Patent application number | Description | Published |
20090314536 | PRINTED CIRCUIT BOARD, ELECTRIC INSTRUMENT, AND SEMICONDUCTOR PACKAGE - A printed circuit board, an electronic instrument, and a semiconductor package are provided that are excellent in bonding strength and easy in rework. The printed circuit board includes a printed wiring board, an electronic device that is the semiconductor package, and an adhesion part. A protection member of the electronic device is arranged along the periphery of a mounting surface of a package body so as to abut a mounting surface of the printed wiring board. The adhesion part is provided in a stepped part defined by a peripheral wall of the electronic device and part of the mounting surface of the printed wiring board in the vicinity of the electronic device. | 12-24-2009 |
20100328904 | ELECTRONIC DEVICE - According to one embodiment, an electronic device includes a housing, a first substrate having rigidity and including a slit, contained in the housing, a part mount portion provided on the first substrate and adjacent to the slit, an electronic part mounted on the part mount portion and a second substrate having flexibility. The second substrate is stacked on an inside of the first substrate and an inside of the part mount portion, and it crosses the slit, thereby supporting the part mount portion to be displaceable with respect to the first substrate. | 12-30-2010 |
Patent application number | Description | Published |
20100249811 | METHOD FOR THE MANUFACTURE OF NERVE REGENERATION-INDUCING TUBE - To provide a method for the manufacture of a nerve regeneration-inducing tube being excellent in pressure resistance, shape recovery property, anti-kink property, film exfoliation resistance, property of prevention of invasion of outer tissues and leakage resistance. | 09-30-2010 |
20100255060 | NERVE REGENERATION-INDUCING TUBE - To provide a nerve regeneration-inducing tube being excellent in cell growth property, resistance to pressure, shape recovery property, and anti-kink property in a nerve regeneration-inducing tube where a collagen solution is applied on the outer surface of a tubular body knitted with ultrafine fiber comprising biodegradable and bioabsorbable polymer while collagen is filled in the inner area of the tubular body. Specifically, to provide a nerve regeneration-inducing tube where a degradation speed is adjusted so as to make it suitable for the connection of nerve gaps of more than 40 mm. | 10-07-2010 |
20110288569 | NERVE REGENERATION-INDUCING TUBE - The present invention provides a nerve regeneration-inducing tube in which collagen having excellent adhesive property, cell growth property and differentiation inducing property to nerve cells is used as a scaffold for the nerve regeneration. The nerve regeneration-inducing tube is characterized in using the collagen which is made the concentration of sodium chloride contained therein not more than 2.0% by weight or, preferably, 0.1 to 1.5% by weight in a dry state. Purification of collagen is carried out by means of an isoelectric precipitation where the pH is 6.0 or higher and is lower than 10.0. | 11-24-2011 |
Patent application number | Description | Published |
20100132991 | ELECTRONIC DEVICE, PRINTED CIRCUIT BOARD, AND ELECTRONIC COMPONENT - According to one embodiment, an electronic device includes a housing, a printed circuit board, an electronic component, a bonding material, and chips. The printed circuit board is housed in the housing. The electronic component includes an electrode on a surface thereof that faces the printed circuit board. The bonding material is applied to at least part of the outer periphery of the electronic component on the printed circuit board to bond the electronic component to the printed circuit board. The chips are arranged at positions on the printed circuit board corresponding to the periphery of the surface of the electronic component to prevent the bonding material from intruding in a gap between the surface of the electronic component and the printed circuit board. | 06-03-2010 |
20120206091 | COMMUNICATION SYSTEM AND DEVICES IN THE COMMUNICATION SYSTEM - A communication system including a first device and a second device that are connected by a single signal line in which serial communication is performed by using a first level, a second level and a middle level between the first level and the second level, wherein the first device transmits a clock to the second device by repeating the first level and the middle level; the second device transmits information to the first device based on whether the second device outputs the second level during each period of the middle level in the clock; and when the second device does not transmit information, the first device transmits information to the second device based on whether the first device outputs the second level during each period of the middle level in the clock. | 08-16-2012 |
