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
    • 41. 发明授权
    • Solid electrolytic capacitor and a method for manufacturing a solid electrolytic capacitor
    • 固体电解电容器及固体电解电容器的制造方法
    • US07342771B2
    • 2008-03-11
    • US10518687
    • 2003-06-18
    • Masaaki KobayashiMasaaki Togashi
    • Masaaki KobayashiMasaaki Togashi
    • H01G9/00
    • H01G9/012H01G2/065H01G9/14Y10T29/41Y10T29/417
    • A solid electrolytic capacitor is provided, which can reduce impedance, particularly, the ESL and the ESR. In one embodiment, such a solid electrolytic capacitor comprises a foil-like valve metal substrate formed with an insulating oxide film on the surface thereof, a valve metal body whose one end portion region is bonded to one of two opposite end portion regions of the foil-like valve metal substrate, a conductive metal substrate whose one end portion region is bonded to the other end portion region of the foil-like valve metal substrate, a cathode electrode formed by sequentially laminating at least a solid high molecular polymer electrolyte layer and a conductive layer on the surface of the foil-like valve metal substrate, and a cathode lead electrode being drawn out from the cathode electrode in a direction perpendicular to one major surface of the foil-like valve metal substrate.
    • 提供了一种固体电解电容器,可以减少阻抗,特别是ESL和ESR。 在一个实施例中,这种固体电解电容器包括在其表面上形成有绝缘氧化膜的箔状阀金属基板,其一个端部区域结合到箔片的两个相对端部区域中的一个的阀金属体 一个端部区域与箔状阀金属基板的另一个端部区域接合的导电金属基板,通过依次层叠至少固体高分子聚合物电解质层和 在箔状阀金属基板的表面上形成导电层,阴极引线电极从垂直于箔状阀金属基板的一个主表面的方向从阴极引出。
    • 42. 发明授权
    • Solid electrolytic capacitor
    • 固体电解电容器
    • US07304833B1
    • 2007-12-04
    • US11708613
    • 2007-02-21
    • Masaaki Kobayashi
    • Masaaki Kobayashi
    • H01G9/04H01G9/145
    • H01G9/15H01G9/012H01G9/14
    • A multiterminal-pair solid electrolytic capacitor employing a two-terminal type capacitor element is provided. In the solid electrolytic capacitor 10 in accordance with the present invention, anode terminal patterns 42A (and anode terminals 43A) are connected to an anode part 24 of a capacitor element 12 through anode vias 44A formed in a substrate 14 and an anode pattern 38D formed on a element carrying surface 14a. On the other hand, cathode terminal patterns 42B (and cathode terminals 43B) are connected to a cathode part 28 on the surface of an accumulator 26 of the capacitor element 12 through cathode vias 44B formed in the substrate 14 and cathode patterns 38A to 38C formed on the element carrying surface 14a. Therefore, when the solid electrolytic capacitor 10 is mounted on a packaging substrate from the mounting surface 14b side while a predetermined voltage is applied to four pairs of anode terminals 43A and cathode terminals 43B formed on the mounting surface 14b, the solid electrolytic capacitor 10 functions as a four-terminal-pair solid electrolytic capacitor.
