| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 361530000 | Wound | 12 |
| 20100073850 | WINDING-TYPE ELECTROLYTIC CAPACITOR AND METHOD OF MANUFACTURING THE SAME - Provided is an electrolytic capacitor, including: an anode foil having a dielectric coating film and a conductive polymer layer formed thereon; a cathode foil having a conductive polymer layer formed thereon; an anode lead tab and a cathode lead tab electrically connected to the anode foil and the cathode foil, respectively; and a protection member. A first region provided with the protection member is present between the anode foil and the cathode foil that are wound. The first region is at least one of a region covering the anode lead tab, a region covering the cathode lead tab, a region covering a rear side of the anode foil at a connection portion between the anode lead tab and the anode foil, and a region covering a rear side of the cathode foil at a connection portion between the cathode lead tab and the cathode foil. | 03-25-2010 |
| 20110122547 | ELECTROLYTIC CAPACITOR AND MANUFACTURING METHOD THEREOF - An electrolytic capacitor includes a capacitor element configured by winding an anode chemical conversion foil and a facing cathode foil with no separator interposed therebetween, wherein a first solid electrolyte layer is formed on at least one of facing surfaces of the anode chemical conversion foil and the facing cathode foil, among surfaces of the anode chemical conversion foil and surfaces of the facing cathode foil, concaves and convexes are formed in a main surface of the first solid electrolyte layer, and an electrolyte solution or a second solid electrolyte layer containing a conductive polymer is formed in an interspace formed between the anode chemical conversion foil and the facing cathode foil by the concaves and convexes. An electrolyte having desired characteristics can be formed in the interspace obtained by the concaves and convexes. | 05-26-2011 |
| 20120212880 | ELECTROLYTIC CAPACITOR AND METHOD OF MANUFACTURING ELECTROLYTIC CAPACITOR - An electrolytic capacitor according to the present invention includes a wound element formed by winding an anode body consisting of a band-shaped metal foil and a dielectric coat provided on the surface of the metal foil and a cathode body consisting of a band-shaped metal foil in the longitudinal direction. The electrolytic capacitor includes a first conductive polymer layer provided on the surface of the anode body. The first conductive polymer layer is provided to be more thickly present on an end portion of the anode body in the width direction than on a central portion of the anode body in the width direction on the surface of the anode body. | 08-23-2012 |
| 20120243146 | ELECTROLYTIC CAPACITOR - [Problem to be Solved] A problem to be solved is to provide an electrolytic capacitor capable of causing DC current of a large current amount to flow between anode terminals as a pair, and capable of guiding high-frequency noise from an anode to a cathode. | 09-27-2012 |
| 20120281339 | METHOD FOR PRODUCING ELECTRIC STORAGE DEVICE, AND ELECTRIC STORAGE DEVICE - A method of producing an electric storage device includes a fastening that includes fastening a laminate that includes a lithium foil and a metal foil to at least one of a first separator and a second separator using a bonding member, and a winding that includes winding the first separator, the second separator, the laminate, a cathode, and an anode to obtain a wound element, one of the first separator and the second separator being disposed between the cathode and the anode. | 11-08-2012 |
| 20130027847 | ELECTROLYTIC CAPACITOR AND METHOD OF MANUFACTURING THE SAME - An electrolytic capacitor includes a capacitor element and an electrolyte solution impregnated into the capacitor element. The capacitor element includes an anode foil, cathode foil, separator, and a solid electrolytic layer. The anode foil has a dielectric layer on its surface, and the cathode foil confronts the anode foil. The separator is interposed between the anode foil and the cathode foil. The solid electrolytic layer is formed on the surfaces of the anode foil, cathode foil, and separator as an aggregate of fine particles of conductive polymer. The separator has an air-tightness not greater than 2.0 s/100 ml. Sizes of the fine particles measure not greater than 100 nm in diameter, and the fine particles are contained in an amount ranging from 0.3 mg/cm | 01-31-2013 |
