Patent application number | Description | Published |
20090124446 | ECCENTRIC OSCILLATING GEAR MECHANISM AND INDUSTRIAL ROBOT JOINT CONSTRUCTION USING THE SAME - There is provided an eccentric oscillating gear mechanism including an internal gear, an external gear meshing with the internal gear, a crankshaft for moving the external gear eccentrically, and a carrier for supporting rotatably the crankshaft, the internal gear and the carrier being made to rotate relatively, wherein a cylindrical tube body, which penetrates the eccentric oscillating gear mechanism in an axial direction, is supported rotatably on the carrier. | 05-14-2009 |
20100004086 | REDUCTION GEAR TRANSMISSION AND SOLAR TRACKING PHOTOVOLTAIC POWER GENERATION UNIT UTILIZING THE SAME - A first reduction gear unit has a first input shaft that rotates in accordance with the rotation of an output shaft of a motor, a first external gear that revolves orbitally around an axis line of the first input shaft, and a first internal gear that has a number of teeth differing from the number of teeth of the first external gear. A second reduction gear unit comprises a crankshaft that rotates in accordance with the rotation of a first output shaft, a second external gear having a through hole formed at a center itself, a cylindrical member passing through the through hole of the second external gear, a second internal gear that has a number of teeth differing from the number of teeth of the second external gear, and a second output shaft that rotates around an axis line of the second internal gear. The first reduction gear unit is disposed between an outer circumferential surface of the second reduction gear unit and an inner surface of the cylindrical member. | 01-07-2010 |
20110028259 | GEAR TRANSMISSION - A gear transmission comprises an internal gear member, a carrier, an external gear and a first shaft. An internal gear is formed on an inner circumference of the internal gear member. The carrier is positioned coaxially with an axis of the internal gear and is rotatably supported on the internal gear member. The external gear meshes with the internal gear and is supported on the carrier in an eccentrically rotatable manner. The first shaft extends through the carrier along the axis of the internal gear, is rotatably supported on the carrier and transmits torque inputted at one end to the other end thereof | 02-03-2011 |
20110275469 | GEAR TRANSMISSION - A gear transmission comprises an internal gear, an external gear, a first gear, a crankshaft, a two-stage gear and a second gear. The first gear is affixed to an end of the crankshaft, which eccentrically rotates one of the internal gear and the external gear. The two-stage gear comprises a center gear and an outer-toothed ring gear. The center gear meshes with the first gear. The outer-toothed ring gear surrounds the first gear. The second gear meshes with the outer-toothed ring gear and transmits torque from a motor to the two-stage gear. The two-stage gear is configured such that the center gear and the outer-toothed ring gear are each at least partially disposed in a common plane that crosses the rotational axis of the gear transmission. | 11-10-2011 |
20140371019 | GEAR UNIT - A gear unit has a washer which is provided at a position where the washer is able to come into contact with a retainer of roller bearings provided to each of adjacent eccentric parts in a crank shaft, and which regulates a movement of the roller bearing in an axial direction. A housing recess which houses the washer is formed on at least one face of the faces of adjacent oscillating gears facing each other. The housing recess includes an axial direction regulating surface which regulates movement of the washer in the axial direction, and a radial direction regulating surface which regulates movement of the washer in the radial direction. | 12-18-2014 |
Patent application number | Description | Published |
20100033675 | Polarizing Lens and Method of Its Manufacture - High productivity polarizing lens that is impact-resistant, and is not prone to warping or iridescent patterning and other color irregularities. Polarizing lens ( | 02-11-2010 |
20110063569 | Tinted semi-finished lens having impact resistance and method for manufacturing the same - Provided is a method for manufacturing a tinted semi-finished lens that uses polycarbonate, has high light shielding effect, has impact resistance even after polishing, and can have a uniform tint. In particular, in order to provide a tinted semi-finished lens that has the same light shielding at the lens center and the lens edge when a wearer looks through the tinted lens, and furthermore, that seems to have the same light shielding when a third party looks at the wearer, a tinted layer having a uniform thickness and a transparent layer on the back side are integrally formed. Furthermore, in order to provide the impact resistance to either of the resins included in the layers, a low flow resin having a large molecular weight and a short flow length is used. In order to minimize lens distortion and to provide the impact resistance to the lens, the transparent layer employs a resin having the impact resistance, and the transparent layer is formed first and then the tinted layer is formed as an additional layer. Moreover, provided is a method for simultaneously manufacturing two sets of tinted lenses. In the method, two sets of molds are used, a first molded product is obtained in one of the two sets of the molds, and then is transferred to the other mold to form a second molded product, and simultaneously, another first molded product is molded in the first mold. | 03-17-2011 |
20120249949 | Method for Dyeing Eyeglass Lenses and Colored Lenses - A method for dyeing eyeglass lenses, which comprise: a step of dyeing at least one surface of a transparent thermoplastic sheet; a step of curving the resulting sheet while heating into a lens-shaped product; and as necessary, a step of providing a power correction layer on the concave side in a unified state. The thermoplastic sheet is a sheet which consists of one material selected from among polycarbonates, acrylic resins, and polyamides and which has a thickness of 1.5 mm or less. Alternatively, the thermoplastic sheet may be a stretched thermoplastic polycarbonate sheet. Further, at least one surface of the thermoplastic sheet may be subjected to hard coating prior to the curving. In this case, the hard-coated surface serves as the convex side of a lens. | 10-04-2012 |
Patent application number | Description | Published |
20080213578 | HEAT CONDUCTIVE SILICONE GREASE COMPOSITION AND CURED PRODUCT THEREOF - Provided is a heat conductive silicone grease composition, including: an organopolysiloxane containing 2 or more alkenyl groups bonded to silicon atoms within each molecule, an organopolysiloxane with a specific structure and with a kinematic viscosity at 25° C. of 10 to 10,000 mm | 09-04-2008 |
20080260957 | Method for adhering a thermally-conductive silicone composition, a primer for adhering a thermally-conductive silicone composition and a method for manufacturing a bonded complex of a thermally-conductive silicone composition - A method for adhering a thermally-conductive silicone composition to a coated surface in which a primer containing a platinum type compound and a solvent but not containing an alkoxy silane is applied and dried on the surface of a metal or an alloy containing at least one metal selected from a group of gold, silver and platinum group, and the thermally-conductive silicone composition is subsequently adhered to the coated surface. | 10-23-2008 |
20080269084 | HEAT DISSIPATING SILICONE GREASE COMPOSITIONS - A silicone grease composition comprising 3-30 wt % of an organopolysiloxane and 60-96.9 wt % of a heat conductive filler is diluted with a least volatile isoparaffin having a boiling point of 260-360° C. Despite a heavy loading of heat conductive filler, the grease composition is easily applicable to heat sinks as a thin uniform coating. The composition is drastically increased in shelf stability at room temperature, easy to handle, and provides for good heat dissipation. | 10-30-2008 |
