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    • 1. 发明授权
    • Solid electrolytic capacitor
    • 固体电解电容器
    • US06563693B2
    • 2003-05-13
    • US10188590
    • 2002-07-02
    • Yasuhiko NakadaMikinari ShimadaTsunenori YoshidaKanji Katou
    • Yasuhiko NakadaMikinari ShimadaTsunenori YoshidaKanji Katou
    • H01G900
    • H01G9/042H01G9/012H01G9/15
    • A solid electrolytic capacitor includes a capacitor element including a capacitance forming portion; an encapsulating resin with which the capacitance forming portion is coated; an anode terminal and a cathode terminal that are provided such that at least a part thereof is outside the encapsulating resin; and a lead. The capacitor element includes an anode, and a dielectric layer and a solid electrolytic layer that are laminated on a portion of the anode in this order. The lead is electrically connected to the solid electrolytic layer. The surface of at least one component selected from the anode and the lead has roughness in at least one connection portion selected from a connection portion between the anode and the anode terminal and a connection portion between the lead and the cathode terminal.
    • 固体电解电容器包括:电容元件,其包括电容形成部; 涂覆电容形成部分的封装树脂; 阳极端子和阴极端子,其至少一部分设置在封装树脂外部; 和领先。 电容器元件包括依次层压在阳极的一部分上的阳极和电介质层和固体电解质层。 引线与固体电解质层电连接。 从阳极和引线中选择的至少一个部件的表面在从阳极和阳极端子之间的连接部分和引线和阴极端子之间的连接部分中选择的至少一个连接部分中具有粗糙度。
    • 2. 发明授权
    • Solid electrolytic capacitor and method for manufacturing the same
    • 固体电解电容器及其制造方法
    • US06671168B2
    • 2003-12-30
    • US10306503
    • 2002-11-27
    • Tsunenori YoshidaMikinari ShimadaYasuhiko Nakada
    • Tsunenori YoshidaMikinari ShimadaYasuhiko Nakada
    • H01G900
    • H01G9/0036H01G9/042H01G11/48H01G11/56Y02E60/13Y10T29/417
    • The present invention provides a solid electrolyte capacitor with which both higher capacitance and lower ESR are achieved, as well as a method for manufacturing the same. The manufacturing method includes a step of forming, in a first solution, a first conductive polymer film serving as a portion of a conductive polymer layer, and a step of forming, in a second solution whose pH is lower than the pH of the first solution, a second conductive polymer film serving as another portion of the conductive polymer layer. The first conductive polymer film and the second conductive polymer film are both formed by electrolytic oxidative polymerization or by chemical oxidative polymerization. Thus, the conductive polymer layer includes a first conductive polymer film made of a plurality of particles, and a second conductive polymer film having an average particle size that is larger than the average particle size of those plurality of particles. The second conductive polymer film is formed such that it covers the apertures of the plurality of pores formed in the anode conductor, and the first conductive polymer film is formed such that at least a portion thereof is disposed inside the plurality of pores, or it is arranged as an outermost film of the conductive polymer layer.
    • 本发明提供一种固体电解质电容器及其制造方法,同时具有较高电容和较低ESR的固体电解质电容器。 该制造方法包括在第一溶液中形成用作导电聚合物层的一部分的第一导电聚合物膜的步骤,以及在pH低于第一溶液的pH的第二溶液中形成的步骤 用作导电聚合物层的另一部分的第二导电聚合物膜。 第一导电聚合物膜和第二导电聚合物膜都通过电解氧化聚合或通过化学氧化聚合形成。 因此,导电聚合物层包括由多个颗粒构成的第一导电聚合物膜和平均粒径大于这些多个颗粒的平均粒径的第二导电聚合物膜。 第二导电聚合物膜形成为覆盖形成在阳极导体中的多个孔的孔,并且第一导电聚合物膜形成为使得其至少一部分设置在多个孔内,或者是 布置为导电聚合物层的最外面的膜。