| 20140043731 | CONDUCTIVE COMPOSITION, CONDUCTOR AND SOLID ELECTROLYTIC CAPACITOR USING CONDUCTIVE COMPOSITION - A conductive composition according to the present invention contains a conductive polymer (A) having a sulfonic acid group and/or a carboxyl group; and an alkali metal hydroxide and/or an alkaline earth metal hydroxide (B). In such a conductive composition, the amount of the hydroxide (B) is set at 0.2˜0.65 mol per 1 mol of a repeating unit that contains a sulfonic acid group and/or a carboxyl group in the conductive polymer (A). | 02-13-2014 |
| 20160099114 | SOLID ELECTROLYTE CAPACITOR - Provided is a solid electrolyte capacitor which includes: a bottomed cylindrical housing which includes a bottom surface portion and a side surface portion raised from the bottom surface portion, and has an opening portion formed on an edge portion of the side surface portion; a capacitor element which is accommodated in the inside of the housing, and is formed by winding an anode foil and a cathode foil in an overlapping state with a separator interposed therebetween and by filling a space formed between the anode foil and the cathode foil with a solid electrolyte; a sealing member which seals the opening portion of the housing in a state where the capacitor element is accommodated in the inside of the housing; and a composite sheet which is arranged between the bottom surface portion of the housing and the capacitor element, and has the structure where a resin made of a high-molecular weight compound is retained in a fiber sheet containing at least cellulose fibers. | 04-07-2016 |
| 20160379759 | ELECTROLYTIC CAPACITOR - An electrolytic capacitor includes a capacitor element. The capacitor element includes a winding body, a solid electrolyte layer containing a conductive polymer, and an electrolytic solution. The winding body is configured to be wound around by an anode member on which a dielectric layer is formed, and a cathode member. The solid electrolyte layer is formed in the winding body. An electrolytic solution is impregnated into the winding body in which the solid electrolyte layer is formed. A volume ratio of the electrolytic solution impregnated into the winding body to the solid electrolyte layer formed in the winding body ranges from 1.27 to 2.54 both inclusive. | 12-29-2016 |
| 361531000 | With lead conductor | 3 |
| 20090316337 | ELECTROLYTIC CAPACITOR - To provide an electrolytic capacitor having lead wires excellent in weldability with a boss member made of aluminum, excellent in solder wettability, and less whisker. The lead wires have a nickel plating layer in a thickness of 0.3 to 5.0 μm, a palladium plating layer in a thickness of 0.01 to 0.10 μm, and a gold plating layer in a thickness of 0.002 to 0.030 μm. | 12-24-2009 |
| 20110157778 | ELECTROLYTIC CAPACITOR - A one-side pressed terminal is applied as a first anode (cathode) lead tab terminal and the one-side pressed terminal is connected to an anode (a cathode) foil in such a manner that a position in a radial direction of a lead is shifted inward after winding. A one-side pressed terminal is applied as a second anode (cathode) lead tab terminal and the one-side pressed terminal is connected to the anode (cathode) foil in such a manner that a position in the radial direction of a lead is shifted inward after winding. Thus, while retaining characteristics as an electrolytic capacitor, connection of the anode (cathode) lead tab terminal to the anode (cathode) foil can be achieved in a stable manner. | 06-30-2011 |
| 20120236470 | ELECTROLYTIC CAPACITOR - An electrolytic capacitor comprises a wound body including a wound anode foil with a surface on which a dielectric layer is formed, a solid electrolyte layer formed on a surface of the dielectric layer, a cathode layer formed on a surface of the solid electrolyte layer over the outer circumference of the wound body, a plurality of anode leads electrically connected to the anode foil, and a plurality of cathode leads provided in one-to-one relationship with the anode leads and electrically connected to the cathode layer. The edge surface is a part of the surface of the wound body and crosses the winding axis of the wound body. Each of the cathode leads is electrically connected to an outer circumference of the cathode layer at a position near an anode lead corresponding to this cathode lead. | 09-20-2012 |