20090258216 | SILICONE ADHESIVE FOR SEMICONDUCTOR ELEMENT - A silicone adhesive for a semiconductor element that is suitable as a die bonding material for fixing a light emitting diode chip to a substrate. The adhesive includes (a) an addition reaction-curable silicone resin composition having a viscosity at 25° C. of not more than 100 Pa·s, and yielding a cured product upon heating at 150° C. for 3 hours that has a type D hardness prescribed in JIS K6253 of at least 30, (b) a white pigment powder having an average particle size of less than 1 μm, and (c) a white or colorless and transparent powder having an average particle size of at least 1 μm but less than 10 μm. The adhesive exhibits high levels of concealment, effectively reflects light emitted from the LED chip, and also exhibits favorable chip positioning properties, superior adhesive strength, and excellent durability. | 10-15-2009 |
20130146939 | SILICONE ADHESIVE FOR SEMICONDUCTOR ELEMENT - A silicone adhesive for a semiconductor element that is suitable as a die bonding material for fixing a light emitting diode chip to a substrate. The adhesive includes (a) an addition reaction-curable silicone resin composition having a viscosity at 25° C. of not more than 100 Pa·s, and yielding a cured product upon heating at 150° C. for 3 hours that has a type D hardness prescribed in JIS K6253 of at least 30, (b) a white pigment powder having an average particle size of less than 1 μm, and (c) a white or colorless and transparent powder having an average particle size of at least 1 μm but less than 10 μm. The adhesive exhibits high levels of concealment, effectively reflects light emitted from the LED chip, and also exhibits favorable chip positioning properties, superior adhesive strength, and excellent durability. | 06-13-2013 |
Patent application number | Description | Published |
20090114792 | Image Display Apparatus - A large-screen image display apparatus which comprises: a display module; an outer frame shaped so as to fit along the rim of the rear surface of the display module; a hollow, bar-shaped main frame for supporting the display module, which is arranged to extend vertically and fixed to the upper and lower portions of the outer frame and to the rear surface of the display module by a fixing part; and a stand for supporting the display module, which has a leg portion. The leg portion of the stand is inserted into the main frame. The leg portion and the main frame are fastened together by screwing a screw through a screw hole formed through the main frame and a first screw hole formed through the leg portion. In addition, the leg portion and a fixing part of the outer frame are fastened together by screwing a screw through a second screw hole formed through the leg portion and a screw hole formed in the fixing part of the outer frame. The first screw hole and the second screw hole are formed on different faces of the leg portion and at different heights. This can provide a large-screen image display apparatus with a less-wobble, high-safety, high-reliability, and low-cost stand-attaching structure. | 05-07-2009 |
20090115919 | Flat Panel Display - Space is decreased in the direction of thickness on a side of a substrates mounted on a back of a flat panel display to adapt requirement for increasing and thinning its size, and most flat panel displays forcibly radiate heat with a fan provided thereon. The present invention provides a flat panel display having fewer heat radiating fans to secure a channel for causing a heat radiating air to flow. Portions where electronic circuit device on a back of a display panel are mounted are divided into three: left; center; and right portions; with a main frame as a border, the electronic circuit device are constructed of four module substrates, the substrate which is the greatest in heating value in the four module substrates (hereinafter referred to as a substrate) is arranged in the center portion and the substrates which are the smallest and the second smallest in heating value therein are arranged in the same portion. | 05-07-2009 |
20090174626 | IMAGE DISPLAY - To provide a reliable high brightness and definition image display by inhibiting a possible increase in fan noise and promoting cooling of an upper, hot portion of a display panel module, various boards, and image processing electronic components, an image display includes a flat display panel module, a display surface side cover on a display surface side of the display panel module, a non display surface side cover on a non display surface side of the display panel module, a display driving board, a power supply board, and a cooling fan, wherein a case of the cooling fan is larger than a distance between the display panel module and the non display surface side cover in an area where the cooling fan is installed, and a first end of the case of the cooling fan closer to the non display surface-side cover is positioned above a second end of the case closer to the display panel module. | 07-09-2009 |
20100172098 | IMAGE DISPLAY - A flat-type image display, such as, a plasma display, a LCD display, an OLED display, etc., in particular, for improving a cooling efficiency of a display panel, various kinds of substrates and an image display element, within the thin-sized housing thereof, comprises: a display panel; a chassis, which supports the display panel from a rear surface side thereof; a front surface-side cover, which is provided on a front side of the display panel; a rear surface-side cover, which is provided on a rear side of the display panel; an image display element connected with the display panel; a display driver substrate, which is connected with the display panel, and on a surface of which opposite to the chassis are provided circuit parts thereof; a power source substrate, which supplies driving power to the display driver substrate and the image display element, and on a surface of which opposite to the chassis are provided circuit parts thereof; and a first insulator board, which is provided at a position opposite to the display driver substrates and the power source substrate of the chassis. | 07-08-2010 |
20120194499 | FLAT PANEL DISPLAY - A flat panel display apparatus includes a plasma display panel, a power supply substrate, a signal processing substrate, a Y sustaining substrate, and an X sustaining substrate. The power supply substrate, the signal processing substrate, the Y sustaining substrate and the X sustaining substrate are arranged at a back of the plasma display panel. When viewing the plasma display panel from the back, the power supply substrate is arranged at a center portion of the plasma display panel, the Y sustaining substrate is arranged at one of a left and right side of the plasma display panel, the X sustaining substrate is arranged at the other of the left and right side, and the signal processing substrate is arranged under the X sustaining substrate. A circuit substrate other than the power supply substrate, the Y sustaining substrate, and the X sustaining substrate is arranged under the power supply substrate. | 08-02-2012 |
Patent application number | Description | Published |
20100098587 | CHROMATOGRAPHY QUANTITATIVE MEASURING APPARATUS - In a chromatography quantitative measuring apparatus according to the present invention, a beam applied from a light source to a chromatography test strip is formed into an elliptical shape by an optical means such as a cylindrical lens, a variation in absorbance that accompanies elution of a marker regent is detected while the elliptical beam is applied between a marker reagent hold part and a detection part, and a measurement is automatically started in a prescribed period of time since the detection of variation. According to the chromatography quantitative measuring apparatus so configured, non-uniform coloration is reduced by shaping the beam elliptically with the optical means, whereby the accuracy of quantitative analysis is enhanced, and the apparatus can be operated easily. | 04-22-2010 |