20120212185 | COMPOSITE DEVICE SYSTEM - A composite device system including: a first device including a nonvolatile memory; and a second device configured to supply a power to the first device, the second device including: a power supply circuit configured to stabilize a first power supplied from an external part into a second power lower than the first power, and to supply the second power to the first device; a communication circuit configured to receive control data from the first device; and a switch configured to switch between on and off based on the control data, and to supply the first power to the first device when the switch is on, wherein the second device receives the control data from the first device by the communication circuit when data is written into the nonvolatile memory so that the switch is turned on and the first power is supplied to the first device. | 08-23-2012 |
20120300351 | PROTECTIVE MONITORING CIRCUIT AND BATTERY PACK - A protective monitoring circuit includes a protective circuit to detect at least one of overcharging, overdischarging, and overcurrent of a chargeable secondary battery to control whether to turn on or off a control transistor to protect the secondary battery, and a secondary-battery monitoring circuit, having a reduced size and having a breakdown voltage lower than a battery voltage of the secondary battery, to detect a status of the secondary battery, wherein the protective circuit generates a voltage that is commensurate with an output voltage of the secondary battery and that is within a predetermined tolerance voltage range of the secondary-battery monitoring circuit, and the secondary-battery monitoring circuit generates a detection value responsive to the generated voltage supplied from the protective circuit, the detection value being indicative of the output voltage of the secondary battery. | 11-29-2012 |
20130234720 | BATTERY VOLTAGE MONITOR CIRCUIT - A battery voltage monitor circuit for monitoring a voltage of plural secondary batteries includes first and second logic circuit parts that select first and second secondary batteries from the plural secondary batteries according to first and second command signals supplied from an external device, first and second reference voltage generation parts that generate first and second reference voltages, first and second AD conversion parts that digitalize a voltage of both ends of the first and second secondary batteries into first and second digital signals by using the first and second reference voltages, first and second communication parts that transmit the first and second digital signals to the external device. | 09-12-2013 |
20140217990 | PROTECTIVE MONITORING CIRCUIT AND BATTERY PACK - A protective monitoring circuit includes a protective circuit to detect at least one of overcharging, overdischarging, and overcurrent of a chargeable secondary battery to control whether to turn on or off a control transistor to protect the secondary battery, and a secondary-battery monitoring circuit, having a reduced size and having a breakdown voltage lower than a battery voltage of the secondary battery, to detect a status of the secondary battery, wherein the protective circuit generates a voltage that is commensurate with an output voltage of the secondary battery and that is within a predetermined tolerance voltage range of the secondary-battery monitoring circuit, and the secondary-battery monitoring circuit generates a detection value responsive to the generated voltage supplied from the protective circuit, the detection value being indicative of the output voltage of the secondary battery. | 08-07-2014 |
20140338280 | CONNECTION STRUCTURE OF BEAM AND COLUMN, AND CONNECTION MEMBER - In a beam-connection member | 11-20-2014 |
20150082719 | COLUMN BASE FITTING AND COLUMN BASE STRUCTURE USING IT - A column base fitting | 03-26-2015 |
20150191929 | COLUMN BASE FITTING AND COLUMN BASE STRUCTURE USING IT - A column base fitting | 07-09-2015 |
20150259913 | COLUMN STRUCTURE AND BASE MEMBER - In a column structure, a steel column having flanges integrally provided at both width direction ends of a web is welded to a base plate. The base plate is also fixed to first anchor bolts and to second anchor bolts, with the first anchor bolts and the second anchor bolts disposed at the opposite side of the flanges to the web. The second anchor bolts are also disposed at the web width direction inside with respect to the first anchor bolts. Therefore, load bearing ability of a column seat can be efficiently exhibited, and the thickness dimension of the base plate can be reduced. | 09-17-2015 |
20150259914 | COLUMN STRUCTURE AND BASE MEMBER - In a column structure ( | 09-17-2015 |
20150259915 | COLUMN STRUCTURE AND BASE MEMBER - In a column structure, a steel column is joined to a base plate. The steel column is configured by a web and a pair of flanges provided at each of two width direction ends of the web. A base plate is provided to first anchor bolts and second anchor bolts that are fixed to a foundation. The second anchor bolts are provided further toward the web width direction inside than the first anchor bolts, and the yield deformation of the second anchor bolts is set smaller than the yield deformation of the first anchor bolts. | 09-17-2015 |
20150259916 | COLUMN STRUCTURE AND BASE MEMBER - In a column structure ( | 09-17-2015 |
20150259917 | COLUMN STRUCTURE - In a column structure ( | 09-17-2015 |
