Patent application number | Description | Published |
20110104334 | PEPTIDE-CONTAINING SEASONING - A fermented seasoning which does not have the bitterness specific to peptides and can be easily ingested orally, in spite of containing large amount of peptides is provided. Namely, a fermented seasoning obtained by adding salt water to an | 05-05-2011 |
20110171690 | ANGIOTENSIN CONVERTING ENZYME INHIBITORY PEPTIDE - To provide ACE inhibitory peptides which can effectively inhibit ACE by a small amount of ingestion and have no fear of causing side effects and which can be orally ingested easily during daily life by persons having high blood pressure, and compositions comprising the peptides. The peptides represented by the following structural formulae (1) to (9), and salts thereof are provided. (1) Asp-Arg-Pro, (2) Asn-Trp, (3) Val-Gly-Leu, (4) Ile-Gly-Val, (5) Gly-Val-Pro, (6) Ile-Pro-Tyr, (7) pyroGlu-Pro, (8) Tyr-Thr, (9) Pro-Trp | 07-14-2011 |
20120282243 | SOY SAUCE HAVING HYPOTENSIVE EFFECTS AND METHOD FOR PRODUCING THE SAME - The present invention provides soy sauce that comprises significant amounts of peptides, and, in particular, hypotensive peptide Gly-Tyr and hypotensive peptide Ser-Tyr, exhibiting a high degree of angiotensin-I-converting enzyme-inhibitory activity and has hypotensive effects while containing no hypotensive agent. Target soy sauce is obtained by mixing soy sauce koji having protease activity of 20 to 300 U/g koji with an aqueous common salt solution and subjecting the mixture to heated digestion, followed by compression filtration. Target soy sauce with a good flavor is obtained by adding soy sauce lactic acid bacteria and soy sauce yeast cells to the moromi mash after heated digestion, and subjecting the resultant to fermentation and maturation, followed by compression filtration. | 11-08-2012 |
Patent application number | Description | Published |
20100273600 | AUTOMATIC TRANSMISSION - An automatic transmission includes first to third single-pinion planetary gearsets. The second ring gear and third sun gear are coupled to the first carrier and first ring gear respectively to constitute first and second rotor units. Input and output shafts are coupled to the second sun gear and third ring gear respectively. A first clutch selectively holds the first sun gear to the third carrier. A first brake selectively holds the first sun gear stationary. A second clutch selectively holds the second sun gear to the third carrier. A third clutch selectively holds the second carrier to the second rotor unit. A fourth clutch selectively holds the second carrier to the third carrier. A second brake selectively holds the first rotor unit stationary. At least eight gear ratios and one reverse gear ratio are obtained by simultaneous application of three of the clutches and brakes. | 10-28-2010 |
20100273601 | AUTOMATIC TRANSMISSION - An automatic transmission including three single pinion planetary gearsets and six friction elements, in which an input shaft is always connected to a first sun gear of a first planetary gearset, the output shaft is always connected to a second ring gear of a second planetary gearset, a third sun gear of a third planetary gearset is always kept in a fixed state relative to a transmission case of the automatic transmission, a first ring gear of the first planetary gearset and a third pinion carrier of the third planetary gearset are always connected to each other and constitute a first rotary member, and at least eight forward speeds and one reverse speed are respectively established by simultaneous engagements of three friction elements selected from the six friction elements. | 10-28-2010 |
20110028261 | AUTOMATIC TRANSMISSION - An automatic transmission includes first to third single-pinion planetary gearsets. The second ring gear and third sun gear are coupled to the first carrier and first ring gear respectively to constitute first and second rotor units. Input and output shafts are coupled to the second sun gear and third ring gear respectively. A first clutch selectively couples the first sun gear to the first carrier. A second clutch selectively couples the second sun gear to the third carrier. A third clutch selectively couples the second carrier to the second rotor unit. A fourth clutch selectively couples the second carrier to the third carrier. A first brake selectively holds the first sun gear stationary. A second brake selectively holds the third carrier stationary. At least eight forward gear ratios and one reverse gear ratio are obtained by simultaneous application of three of the clutches and brakes. | 02-03-2011 |
