Patent application number | Description | Published |
20080203578 | CIRCUIT DEVICE, A METHOD FOR MANUFACTURING A CIRCUIT DEVICE, AND A SEMICONDUCTOR MODULE - A circuit device includes a semiconductor substrate on which a circuit element is formed, an electrode formed on a surface of the semiconductor substrate, an insulating layer formed on the electrode, a second wiring layer formed on the insulating layer, and a conductive bump which penetrates the insulating layer and electrically connects the electrode and the second wiring layer. The conductive bump is such that the size of crystal grains in a direction parallel with the surface of the semiconductor substrate is larger than the size of crystal grains in a conduction direction of the electrode and the wiring layer. | 08-28-2008 |
20090168391 | SUBSTRATE FOR MOUNTING DEVICE AND METHOD FOR PRODUCING THE SAME, SEMICONDUCTOR MODULE AND METHOD FOR PRODUCING THE SAME, AND PORTABLE APPARATUS PROVIDED WITH THE SAME - A substrate for mounting a device comprises: an insulating resin layer; a plurality of projected electrodes that are connected electrically to a wiring layer provided on one major surface of the insulating resin layer, and that project toward the insulating resin layer from the wiring layer; and a counter electrode provided at a position corresponding to each of the plurality of projected electrodes on the other major surface of the insulating resin layer. Among the projected electrodes, a projected length of part of the projected electrodes is smaller than that of the other projected electrodes; and the projected electrode and the counter electrode corresponding thereto are capacitively-coupled, and the projected electrode and the counter electrode are connected electrically. | 07-02-2009 |
20110027945 | SUBSTRATE FOR MOUNTING DEVICE AND METHOD FOR PRODUCING THE SAME, SEMICONDUCTOR MODULE AND METHOD FOR PRODUCING THE SAME, AND PORTABLE APPARATUS PROVIDED WITH THE SAME - A substrate for mounting a device comprises: an insulating resin layer; a plurality of projected electrodes that are connected electrically to a wiring layer provided on one major surface of the insulating resin layer, and that project toward the insulating resin layer from the wiring layer; and a counter electrode provided at a position corresponding to each of the plurality of projected electrodes on the other major surface of the insulating resin layer. Among the projected electrodes, a projected length of part of the projected electrodes is smaller than that of the other projected electrodes; and the projected electrode and the counter electrode corresponding thereto are capacitively-coupled, and the projected electrode and the counter electrode are connected electrically. | 02-03-2011 |
20110074021 | DEVICE MOUNTING BOARD, AND SEMICONDUCTOR MODULE - A device mounting board includes an insulating resin layer, a wiring layer provided on one of main surfaces of the insulating resin layer, and bump electrodes connected electrically to the wiring layer and protruding on a side of the insulating resin layer from the wiring layer. A semiconductor module is formed by having the bump electrodes connected to a semiconductor device. A recess is provided in the top face of each bump electrode. The recess communicates with an opening provided on a side surface of the bump electrode. | 03-31-2011 |
20130157102 | DEVICE MOUNTING BOARD, CELL, AND BATTERY MODULE - A device mounting board comprises: a heat dissipating substrate formed of a material containing at least one metal material selected from a group including Al, Mg, and Ti; an insulting resin layer laminated on the heat dissipating substrate; and a wiring layer laminated on the insulating resin layer, and on which a power module is to be mounted. The heat dissipating substrate comprises a random porous layer arranged such that it faces the insulating resin layer, and having cavities elongated in respective random directions. | 06-20-2013 |
Patent application number | Description | Published |
20100246140 | Circuit Board and Method for Manufacturing Semiconductor Modules and Circuit Boards - The deterioration of dielectric breakdown strength arising from an opening of a metal plate is prevented and the reliability as a circuit board is enhanced. A circuit board is provided with a metal plate, having openings, as core material. The opening is provided in a manner that the size of the opening gradually increases from a lower surface side toward an upper surface side of the metal plate. On both surface sides of the metal plate there are provided wiring patterns, respectively, via insulating layers. The insulating layer provided on an upper region of the opening and the corresponding wiring pattern are provided such that they have a recess on the upper surface of them. To electrically connect each wiring pattern, the circuit board further includes a conductor which penetrates the metal plate via the opening and which connects the wiring patterns with each other. An LSI chip is directly coupled to the upper surface side of the metal plate via a solder ball. | 09-30-2010 |
20100264552 | CIRCUIT DEVICE, METHOD OF MANUFACTURING THE CIRCUIT DEVICE, DEVICE MOUNTING BOARD AND SEMICONDUCTOR MODULE - A circuit device includes an insulating base provided with a resin layer mixed with a fibrous filler, bumps provided in the insulating base and functioning as electrodes for connection, a semiconductor device that is flip-chip mounted, and an underfill filling a gap between the semiconductor device and the insulating base. By allowing the fibrous filler projecting through the top surface of the resin layer to be in contact with the underfill, strength of adhesion between the underfill and the insulating base is improved. | 10-21-2010 |