20100098591 | CHROMATOGRAPHY QUANTITATIVE MEASURING APPARATUS - In a chromatography quantitative measuring apparatus according to the present invention, a beam applied from a light source to a chromatography test strip is formed into an elliptical shape by an optical means such as a cylindrical lens, a variation in absorbance that accompanies elution of a marker regent is detected while the elliptical beam is applied between a marker reagent hold part and a detection part, and a measurement is automatically started in a prescribed period of time since the detection of variation. According to the chromatography quantitative measuring apparatus so configured, non-uniform coloration is reduced by shaping the beam elliptically with the optical means, whereby the accuracy of quantitative analysis is enhanced, and the apparatus can be operated easily. | 04-22-2010 |
20100099179 | CHROMATOGRAPHY QUANTITATIVE MEASURING APPARATUS - In a chromatography quantitative measuring apparatus according to the present invention, a beam applied from a light source to a chromatography test strip is formed into an elliptical shape by an optical means such as a cylindrical lens, a variation in absorbance that accompanies elution of a marker regent is detected while the elliptical beam is applied between a marker reagent hold part and a detection part, and a measurement is automatically started in a prescribed period of time since the detection of variation. According to the chromatography quantitative measuring apparatus so configured, non-uniform coloration is reduced by shaping the beam elliptically with the optical means, whereby the accuracy of quantitative analysis is enhanced, and the apparatus can be operated easily. | 04-22-2010 |
20100104475 | CHROMATOGRAPHY QUANTITATIVE MEASURING APPARATUS - In a chromatography quantitative measuring apparatus according to the present invention, a beam applied from a light source to a chromatography test strip is formed into an elliptical shape by an optical means such as a cylindrical lens, a variation in absorbance that accompanies elution of a marker regent is detected while the elliptical beam is applied between a marker reagent hold part and a detection part, and a measurement is automatically started in a prescribed period of time since the detection of variation. According to the chromatography quantitative measuring apparatus so configured, non-uniform coloration is reduced by shaping the beam elliptically with the optical means, whereby the accuracy of quantitative analysis is enhanced, and the apparatus can be operated easily. | 04-29-2010 |
Patent application number | Description | Published |
20100051961 | EPITAXIAL SUBSTRATE, SEMICONDUCTOR DEVICE SUBSTRATE, AND HEMT DEVICE - A buffer layer formed of In | 03-04-2010 |
20120126293 | EPITAXIAL SUBSTRATE FOR SEMICONDUCTOR DEVICE, METHOD FOR MANUFACTURING EPITAXIAL SUBSTRATE FOR SEMICONDUCTOR DEVICE, AND SEMICONDUCTOR DEVICE - An epitaxial substrate, in which a group of group-III nitride layers is formed on a single-crystal silicon substrate so that a crystal plane is approximately parallel to a substrate surface, comprises: a first group-III nitride layer formed of AlN on the base substrate; a second group-III nitride layer formed of In | 05-24-2012 |
20120161152 | EPITAXIAL SUBSTRATE AND METHOD FOR MANUFACTURING EPITAXIAL SUBSTRATE - Provided is a crack-free epitaxial substrate having a small amount of warping, in which a silicon substrate is used as a base substrate. The epitaxial substrate includes a (111) single crystal Si substrate, a buffer layer, and a crystal layer. The buffer layer is formed of a first lamination unit and a second lamination unit being alternately laminated. The first lamination unit includes a composition modulation layer and a first intermediate layer. The composition modulation layer is formed of a first unit layer and a second unit layer having different compositions being alternately and repeatedly laminated so that a compressive strain exists therein. The first intermediate layer enhances the compressive strain existing in the composition modulation layer. The second lamination unit is a second intermediate layer that is substantially strain-free. | 06-28-2012 |
20120168771 | SEMICONDUCTOR ELEMENT, HEMT ELEMENT, AND METHOD OF MANUFACTURING SEMICONDUCTOR ELEMENT - A semiconductor device is provided such that a reverse leak current is suppressed, and a Schottky junction is reinforced. The semiconductor device includes an epitaxial substrate formed by laminating a group of group-III nitride layers on a base substrate in such a manner that (0001) surfaces of said group-III nitride layers are substantially parallel to a substrate surface, and a Schottky electrode, in which the epitaxial substrate includes a channel layer formed of a first group-III nitride having a composition of In | 07-05-2012 |
20120211765 | EPITAXIAL SUBSTRATE FOR SEMICONDUCTOR ELEMENT, SEMICONDUCTOR ELEMENT, AND METHOD FOR PRODUCING EPITAXIAL SUBSTRATE FOR SEMICONDUCTOR ELEMENT - Provided is an epitaxial substrate using a silicon substrate as a base substrate. An epitaxial substrate, in which a group of group-III nitride layers are formed on a (111) single crystal Si substrate such that a (0001) crystal plane of the group of group-III nitride layers is substantially in parallel with a surface of the substrate, includes: a first group-III nitride layer made of AlN with many defects configured of at least one kind from a columnar or granular crystal or domain; a second group-III nitride layer whose interface with the first group-III nitride layer is shaped into a three-dimensional concave-convex surface; and a third group-III nitride layer epitaxially formed on the second group-III nitride layer as a graded composition layer in which the proportion of existence of Al is smaller in a portion closer to a fourth group-III nitride. | 08-23-2012 |
20130020583 | EPITAXIAL SUBSTRATE AND METHOD FOR MANUFACTURING EPITAXIAL SUBSTRATE - Provided is a crack-free epitaxial substrate. The epitaxial substrate includes: a (111) single crystal Si substrate and a buffer layer formed of a first and a second lamination unit being alternately laminated such that each of an uppermost and a lowermost portion of the buffer layer is formed of the first lamination unit. The first lamination unit is formed of a first and a second composition layer having different compositions being alternately laminated so as to increase the thickness of the second composition layer in a portion more distant from the base substrate side, to thereby cause a compressive strain to exist in the first lamination unit such that it increases in a portion more distant from the base substrate. The second lamination unit is formed as an intermediate layer that is substantially strain-free and formed with a thickness of 15 nm or more and 150 nm or less. | 01-24-2013 |
20130026486 | EPITAXIAL SUBSTRATE AND METHOD FOR MANUFACTURING EPITAXIAL SUBSTRATE - Provided is a crack-free epitaxial substrate having excellent breakdown voltage properties in which a silicon substrate is used as a base substrate thereof. The epitaxial substrate includes: a (111) single crystal Si substrate and a buffer layer including a composition modulation layer that is formed of a first composition layer made of AlN and a second composition layer made of Al | 01-31-2013 |