20110028262 | AUTOMATIC TRANSMISSION - An automatic transmission comprising: a first planetary gearset of a double pinion; a second planetary gearset of a single pinion; a third planetary gearset of the single pinion, first sun gear and second sun gear being at all times linked together to constitute a first rotary member and second ring gear and third sun gear being at all times linked together to constitute a second rotary member; an input shaft; an output shaft; a first frictional element; a second frictional element; a third frictional element; a fourth frictional element; a fifth frictional element; a sixth frictional element, the six frictional elements being appropriately released or engaged to make a gear shift to a gear shift stage of at least eight forward speeds and, from among the six frictional elements, a combination of simultaneous engagements of three frictional elements achieving at least eight forward speed and one reverse speed. | 02-03-2011 |
20110136616 | AUTOMATIC TRANSMISSION - An automatic transmission including a single-pinion first planetary gearset having a first sun gear, a first ring gear and a first pinion carrier, a double-pinion second planetary gearset having a second sun gear, a second ring gear and a second pinion carrier, a single-pinion third planetary gearset having a third sun gear, a third ring gear and a third pinion carrier, an input shaft always connected to the first sun gear, an output shaft always connected to the first pinion carrier, the third sun gear always kept in a fixed state, the first ring gear and the second sun gear which are always connected to each other, the second and third ring gears which are always connected to each other, and six friction elements, at least eight forward speeds and one reverse speed being respectively established by simultaneous engagement of two friction elements selected from the six friction elements. | 06-09-2011 |
20110306461 | AUTOMATIC TRANSMISSION - An automatic transmission includes a double-pinion planetary gearset and two single-pinion planetary gearsets. A first ring gear is held stationary. A second sun gear and a third ring gear are coupled to a first sun gear and a first carrier respectively, constituting first and second rotor units. An output is coupled to a third carrier. A first clutch selectively couples a second carrier to the first rotor unit. A second clutch selectively couples the second carrier to the second rotor unit. A third clutch selectively couples an input to the second carrier. A fourth clutch selectively couples a second ring gear to a third sun gear. A fifth clutch selectively couples the second ring gear to the third carrier. A sixth clutch selectively couples the input to the third sun gear. Nine forward gear ratios and one reverse gear ratio are obtained by simultaneous application of three of the clutches. | 12-15-2011 |
20120004067 | LOW FRICTION LOSS AUTOMATIC TRANSMISSION - An automatic transmission including a double pinion planetary gear unit PG | 01-05-2012 |
20120244988 | AUTOMATIC TRANSMISSION - An automatic transmission includes: a first planetary gearset including a first sun gear, a first ring gear, and a first pinion carrier; a second planetary gearset including a second sun gear, a second ring gear, and a second pinion carrier; an input shaft constantly coupled to the first sun gear; an output shaft constantly coupled to the second pinion carrier; a first rotary member constantly connecting the first ring gear and the second sun gear; a first friction element selectively connecting the first sun gear and the second ring gear; a second friction element selectively connecting the first pinion carrier and the second ring gear; a third friction element selectively interrupting a rotation of the first pinion carrier; and a fourth friction element selectively interrupting a rotation of the first rotary member, the automatic transmission attaining first to fourth forward speeds and one reverse speed. | 09-27-2012 |
20140349803 | AUTOMATIC TRANSMISSION FOR VEHICLE - The first planetary gear set is configured to integrally rotate by a first clutch. The first element is coupled with the fifth element. The second element is configured to be locked through a first brake to a stationary section and configured to be coupled through a second clutch with the ninth element. The third element is coupled with the input shaft. The fourth element is configured to be coupled through a third clutch with the ninth element. The sixth element is locked to the stationary section. The seventh element is configured to be locked through a second brake to the stationary section. The eighth element is coupled with an output shaft. The ninth element is coupled with the twelfth element. The tenth element is configured to be coupled through a fourth clutch with the output shaft. The eleventh element is coupled with the input shaft. | 11-27-2014 |
Patent application number | Description | Published |