20100299920 | METHODS FOR MANUFACTURING DEVICE MOUNTING BOARD AND CIRCUIT SUBSTRATE - To reduce connection defects between a circuit substrate provided on a core substrate and a circuit to be mounted thereon, thereby improving reliability as a multilayered device mounting substrate. The device mounting substrate includes: a first circuit substrate composed of a substrate, an insulating layer formed on this substrate, and a first conductive layer (including conductive parts) formed on this insulating layer; and a second circuit substrate mounted on the first circuit substrate, being composed of a base, a second conductive layer (including conductive parts) formed on the bottom of the base, and a third conductive layer (including conductive parts) formed on the top of the base. Here, the first and second circuit substrates are bonded by pressure so that the first and second conductive parts are laminated and embedded together into the insulating layer. The first and second conductive parts form connecting areas in the insulating layer, thereby connecting the first and second circuit substrates electrically. | 12-02-2010 |
20110180933 | SEMICONDUCTOR MODULE AND SEMICONDUCTOR MODULE MANUFACTURING METHOD - A wiring layer is formed on a substrate, and a semiconductor device is mounted on the substrate. The wiring layer and the semiconductor device are sealed by a sealing resin. A conductive member is used to fill a through hole formed in the sealing resin in a predetermined position of the wiring layer and is provided so as to cover over the sealing resin. The metal foil is provided on the upper surface of the conductive member, and the metal foil and the wiring layer are electrically connected via the conductive member. | 07-28-2011 |
20110186993 | SEMICONDUCTOR MODULE AND PORTABLE APPARATUS PROVIDED WITH SEMICONDUCTOR MODULE - A semiconductor element mounted on an insulating resin layer formed on a wiring layer is sealed by a sealing resin. On the wiring layer, a protruding electrode protruding to the side of the semiconductor element and a protruding section are integrally formed with the wiring layer, respectively. The protruding electrode is electrically connected to an element electrode of the semiconductor element by penetrating the insulating resin layer. The protruding section is arranged to surround the semiconductor element along the four sides of the semiconductor element, and is embedded in the sealing resin up to a position above a section where the protruding electrode and the element electrode are bonded. | 08-04-2011 |
20110241203 | SEMICONDUCTOR MODULE, METHOD FOR MANUFACTURING SEMICONDUCTOR MODULE, AND PORTABLE APPARATUS - A semiconductor module includes a device mounting board and a semiconductor device. The semiconductor device and the device mounting board are flip-chip connected to each other, and a device electrode provided in the semiconductor device and a substrate electrode provided in the device mounting board are connected by soldering. In a cross section along a line connecting the adjacent substrate electrodes, the width L | 10-06-2011 |
20120098137 | ELEMENT MOUNTING SUBSTRATE AND SEMICONDUCTOR MODULE - Conventional printed circuit boards had a problem of being inferior in heat-radiation characteristic, and metal-core printed circuit boards adopted to improve the heat-radiation characteristic had problems in having low rigidity and a tendency to bend. The ductility of the metal can be obstructed, and the metal protected; by covering substantially the whole area of the front and back sides of the metal core, consisting of metal as the main material, with a first ceramic film and a second ceramic film that obstruct the ductility of the aforementioned metal-core; and covering each of the ceramic films with insulated resin films, to cover the fragility of these ceramics. | 04-26-2012 |
20140063767 | CIRCUIT DEVICE - A circuit device according to one exemplary embodiment includes a ceramic substrate, a first conductive pattern provided on one face of the ceramic substrate, a second conductive pattern, formed mainly of Cu, which is provided on the other face of the ceramic substrate, and a semiconductor element provided on an island that constitutes the second conductive pattern. An electrode, whose outermost surface is formed mainly of Cu, is provided in the semiconductor element, and the interface between the island and the electrode is directly fixed by solid-phase bonding. | 03-06-2014 |
20140084452 | ELEMENT MOUNTING BOARD AND SEMICONDUCTOR MODULE - Prepared in advance is a substrate formed of metallic material where slits are formed between mounting regions. Oxide films are generated all over the substrate including end faces of the substrate. Exposed are only lateral faces corresponding to the cross sections cut when tie bars are cut. This structure and the fabrication method minimize the area of cutting faces in the metallic material. | 03-27-2014 |
Patent application number | Description | Published |
20100025842 | SEMICONDUCTOR MODULE AND SEMICONDUCTOR DEVICE - A semiconductor module includes an insulating resin layer, a wiring layer provided on one main surface S | 02-04-2010 |
20100078813 | SEMICONDUCTOR MODULE AND METHOD FOR MANUFACTURING THE SEMICONDUCTOR MODULE - A semiconductor module includes a device mounting board and a semiconductor device mounted on the device mounting board. The device mounting board includes an insulating resin layer, a wiring layer provided on one main surface of the insulating layer, and a bump electrode which is electrically connected to the wiring layer and protruded from the wiring layer in an insulating layer side. The semiconductor device has device electrodes disposed counter to the semiconductor substrate and the bump electrodes, respectively. The surface of a metallic layer provided on the device electrode has a rugged shape, resulting in the improved adhesion between the metallic layer and the insulating resin layer. | 04-01-2010 |