20130026488 | EPITAXIAL SUBSTRATE AND METHOD FOR MANUFACTURING EPITAXIAL SUBSTRATE - Provided is a crack-free epitaxial substrate having excellent breakdown voltage properties in which a silicon substrate is used as a base substrate thereof. The epitaxial substrate includes: a (111) single crystal Si substrate and a buffer layer including a plurality of composition modulation layers each formed of a first composition layer made of AlN and a second composition layer made of Al | 01-31-2013 |
20130032781 | EPITAXIAL SUBSTRATE AND METHOD FOR MANUFACTURING EPITAXIAL SUBSTRATE - Provided is a crack-free epitaxial substrate with reduced warping, in which a silicon substrate is used as a base substrate. The epitaxial substrate includes a (111) single crystal Si substrate, a superlattice layer group in which a plurality of superlattice layers are laminated, and a crystal layer. The superlattice layer is formed of a first unit layer and a second unit layer made of group-III nitrides having different compositions being alternately and repeatedly laminated. The crystal layer is made of a group-III nitride and formed above the base substrate so as to be positioned at an upper side of the superlattice layer group relative to the base substrate. The superlattice layer group has a compressive strain contained therein. In the superlattice layer group, the more distant the superlattice layer is from the base substrate, the greater the compressive strain becomes. | 02-07-2013 |
20130043488 | EPITAXIAL SUBSTRATE AND METHOD FOR MANUFACTURING EPITAXIAL SUBSTRATE - Provided is a crack-free epitaxial substrate having excellent breakdown voltage properties in which a silicon substrate is used as a base. The epitaxial substrate includes a (111) single crystal Si substrate and a buffer layer including a plurality of first lamination units. Each of those units includes a composition modulation layer formed of a first composition layer made of AlN and a second composition layer made of Al | 02-21-2013 |
20130092953 | EPITAXIAL SUBSTRATE AND METHOD FOR MANUFACTURING EPITAXIAL SUBSTRATE - Provided is a crack-free epitaxial substrate having a small amount of warping, in which a silicon substrate is used as a base substrate. The epitaxial substrate includes: a (111) single crystal Si substrate and a buffer layer formed of a plurality of lamination units being continuously laminated. The lamination unit includes: a composition modulation layer formed of a first and a second unit layer having different compositions being alternately and repeatedly laminated such that a compressive strain exists therein; a termination layer formed on an uppermost portion of the composition modulation layer, the termination layer acting to maintain the compressive strain existing in the composition modulation layer; and a strain reinforcing layer formed on the termination layer, the strain reinforcing layer acting to enhance the compressive strain existing in the composition modulation layer. | 04-18-2013 |
20130134439 | EPITAXIAL SUBSTRATE FOR SEMICONDUCTOR ELEMENT, SEMICONDUCTOR ELEMENT, PN JUNCTION DIODE, AND METHOD FOR MANUFACTURING AN EPITAXIAL SUBSTRATE FOR SEMICONDUCTOR ELEMENT - Provided is an epitaxial substrate for use in a semiconductor element, having excellent characteristics and capable of suitably suppressing diffusion of elements from a cap layer. An epitaxial substrate for use in a semiconductor element, in which a group of group-III nitride layers are laminated on a base substrate such that a (0001) crystal plane of the group of group-III nitride layers is substantially in parallel with a substrate surface of the base substrate, includes: a channel layer made of a first group-III nitride having a composition of In | 05-30-2013 |
20130168734 | EPITAXIAL SUBSTRATE FOR SEMICONDUCTOR DEVICE, SEMICONDUCTOR DEVICE, METHOD OF MANUFACTURING EPITAXIAL SUBSTRATE FOR SEMICONDUCTOR DEVICE, AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - Provided is a semiconductor device of normally-off operation type having a low on-resistance. An epitaxial substrate for it includes: a base substrate; a channel layer made of a first group-III nitride having a composition of In | 07-04-2013 |
20130181327 | EPITAXIAL SUBSTRATE FOR SEMICONDUCTOR DEVICE, METHOD FOR MANUFACTURING EPITAXIAL SUBSTRATE FOR SEMICONDUCTOR DEVICE, AND SEMICONDUCTOR DEVICE - Provided is a crack-free epitaxial substrate having a small amount of dislocations in which a silicon substrate is used as a base substrate. An epitaxial substrate includes a substrate made of (111) single crystal silicon and a base layer group in which a plurality of base layers are laminated. Each of the plurality of base layers includes a first group-III nitride layer made of AlN and a second group-III nitride layer made of Al | 07-18-2013 |
Patent application number | Description | Published |
20080232758 | Optical module - An optical module which can be inserted into and removed from a cage, the optical module includes a lock pin inserted into a lock hole provided in the cage and engaging the cage and the optical module with each other in a state where the optical module is inserted into the cage; a tongue having an axial part and configured to be rotated with respect to the axial part in a direction where the insertion of the lock pin into the lock hole is released; and a bail configured to be rotated with respect to a rotational axel so that the tongue is rotated. The engagement of the cage and the optical module formed by insertion of the lock pin into the lock hole is released by rotating the bail 90 degrees. | 09-25-2008 |
20090285536 | Optical module - An optical module includes a housing including a groove part formed inside the housing; and a receptacle received in the housing, the receptacle to which an optical connector having an optical fiber is connected, the receptacle including a brim part and a stub part where the brim part is formed in a body. An elastic body is provided in the groove part, the groove part where the brim part is provided. The elastic body is configured to adhere to and hold the stub part. | 11-19-2009 |
20120113596 | ELECTRONIC APPARATUS, METHOD FOR MOUNTING A DEVICE, AND OPTICAL COMMUNICATION APPARATUS - An electronic apparatus includes a substrate, a device including a flange, the device being mounted at a first side of the substrate, a plate arranged at a position corresponding to the device at a second side of the substrate, the second side being opposite to the first side, and a securing member that secures the device to the substrate. | 05-10-2012 |
Patent application number | Description | Published |
20110031935 | NEGATIVE ELECTRODE FOR LITHIUM-ION SECONDARY BATTERY AND MANUFACTURING PROCESS FOR THE SAME - The present invention is characterized in that, in a negative electrode for lithium-ion secondary battery, the negative electrode being manufactured via an application step of applying a binder resin and an active material onto a surface of collector, the binder resin is an alkoxysilyl group-containing resin that has a structure being specified by formula (I); and the active material includes a lithium-inactive metal that does not form any intermetallic compounds with lithium, or a silicide of the lithium-inactive metal, and an elemental substance of Si. It is possible to upgrade cyclic characteristics by means of using the negative electrode for lithium-ion secondary battery according to the present invention. | 02-10-2011 |
20120177992 | NEGATIVE ELECTRODE FOR LITHIUM-ION SECONDARY BATTERY AND MANUFACTURING PROCESS FOR THE SAME - To provide a negative electrode for lithium-ion secondary battery, negative electrode which has good cyclability by suppressing the active material from coming off or falling down from the current collector, and a manufacturing process for the same. | 07-12-2012 |
20120202117 | NEGATIVE ELECTRODE FOR NON-AQUEOUS-SYSTEM SECONDARY BATTERY AND MANUFACTURING PROCESS FOR THE SAME - It is equipped with a negative-electrode current collector, and a negative-electrode mixture-material layer comprising a negative-electrode mixture material that includes a negative-electrode active material containing silicon (Si) and a binding agent at least, the negative-electrode mixture-material layer being formed on a surface of the negative-electrode current collector; and