20090026865 | Motor and Its Rotor and Magnetic Core for Rotor - A first non-magnetic portion, a second non-magnetic portion, and a third non-magnetic portion are arranged around an axis, from an end toward the center of a permanent magnet burying hole. A fourth non-magnetic portion is further provided between the second non-magnetic portion and the third non-magnetic portion. Angles around the axis are determined as follows with reference to a position between permanent magnet burying holes. The position between the first non-magnetic portion and the second non-magnetic portion is expressed by a first angle. The position between the third non-magnetic portion and the fourth non-magnetic portion is expressed by a second angle, and the second angle is twice the first angle. The end of the third non-magnetic portion located closer to the pole center is expressed by a third angle. The first angle and the third angle are values obtained by dividing 360 degrees respectively by a value that is seven times, and a value that is three times, the number of the permanent magnet burying holes. | 01-29-2009 |
20090127962 | CORE, ROTOR, MOTOR AND COMPRESSOR - A rotor includes a core extending in a predetermined directions, and a plurality of magnets. The core has parts formed by magnetic materials and extending in the predetermined direction. The parts are arranged in a loop around the part, and face the part through gaps. The magnets are buried in the gaps in the form of a loop in the core. The magnets have pole faces extending in the predetermined direction. In each of the magnets, at least one of ends of the magnet protrudes forward in parallel to the predetermined direction with respect to an end of the part that is on the same side with the at least one of the ends of the magnet. | 05-21-2009 |
20100096940 | COMPRESSOR MOTOR AND COMPRESSOR - A compressor motor includes a rotor and a stator disposed radially outside of the rotor. The rotor includes a rotor core, and a plurality of magnets circumferentially arranged on the rotor core at center angles of equal intervals. The rotor core has an axial length L and, a radial length D. Each of the magnets has a thickness t. L/D<0.7, and t>(1×K×N)/(L | 04-22-2010 |
20100109467 | FIELD ELEMENT - The field magnet is formed of, for example, two permanent magnets, and a width of the field magnet increases from a center toward both ends thereof in a monotonically non-decreasing manner. The field magnet includes, at the both ends thereof, projecting portions projecting to a side opposite to a rotation axis. The field core includes a penetration hole through which the field magnet is caused to penetrate. The penetration hole includes penetration surfaces which cover magnetic pole surfaces of the field magnet, respectively. Specifically, the penetration surface includes concave portions with which the projecting portions are fitted. When the field magnet is inserted, the penetration surfaces serve as a guide which guides the field magnet, and accordingly the field magnet can be caused to penetrate through the penetration hole with ease. | 05-06-2010 |
20100164664 | FIELD ELEMENT - Permanent magnets are in contact with first magnetic plates in a direction parallel to a rotation axis. The first magnetic plate includes first and second magnetic members and first and second non-magnetic members. The first magnetic member includes a pole center and is in contact with one of the permanent magnets. The first magnetic member, the first non-magnetic member, the second magnetic member and the second non-magnetic member are disposed in the stated order in a circumferential direction with the pole center and the rotation axis being as a starting point and a center, respectively. When Pn represents the number of pole pairs and i represents an odd number equal to or more than three, an angle θ1 defined by an end portion of the second non-magnetic member on the pole center side with respect to a pole gap is 0<θ 1<180/(i·Pn). An angle θ2 defined by an end portion of the first non-magnetic member on the pole center side with respect to the pole gap is 180/(i·Pn)=θ2=180·2/(i·Pn). | 07-01-2010 |
20110062815 | FIELD ELEMENT - A field element core has a perimeter exposed around a rotation axis and a plurality of field magnet insertion holes circularly disposed around the rotation axis P. A radius between the perimeter and the rotation axis P decreases in a monotonically non-increasing manner from a pole center toward an interpole and then increases in a monotonically non-decreasing manner in a region between the pole center and the interpole in a circumferential direction. | 03-17-2011 |
Patent application number | Description | Published |
20080206116 | FRICTION STIR WELDING METHOD FOR LAMINATED MEMBER AND HYDROGEN REACTOR - The present invention is relates to a method for alternately laminating each first metal sheet and each second metal sheet in three or more layers, wherein a melting point of the second metal sheet is higher than that of the first metal sheet, and welding them together by friction stir welding. | 08-28-2008 |
