会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Solid electrolytic capacitor and method of manufacturing the same
    • 固体电解电容器及其制造方法
    • US06733545B2
    • 2004-05-11
    • US10162463
    • 2002-06-03
    • Masashi ShojiSeigo ShiraishiEmiko IgakiMasakazu TanahashiMikinari Shimada
    • Masashi ShojiSeigo ShiraishiEmiko IgakiMasakazu TanahashiMikinari Shimada
    • H01G904
    • H01G9/025Y10T29/417
    • There is provided a solid electrolytic capacitor including an anode body formed of a valve-action metal with a dielectric oxide coating layer formed on its surface, a cathode body, and an electroconductive polymer layer disposed between the anode body and the cathode body. The electroconductive polymer layer contains a softener for softening the electroconductive polymer layer, so that a solid electrolytic capacitor is provided that has small variations in characteristics, a lower equivalent series resistance (ESR), and an excellent high frequency property. In addition, when the anode and cathode of a solid electrolytic capacitor including an electroconductive polymer as a solid electrolyte are joined to each other, a lower ESR can be obtained under a lower pressure, and the electroconductive polymer layer can be prevented from being peeled off.
    • 提供了一种固体电解电容器,其包括由在其表面上形成有电介质氧化物涂层的阀作用金属形成的阳极体,阴极体和设置在阳极体和阴极体之间的导电聚合物层。 导电聚合物层含有用于软化导电聚合物层的软化剂,从而提供特性变化小,等效串联电阻(ESR)较小,以及优异的高频特性的固体电解电容器。 此外,当将包含作为固体电解质的导电聚合物的固体电解电容器的阳极和阴极彼此接合时,可以在较低的压力下获得较低的ESR,并且可以防止导电聚合物层被剥离 。
    • 2. 发明授权
    • Solid electrolytic capacitor and method of manufacturing the same
    • 固体电解电容器及其制造方法
    • US06426866B2
    • 2002-07-30
    • US09829303
    • 2001-04-09
    • Masashi ShojiSeigo ShiraishiEmiko IgakiMasakazu TanahashiMikinari Shimada
    • Masashi ShojiSeigo ShiraishiEmiko IgakiMasakazu TanahashiMikinari Shimada
    • H01G900
    • H01G9/025Y10T29/417
    • There is provided a solid electrolytic capacitor including an anode body formed of a valve-action metal with a dielectric oxide coating layer formed on its surface, a cathode body, and an electroconductive polymer layer disposed between the anode body and the cathode body. The electroconductive polymer layer contains a softener for softening the electroconductive polymer layer, so that a solid electrolytic capacitor is provided that has small variations in characteristics, a lower equivalent series resistance (ESR), and an excellent high frequency property. In addition, when the anode and cathode of a solid electrolytic capacitor including an electroconductive polymer as a solid electrolyte are joined to each other, a lower ESR can be obtained under a lower pressure, and the electroconductive polymer layer can be prevented from being peeled off.
    • 提供了一种固体电解电容器,其包括由在其表面上形成有电介质氧化物涂层的阀作用金属形成的阳极体,阴极体和设置在阳极体和阴极体之间的导电聚合物层。 导电聚合物层含有用于软化导电聚合物层的软化剂,从而提供特性变化小,等效串联电阻(ESR)较小,以及优异的高频特性的固体电解电容器。 此外,当将包含作为固体电解质的导电聚合物的固体电解电容器的阳极和阴极彼此接合时,可以在较低的压力下获得较低的ESR,并且可以防止导电聚合物层被剥离 。
    • 8. 发明授权
    • Capacitor
    • 电容器
    • US06661644B2
    • 2003-12-09
    • US10265208
    • 2002-10-04
    • Mikinari ShimadaEmiko IgakiTsunenori YoshidaMasakazu Tanahashi
    • Mikinari ShimadaEmiko IgakiTsunenori YoshidaMasakazu Tanahashi
    • H01G904
    • H01G9/15H01G9/04
    • A capacitor is provided, in which an anode and a cathode are led out in a same direction, whereby ESL and ESR are lowered at high frequencies. This capacitor includes for example: anodes and cathodes that are laminated alternately with at least a dielectric layer intervening therebetween; at least one anode leading-out portion; at least one cathode leading-out portion; an anode terminal; and a cathode terminal. In this capacitor, the anodes are connected electrically to the at least one anode leading-out portion, and the cathodes are connected electrically to the at least one cathode leading-out portion. The at least one anode leading-out portion and the at least one cathode leading-out portion are led out in a predetermined direction. The at least one anode leading-out portion is connected to the anode terminal and the at least one cathode leading-out portion is connected to the cathode terminal.
