Patent application number | Description | Published |
20130050957 | ELECTRONIC COMPONENT INCORPORATING BOARD AND COMPOSITE MODULE - An electronic component incorporating board that is less susceptible to a solder flash phenomenon therein even with application of heat, for example, when it is mounted to another substrate, includes a core substrate, electrodes located respectively on one principal surface and the other principal surface of the core substrate, an electronic component mounted to the electrodes that are located on the one principal surface of the core substrate, and a resin layer located on the one principal surface of the core substrate and covering the electronic component, wherein surfaces of the electrodes located on the one principal surface of the core substrate are not plated. | 02-28-2013 |
20130155639 | ELECTRONIC COMPONENT AND METHOD FOR MANUFACTURING THE SAME - An electronic component includes a substrate, first electronic components mounted on a first principle surface of the substrate, a first resin layer that covers the first principal surface of the substrate and the first electronic components, a second electronic component mounted on a second principle surface of the substrate, a second resin layer that covers the second principal surface of the substrate and the second electronic component, an electrically conductive shield layer, and a ground electrode arranged in the substrate so as to reach a side surface of the substrate. The shield layer is a single continuous layer that covers the first resin layer, the side surface of the substrate, and a portion of the second resin layer adjacent to the substrate. The shield layer is in contact with and electrically connected to the ground electrode. | 06-20-2013 |
20130343023 | ELECTRONIC COMPONENT MODULE AND METHOD FOR MANUFACTURING THE SAME - In a bond portion between an electrical conductive land and a connection terminal member, an intermetallic compound producing region in which at least a Cu—Sn-based, an M-Sn-based (M indicates Ni and/or Mn), and a Cu-M-Sn-based intermetallic compound are produced is arranged so as to be present at a connection terminal member side. In this intermetallic compound producing region, when a cross section of the bond portion is equally defined into 10 boxes in a longitudinal direction and a lateral direction to define 100 boxes in total, a ratio of the number of boxes in each of which at least two types of intermetallic compounds having different constituent elements are present to the total number of boxes other than boxes in each of which only a Sn-based metal component is present is about 70% or more. | 12-26-2013 |
Patent application number | Description | Published |
20120169180 | LAMINATE TYPE ELECTRONIC COMPONENT AND MANUFACTURING METHOD THEREFOR - In a method of manufacturing a laminate type electronic component, when a heat treatment is carried out after plating films, which at least partially define external electrodes, are formed by growing plated depositions deposited on exposed ends of a plurality of internal electrodes in a component main body, the presence of the plating films may not only interfere with moisture release, but may also cause blisters or bulge defects in the plating films, while moisture such as a plating solution in the component main body is removed by evaporation. To avoid such problems, cuts to divide exposed ends into multiple sections are formed in extending sections of internal electrodes. Thus, plating films include slits extending in the stacking direction at locations corresponding to positions of the cuts. | 07-05-2012 |
20120194031 | LAMINATED CERAMIC ELECTRONIC COMPONENT AND MANUFACTURING METHOD THEREFOR - In a method of forming an external electrode by growing plated depositions on exposed ends of a plurality of internal electrodes in a component main body, the component main body is polished to increase exposure of the internal electrodes. To prevent decreased external electrode fixing strength, a radius of curvature is reduced to about 0.01 mm or less for an R chamfered section formed in a ridge section of the component main body during polishing by ion milling, and exposed ends of the internal electrodes are recessed from end surfaces of the component main body with a recess length of about 1 μm or less. Plating films to serve as external electrodes are formed to extend from the end surfaces of the component main body across the R chamfered section, and include end edges located on at least one of the principal surfaces and the side surfaces. | 08-02-2012 |
20130062994 | LAMINATED CERAMIC ELECTRONIC COMPONENT AND MANUFACTURING METHOD THEREFOR - A method for manufacturing a laminated ceramic electronic component enables formation of a plating film as at least a portion of an external electrode which connects exposed ends of internal electrodes. A component main body including a plurality of ceramic layers and a plurality of internal electrodes partially exposed from the component main body is prepared such that the component main body has a conductive region formed by diffusion of a conductive component included in the internal electrodes at the end surfaces of the ceramic layers located between adjacent exposed ends of the plurality of internal electrodes. The ceramic layers are preferably composed of a glass ceramic containing a glass component of about 10 weight % or more. A plating film is formed directly on the component main body by growing the exposed ends of the internal electrodes and the conductive region as nucleuses for plating deposition. | 03-14-2013 |