Patent application number | Description | Published |
20080245550 | ELECTRONIC COMPONENT AND METHOD FOR MANUFACTURING THE SAME - In conventional electronic components, having a substrate as a component of the structure has been an obstacle to an ultra-low profile design. To address the problem, the present invention provides an improved structure without a substrate. Internal electrode | 10-09-2008 |
20100182116 | INDUCTANCE COMPONENT - In an inductance component, a stress is not locally applied even in the condition where heat is applied to entire component, such as when implementing soldering, so that high reliability is realized. For realizing this, the component includes element ( | 07-22-2010 |
20120170173 | ELECTRODE FOIL AND CAPACITOR USING SAME - An electrode foil includes a substrate and a coarse film layer having a void therein and formed on the substrate. The coarse film layer includes at least a first coarse film layer formed on the substrate. The first coarse film layer is composed of arrayed first columnar bodies. Each of the first columnar bodies is composed of metallic microparticles stacked on a surface of the substrate and extending in a curve from the surface of the substrate. | 07-05-2012 |
20120176727 | ELECTRODE FOIL, PROCESS FOR PRODUCING SAME, AND CAPACITOR USING ELECTRODE FOIL - An electrode-foil includes a foil having a metal layer on the surface thereof, a first dielectric film formed on the metal layer, and a second dielectric film formed on the first dielectric film. The first dielectric film is composed of a metal oxide of a metal constituting the metal layer. The thickness of the first dielectric film is greater than 0 nm and less than 10 nm. The second dielectric film is predominantly composed of a metal compound different from the metal oxide of the first dielectric film. | 07-12-2012 |
20120200985 | ELECTRODE FOIL AND CAPACITOR USING SAME - Electrode foil includes an aluminum alloy having a composition in a region at least 10 μm deep from a surface of the foil. The composition includes aluminum as a main component and zirconium of at least 0.03 at % and at most 0.5 at %. | 08-09-2012 |
20130059064 | METHOD OF MANUFACTURING ELECTROLYTIC CAPACITOR - A method of manufacturing an electrolytic capacitor includes preparing a dielectric film formed on a surface of an anode foil, forming a first conductive polymer layer on a surface of the dielectric film by immersing the anode foil in first dispersion solution including conductive polymer particles and forming a second conductive polymer layer covering the first conductive polymer layer solvent by immersing the anode foil in second dispersion solution including second conductive polymer particles and second solvent. The surface of the anode foil has plural pits formed therein. The second dispersion solution has a pH value farther from 7 than the first dispersion solution does. This configuration can suppress damages to the dielectric film. | 03-07-2013 |
20140036416 | ELECTRODE FOIL AND METHOD FOR MANUFACTURING SAME, AND CAPACITOR - An electrode foil including a substrate made of metal material, a first layer made of metal oxide and formed on the substrate, a second layer made of TiNxOy (x>y>0) and formed on the first layer, and a third layer made of TiNxOy (002-06-2014 | |
20150318417 | PHOTOELECTRIC CONVERSION ELEMENT - A photoelectric conversion element includes a first electrode layer, a photoelectric conversion layer, and a second electrode layer. The first electrode layer includes a first base member, and a rough layer formed on the first base member. The photoelectric conversion layer is formed on the rough layer, and the second electrode layer is formed above the photoelectric conversion layer. The rough layer includes a plurality of metal fine particles irregularly connected together and to a surface of the first base member, and the photoelectric conversion layer infiltrates among the plurality of metal fine particles constituting the rough layer. | 11-05-2015 |