| 08-09-2012 |
20120244435 | NEGATIVE ELECTRODE FOR LITHIUM-ION SECONDARY BATTERY - To provide a negative electrode for lithium-ion secondary battery, negative electrode which has good cyclability by suppressing the active material from coming off or falling down from the current collector. | 09-27-2012 |
20120258370 | NEGATIVE-ELECTRODE ACTIVE MATERIAL FOR NON-AQUEOUS-SYSTEM SECONDARY BATTERY AND PRODUCTION PROCESS FOR THE SAME | 10-11-2012 |
20130244110 | NEGATIVE ELECTRODE FOR LITHIUM-ION SECONDARY BATTERY AND MANUFACTURING PROCESS FOR THE SAME - The present invention is characterized in that, in a negative electrode for lithium-ion secondary battery, the negative electrode being manufactured via an application step of applying a binder resin and an active material onto a surface of collector, the binder resin is an alkoxysilyl group-containing resin that has a structure being specified by formula (I); and the active material includes a lithium-inactive metal that does not form any intermetallic compounds with lithium, or a silicide of the lithium-inactive metal, and an elemental substance of Si. It is possible to upgrade cyclic characteristics by means of using the negative electrode for lithium-ion secondary battery according to the present invention. | 09-19-2013 |
20130337323 | NEGATIVE-ELECTRODE MIXTURE MATERIAL FOR LITHIUM-ION SECONDARY BATTERY, AND NEGATIVE ELECTRODE, AS WELL AS SECONDARY BATTERY - An object of the present invention is to provide a negative-electrode mixture material for secondary battery that is excellent in terms of high-rate characteristics, and a negative electrode, as well as a secondary battery. A negative-electrode mixture material for secondary battery according to the present invention contains a negative-electrode active material including: a silicon elementary substance and a silicon compound; graphite; and a polyamide-imide/silica hybrid resin being made by bonding an alkoxysilyl group onto a polyamide-imide resin. | 12-19-2013 |
20140087252 | LITHIUM ION SECONDARY BATTERY ELECTRODE, MANUFACTURING PROCESS FOR THE SAME, AND LITHIUM ION SECONDARY BATTERY USING THE ELECTRODE - To provide a lithium ion secondary battery electrode in which a coat is held on a surface of an active material layer over a long period of time to suppress decomposition of the electrolysis solution and to enhance the cyclability, a manufacturing process for the same, and a lithium ion secondary battery using the electrode. | 03-27-2014 |
20140099542 | LITHIUM ION SECONDARY BATTERY ELECTRODE, MANUFACTURING PROCESS FOR THE SAME, AND LITHIUM ION SECONDARY BATTERY USING THE ELECTRODE - To provide a lithium ion secondary battery electrode in which a coated layer is held on a surface of an active material layer over a long period of time to suppress decomposition of the electrolysis solution and to enhance the cyclability, a manufacturing process for the same, and a lithium ion secondary battery using the electrode. | 04-10-2014 |
20140106226 | LITHIUM ION SECONDARY CELL - Provided is a negative-electrode active material, which is capable of constituting a lithium ion secondary cell exhibiting excellent cell characteristics. | 04-17-2014 |
20140134491 | LITHIUM CONTAINING COMPOSITE OXIDE POWDER AND MANUFACTURING PROCESS FOR THE SAME - Provided is a lithium containing composite oxide powder suitable for the positive electrode active material of the non-aqueous electrolysis solution secondary battery such as the lithium ion secondary battery, and a manufacturing process for the same. A lithium containing composite oxide powder includes a single crystal particle containing a lithium containing composite oxide that is manufactured by a molten salt method and that includes at least lithium and another one or more metal elements and in which a crystal structure belongs to a lamellar rock salt structure, wherein an average primary particle diameter is greater than or equal to 200 nm and smaller than or equal to 30 μm. The lithium containing composite oxide powder is grown by reacting the metal containing ingredient in the molten salt of the lithium hydroxide at a reaction temperature of higher than or equal to 650° C. and lower than or equal to 900° C. | 05-15-2014 |
20140186704 | LITHIUM ION SECONDARY BATTERY ELECTRODE, MANUFACTURING PROCESS FOR THE SAME, AND LITHIUM ION SECONDARY BATTERY USING THE ELECTRODE - To provide a lithium ion secondary battery electrode in which a coated layer is held on a surface of an active material layer over a long period of time to suppress decomposition of the electrolysis solution and to enhance the cyclability, a manufacturing process for the same, and a lithium ion secondary battery using the electrode. | 07-03-2014 |
20140234705 | NEGATIVE-ELECTRODE MATERIAL FOR ELECTRIC STORAGE DEVICE, NEGATIVE ELECTRODE FOR ELECTRIC STORAGE DEVICE, AND ELECTRIC STORAGE DEVICE AS WELL AS VEHICLE - It is an assignment to provide the following: a negative-electrode material for electric storage device, a negative electrode for electric storage device, and an electric storage device, negative-electrode material, negative electrode and electric storage device in which SiO | 08-21-2014 |
20140242458 | NEGATIVE ELECTRODE FOR NONAQUEOUS SECONDARY BATTERY, METHOD FOR PRODUCING THE SAME, AND NONAQUEOUS SECONDARY BATTERY - Provided is a negative electrode for a nonaqueous secondary battery which achieves both suppression of reductive decomposition of an electrolyte or an electrolytic solution and suppression of an increase in resistance. Also provided are a method for producing such a negative electrode and a nonaqueous secondary battery employing such a negative electrode. A polymer coating layer is formed so as to coat at least part of surfaces of negative electrode active material particles containing silicon oxide (SiO | 08-28-2014 |
20140242469 | NEGATIVE ELECTRODE ACTIVE MATERIAL, NEGATIVE ELECTRODE FOR NONAQUEOUS ELECTROLYTE SECONDARY BATTERY, AND NONAQUEOUS ELECTROLYTE SECONDARY BATTERY - Provided is a negative electrode active material containing SiO | 08-28-2014 |
20140308588 | NEGATIVE-ELECTRODE STUFF AND NEGATIVE ELECTRODE FOR USE IN LITHIUM-ION SECONDARY BATTERY AS WELL AS LITHIUM-ION SECONDARY BATTERY - A negative-electrode stuff has negative-electrode active-material particles including: an element being capable of sorbing and desorbing lithium ions, and being capable of undergoing an alloying reaction with lithium; or/and an elementary compound being capable of undergoing an alloying reaction with lithium. The negative-electrode active-material particles includes particles whose particle diameter is 1 μm or more in an amount of 85% by volume or more of them when the entirety is taken as 100% by volume, exhibit a BET specific surface area that is 6 m | 10-16-2014 |
Patent application number | Description | Published |
20090151832 | PNEUMATIC TIRE - Provided is a pneumatic tire in which left- and right-side lateral grooves extend between first main grooves and second main grooves, and in which left- and right-side sub grooves extend halfway from the second main grooves toward the first main grooves. The lateral grooves and the sub grooves are disposed alternately with each other at predetermined pitches in tire circumferential directions. The left- and right-side lateral grooves respectively include: first groove portions extending from the first main grooves; and second groove portions extending from the second main grooves while curving inwardly toward tire width directions. The left- and right-side lateral grooves are offset from each other in the tire circumferential directions. Opening portions at both ends of each of the lateral grooves, which are opened to the first main grooves and the second main grooves, are shifted from one another in the tire circumferential directions. | 06-18-2009 |