    • 提供采用二端型电容器元件的多端对固体电解电容器。 在根据本发明的固体电解电容器10中,阳极端子图案42A(和阳极端子43A)通过形成在基板14中的阳极通孔44A和阳极连接到电容器元件12的阳极部分24 形成在元件承载表面14a上的图案38D。 另一方面,阴极端子图案42B(和阴极端子43B)通过形成在基板14中的阴极通孔44B和阴极图案38连接到电容器元件12的蓄电池26的表面上的阴极部分28 A至38 C形成在元件承载表面14a上。 因此,当将固体电解电容器10从安装面14b侧安装在包装基板上,同时向形成在安装面14b上的4对阳极端子43A和阴极端子43B施加预定电压时,固体 电解电容器10用作四端子对固体电解电容器。
    • 43. 发明申请
    • Solid electrolytic capacitor
    • US20070230093A1
    • 2007-10-04
    • US11708613
    • 2007-02-21
    • Masaaki Kobayashi
    • Masaaki Kobayashi
    • H01G9/00
    • H01G9/15H01G9/012H01G9/14
    • A multiterminal-pair solid electrolytic capacitor employing a two-terminal type capacitor element is provided. In the solid electrolytic capacitor 10 in accordance with the present invention, anode terminal patterns 42A (and anode terminals 43A) are connected to an anode part 24 of a capacitor element 12 through anode vias 44A formed in a substrate 14 and an anode pattern 38D formed on a element carrying surface 14a. On the other hand, cathode terminal patterns 42B (and cathode terminals 43B) are connected to a cathode part 28 on the surface of an accumulator 26 of the capacitor element 12 through cathode vias 44B formed in the substrate 14 and cathode patterns 38A to 38C formed on the element carrying surface 14a. Therefore, when the solid electrolytic capacitor 10 is mounted on a packaging substrate from the mounting surface 14b side while a predetermined voltage is applied to four pairs of anode terminals 43A and cathode terminals 43B formed on the mounting surface 14b, the solid electrolytic capacitor 10 functions as a four-terminal-pair solid electrolytic capacitor.
    • 46. 发明授权
    • Solid electrolytic capacitor
    • 固体电解电容器
    • US07158366B2
    • 2007-01-02
    • US10564790
    • 2004-07-21
    • Masaaki KobayashiYumiko YoshiharaMasahiro ShinkaiMasaaki Togashi
    • Masaaki KobayashiYumiko YoshiharaMasahiro ShinkaiMasaaki Togashi
    • H01G9/00
    • H01G9/048H01G9/14Y10T29/417
    • A multiterminal solid electrolytic capacitor mountable to a board for two terminals is provided.In the solid electrolytic capacitor (10) in accordance with the present invention, an anode of a capacitor device (12) is connected to one end part (35B) of a via (32) connected to a plurality of anode leads (34B) arranged on a base sheet surface (14a), whereas a cathode of the capacitor device (12) is connected to the other end part (35A) of a via (32) connected to a plurality of cathode leads (34A) similarly arranged on the base sheet surface (14a). Each end part (35B) of the via (32) connected to the anode lead (34B) is electrically connected to an end part (35D) of the via (32) connected to a land electrode (42B) arranged on the lower face (10a) of the base sheet (14). Each end part (35A) of a plurality of vias (23) connected to the cathode lead (34A) is electrically connected to an end part (35C) of the via (32) connected to a land electrode (42A).
    • 提供可安装到两个端子板的多端固体电解电容器。 在根据本发明的固体电解电容器(10)中,电容器装置(12)的阳极连接到连接到多个阳极引线(34B)的通孔(32)的一个端部(35B) ),而电容器装置(12)的阴极连接到连接到多个阴极引线(34A)的通孔(32)的另一端部(35A) 类似地布置在基片表面(14a)上。 连接到阳极引线(34B)的通孔(32)的每个端部(35B)电连接到连接到布置在其上的焊盘电极(42B)的通孔(32)的端部(35D) 基片(14)的下表面(10a)。 连接到阴极引线(34A)的多个通路(23)的每个端部(35A)电连接到连接到焊盘电极(42A)的通路(32)的端部(35C) 。
    • 48. 发明申请
    • Solid electrolytic capacitor
    • 固体电解电容器
    • US20060193106A1
    • 2006-08-31
    • US10564790
    • 2004-07-21
    • Masaaki KobayashiYumiko YoshiharaMasahiro ShinkaiMasaaki Togashi
    • Masaaki KobayashiYumiko YoshiharaMasahiro ShinkaiMasaaki Togashi
    • H01G9/00H01G4/228
    • H01G9/048H01G9/14Y10T29/417
    • A multiterminal solid electrolytic capacitor mountable to a board for two terminals is provided. In the solid electrolytic capacitor (10) in accordance with the present invention, an anode of a capacitor device (12) is connected to one end part (35B) of a via (32) connected to a plurality of anode leads (34B) arranged on a base sheet surface (14a), whereas a cathode of the capacitor device (12) is connected to the other end part (35A) of a via (32) connected to a plurality of cathode leads (34A) similarly arranged on the base sheet surface (14a). Each end part (35B) of the via (32) connected to the anode lead (34B) is electrically connected to an end part (35D) of the via (32) connected to a land electrode (42B) arranged on the lower face (10a) of the base sheet (14). Each end part (35A) of a plurality of vias (23) connected to the cathode lead (34A) is electrically connected to an end part (35C) of the via (32) connected to a land electrode (42A).