20090136835 | LITHIUM ION SECONDARY BATTERY - A lithium ion secondary battery comprises a case; a positive electrode foil having a current collector foil on which a positive electrode material is coated; an negative electrode film having a current collector film on which an negative electrode material is coated; a separator sandwiched between the positive electrode film and the negative electrode film, the films and the separator being arranged in multiple layers to form a group of electrodes enclosed in the case, a positive collector disc plate connected to the positive electrode side of the group of the electrodes, and an negative collector disc plate connected to the negative electrode side of the group of the electrodes. Each of the current collector foils has a non-coated portion extended along one side of the foils, a part or the entire of the non-coated portion being exposed from a side of the separator. At least one of the collector disc plate is welded to the side of the exposed non-coated portion of the group of the electrodes. The periphery of the collector disc plate has an annular portion, which is bent towards the group of electrodes. | 05-28-2009 |
20090218033 | FRICTION STIRRING-WELDING METHOD - A friction stirring-welding method capable of increasing the welding strength of a lap joint. A welding tool ( | 09-03-2009 |
20100310929 | SEALED BATTERY AND PRODUCING METHOD THEREFOR - A sealed battery includes a battery container. The battery container houses an electrode winding body, on which positive and negative electrode plates are wound via separators, together with a non-aqueous electrolytic solution. A positive electrode tab is bonded to a positive current collector ring arranged at an upper side of the electrode winding body. A battery lid to be a positive electrode external terminal is crimped and fixed to the battery container. The battery lid has a diaphragm in which a cleaving valve is formed. A coupling part is bonded to the diaphragm, and a stack lead with a plurality of thin plates being laminated is bonded to the coupling part. In the stack lead, a total sum t of thicknesses of the thin plates is not more than a thickness T of the coupling part. Melting from the stack lead to the coupling part by laser irradiation is optimized. | 12-09-2010 |
20110076535 | SECONDARY BATTERY AND SECONDARY BATTERY MANUFACTURING METHOD - In a secondary battery, for providing a structure which can enable a welding operation even when a gap is formed between a current collecting plate and a winding assembly, recessed portions are formed in a positive current collecting plate. The recessed portions are disposed opposite to the winding assembly. A laser beam is irradiated to welding protrusions located between the recessed portions to melt the welding protrusions. Here, since the end surface of a positive electrode foil is uneven in height, the positive electrode foil does not contact the positive current collecting plate necessarily. The welding operation is performed by heating, melting, and dropping the welding protrusions by the use of a YAG laser under the welding condition of a laser power of 900 W and a welding speed 2 m/min. | 03-31-2011 |
20130115492 | SEALED TYPE BATTERY - A sealed type battery includes: a can where an electrode winding group; a lid which has a liquid filling hole for injecting a liquid electrolyte and seals an opening of the can; and a liquid filling tap which is fitted to the liquid filling hole and seals the liquid filling hole by welding. A projection molten in welding is provided on one of the outer surface of the liquid filling tap and the outer surface of the lid connected to the liquid filling hole. The liquid filling tap is welded to the liquid filling hole using molten metal of the projection in welding as well. | 05-09-2013 |
Patent application number | Description | Published |
20080204614 | Liquid crystal display device - A liquid crystal display device includes an upper electrode and a lower electrode interposing an insulation layer therebetween, wherein an electric field opening part for passing an electric field is formed in the upper electrode and liquid crystal molecules are driven by applying a voltage between the lower electrode and the upper electrode, wherein a window-shaped opening part formed by partially removing the lower electrode for connecting an upper electrode wiring and the upper electrode, which interpose an interlayer insulation film therebetween, together is disposed in a lower part of the lower electrode, and wherein one end portion of the electric field opening part in the longitudinal direction around the window-shaped opening part is disposed to be overlapped with the window-shaped opening part in a plan view. | 08-28-2008 |
20080259257 | LIQUID CRYSTAL DISPLAY - A liquid crystal display includes: a pair of substrates; a liquid crystal layer sandwiched between the pair of substrates; an insulating layer provided for a first substrate of the pair of substrates; an upper electrode provided for the first substrate; and a lower electrode provided for the first substrate. The upper electrode is formed on the surface of the insulating layer adjacent to the liquid crystal layer. The upper electrode includes a plurality of branches each having a slit therebetween. The insulating layer has irregularities. | 10-23-2008 |