20130146192 | PNEUMATIC TIRE - A pneumatic tire having improved braking performance includes sides and a tread section between the sides. In each of two regions on opposite sides of a tire centerline in the tread section, two circumferential main grooves extend along a tire circumferential direction in a zigzag shape, first lug grooves extend from an inner circumferential main groove to a pattern end, and second lug grooves extend toward the pattern end from the outer circumferential main groove. A wall of the inside circumferential main groove includes wall surfaces with a wall angle varying along the circumferential direction. An outside land section between the main grooves includes a notched lug groove extending in a tire widthwise direction from either the inside or outside main groove and closes within the outside land section. A groove depth of the notched lug groove is shallower than that of the first and second lug grooves. | 06-13-2013 |
20130240100 | Pneumatic Tire - A pneumatic tire having a tread portion, side wall portions, and bead portions includes at least one row of blocks constituted by a plurality of blocks aligned in a tire circumferential direction formed in a vehicle inner side region and a vehicle outer side region of the tread portion. Sipes extend in a tire width direction in each of the blocks. A pitch count of the blocks constituting the row of blocks in the vehicle inner side region is greater than the pitch count of the blocks constituting the row of blocks in the vehicle outer side region. Sipes formed in the blocks in the vehicle outer side region are provided with a structure extending in a linear manner along the depth direction thereof and sipes formed in the blocks in the vehicle inner side region are provided with a structure extending while curving along the depth direction thereof. | 09-19-2013 |
Patent application number | Description | Published |
20100026808 | Surveillance System for Terminals - A surveillance system for terminals for controlling generation of false or wrong information by displaying an inquiry message to a user. The surveillance system includes a terminal having an individual information acquirement unit acquiring private information on a user and also having an operation guide information display unit displaying an operational guide to prompt the user to enter an input; a monitor camera taking the terminal; an abnormality detection device for detecting a suspicious behavior of the user based on a video of the user; and a display control unit causing the operation guide information display unit of the terminal to display inquiry information to the user when the abnormality detection device detects a suspicious behavior of the user. The abnormality detection device selects subsequent processing operations according to input information of the user to the inquiry information. | 02-04-2010 |
20100141763 | VIDEO MONITORING SYSTEM - A video monitoring system, comprises a camera, and a monitor apparatus, to which video data from the camera is transmitted, wherein the camera comprises a video obtaining unit for obtaining a signal from an image pickup device, a camera image recognizer unit for executing video processing upon an input video obtained from the video obtaining unit, an encoding unit for executing an encoding process upon basis of a result of the processing within the camera image recognizer unit, thereby producing the video data, and wherein the monitor apparatus comprises a decoding unit for decoding the video data, and an image recognizer unit for selecting a decoding means of the decoding unit, upon basis of the result of processing of the camera image recognizer unit. | 06-10-2010 |
20100253779 | VIDEO IMAGE MONITORING SYSTEM - This is a video image monitoring system which can effectively detect a mobile object appearing in a captured video image even if a background image and other camera condition change continuously. The video image monitoring system comprises: a video-image-capturing section | 10-07-2010 |
20110205360 | SUPERVISING SYSTEM FOR IMAGE - The object of the invention is to provide a supervising system for image to detect a scheme at high accuracy. The supervising system for image is provided with a first portion for detecting change of time detecting the change of time in amount of feature of an image taken pictures by a image forming device, a second portion for detecting change of time in the illuminance detected by an illuminance sensor, and a scheme judging portion detecting a scheme against the image forming device in accordance with the change of time in amount of feature and the change of time in the illuminance as detected. | 08-25-2011 |
20110317016 | CAMERA LAYOUT DETERMINATION SUPPORT DEVICE - A device which can support a determination of a camera layout by automatically preparing the camera layout that satisfies a customer request based on the customer request including a surveillance layout. Specifically, a need table that is a data set of a plurality of arrangement candidate cameras satisfying the customer request is prepared from the customer request including the surveillance layout. An arrangement of the plurality of the arrangement candidate cameras on a map is calculated based on the need table using a clustering method and a temporary layout of cameras is prepared. Then, an arrangement layout of the cameras in the surveillance layout is determined based on the temporary layout. | 12-29-2011 |
20120076356 | ANOMALY DETECTION APPARATUS - Behavior authority may be changed depending on a behavior performed by a person. Therefore, it is necessary to change the judgment criteria whether the behavior is anomalous or normal, in association with the changed behavior authority. Herein, an anomaly detection apparatus is provided, which calculates the behavior authority information of which judgment criteria of the anomalous and normal behaviors are changed corresponding to the behavior performed by the person, detects whether the behavior shown by the person is anomalous or not, and issues an alarm when the anomalous behavior is detected. | 03-29-2012 |
20130113934 | MONITORING SYSTEM AND MONITORING METHOD - It is an object of the present invention to provide a monitoring system that captures and inputs video images of a crowd with a surveillance camera for detecting normal and/or various abnormal states. The monitoring system (MS) comprises: a video image input means ( | 05-09-2013 |
Patent application number | Description | Published |
20090248403 | DEREVERBERATION APPARATUS, DEREVERBERATION METHOD, DEREVERBERATION PROGRAM, AND RECORDING MEDIUM - A model application unit calculates linear prediction coefficients of a multi-step linear prediction model by using discrete acoustic signals. Then, a late reverberation predictor calculates linear prediction values obtained by substituting the linear prediction coefficients and the discrete acoustic signals into linear prediction term of the multi-step linear prediction model, as predicted late reverberations. Next, a frequency domain converter converts the discrete acoustic signals to discrete acoustic signals in the frequency domain and also converts the predicted late reverberations to predicted late reverberations in the frequency domain. A late reverberation eliminator calculates relative values between the amplitude spectra of the discrete acoustic signals expressed in the frequency domain and the amplitude spectra of the predicted late reverberations expressed in the frequency domain, and provides the relative values as predicted amplitude spectra of a dereverberation signal. | 10-01-2009 |
