furnace by the suction pipe. The flux fumes are removed by a flux fumes removal apparatus on the exterior of the tunnel, and cleaned gas is returned to the interior of the tunnel at the entrance and the exit of the tunnel, where it forms air curtains which prevent the ingress of outside air. | 01-21-2010 |
Patent application number | Description | Published |
20130229342 | INFORMATION PROVIDING SYSTEM, INFORMATION PROVIDING METHOD, INFORMATION PROCESSING APPARATUS, METHOD OF CONTROLLING THE SAME, AND CONTROL PROGRAM - An apparatus of this invention is an information processing apparatus for providing information to general public. This information processing apparatus displays a screen including an inducement image to induce a hand motion. The hand motions of persons in the sensed public are recognized. According to the feature of this invention, out of the persons in the sensed public, a person whose recognized hand motion corresponds to the hand motion to be induced by the inducement image is identified. The identified person is set as the advertising target person, thereby producing an opportunity for persons to pay attention to advertising information. | 09-05-2013 |
20130241821 | IMAGE PROCESSING SYSTEM, IMAGE PROCESSING METHOD, AND STORAGE MEDIUM STORING IMAGE PROCESSING PROGRAM - This invention relates to an image processing apparatus that displays an image for plural persons and has a higher operationality for a person who is viewing the image. The apparatus includes an image display unit that displays an image, a sensing unit that senses an image of plural persons gathered in front of the image display unit, a gesture recognition unit that recognizes, from the image sensed by the sensing unit, a gesture performed by each of the plural persons for the image displayed on the image display unit, and a display control unit that makes a display screen transit based on a recognized result by the gesture recognition unit. | 09-19-2013 |