20090002623 | ELECTRO-OPTIC DEVICE - An electro-optic device includes a pixel section and a terminal section through which a semiconductor circuit or a wiring board is mounted around the pixel section. The terminal section has a multilayer structure including a terminal connection wire including an uppermost layer containing titanium, a terminal interlayer made of an electroconductive material capable of being wet-etched, and a terminal transparent electroconductive film in that order from below. | 01-01-2009 |
20090027579 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD OF MANUFACTURING THE LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device comprising: a switching element that has a drain electrode and that is arranged on a substrate; a first insulating film that covers the switching element and that has a first opening on the drain electrode; a first etching stopper electrode that is formed in the first opening and that is connected to the drain electrode; a common electrode that is arranged on the first insulating film; a second insulating film that covers the first etching stopper electrode and the common electrode, and that has a second opening on the first etching stopper electrode; and a pixel electrode that is connected through the second opening to the first etching stopper electrode and that extends onto the second insulating film so as to face the common electrode. | 01-29-2009 |
20090262289 | TRANSFLECTIVE LIQUID CRYSTAL DISPLAY DEVICE AND COLOR LIQUID CRYSTAL DISPLAY DEVICE - A vertical alignment liquid crystal layer is sealed between a first substrate having a first electrode and a second substrate having a second electrode, each pixel region has a reflective region and a transmissive region, and a gap adjusting section is provided on one of sides of the first substrate and the second substrate which sets a thickness (gap) d of the liquid crystal layer which controls a phase difference of incident light to the liquid crystal layer so that a gap dr in the reflective region is smaller than a gap dt in the transmissive region. An alignment controller which divides alignment of the liquid crystal within a pixel region is provided in the pixel region on at least one of the sides of the first substrate and the second substrate. It is also possible to optimize by changing the gap in red, green, and blue. | 10-22-2009 |
20110090442 | TRANSFLECTIVE LIQUID CRYSTAL DISPLAY DEVICE AND COLOR LIQUID CRYSTAL DISPLAY DEVICE - A vertical alignment liquid crystal layer is sealed between a first substrate having a first electrode and a second substrate having a second electrode, each pixel region has a reflective region and a transmissive region, and a gap adjusting section is provided on one of sides of the first substrate and the second substrate which sets a thickness (gap) of the liquid crystal layer which controls a phase difference of incident light to the liquid crystal layer so that a gap in the reflective region is smaller than a gap in the transmissive region. An alignment controller which divides alignment of the liquid crystal within a pixel region is provided in the pixel region on at least one of the sides of the first substrate and the second substrate. It is also possible to optimize by changing the gap in red, green, and blue. | 04-21-2011 |
20120069285 | TRANSFLECTIVE LIQUID CRYSTAL DISPLAY DEVICE AND COLOR LIQUID CRYSTAL DISPLAY DEVICE - A vertical alignment liquid crystal layer is sealed between a first substrate having a first electrode and a second substrate having a second electrode, each pixel region has a reflective region and a transmissive region, and a gap adjusting section is provided on one of sides of the first substrate and the second substrate which sets a thickness (gap) d of the liquid crystal layer which controls a phase difference of incident light to the liquid crystal layer so that a gap dr in the reflective region is smaller than a gap dt in the transmissive region. An alignment controller which divides alignment of the liquid crystal within a pixel region is provided in the pixel region on at least one of the sides of the first substrate and the second substrate. It is also possible to optimize by changing the gap in red, green, and blue. | 03-22-2012 |
20130088676 | TRANSFLECTIVE LIQUID CRYSTAL DISPLAY DEVICE AND COLOR LIQUID CRYSTAL DISPLAY DEVICE - A vertical alignment liquid crystal layer is sealed between a first substrate having a first electrode and a second substrate having a second electrode, each pixel region has a reflective region and a transmissive region, and a gap adjusting section is provided on one of sides of the first substrate and the second substrate which sets a thickness (gap) d of the liquid crystal layer which controls a phase difference of incident light to the liquid crystal layer so that a gap dr in the reflective region is smaller than a gap dt in the transmissive region. An alignment controller which divides alignment of the liquid crystal within a pixel region is provided in the pixel region on at least one of the sides of the first substrate and the second substrate. It is also possible to optimize by changing the gap in red, green, and blue. | 04-11-2013 |