    • 提供了一种电容器,其中阳极和阴极沿相同的方向被引出,由此ESL和ESR以高频降低。 该电容器包括例如:阳极和阴极,它们与介于其间的至少介电层交替层叠; 至少一个阳极引出部分; 至少一个阴极引出部分; 阳极端子; 和阴极端子。 在该电容器中,阳极与至少一个阳极引出部分电连接,阴极与至少一个阴极引出部分电连接。 至少一个阳极引出部分和至少一个阴极引出部分沿预定方向被引出。 至少一个阳极引出部分连接到阳极端子,并且至少一个阴极引出部分连接到阴极端子。
    • 9. 发明授权
    • Four-terminal capacitor
    • 四端电容
    • US06185091B2
    • 2001-02-06
    • US09246374
    • 1999-02-08
    • Masakazu TanahashiMikinari ShimadaEmiko Igaki
    • Masakazu TanahashiMikinari ShimadaEmiko Igaki
    • H01G9042
    • H01G9/012H01G4/008H01G4/232H01G4/30H01G9/042H01G9/15
    • Anodic valve metal foils, roughened and provided with dielectric layers, and collector metal foils (metal foils for collector) are laminated alternately to cross with cathodic electroconductive polymer layers therebetween. Anodic terminals and cathodic terminals are connected with the respective ends of the metal foils. For the anodic valve metal foils, an aluminum foil whose internal is an unroughened bulk metal layer is used. The collector metal foil is selected from the group consisting of an Al foil similar to the anodic valve metal foil, an Ni foil, a Cu foil, and an aluminum foil including carbon. As a result, a four-terminal capacitor to provide high capacitance, low impedance, high current-carrying capacity and less heat generation, as well as low ESR and low ESL, is obtained.
    • 经过粗化并设置有电介质层的阳极阀金属箔和集电体金属箔(集电体用金属箔)交替地与其间的阴极导电聚合物层交叉。 阳极端子和阴极端子与金属箔的相应端部连接。 对于阳极阀金属箔,使用其内部是未增韧的体金属层的铝箔。 集电体金属箔选自类似于阳极阀金属箔的铝箔,Ni箔,Cu箔和包含碳的铝箔。 结果,获得了提供高电容,低阻抗,高载流能力和较少发热以及低ESR和低ESL的四端电容器。
    • 10. 发明授权
    • Electrolytic capacitor and method of producing the same
    • 电解电容器及其制造方法
    • US06989289B1
    • 2006-01-24
    • US09633098
    • 2000-08-04
    • Seigo ShiraishiEmiko IgakiMasakazu Tanahashi
    • Seigo ShiraishiEmiko IgakiMasakazu Tanahashi
    • H01L51/40H01L21/8242H01L21/20
    • H01G9/025H01G9/048Y10T29/417
    • The present invention provides an electrolytic capacitor having a large capacitance sufficiently close to its design capacitance, and a method of easily producing such an electrolytic capacitor wherein a cathode-side conductive polymer layer of an electrolyzing electrode is formed on at least one side surface of an anode valve metal foil having through holes 20 and a coarsened surface, electrolysis is carried out in a conductive monomer solution, with the polymer layer used as the anode, and an electrolytically-formed conductive polymer layer is formed on the surface of the dielectric oxide film of the valve metal foil, thereby obtaining an electrolytic capacitor, whereby it is possible to easily obtain an electrolytic capacitor having a large capacitance sufficiently close to its design capacitance.
    • 本发明提供一种电容电容器,该电解电容器具有与其设计电容充分接近的大电容,以及容易制造这种电解电容器的方法,其中电解电极的阴极侧导电聚合物层形成在电解电极的至少一个侧表面上 具有通孔20的阳极阀金属箔和粗化表面,在导电性单体溶液中进行电解,聚合物层用作阳极,并且在电介质氧化物膜的表面上形成电解形成的导电聚合物层 从而获得电解电容器,从而可以容易地获得具有足够接近其设计电容的大电容的电解电容器。