| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 361301300 | Encapsulated | 17 |
| 20080310073 | Method for Forming Oxide Dielectric Layer, and Capacitor Layer Forming Material Provided with Oxide Dielectric Layer Obtained by the Forming Method - The present invention has an object to provide a method for forming an oxide dielectric layer, which dielectric layer is formed by applying the sol-gel method, and is hardly damaged by an etching solution and excellent in dielectric characteristics such as a large electric capacitance. To achieve the object, the forming method of an oxide dielectric layer by applying a sol-gel method characterized by being provided with the following processes (a) to (c) is employed. Process (a): A solution preparing process of preparing a sol-gel solution for manufacturing an aiming oxide dielectric layer. Process (b): A coating process wherein stages of the sol-gel solution coating on the surface of a metal substrate followed by drying in an oxygen-containing atmosphere followed by pyrolysis in an oxygen-containing atmosphere sequentially is made one unit step; the one unit step is repeated twice or more times; and a pre-baking stage at 550-deg.C to 1000-deg.C in an inert gas-substituted atmosphere or the like is provided optionally between the one unit step and the next one unit step to control the film thickness. Process (c): A baking process of finally subjecting the coated metal substrate to a baking process at 550-deg.C to 1000-deg.C in an inert gas-substituted atmosphere or the like to finish the dielectric layer. | 12-18-2008 |
| 20090201624 | COMPONENT-EMBEDDED SUBSTRATE AND COMPONENT PACKAGE USING COMPONENT-EMBEDDED SUBSTRATE - A component-embedded substrate includes a chip capacitor. The chip capacitor includes a ceramic laminate body and a plurality of terminal electrodes. The component-embedded substrate has a first principal surface and a second principal surface. At least two of the plurality of terminal electrodes are connected to the first principal surface and define a first terminal electrode group, and at least two of the plurality of terminal electrodes are connected to the second principal surface and define a second terminal electrode group. One terminal electrode in the first terminal electrode group is electrically connected to one terminal electrode in the second terminal electrode group via the internal electrodes, and capacitance is provided by a pair of the terminal electrodes in the first terminal electrode group via the dielectric layer, and capacitance is provided by a pair of the terminal electrodes in the second terminal electrode group via the dielectric layer. A direction in which the internal electrodes are stacked is parallel or substantially parallel to the two principal surfaces. | 08-13-2009 |
| 20090251846 | EMBEDDED CAPACITOR - An embedded capacitor including a dielectric layer disposed between opposing faces of electrodes, in which the dielectric layer includes a high-loss dielectric layer and one or more insulating layers in contact with the high-loss dielectric layer. The dielectric layer may have a two-layer structure or a three-layer structure in which an insulating layer is additionally interposed between the high-loss dielectric layer and the electrode, thereby decreasing the dielectric loss while maintaining a high dielectric constant, compared to capacitors including a single-layer dielectric structure. | 10-08-2009 |
| 20100067168 | COMPOSITE ORGANIC ENCAPSULANTS - This invention relates to compositions, and the use of such compositions for protective coatings, particularly of electronic devices. The invention concerns a fired-on-foil ceramic capacitors coated with a composite encapsulant and embedded in a printed wiring board. | 03-18-2010 |
| 20100085680 | CRYSTALLINE ENCAPSULANTS - This invention relates to compositions, and the use of such compositions for protective coatings, particularly of electronic devices. The invention concerns fired-on-foil ceramic capacitors coated with a composite encapsulant and embedded in a printed wiring board. | 04-08-2010 |
| 20100142118 | COPPER-CLAD LAMINATE WITH CAPACITOR, PRINTED CIRCUIT BOARD HAVING THE SAME, AND SEMICONDUCTOR PACKAGE HAVING THE PRINTED CIRCUIT BOARD - A copper-clad laminate with a capacitor, a printed circuit board having the same and a semiconductor package having the printed circuit board are presented. The copper-clad laminate with the capacitor includes a first and second conductive layers, a film body, and thickness uniformity improving members. The first and second conductive layers are aligned to be substantially in parallel to each other and thus oppose each other. The film body is interposed between the first and the second conductive layer. The thickness uniformity improving members are also interposed between the first and second conductive layers and are inserted within the film body. The thickness uniformity improving members have one end connected to the first conductive layer and have the opposing ends connected to the second conductive layer. | 06-10-2010 |
| 20100202095 | CASE MOLD TYPE CAPACITOR AND METHOD FOR MANUFACTURING THE SAME - The case mold type capacitor has a capacitor element, a pair of terminals, and molding resin. Each terminal of the pair is connected to a first electrode and a second electrode of the capacitor element, respectively. The capacitor element is embedded in the molding resin in a manner that a terminal section disposed at an end of each of terminals are partially exposed to outside. The molding resin has epoxy resin containing inorganic filler and a moisture absorbent mixed in the epoxy resin. | 08-12-2010 |
| 20100271748 | Embedded capacitor, embedded capacitor sheet using the same and method of manufacturing the same - Provided are an embedded capacitor, an embedded capacitor sheet using the embedded capacitor, and a method of manufacturing the same that may increase a surface area to thereby increase a capacity for each unit area and may provide an embedded capacitor in a sheet to thereby readily lay the embedded capacitor on an embedded printed circuit board. The embedded capacitor may include: a common electrode member | 10-28-2010 |
| 20100271749 | DIELECTRIC BODY AND METHOD FOR PRODUCTION THEREOF - A dielectric body and a method of producing the dielectric body are disclosed. In accordance with an embodiment of the present invention, the dielectric body using a polymer matrix and being expressed in the following Reaction Scheme 1 includes two or more kinds of ceramic fillers having different x values in the following Reaction Scheme 1. In this way, a dielectric body having a stable dielectric constant as well as a high dielectric constant against the change in temperature can be manufactured. | 10-28-2010 |