20140375919 | LIQUID CRYSTAL DISPLAY DEVICE HAVING IMPROVED ELECTROSTATIC DISCHARGE RESISTANCE - A liquid crystal display device includes a first substrate, a second substrate and liquid crystal. The first substrate includes pixel electrodes, a peripheral circuit and a dummy wiring. The peripheral circuit and the dummy wiring are provided outside a pixel area in which the pixel electrodes are arranged. The second substrate is opposed to the first substrate through the liquid crystal. The second substrate includes a translucent conductive film that is provided on an opposite side of the second substrate to a side where the liquid crystal is present. The dummy wiring is located on an outer peripheral side of the substrates than the peripheral circuit and is provided independently of the peripheral circuit in terms of circuit. The dummy wiring is grounded outside the first substrate. | 12-25-2014 |
Patent application number | Description | Published |
20090272824 | FUEL INJECTION VALVE - A fuel injection valve has a first and a second injection ports whose central axes are parallel to each other, the central axis of the second injection port is out of alignment with respect to the central axis of the first injection port so that, when the largest length M | 11-05-2009 |
20090288640 | FUEL INJECTION VALVE - The objective of the present invention is to realize the structure, of a fuel injection valve, in which bouncing of the needle can be suppressed and the armature position can be fixed while the valve is closed, without increasing the number of components and the number of processes. In a fuel injection valve including an armature that is repelled or attracted by a core, by de-energizing or energizing a coil, a needle that opens or closes a valve seat in accordance with a reciprocal travel of the armature, and a valve-closing spring that biases the needle so as to close the valve, when the coil is de-energized, the valve-closing spring is disposed on the armature, and the needle and the armature are fixed in such a way that the armature can travel in an axis direction by a predetermined amount with respect to the needle. | 11-26-2009 |
20090289131 | FUEL INJECTION VALVE - The objective of the present invention is to realize the structure, of a fuel injection valve, in which bouncing of the needle can be suppressed and the armature position can be fixed while the valve is closed, without increasing the number of components and the number of processes. In a fuel injection valve including an armature that is repelled or attracted by a core, by de-energizing or energizing a coil; a needle that opens or closes a valve seat in accordance with a reciprocal travel of the armature; and a valve-closing spring that biases the needle so as to close the valve, when the coil is de-energized, the needle and the armature are fixed in such a way that the armature can travel in an axis direction by a predetermined amount with respect to the needle, and the coil is preliminarily energized while the fuel injection valve is closed by the needle. | 11-26-2009 |
20100102146 | FUEL INJECTION VALVE - A fuel injection valve includes a valve main body of a hollow tubular shape, a needle valve provided to the valve main body in a slidable manner, a valve seat opposing the needle valve to form a seat portion and having an injection hole formed downstream of the seat portion, and a guide portion provided upstream of the seat portion to guide the needle valve. An annular passage communicating in a circumferential direction is defined between the inner peripheral surface of the valve main body and the outer peripheral surface of the guide portion and a fuel passage through which to introduce a fuel from the annular passage to the seat portion is defined. An almost cylindrical filter to trap foreign matter heading toward the fuel passage is provided to the annular passage. | 04-29-2010 |
Patent application number | Description | Published |
20120018732 | INSIDE REFORMING SUBSTRATE FOR EPITAXIAL GROWTH; CRYSTAL FILM FORMING ELEMENT, DEVICE, AND BULK SUBSTRATE PRODUCED USING THE SAME; AND METHOD FOR PRODUCING THE SAME - Sapphire substrates are used chiefly for epitaxial growth of nitride semiconductor layers, to provide a sapphire substrate of which the shape and/or amount of warping can be controlled efficiently and precisely and of which substrate warping that occurs during layer formation can be suppressed and substrate warping behavior can be minimized, to provide nitride semiconductor layer growth bodies, nitride semiconductor devices, and nitride semiconductor bulk substrates using such substrates, and to provide a method of manufacturing these products. Reformed domain patterns are formed within a sapphire substrate and the warp shape and/or amount of warping of the sapphire substrate are controlled by means of multiphoton absorption by condensing and scanning a pulsed laser through a polished surface of the sapphire substrate. When nitride semiconductor layers are formed using sapphire substrates obtained by means of this invention, substrate warping during layer formation is suppressed and substrate warping behavior is minimized so that layer quality and uniformity are improved and the quality and yield of nitride semiconductor devices is increased. | 01-26-2012 |