20150259918 | COLUMN STRUCTURE AND BASE MEMBER - In a column structure, a steel column having flanges integrally provided at both ends in a width direction of a web is welded to a base plate. Anchor bolts are anchored to a foundation concrete, and the base plate is fixed to the anchor bolts. The distance in the web width direction between the center axial lines of the anchor bolts is equal to or less than the dimension in the web width direction of the steel column. | 09-17-2015 |
Patent application number | Description | Published |
20100135852 | OXYGENATOR OF A HOLLOW FIBER MEMBRANE TYPE - The invention provides an oxygenator of a hollow fiber membrane type where a plurality of hollow fiber membranes are received in a housing, wherein at least a part of the regions of the hollow fiber membranes to contact blood during use is coated with a water-insoluble (meth)acrylate copolymer in which a hydrophobic (meth)acrylate is copolymerized with a hydrophilic (meth)acrylate at a molar ratio of (50 to 90):(50 to 10). | 06-03-2010 |
20120283665 | METHOD FOR COATING INNER SURFACE OF MEDICAL TUBE MADE FROM VINYL CHLORIDE WITH ANTI-THROMBOTIC MATERIAL - The present invention provides a method for coating an inner surface of a polyvinyl chloride medical tube containing a plasticizer with an antithrombogenic material composed of a specific (meth)acrylate copolymer. The simple method of the present invention is capable of evenly and efficiently coating an inner surface of a polyvinyl chloride medical tube with a sufficient amount of an antithrombogenic material without causing appearance deterioration or uneven coating due to elution of the plasticizer. The method is performed by passing through a tube a solution that is prepared by dissolving an antithrombogenic material in a solvent composed of water and at least one alcohol that is adjusted to dissolve the copolymer of the antithrombogenic material but does not dissolve the plasticizer, then subsequently passing water through the tube, and finally drying the tube. | 11-08-2012 |
20140099427 | METHOD FOR THE MANUFACTURE OF NERVE REGENERATION-INDUCING TUBE - A method for manufacturing a nerve regeneration-inducing tube with excellent pressure resistance, shape recovery property, anti-kink property, film exfoliation resistance, resistance to invasion of outer tissues, and leakage resistance. The tubular body is formed by weaving together fibers made up of biodegradable polymer. The outer surface of the tubular body is coated multiple times with a collagen solution. The lumen of the tubular body is filled with collagen. Viscosity of the collagen solution that is first applied to the outer surface of the tubular body is between 2 to 800 cps. Viscosity of the collagen solution that is subsequently applied is higher than viscosity of the first applied collagen solution. | 04-10-2014 |
20140100591 | METHOD FOR THE MANUFACTURE OF NERVE REGENERATION-INDUCING TUBE - A method for manufacturing a nerve regeneration-inducing tube with excellent pressure resistance, shape recovery property, anti-kink property, film exfoliation resistance, resistance to invasion of outer tissues, and leakage resistance. The tubular body is formed by weaving together fibers made up of biodegradable polymer. The outer surface of the tubular body is coated multiple times with a collagen solution. The lumen of the tubular body is filled with collagen. Viscosity of the collagen solution that is first applied to the outer surface of the tubular body is between 2 to 800 cps. Viscosity of the collagen solution that is subsequently applied is higher than viscosity of the first applied collagen solution. | 04-10-2014 |
Patent application number | Description | Published |
20140124695 | PIEZOELECTRIC MATERIAL, PIEZOELECTRIC ELEMENT, AND ELECTRONIC APPARATUS - Provided is a lead-free piezoelectric material having satisfactory and stable piezoelectric constant and mechanical quality factor in a wide practical use temperature range. The piezoelectric material includes a perovskite-type metal oxide represented by Formula (1): (Ba | 05-08-2014 |
20140184876 | PIEZOELECTRIC MATERIAL, PIEZOELECTRIC ELEMENT, AND ELECTRONIC APPARATUS - A piezoelectric material includes, as a main component, a perovskite-type metal oxide represented by a general formula (Ba | 07-03-2014 |
20150015121 | PIEZOELECTRIC MATERIAL, PIEZOELECTRIC ELEMENT, AND ELECTRONIC DEVICE - There is provided a piezoelectric material not containing any lead component, having stable piezoelectric characteristics in an operating temperature range, a high mechanical quality factor, and satisfactory piezoelectric characteristics. The piezoelectric material includes a main component containing a perovskite-type metal oxide that can be expressed using the following general formula (1), and subcomponents containing Mn, Li, and Bi. When the metal oxide is 100 parts by weight, the content of Mn on a metal basis is not less than 0.04 parts by weight and is not greater than 0.36 parts by weight, content α of Li on a metal basis is not less than 0.0013 parts by weight and is not greater than 0.0280 parts by weight, and content β of Bi on a metal basis is not less than 0.042 parts by weight and is not greater than 0.850 parts by weight | 01-15-2015 |
