Patent application number | Description | Published |
20110012266 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - In a semiconductor device, a substrate includes a plurality of line conductors which penetrate the substrate from a top surface to a bottom surface of the substrate. A semiconductor chip is secured in a hole of the substrate. A first insulating layer is formed on the top surfaces of the substrate and the semiconductor chip. A first wiring layer is formed on the first insulating layer and electrically connected via through holes of the first insulating layer to the semiconductor chip and some line conductors exposed to one of the through holes. A second insulating layer is formed on the bottom surfaces of the substrate and the semiconductor chip. A second wiring layer is formed on the second insulating layer and electrically connected via a through hole of the second insulating layer to some line conductors exposed to the through hole. | 01-20-2011 |
20110018144 | WIRING BOARD AND SEMICONDUCTOR DEVICE - A wiring board includes a core substrate including an insulation base member; linear conductors configured to pierce from a first surface of the insulation base member to a second surface of the insulation base member; a ground wiring group including a first ground wiring formed on the first surface of the core substrate, and a belt-shaped second ground wiring formed on the second surface of the core substrate and electrically connected to the first ground wiring by way of a part of the linear conductors; and an electric power supply wiring group including a first electric power supply wiring formed on the first surface, and a second electric power supply wiring formed on the second surface and electrically connected to the first electric power supply wiring by way of a part of the plural linear conductors. | 01-27-2011 |
20110095419 | CONDUCTIVE FILM, METHOD OF MANUFACTURING THE SAME, SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - There is provided a conductive film. The conductive film includes: an anodized layer having a plurality of through holes extending therethrough in its thickness direction; a plurality of linear conductors each formed in a corresponding one of the through holes and each having first and second protrusions protruding from the anodized layer, wherein at least one of the first and second protrusions is covered by a coating material; and an uncured thermosetting resin layer formed on the anodized layer to cover at least one of the first and second protrusions. | 04-28-2011 |
20110095433 | CONDUCTIVE FILM, METHOD OF MANUFACTURING THE SAME, SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - There is provided a method of manufacturing a conductive film. The method includes: (a) providing an anodized layer having a plurality of through holes extending therethrough in its thickness direction; (b) forming a plurality of linear conductors by filling each of the through holes with a conductive material; (c) forming protection layers on both surfaces of the anodized layer; (d) removing the anodized layer to form a plurality of gaps between the linear conductors; (e) forming an organic insulation layer between the protection layers to fill the gaps with the organic insulation layer; and (f) removing the protection layers. | 04-28-2011 |
20120313245 | SEMICONDUCTOR DEVICE - One embodiment provides a semiconductor device having: a core substrate having first and second surfaces and an accommodation hole penetrating therethrough; a semiconductor element accommodated in the accommodation hole so that a front surface thereof is on the first surface side; a first metal film formed on a back surface of the semiconductor element; a second metal film formed on the second surface of the core substrate; an insulating layer covering the first and second metal films; and a third metal film formed on the insulating layer, via parts thereof penetrating through the insulating layer to respectively reach the first and second metal films. | 12-13-2012 |
20120327626 | WIRING SUBSTRATE, ITS MANUFACTURING METHOD, AND SEMICONDUCTOR DEVICE - One embodiment provides a wiring substrate including: a core substrate having an insulative base member, the insulative base member having a first surface and a second surface, a plurality of linear conductors penetrating through the insulative base member from the first surface to the second surface; an inorganic material layer joined to at least one of the first surface and the second surface of the insulative base member; and a penetration line penetrating through the inorganic material layer, wherein one end of the penetration line is electrically connected to a corresponding part of the linear conductors, without intervention of a bump. | 12-27-2012 |
20130048350 | BASE MEMBER - A base member includes: a core layer including: a plate-like body, made of aluminum oxide; and plural linear conductors, which penetrate through the plate-like body in a thickness direction of the plate-like body; a bonding layer, formed on at least one of a first surface and a second surface of the core layer; and a silicon layer or a glass layer, formed on the bonding layer. | 02-28-2013 |
20130081796 | THERMAL INTERFACE MATERIAL, METHOD FOR MANUFACTURING THERMAL INTERFACE MATERIAL, AND JOINING STRUCTURE USING THERMAL INTERFACE MATERIAL - A thermal interface material includes a metal foil, which has a first surface and an opposite second surface, and a plurality of rod conductors each having a side surface extending in a thickness direction of the metal foil. The rod conductors are arranged on at least one of the first and second surfaces of the metal foil in a planar direction that is perpendicular to the thickness direction. A resin layer covers at least the first surface and the second surface of the metal foil and the side surfaces of the rod conductors. | 04-04-2013 |
20140125372 | PROBE CARD AND METHOD OF MANUFACTURING THE SAME - A probe card includes a wiring substrate including an opening portion and a connection pad arranged on an upper face of the wiring substrate located on the periphery of the opening portion, a resin portion formed in the opening portion of the wiring substrate, and the resin portion formed of a material having elasticity, a contact terminal arranged to protrude from the lower face of the resin portion, and wire buried in the resin portion and connecting the contact terminal and the connection pad, wherein the contact terminal is formed of an end part of the wire, and is formed integrally with the wire. | 05-08-2014 |
20140262465 | WIRING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A wiring substrate includes, an insulating substrate in which a plurality of penetration conductors are provided, the penetration conductors penetrating in a thickness direction of the insulating substrate, a first connection pad arranged on one face of the insulating substrate, a second connection pad arranged to correspond to the first connection pad on other face of the insulating substrate, a first metal layer arranged to surround the first connection pad, a second metal layer arranged to correspond to the first metal layer, the second metal layer surrounding the second connection pad, the plurality of penetration conductors connecting the first connection pad and the second connection pad, and connecting the first metal layer and the second metal layer, and an elastic body formed in a part of the insulating substrate between the first and second connection pads, and the first and second metal layers. | 09-18-2014 |