20130022773 | SINGLE-CRYSTAL SUBSTRATE,SINGLE-CRYSTAL SUBSTRATE HAVING CRYSTALLINE FILM,CRYSTALLINE FILM,METHOD FOR PRODUCING SINGLE-CRYSTAL SUBSTRATE HAVING CRYSTALLINE FILM,METHOD FOR PRODUCING CRYSTLLINE SUBSTRATE,AND METHOD FOR PRODUCING ELEMENT - Provided are a single-crystal substrate for epitaxial growth on which a crystalline film may be formed with stress thereon being suppressed or eliminated, a single-crystal substrate having a crystalline film, a crystalline film, a method of producing a single-crystal substrate having a crystalline film, a method of producing a crystalline substrate, and an element producing method. The single-crystal substrate has a roughened surface formed on at least a partial region of a surface of the single-crystal substrate. And in order to obtain the single-crystal substrate having a crystalline film, a single-crystalline film is formed by epitaxial growth on a roughened-surface unformed surface on which the roughened surface is not formed, and a crystalline film having low crystallinity than the single-crystalline film is formed by epitaxial growth on a roughened-surface formed surface of the single-crystal substrate. | 01-24-2013 |
20130062734 | CRYSTALLINE FILM, DEVICE, AND MANUFACTURING METHODS FOR CRYSTALLINE FILM AND DEVICE - Provided are a crystalline film in which variations in the crystal axis angle after separation from a substrate for epitaxial growth have been eliminated, and various devices in which the properties thereof have been improved by including the crystalline film. And the crystalline film has a thickness of 300 μm or more and 10 mm or less and reformed region pattern is formed in an internal portion of the crystalline film. | 03-14-2013 |
20130082358 | SINGLE CRYSTAL SUBSTRATE WITH MULTILAYER FILM, MANUFACTURING METHOD FOR SINGLE CRYSTAL SUBSTRATE WITH MULTILAYER FILM, AND ELEMENT MANUFACTURING METHOD - In order to correct warpage that occurs in formation of a multilayer film, provided are a single crystal substrate with a multilayer film, a manufacturing method therefor, and an element manufacturing method using the manufacturing method. The single crystal substrate with a multilayer film includes: a single crystal substrate ( | 04-04-2013 |
20130161794 | INTERNALLY REFORMED SUBSTRATE FOR EPITAXIAL GROWTH, INTERNALLY REFORMED SUBSTRATE WITH MULTILAYER FILM, SEMICONDUCTOR DEVICE, BULK SEMICONDUCTOR SUBSTRATE, AND MANUFACTURING METHODS THEREFOR - Provided are an internally reformed substrate for epitaxial growth having an arbitrary warpage shape and/or an arbitrary warpage amount, an internally reformed substrate with a multilayer film using the internally reformed substrate for epitaxial growth, a semiconductor device, a bulk semiconductor substrate, and manufacturing methods therefor. The internally reformed substrate for epitaxial growth includes: a single crystal substrate; and a heat-denatured layer formed in an internal portion of the single crystal substrate by laser irradiation to the single crystal substrate. | 06-27-2013 |
20130161797 | SINGLE CRYSTAL SUBSTRATE, MANUFACTURING METHOD FOR SINGLE CRYSTAL SUBSTRATE, MANUFACTURING METHOD FOR SINGLE CRYSTAL SUBSTRATE WITH MULTILAYER FILM, AND ELEMENT MANUFACTURING METHOD - In order to correct warpage resulting from the formation of a multilayer film, provided are a single crystal substrate which includes a heat-denatured layer provided in one of two regions including a first region and a second region obtained by bisecting the single crystal substrate in a thickness direction thereof, and which is warped convexly toward a side of a surface of the region provided with the heat-denatured layer, a manufacturing method for the single crystal substrate, a manufacturing method for a single crystal substrate with a multilayer film using the single crystal substrate, and an element manufacturing method using the manufacturing method for a single crystal substrate with a multilayer film. | 06-27-2013 |
20140217458 | METHOD FOR MANUFACTURING LIGHT-EMITTING ELEMENT, AND LIGHT-EMITTING ELEMENT - Provided are a method of manufacturing a light-emitting element by which a light-emitting element ( | 08-07-2014 |
20150368832 | GaN SUBSTRATE, AND METHOD FOR MANUFACTURING GaN SUBSTRATE - Provided is a technology capable of simply manufacturing a GaN substrate, which is constituted by a GaN crystal having a substantially uniform dislocation density distribution, without using a complicated process, at low cost and at a high yield ratio. | 12-24-2015 |
Patent application number | Description | Published |