20110193222 | SEMICONDUCTOR MODULE, METHOD FOR FABRICATING THE SEMICONDUCTOR MODULE, AND MOBILE APPARATUS - A semiconductor module manufacturing method includes a step of bonding a semiconductor wafer, which has a plurality of semiconductor elements each of which has an element electrode formed thereon, on an expansible first insulating resin layer; a step of dicing the semiconductor wafer; a step of expanding the first insulating resin layer to widen a gap between semiconductor elements; a pressure-bonding step of pressure-bonding a metal plate whereupon an electrode is arranged and the semiconductor elements with the widened gaps in between, by having a second insulating resin layer in between, and electrically connecting the electrode and the element electrodes; a step of forming a wiring layer which corresponds to each semiconductor element by selectively removing the metal plate and forming a plurality of semiconductor modules connected by the first insulating resin layer and the second insulating resin layer; and a step of separating the semiconductor modules by cutting the first insulating resin layer and the second insulating resin layer. | 08-11-2011 |
Patent application number | Description | Published |
20080272502 | PACKAGING BOARD AND MANUFACTURING METHOD THEREFOR, SEMICONDUCTOR MODULE AND MANUFACTURING METHOD THEREFOR, AND PORTABLE DEVICE - A method for manufacturing a semiconductor module includes: a first process of forming a conductor on one face of an insulating layer; a second process of exposing the conductor from the other face of the insulating layer; a third process of providing a first wiring layer on an exposed area of the conductor and on the other face of the insulating layer; a fourth process of preparing a substrate on which a circuit element is formed, the second wiring being formed on the substrate; and a fifth process of embedding the conductor in the insulating layer by press-bonding the insulating layer and the substrate in a state where the conductor on which the first wiring layer is provided by the third process is disposed counter to the second wiring layer. Wiring is formed without causing damaging to the circuit element. | 11-06-2008 |
20090115056 | DEVICE MOUNTING BOARD, SEMICONDUCTOR MODULE, AND MOBILE DEVICE - A device mounting board includes an insulating layer formed of an insulating resin, a glass cloth covering the surface of the insulating layer, and an electrode provided in a through hole extending through the glass cloth. The angle of contact with solder of the glass cloth is larger than that of the resin. Thus, solder bumps are formed on the electrode of the device mounting board | 05-07-2009 |
20090196010 | DEVICE MOUNTING BOARD, AND SEMICONDUCTOR MODULE AND MANUFACTURING METHOD THEREFOR - A device mounting board includes: an insulating resin layer; a wiring layer provided on one main surface of the insulating resin layer; and a bump electrode, electrically connected to the wiring layer, which is protruded from the wiring layer toward the insulating resin layer. Asperities are formed on the side surface of the bump electrode and the surface roughness of the side surface of the bump electrode is greater than that of the top surface of the bump electrode. | 08-06-2009 |
20110177688 | PACKAGING BOARD AND MANUFACTURING METHOD THEREFOR, SEMICONDUCTOR MODULE AND MANUFACTURING METHOD THEREFOR, AND PORTABLE DEVICE - A method for manufacturing a semiconductor module includes: a first process of forming a conductor on one face of an insulating layer; a second process of exposing the conductor from the other face of the insulating layer; a third process of providing a first wiring layer on an exposed area of the conductor and on the other face of the insulating layer; a fourth process of preparing a substrate on which a circuit element is formed, the second wiring being formed on the substrate; and a fifth process of embedding the conductor in the insulating layer by press-bonding the insulating layer and the substrate in a state where the conductor on which the first wiring layer is provided by the third process is disposed counter to the second wiring layer. Wiring is formed without causing damaging to the circuit element. | 07-21-2011 |
20120288999 | METHOD FOR MANUFACTURING SEMICONDUCTOR MODULES - A method for fabricating a semiconductor module includes: bonding a semiconductor substrate onto a first insulating resin layer; dicing the semiconductor substrate into a plurality of individual semiconductor devices; widening the spacings between the adjacent semiconductor devices by expanding the first insulating resin layer in a biaxially stretched manner; fixing the plurality of semiconductor devices to a flat sheet, with a second insulating resin layer held between the plurality of semiconductor devices and the flat sheet, and removing the first insulating resin layer; stacking the plurality of semiconductor devices, a third insulating resin layer, and a metallic plate, in this order, so as to form a laminated body having electrodes by which to electrically connect the device electrodes to the metallic plate; forming a wiring layer by selectively removing the metallic plate and forming a plurality of semiconductor modules; and separating the semiconductor modules into individual units. | 11-15-2012 |
20130337310 | CELL MODULE AND MANUFACTURING METHOD FOR CELL MODULE - A cell module | 12-19-2013 |
20130344378 | ASSEMBLED BATTERY AND CELL CONNECTION METHOD - An assembled battery comprises: multiple cells | 12-26-2013 |