20140347833 | ELECTRONIC COMPONENT DEVICE AND METHOD OF MANUFACTURING THE SAME - An electronic component device, includes, a plurality of wiring layers including a component connection pad in a center part and an external connection pad in a periphery, an insulating layer formed on the wiring layers, and the insulating layer in which the component connection pad and the external connection pad are exposed, a frame member arranged on the insulating layer, and the frame member in which an opening portion is provided in an area of the center part in which the component connection pad is arranged, and a connection hole is provided on the external connection pad, an electronic component arranged in the opening portion of the frame member and connected to the component connection pad, a sealing resin formed in the opening portion of the frame member and sealing the electronic component, and a metal bonding material formed on the external connection pad in the connection hole. | 11-27-2014 |
20150022229 | PROBE CARD AND METHOD OF MANUFACTURING THE SAME - A probe card, includes, a wiring substrate having an opening portion and including a first connection pad and a second connection pad, the first connection pad being arranged at a periphery of the opening portion, the second connection pad being arranged to be adjacent to the first connection pad, a resin portion formed inside the opening portion of the wiring substrate, a first wire buried in the resin portion and having one end connected to the first connection pad and the other end constituting a first contact terminal protruding from a lower face of the resin portion, and a second wire buried in the resin portion and having one end connected to the second connection pad and the other end constituting a second contact terminal protruding from the lower face of the resin portion, wherein diameters of the first contact terminal and the second contact terminal are equal to diameters of the first wire and the second wire in the resin portion, and the first contact terminal and the second contact terminal are gathered but divided from each other such that the pair of first and second contact terminals touch one electrode pad of a test object. | 01-22-2015 |
20150022230 | PROBE CARD AND METHOD OF MANUFACTURING THE SAME - A probe card includes a wiring substrate including an opening portion, a first connection pad, and a second connection pad arranged in an opposite area to the first connection pad, a resin portion formed in the opening portion, a first wire buried in the resin portion, in which one end is connected to the first connection pad and other end constitutes a first contact terminal, and a second wire buried in the resin portion, in which one end is connected to the second connection pad and other end constitutes a second contact terminal, wherein the first and second wires extend on one line, and the first and second contact terminals are arranged on the one line, and the first and second contact terminals are gathered to be separated such that the first and second contact terminals touch one electrode pad of a text object with a pair. | 01-22-2015 |
Patent application number | Description | Published |
20100307808 | WIRING BOARD - A wiring board includes a core substrate having a structure including an insulating base material and a large number of filamentous conductors densely provided in the insulating base material and piercing the insulating base material in a thickness direction thereof. Pads made of portions of wiring layers are oppositely disposed on both surfaces of the core substrate and electrically connected to opposite ends of a plurality of filamentous conductors in such a manner that the pads share the filamentous conductors. A wiring connection between one surface side and the other surface side of the core substrate is made through the pads. The insulating base material is made of an inorganic dielectric. Pads made of portions of the wiring layers are disposed on both surfaces of the core substrate and electrically connected only to corresponding one end sides of different groups each formed of a plurality of filamentous conductors. | 12-09-2010 |
20110013340 | CAPACITOR AND METHOD OF MANUFACTURING THE SAME - A capacitor includes a dielectric substrate and a large number of filamentous conductors formed to penetrate through the dielectric substrate in a thickness direction thereof. An electrode is connected to only respective one ends of a plurality of filamentous conductors constituting one of groups each composed of a plurality of filamentous conductors. The electrode is disposed in at least one position on each of both surfaces of the dielectric substrate, or in at least two positions on one of the surfaces. Further, an insulating layer is formed on each of both surfaces of the dielectric substrate so as to cover regions between the electrodes, and a conductor layer is formed on the corresponding insulating layer integrally with a desired number of electrodes. | 01-20-2011 |
20110175235 | WIRING SUBSTRATE AND SEMICONDUCTOR APPARATUS INCLUDING THE WIRING SUBSTRATE - A wiring substrate includes a core substrate including an inorganic dielectric insulating base material having first and second surfaces, and linear conductors penetrating the insulating base; a first wiring layer on the first surface electrically connected to a portion of linear conductors; a second wiring layer on the second surface electrically connected to the portion of the linear conductors; a first insulating layer on the first surface covering the first wiring layer and including a first through-hole; a third wiring layer on the first insulating layer electrically connected to the first wiring layer via the first through-hole; a second insulating layer on the second surface covering the second wiring layer and including a second through-hole; and a fourth wiring layer on the second insulating layer electrically connected to the second wiring layer via the second through-hole. | 07-21-2011 |
20140117539 | WIRING SUBSTRATE, METHOD FOR MANUFACTURING WIRING SUBSTRATE, AND SEMICONDUCTOR PACKAGE - A wiring substrate includes a core layer, first and second wiring layers, and a first insulating layer. The core layer has one and another surfaces and includes a plate-shaped member formed of an aluminum oxide and multiple linear conductors penetrating the plate-shaped member in a thickness direction of the plate-shaped member. The first wiring layer is formed on the one surface of the core layer. The second wiring layer is formed on the other surface of the core layer. The first insulating layer has a same thickness as the first wiring layer and is formed in an area of the one surface of the core layer on which the first wiring layer is not formed. The first and second wiring layers are positioned superposing each other in a plan view. The first and second wiring layers are electrically connected by way of the multiple linear conductors. | 05-01-2014 |