    • 提供可安装到两个端子板的多端固体电解电容器。 在根据本发明的固体电解电容器(10)中,电容器装置(12)的阳极连接到连接到多个阳极引线(34B)的通孔(32)的一个端部(35B) ),而电容器装置(12)的阴极连接到连接到多个阴极引线(34A)的通孔(32)的另一端部(35A) 类似地布置在基片表面(14a)上。 连接到阳极引线(34B)的通孔(32)的每个端部(35B)电连接到连接到布置在其上的焊盘电极(42B)的通孔(32)的端部(35D) 基片(14)的下表面(10a)。 连接到阴极引线(34A)的多个通路(23)的每个端部(35A)电连接到连接到焊盘电极(42A)的通路(32)的端部(35C) 。
    • 49. 发明申请
    • Solid electrolytic capacitor and a method for manufacturing a solid electrolytic capacitor
    • 固体电解电容器及固体电解电容器的制造方法
    • US20060109609A1
    • 2006-05-25
    • US10518687
    • 2003-06-18
    • Masaaki KobayashiMasaaki Togashi
    • Masaaki KobayashiMasaaki Togashi
    • H01G9/00
    • H01G9/012H01G2/065H01G9/14Y10T29/41Y10T29/417
    • It is an object of the present invention to provide a solid electrolytic capacitor which can reduce impedance, particularly, the ESL and the ESR, and a method for manufacturing such a solid electrolytic capacitor. A cathode electrode 14 is formed on a foil-like aluminum substrate 2 whose surface is roughened. One end portion region of each of foil-like aluminum substrates 3a and 3b is bonded to one of the opposite end portion regions of the foil-like aluminum substrate 2 whose surface is roughened so that electrical connection can be established between the valve metals. One end portion region of each of conductive metal substrates 15a and 15b formed in a lead frame in advance is bonded to one of the other end portion regions of the foil-like aluminum substrates 3a and 3b whose surfaces are roughened, thereby forming anode electrodes. A cathode lead electrode 15c is drawn out from a conductive layer (cathode electrode 14) formed on the foil-like aluminum substrate 2 whose surface is roughened in a direction perpendicular to the major surface of the foil-like aluminum substrate 2.
    • 本发明的目的是提供一种能够降低阻抗的固体电解电容器,特别是ESL和ESR,以及制造这种固体电解电容器的方法。 在其表面粗糙化的箔状铝基板2上形成阴极电极14。 每个箔状铝基板3a和3b的一个端部区域结合到其表面粗糙化的箔状铝基板2的相对端部区域之一,使得可以在阀金属之间建立电连接 。 形成在引线框架中的每个导电金属基板15a和15b的一个端部区域被接合到其表面被粗糙化的箔状铝基板3a和3b的另一个端部区域中,从而 形成阳极电极。 阴极引线电极15c从形成在箔状铝基板2上的导电层(阴极14)引出,其表面在与铝箔基板2的主表面垂直的方向上变粗糙。