Patent application number | Description | Published |
20090014735 | Semiconductor device and semiconductor device fabrication method - There is provided a semiconductor device in which a light emitting element is mounted on a substrate, having a bonding wire which is connected to the light emitting element, and a through electrode which is connected to the bonding wire and is formed in such a manner as to pass through the substrate at a position lying directly below a connecting portion with the bonding wire. | 01-15-2009 |
20090020887 | SEMICONDUCTOR APPARATUS AND MANUFACTURING METHOD THEREOF - In a semiconductor apparatus in which plural semiconductor elements are stacked, metal wires whose one ends are connected to electrode terminals of the semiconductor elements are extended to the side surfaces of the semiconductor elements in an abutment state and the metal wires extended to the side surfaces of the semiconductor elements are bonded to a side surface wiring formed on side surfaces of the semiconductor elements by a conductive paste containing conductive particles. | 01-22-2009 |
20090039379 | HEAT RADIATION PACKAGE AND SEMICONDUCTOR DEVICE - A heat radiation package of the present invention includes a substrate in an upper surface side of which recess portion is provided, embedded wiring portion which is filled in the recess portion of the substrate and on which semiconductor element which generates a heat is mounted, and a heat sink connected to a lower surface side of the substrate. The substrate is made of silicon, ceramics, or insulating resin. | 02-12-2009 |
20100155862 | PACKAGE FOR ELECTRONIC COMPONENT, MANUFACTURING METHOD THEREOF AND SENSING APPARATUS - A package for electronic component comprises a rectangular package body having a flat cut surface to be abutted on a flat mounting surface of a mounting substrate, a first side surface intersecting with the flat cut surface, and a first notch part formed at a boundary between the flat cut surface and the first side surface, an electronic component installed in the package body, and a first pad electrically connected to the electronic component and formed on an inner wall surface of the first notch part. | 06-24-2010 |
20100193939 | WIRING SUBSTRATE, ELECTRONIC DEVICE, AND ELECTRONIC DEVICE MOUNTING STRUCTURE - A wiring substrate includes a silicon substrate, a through hole formed to penetrate the silicon substrate in a thickness direction, an insulating layer formed on both surfaces and side surfaces of the silicon substrate and an inner surface of the through hole, a penetration electrode formed in the through hole, a wiring layer formed on at least one surface of the silicon substrate and connected to the penetration electrode, and a metal wire terminal connected to the wiring layer and formed to extend from one surface of the silicon substrate to a side surface thereof. The metal wire terminal on the side surface of the electronic device is connected to the mounting substrate such that a substrate direction of the electronic device in which an electronic component is mounted on the wiring substrate intersects orthogonally with a substrate direction of the mounting substrate. | 08-05-2010 |
20100207218 | ELECTRONIC COMPONENT DEVICE, AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing an electronic component device, includes the steps of preparing a wiring substrate, which includes a silicon substrate, a concave portion provided on its upper surface side, a through hole formed to penetrate the silicon substrate on a bottom surface side of the concave portion, an insulating layer formed on the silicon substrate, a penetration electrode constructed by a lower conductor portion formed to a halfway position of a height direction from a bottom portion of the through hole and a connection metal member (indium layer) formed on the lower conductor portion in the through hole, and an electronic component having a terminal metal member (gold bump) on a lower surface side, and softening the connection metal member of the wiring substrate in a heating atmosphere and then sticking the terminal metal member of the electronic component into the connection metal member and connecting thereto. | 08-19-2010 |
20110147951 | WIRING SUBSTRATE AND SEMICONDUCTOR DEVICE - A wiring substrate includes a wiring layer, an insulating layer formed on the wiring layer, a connection pad formed on the insulating layer, and a via conductor formed to penetrate the insulating layer, and connecting the wiring layer and the connection pad, wherein the wiring layer located under the connection pad is formed to have via receiving electrode portion whose area is smaller than an area of the connection pad, and a wiring portion separated from the via receiving electrode portion, in an area corresponding to the connection pad, and the via receiving electrode portion is connected to the connection pad via the via conductor. | 06-23-2011 |
20120086116 | ELECTRONIC COMPONENT DEVICE, METHOD OF MANUFACTURING THE SAME AND WIRING SUBSTRATE - An electronic component device includes a substrate, an electrode post made of a metal material, provide to stand on the substrate, and an electronic component whose connection electrode is connected to the electrode post, wherein the connection electrode of the electronic component and the electrode post are joined by an alloy layer including a metal which is different from the metal material of the electrode post. | 04-12-2012 |
20120128021 | LIGHT EMITTING DEVICE AND PACKAGE COMPONENT - A light emitting device includes a light emitting element mounting component, including a cubic package component formed of a silicon member covered with a insulating layer, and the package component including a bottom portion, a sidewall portion provided to stand upright on both ends of the bottom portion respectively, and a backwall portion provided to stand upright on an innermost part of the bottom portion, and the package component in which a cavity is provided in an inner side, and a light emitting element mounted on an inner side surface of the backwall portion of the package component, and including a light emitting surface on an upper end part, wherein a plurality of said light emitting element mounting components are stacked in a depth direction of the cavity to direct toward an identical direction. | 05-24-2012 |
20120154918 | FRAME-ATTACHED ANTI-REFLECTION GLASS AND METHOD OF MANUFACTURING THE SAME - A frame-attached anti-reflection glass (a cap for optical device) includes a plate-shaped member including an anti-reflection film formed on at least one surface of a plate-shaped glass, and a frame-shaped member made of silicon joined to a peripheral portion on one surface side of the plate-shaped member. The anti-reflection film includes two partial films having different compositions, and one partial film is a light-absorbent film. The two partial films are continuously formed on the plate-shaped glass, and respective surfaces of each partial film are on a level with each other. The plate-shaped glass and the frame-shaped member (silicon) are joined together by anodic bonding. | 06-21-2012 |
20120229157 | PROBE CARD AND MANUFACTURING METHOD THEREOF - In one embodiment, a probe card is provided. The probe card includes: a substrate having a first surface and a second surface opposite to the first surface; a through hole formed through the substrate and extending between the first surface and the second surface; an elastic member formed in the through hole to extend to the first surface; a through electrode formed in through hole to extend to the second surface; a first trace on a surface of the elastic member to be electrically connected to the through electrode; and a contact bump on the elastic member via the first trace to be electrically connected to the first trace, wherein the contact bump is electrically connected to an electrode pad formed on a DUT (device under test) when an electrical testing is performed on the DUT using the probe card. | 09-13-2012 |
20120327574 | ELECTRONIC COMPONENT - At least one embodiment provides an electronic component including: connection electrodes; and flexible electrode terminals connected to the respective connection electrodes so that spaces are formed under the respective flexible electrode terminals, each flexible electrode terminal having a main body and a connection projection provided on a top surface of the main body, each flexible electrode terminal being elastically deformable when receiving pressure. | 12-27-2012 |