20110002473 | DEREVERBERATION APPARATUS, DEREVERBERATION METHOD, DEREVERBERATION PROGRAM, AND RECORDING MEDIUM - A sound source model storage section stores a sound source model that represents an audio signal emitted from a sound source in the form of a probability density function. An observation signal, which is obtained by collecting the audio signal, is converted into a plurality of frequency-specific observation signals each corresponding to one of a plurality of frequency bands. Then, a dereverberation filter corresponding to each frequency band is estimated by using the frequency-specific observation signal for the frequency band on the basis of the sound source model and a reverberation model that represents a relationship for each frequency band among the audio signal, the observation signal and the dereverberation filter. A frequency-specific target signal corresponding to each frequency band is determined by applying the dereverberation filter for the frequency band to the frequency-specific observation signal for the frequency band, and the resulting frequency-specific target signals are integrated. | 01-06-2011 |
Patent application number | Description | Published |
20110097568 | EPOXY RESIN COMPOSITION, FIBER-REINFORCED COMPOSITE MATERIAL, AND METHOD FOR PRODUCING THE SAME - Disclosed herein are an epoxy resin composition for fiber-reinforced composite materials which has low viscosity, high Tg, high elastic modulus, and excellent fracture toughness and a fiber-reinforced composite material using such an epoxy resin composition which has excellent thermal properties, compressive strength, impact resistance, fatigue resistance, and open-hole tensile strength and which is suitable for producing structural parts of aircraft and the like. The epoxy resin composition comprises at least a given bifunctional epoxy resin as a component (A), a liquid aromatic diamine curing agent as a component (B), and core-shell polymer particles as a component (C), wherein the core-shell polymer particles as the component (C) contain epoxy groups in their shell and have a volume-average particle size of 50 to 300 nm. | 04-28-2011 |
20120178329 | BINDER COMPOSITION, REINFORCING-FIBER BASE MATERIAL, PREFORM, FIBER-REINFORCED COMPOSITE MATERIAL, AND MANUFACTURING METHOD THEREFOR - A binder composition comprising [A] an amorphous polyamide with a glass transition temperature of 140° C. or higher having a dicyclohexylmethane skeleton in the molecule and [B] a sulfonamide compound is used to provide a binder composition, a reinforcing-fiber base material and a preform respectively most suitable for RTM, which respectively exhibit excellent impact resistance and physical properties remaining stable over the variations of molding conditions and can be used for producing a fiber-reinforced composite material most suitable for members such as primary structures of aircraft. | 07-12-2012 |
Patent application number | Description | Published |
20100078676 | SEMICONDUCTOR DEVICE - The cell size is reduced and device reliability is improved for a semiconductor device including plural transistors making up a multi-channel output circuit. In a multi-channel circuit configuration, a group of transistors having a common function of plural channels are surrounded by a common trench for insulated isolation from another group of transistors having another function. The collectors of mutually adjacent transistors on the high side are commonly connected to a VH power supply, whereas the emitters of mutually adjacent transistors on the low side are commonly connected to a GND power supply. | 04-01-2010 |
20110024838 | SEMICONDUCTOR DEVICE - There is provided a high withstand voltage LDMOS which is a MOS transistor formed on a semiconductor substrate and isolated by a trench, and a source region of which is sandwiched by a drain region, in which the metal layer gate wire connected to the gate electrode is led out outside the trench so as to pass over a P-type drift layer. | 02-03-2011 |
20120256291 | SEMICONDUCTOR DEVICE - The cell size is reduced and device reliability is improved for a semiconductor device including plural transistors making up a multi-channel output circuit. In a multi-channel circuit configuration, a group of transistors having a common function of plural channels are surrounded by a common trench for insulated isolation from another group of transistors having another function. The collectors of mutually adjacent transistors on the high side are commonly connected to a VH power supply, whereas the emitters of mutually adjacent transistors on the low side are commonly connected to a GND power supply. | 10-11-2012 |
Patent application number | Description | Published |
20080236786 | MICRO FLUID DEVICE - A micro fluid device in which a plurality of units with fine channel therein are integrally coupled together to bring the fine channels of the units into communication with each other to cause fluid to flow into the fine channels to perform desired unit operations, and at least one of the plurality of units is a temperature controlling unit for controlling the temperature of the fluid, comprises: a heat insulator which has a through hole equal in diameter to the fine channels and is interposed between the temperature controlling unit and an adjacent unit substantially adjacent to the temperature controlling unit; and a positioning mechanism which positions the heat insulator so as to bring the fine channels into communication with the through hole at the time of coupling the units. | 10-02-2008 |
20080293130 | BIOCHIP - A biochip that can make optical measurements without being affected by background fluorescence etc., originating from the outside environment, wherein the surface of the substrate of the biochip can be chemically treated by a simple procedure. The biochip has at least a nontransparent resin substrate, an immobilizing layer formed on a part of the non-transparent resin substrate, and an organic molecule immobilized on the immobilizing layer, and detects an analyte labeled with fluorescence or luminescence in a sample, from the intensity of the fluorescence or luminescence. | 11-27-2008 |
20090086572 | MICRODEVICE AND FLUID MIXING METHOD - In a microdevice in which a plurality of fluids respectively passing through a separate introduction channel are merged in a merging section in a micro space to mix the fluids and the mixed fluids are discharged from the merging section via a discharge channel, a tip section of each of the introduction channels comprises a tapered contraction section so as to contract a flow of fluid, the introduction channels are disposed so that central axes of the introduction channels do not intersect at one point each other, and the merging section is formed of a space surrounded with edges of the contraction sections of respective introduction channels. Thereby, reacting fluids can be mixed rapidly each other, and contamination of air bubbles into the whole fluid can be suppressed by narrowing a dead space of a discharge channel immediately after the merging section. | 04-02-2009 |
20090087357 | MICROCHEMICAL DEVICE AND METHOD FOR FABRICATING THE SAME - In a microchemical device including a plurality of flow channels which feed liquids from at least one fluid supply device into a plurality of reaction zones, each of the plurality of flow channels has a plurality of minute flow channel members each of which has a cross sectional area smaller than that of the reaction zone. Thereby, the fluids are evenly fed into each of the microreaction members. Thus, a microchemical device capable of homogenizing a substance generated on respective reactions can be realized. | 04-02-2009 |
Patent application number | Description | Published |
20090241801 | METHOD AND APPARATUS FOR PRODUCING FINE PARTICLES - A method for producing fine particles by allowing a dissolved solution prepared by dissolving a material for forming the fine particles into a solvent with the use of a dissolution auxiliary agent and a poor solvent for varying a solubility of the material for the fine particles to mix each other, wherein the fine particles are generated by flowing the dissolved solution, the poor solvent and a dispersing agent solution for dispersing the fine particle through respectively independent supply channels to join each other at one joining channel and flow together. A decomposition and deterioration caused by a reaction between the dispersing agent and a component of the solution is suppressed and fine particles with high monodispersing property can be produced. | 10-01-2009 |