20090021154 | ORGANIC LIGHT-EMITTING APPARATUS AND METHOD OF PRODUCING THE SAME - Provided is an organic light-emitting apparatus in which a crack or the like produced when removing a passivation layer on an external connection terminal is prevented from developing with the elapse of time and the moisture resistance of a light-emitting area is not impaired. The organic light-emitting apparatus includes a substrate; an organic planarization layer for planarizing unevenness of the substrate; an organic light-emitting device including a lower electrode, an organic compound layer, and an upper electrode; and a passivation layer for covering the organic light-emitting device, in which the organic planarization layer has formed therein a recessed or protruding discontinuous portion for dividing a region including a light-emitting area and a region including an external connection terminal, and the discontinuous portion is covered with the passivation layer. | 01-22-2009 |
20090058275 | ORGANIC EL DEVICE AND METHOD OF PRODUCING THE DEVICE - Provided is an organic EL device including a substrate, a lower electrode, an organic compound layer containing one of an alkali metal and an alkali metal compound, an upper electrode formed of an oxide film, and passivation layers for covering the lower electrode, the organic compound layer, and the upper electrode, the lower electrode, the organic compound layer, the upper electrode, and the passivation layers being stacked in the stated order on the substrate, in which the passivation layers include a first passivation layer formed on the upper electrode, which contains silicon as a main component, and which is free of hydrogen and a second passivation layer formed on the first passivation layer which contains silicon as a main component and hydrogen. | 03-05-2009 |
20090084500 | PROCESSING APPARATUS, EXHAUST PROCESSING PROCESS AND PLASMA PROCESSING PROCESS - There is disclosed an exhaust processing process of a processing apparatus for processing a substrate or a film, which comprises after the processing of the substrate or the film, introducing a non-reacted gas and/or a by-product into a trap means comprising a filament comprised of a high-melting metal material comprising as a main component at least one of tungsten, molybdenum and rhenium; and processing the non-reacted gas and/or the by-product inside the trap means. This makes it possible to prevent lowering in exhaust conductance, to lengthen the maintenance cycle of the processing apparatus, and to provide a high-quality product (processed substrate or film). | 04-02-2009 |
20090095420 | PROCESSING APPARATUS, EXHAUST PROCESSING PROCESS AND PLASMA PROCESSING PROCESS - There is disclosed an exhaust processing process of a processing apparatus for processing a substrate or a film, which comprises after the processing of the substrate or the film, introducing a non-reacted gas and/or a by-product into a trap means comprising a filament comprised of a high-melting metal material comprising as a main component at least one of tungsten, molybdenum and rhenium; and processing the non-reacted gas and/or the by-product inside the trap means. This makes it possible to prevent lowering in exhaust conductance, to lengthen the maintenance cycle of the processing apparatus, and to provide a high-quality product (processed substrate or film). | 04-16-2009 |
20090114155 | PROCESSING APPARATUS, EXHAUST PROCESSING PROCESS AND PLASMA PROCESSING PROCESS - There is disclosed an exhaust processing process of a processing apparatus for processing a substrate or a film, which comprises after the processing of the substrate or the film, introducing a non-reacted gas and/or a by-product into a trap means comprising a filament comprised of a high-melting metal material comprising as a main component at least one of tungsten, molybdenum and rhenium; and processing the non-reacted gas and/or the by-product inside the trap means. This makes it possible to prevent lowering in exhaust conductance, to lengthen the maintenance cycle of the processing apparatus, and to provide a high-quality product (processed substrate or film). | 05-07-2009 |
20090145555 | PROCESSING APPARATUS, EXHAUST PROCESSING PROCESS AND PLASMA PROCESSING PROCESS - There is disclosed an exhaust processing process of a processing apparatus for processing a substrate or a film, which comprises after the processing of the substrate or the film, introducing a non-reacted gas and/or a by-product into a trap means comprising a filament comprised of a high-melting metal material comprising as a main component at least one of tungsten, molybdenum and rhenium; and processing the non-reacted gas and/or the by-product inside the trap means. This makes it possible to prevent lowering in exhaust conductance, to lengthen the maintenance cycle of the processing apparatus, and to provide a high-quality product (processed substrate or film). | 06-11-2009 |
20100045178 | ORGANIC ELECTROLUMINESCENT DEVICE - An organic EL device includes a substrate; a layered structure including a first electrode, an organic layer, and a second electrode disposed on the substrate in this order; and laminated protective layers surrounding at least the layered structure. The protective layers are composed of silicon, nitrogen, hydrogen, and fluorine. The fluorine content in the outermost protective layer is in the range of 0.01 to 1.0 atomic percent. | 02-25-2010 |