20150015642 | PIEZOELECTRIC MATERIAL, PIEZOELECTRIC ELEMENT, AND ELECTRONIC DEVICE - There is provided a piezoelectric material not containing any lead component, having stable piezoelectric characteristics in an operating temperature range, a high mechanical quality factor, and satisfactory piezoelectric characteristics. The piezoelectric material according to the present invention includes a main component containing a perovskite-type metal oxide that can be expressed using the following general formula (1), and subcomponents containing Mn, Li, and Bi. When the metal oxide is 100 parts by weight, the content of Mn on a metal basis is not less than 0.04 parts by weight and is not greater than 0.36 parts by weight, content α of Li on a metal basis is equal to or less than 0.0012 parts by weight (including 0 parts by weight), and content ρ of Bi on a metal basis is not less than 0.042 parts by weight and is not greater than 0.850 parts by weight | 01-15-2015 |
20150015643 | PIEZOELECTRIC MATERIAL, PIEZOELECTRIC ELEMENT, AND ELECTRONIC EQUIPMENT - A piezoelectric material contains a main component containing a perovskite-type metal oxide having the formula (1); a first auxiliary component composed of Mn; and a second auxiliary component composed of Bi or Bi and Li, wherein the Mn content is 0.04 parts by weight or more and 0.400 parts by weight or less on a metal basis per 100 parts by weight of the metal oxide, the Bi content is 0.042 parts by weight or more and 0.850 parts by weight or less on a metal basis per 100 parts by weight of the metal oxide, and the Li content is 0.028 parts by weight or less (including 0 parts by weight) on a metal basis per 100 parts by weight of the metal oxide. | 01-15-2015 |
20150041701 | PIEZOELECTRIC MATERIAL, PIEZOELECTRIC ELEMENT, AND ELECTRONIC APPARATUS - Provided is a lead-free piezoelectric material having satisfactory piezoelectric constant and mechanical quality factor in a device driving temperature range (−30° C. to 50° C.) The piezoelectric material includes a main component containing a perovskite-type metal oxide represented by Formula 1, a first auxiliary component composed of Mn, and a second auxiliary component composed of Bi or Bi and Li. The content of Mn is 0.040 parts by weight or more and 0.500 parts by weight or less based on 100 parts by weight of the metal oxide on a metal basis. The content of Bi is 0.042 parts by weight or more and 0.850 parts by weight or less and the content of Li is 0.028 parts by weight or less (including 0 parts by weight) based on 100 parts by weight of the metal oxide on a metal basis. | 02-12-2015 |
20150053885 | PIEZOELECTRIC CERAMIC, METHOD FOR MANUFACTURING PIEZOELECTRIC CERAMIC, PIEZOELECTRIC ELEMENT, AND ELECTRONIC DEVICE - A piezoelectric ceramic contains a main component, Mn as a first auxiliary component, and a second auxiliary component containing at least one element selected from the group consisting of Cu, B, and Si. The main component contains a perovskite metal oxide having the following general formula (1): | 02-26-2015 |
20150255703 | CERAMIC POWDER, PIEZOELECTRIC CERAMIC, PIEZOELECTRIC ELEMENT, AND ELECTRONIC EQUIPMENT - A ceramic powder contains a metal oxide represented by the following general formula (1). The ceramic powder has a single perovskite-type crystal phase. The ceramic powder is composed of particles having an average equivalent circular diameter in the range of 100 nm or more and less than 1000 nm and has a ratio c | 09-10-2015 |
20150349236 | VIBRATION WAVE DRIVING DEVICE, IMAGE PICKUP DEVICE, OPTICAL APPARATUS, LIQUID DISCHARGE DEVICE, AND ELECTRONIC APPARATUS - A vibration wave driving device including a lead-free piezoelectric material that can be driven with high reliability over a wide operating temperature range, an image pickup device including the vibration wave driving device, and an optical apparatus including the vibration wave driving device are provided. The vibration wave driving device generates a vibration wave by applying an AC voltage to a piezoelectric element, and includes the piezoelectric element and a capacitor that satisfy 20[° C.]≦T∈(Cmax)−T∈(Pmax)≦75[° C.] and 0.50≦∈(Cc)/∈(Cmax)≦0.80. | 12-03-2015 |
20160005952 | PIEZOELECTRIC MATERIAL, PIEZOELECTRIC ELEMENT, AND ELECTRONIC DEVICE - There is provided a piezoelectric material not containing any lead component, having stable piezoelectric characteristics in an operating temperature range, a high mechanical quality factor, and satisfactory piezoelectric characteristics. The piezoelectric material according to the present invention includes a main component containing a perovskite-type metal oxide that can be expressed using the following general formula (1), and subcomponents containing Mn, Li, and Bi. When the metal oxide is 100 parts by weight, the content of Mn on a metal basis is not less than 0.04 parts by weight and is not greater than 0.36 parts by weight, content α of Li on a metal basis is equal to or less than 0.0012 parts by weight (including 0 parts by weight), and content β of Bi on a metal basis is not less than 0.042 parts by weight and is not greater than 0.850 parts by weight | 01-07-2016 |