| 20110102966 | MOLDED CAPACITOR AND METHOD FOR MANUFACTURING THE SAME - A molded capacitor includes a capacitor-element assembly, a package covering the capacitor-element assembly, and a supporter embedded in the package. The capacitor-element assembly includes a capacitor element having a first electrode, and a busbar joined to the electrode of the capacitor element. The busbar has a terminal. The package is made of norbornene-based resin and covers the capacitor-element assembly while exposing the terminal of the busbar. The supporter has first and second end section and is made of heat-conductive insulating material. The first end section contacts the capacitor-element assembly. The second end section is exposed from the package. This molded capacitor has high heat resistance and a small, light-weighted body, and can be manufactured inexpensively. | 05-05-2011 |
| 20110157763 | CAPACITOR FOR INCORPORATION IN WIRING BOARD, WIRING BOARD, METHOD OF MANUFACTURING WIRING BOARD, AND CERAMIC CHIP FOR EMBEDMENT - A capacitor comprising: a capacitor body including a plurality of laminated dielectric layers, a plurality of inner electrode layers which are respectively disposed between mutually adjacent ones of the dielectric layers, a first main surface located in a laminated direction of the dielectric layers, and a second main surface opposite to the first main surface; a first outer electrode formed on the first main surface of the capacitor body and electrically connected to the inner electrode layers; a second outer electrode formed on the second main surface of the capacitor body and electrically connected to the inner electrode layers; a first dummy electrode formed on the first main surface of the capacitor body; and a second dummy electrode formed on the second main surface of the capacitor body. | 06-30-2011 |
| 20120140374 | LAMINATED ELECTRONIC COMPONENT AND METHOD FOR MANUFACTURING THE SAME - A laminated electronic component includes outer terminal electrodes including lower plating films including metal particles having an average size of 0.5 μm or less, the lower plating films being formed by directly plating an outer surface of an electronic component body such that the lower plating films are electrically connected to exposed portions of inner conductors. The outer terminal electrodes may further include upper plating films formed on the lower plating films, the upper plating films being defined by one or more layers. Metal particles defining the upper plating films may have an average size of 0.5 μm or less. The metal particles defining the lower plating films may be Cu particles. | 06-07-2012 |
| 20130083448 | MULTILAYER CAPACITOR AND METHOD OF MANUFACTURING THE SAME - Disclosed herein is a multilayer capacitor comprising: a laminate in which a plurality of first sheets and second sheets are alternately laminated, wherein the first sheets and the second sheets are disposed in a direction perpendicular to a mounting surface; a first inner electrode formed on the first sheets, wherein the first electrode is exposed through upper, lower, and first lateral surfaces of the laminate; a second inner electrode that is formed on the second sheets and has a horizontally symmetrical shape with respect to the first inner electrode; a sealing portion encapsulating the first and second inner electrodes exposed through two lateral surfaces of the laminate; and an external electrode that is electrically connected to the first and second inner electrodes exposed through the upper and lower surfaces of the laminate. | 04-04-2013 |
| 20130222967 | CASE MOLD TYPE CAPACITOR - A case mold type capacitor is formed of multiple metalized film capacitors connected together in parallel and rigidly accommodated with molding resin within a case. The multiple metalized film capacitors are divided into a first block and a second block, and P-poles of each block confront each other, and N-poles thereof also confront each other. Bus-bars including a connection terminal for external connection at an end are connected to respective P-poles and N-poles of each block. The bus-bars connected to the P-poles are coupled together, and the bus-bars connected to the N-poles are coupled together. Each one of the bus-bars includes a section located on the opening side of the case with respect to the blocks. The bus-bars connected to the P-poles overlap in part, and the bus-bars connected to the N-poles also overlap in part. | 08-29-2013 |
| 20160005540 | HIGH-VOLTAGE CAPACITOR - A high-voltage capacitor includes a gas-tight enclosure containing interleaved electrodes. The dielectric of the capacitor is a pressurized gas at a pressure of at least 6 bar, and preferably 10 or 15 bar. In order to withstand this level of internal pressure, the insulating body section of the capacitor may be formed of a high-strength polymeric material. | 01-07-2016 |
| 20160005544 | CAPACITOR AND METHOD OF MANUFACTURE THEREOF - An alternating current power capacitor including one or more capacitor bodies (e.g., bobbins) having conductive and dielectric film windings, wherein edges of the conductive film windings define a plane forming at least one capacitor body contact surface, one or more electrodes having one or more electrode contact surfaces and a housing operative to apply compressive force that binds the capacitor body and electrode together so that to maintain uniform electrical and thermal conductive contact throughout a plane parallel to and between the electrode contact surface and capacitor body contact surface. | 01-07-2016 |
| 20160163463 | THIN FILM CAPACITOR - A thin film capacitor comprises: a laminated body that has a base electrode, a dielectric layer and an upper electrode layer; a protective layer covering the base electrode, the dielectric layer and the upper electrode layer, and includes a first through-hole that reaches the base electrode, and a second through-hole that reaches the upper electrode layer; a first extraction electrode in the first through-hole and electrically connected with the base electrode; a second extraction electrode in the second through-hole and electrically connected with the upper electrode layer; a first terminal electrode on the protective layer, and connected with the base electrode through the first extraction electrode; and a second terminal electrode on the protective layer, and connected with the upper electrode layer through the second extraction electrode. Young's modulus of the protective layer is equal to or higher than 0.1 GPa and equal to or lower than 2.0 GPa. | 06-09-2016 |