20100077936 | METHOD FOR PRODUCING PARTICULATES - A pigment solution that an organic pigment is dissolved in a solvent, a poor solvent which decreases solubility of the organic pigment in the pigment solution to precipitate particles of the organic pigment, and a dispersant solution containing a dispersant in an organic solvent which acts as a good solvent to the organic pigment are merged in one merging region via each separate inlet flow channel and flowed out from the merging region through one single mixing flow channel, thereby producing particulates by directly dispersing particles precipitated in an aqueous medium comprising the pigment solution and poor solvent into an organic solvent medium containing the dispersant. | 04-01-2010 |
20110230600 | FLAME RETARDANT RESIN COMPOSITION, METHOD FOR PRODUCTION THEREOF, AND MOLDED ARTICLE THEREOF - An object of the present invention is to provide a flame retardant resin composition including magnesium hydroxide particles and a cellulose resin and having excellent flame retardance, mechanical characteristics, and moldability. The flame retardant resin composition includes a thermoplastic resin including a cellulose resin and a flame retardant. The flame retardant includes, at 40% by weight to 60% by weight of the total flame retardant, a first type of magnesium hydroxide particles with a particle diameter of 10 nm to 50 nm, having a particulate surface modified by an epoxy silane coupling agent, and, at 60% by weight to 40% by weight of the total flame retardant, a second type of magnesium hydroxide particles with a particle diameter of 100 nm to 1,000 nm, having a particulate surface modified by an amino silane coupling agent. | 09-22-2011 |
20110230673 | METHOD FOR PRODUCING FINE METAL HYDROXIDE PARTICLES - There is provided a production method in which highly transparent fine metal hydroxide particles having a small particle size and excellent in monodispersibility can be easily produced without requiring grinding. The method for producing fine metal hydroxide particles at least includes: a reaction step of mixing an aqueous solution of a metal salt, for example, a magnesium salt, with an aqueous solution of a hydroxide salt to precipitate metal hydroxide particles in an uncrystallized state; a purification step of removing by-product salt from a mixed solution containing the precipitated metal hydroxide particles in an uncrystallized state; a surface treatment step of treating the metal hydroxide particles in an uncrystallized state obtained through the purification step with a surface-treatment agent on the surface thereof; and a heating step of crystallizing the surface-treated metal hydroxide particles in an uncrystallized state by hydrothermal treatment. | 09-22-2011 |
20110236285 | METHOD FOR PRODUCING METAL HYDROXIDE FINE PARTICLE - An object of the present invention is to provide a method for producing a metal hydroxide fine particle, which can produce metal hydroxide fine particles with favorable crystallinity and small particle sizes. The present invention provides a method for producing a metal hydroxide fine particle by reacting a metal ion with a hydroxide ion in a solvent, which includes a mixing and reacting step of supplying the metal ion, the hydroxide ion, and a silane coupling agent to a reaction field to mix and react the ions. | 09-29-2011 |
20140031460 | FLAME-RETARDANT RESIN COMPOSITION, METHOD FOR PRODUCING SAME, AND MOLDED ARTICLE THEREOF - A flame retardant resin composition contains: a thermoplastic resin containing a cellulosic resin; and a flame retardant, wherein the flame retardant is composed of: first metal hydroxide particles having a particle size of 100 nm to 1000 nm and having particle surfaces modified with an epoxy silane coupling agent, at 40% by weight to 60% by weight of the whole flame retardant; and second metal hydroxide particles having a particle size of 10 nm to 50 nm and having particle surfaces modified with an amino silane coupling agent, at 60% by weight to 40% by weight of the whole flame retardant. This flame retardant resin composition containing a cellulosic resin is provided with excellent flame retardancy, mechanical properties, and moldability. | 01-30-2014 |
Patent application number | Description | Published |
20090116675 | MEMS DIAPHRAGM STRUCTURE AND METHOD FOR FORMING THE SAME - A diaphragm ( | 05-07-2009 |
20100059836 | MEMS DEVICE AND METHOD FOR MANUFACTURING THE SAME - A MEMS device, including: a substrate having a first principal plane and a second principal plane opposite to the first principal plane; a through hole formed in the substrate; and a vibrating film formed over the first principal plane so as to cover the through hole. The first principal plane and the second principal plane are both a (110) crystal face; and the through hole has a substantially rhombic shape on the second principal plane. | 03-11-2010 |
20100065932 | MEMS DEVICE, MEMS DEVICE MODULE AND ACOUSTIC TRANSDUCER - A MEMS device includes a first insulating film formed on a semiconductor substrate, a vibrating film formed on the first insulating film, and a fixed film above the vibrating film with an air gap being interposed therebetween. The semiconductor substrate has a region containing N-type majority carriers. A concentration of N-type majority carriers in a portion of the semiconductor substrate where the semiconductor substrate contacts the first insulating film, is higher than a concentration of N-type majority carriers in the other portion of the semiconductor substrate. | 03-18-2010 |
20100077863 | DIAPHRAGM STRUCTURE AND MEMS DEVICE - A diaphragm structure for a MEMS device includes a through-hole formed so as to penetrate from an upper surface to a bottom surface of a substrate; and a vibrating electrode film formed on the upper surface of the substrate so as to cover the through-hole. An opening shape of the through-hole in the upper surface of the substrate is substantially hexagonal. | 04-01-2010 |
20110042763 | MEMS DEVICE, MEMS DEVICE MODULE AND ACOUSTIC TRANSDUCER - A MEMS device includes a first insulating film formed on a semiconductor substrate, a vibrating film formed on the first insulating film, and a fixed film above the vibrating film with an air gap being interposed therebetween. The semiconductor substrate has a region containing N-type majority carriers. A concentration of N-type majority carriers in a portion of the semiconductor substrate where the semiconductor substrate contacts the first insulating film, is higher than a concentration of N-type majority carriers in the other portion of the semiconductor substrate. | 02-24-2011 |
20110215672 | MEMS DEVICE - A MEMS device includes: a semiconductor substrate; a vibrating film formed on the semiconductor substrate with a restraining portion interposed between the vibrating film and the semiconductor substrate, and including a lower electrode, and a fixed film formed on the semiconductor substrate with a support portion interposed between the fixed film and the semiconductor substrate to cover the vibrating film, and including an upper electrode. A gap formed between the vibrating film and the fixed film opposed to each other forms an air gap. The restraining portion provides partial coupling between the semiconductor substrate and the vibrating film, and the vibrating film has a multilayer structure in which the lower electrode and a compressive stress inducing insulating film are laminated. The insulating film is located within the perimeter of the lower electrode. | 09-08-2011 |