Patent application number | Description | Published |
20080213945 | Semiconductor device and fabrication process thereof - A semiconductor device includes a mount substrate and a semiconductor chip mounted upon the mount substrate via a metal bump, wherein metal bump includes an inner part joined to the semiconductor chip and an outer part covering the inner part, the outer part having an increased hardness as compared with the inner part. | 09-04-2008 |
20090084590 | CIRCUIT BOARD - A circuit board has a low thermal expansion coefficient that suits the thermal expansion coefficient of an element to be mounted thereupon and can prevent the occurrence of delamination and cracking of a core layer when the circuit board is used in a low temperature environment. The circuit board is constructed by laminating a core layer and at least one wiring layer, where the at least one wiring layer has slightly smaller external dimensions in a planar direction than the core layer. | 04-02-2009 |
20090094824 | METHOD OF PRODUCING SUBSTRATE - The method of producing a substrate comprises the steps of: forming a through-hole in a base member; filling the through-hole with an insulating material; performing electroless plating to coat the surface of the base member, in which the through-hole has been filled with the insulating material, with an electroless-plated layer; applying photo resist on the electroless-plated layer formed on the surface of the base member; optically exposing and developing the photo resist so as to form a resist pattern coating an end face of the through-hole filled with the insulating material; etching an electrically conductive layer formed on the surface of the base member with using the resist pattern as a mask; and removing the resist pattern coating the end face of the through-hole from the base member with using the electroless-plated layer as a release layer. | 04-16-2009 |
20090094825 | METHOD OF PRODUCING SUBSTRATE - The method of producing a substrate comprises the steps of: forming a through-hole in a base member; plating the base member so as to coat an inner face of the through-hole with a plated layer; applying photo resist on the base member; optically exposing and developing the photo resist so as to form a resist pattern, which coats at least a planar area of the through-hole; and etching an electrically conductive layer formed on the surface of the base member. The resist pattern is formed so as to separate an area of exposing the conductive layer a prescribed distance away from an edge of the through-hole, and the prescribed length is longer than a distance of etching a side face of the conductive layer in the etching step. | 04-16-2009 |
20090095509 | CORE SUBSTRATE AND METHOD OF PRODUCING THE SAME - In the core substrate, short circuit between an electrically conductive core section and a plated through-hole section can be securely prevented and cables can be formed in a high dense state. The core substrate comprises: the electrically conductive core section having a pilot hole, through which the plated through-hole section is formed; cable layers being respectively laminated on the both side faces of the core section; a plated layer coating an inner face of the pilot hole; and an insulating material filling a space between the plated layer and an outer circumferential face of the plated through-hole section. | 04-16-2009 |
20090095511 | CIRCUIT BOARD AND METHOD OF PRODUCING THE SAME - The circuit board is capable of tightly bonding a cable layer on a base member even if thermal expansion coefficients of the base member and the cable layer are significantly different. The circuit board comprises: the base member; and the cable layer being laminated on the base member with anchor patterns, which are electrically conductive layers formed on a surface of the base member. | 04-16-2009 |
20090095524 | CORE SUBSTRATE AND METHOD OF PRODUCING THE SAME - The core substrate is capable of securely preventing short circuit between an electrically conductive core section and a plated through-hole section. The core substrate comprises: an electrically conductive core section having a pilot hole, through which a plated through-hole section is formed; electrically conductive layers coating the inner face of the pilot hole and a surface of the core section; a gas purging hole being formed in the conductive layer coating the surface of the core section; an insulating material filling a space between the inner face of the pilot hole and an outer circumferential face of the plated through-hole section; and cable layers being laminated on both side faces of the core section. | 04-16-2009 |
20090098391 | CORE MEMBER AND METHOD OF PRODUCING THE SAME - The core member constitutes a core substrate of a circuit board. The core member comprises: a carbon fiber-reinforced core section, in which prepregs including carbon fibers are thermocompression-bonded; and copper foils being respectively thermocompression-bonded on the both side faces of the carbon fiber-reinforced core section with prepregs including glass fibers. The pregregs including glass fibers are composed of resin, whose melting temperature range is higher than that of resin composing the pregregs including carbon fibers. | 04-16-2009 |
20090294161 | CORE SUBSTRATE AND PRINTED WIRING BOARD - The core layer of a core substrate is made of carbon fibers impregnated with resin. When the temperature of the core layer increases, the core layer suffers from an increase in the thickness because of thermal expansion of the resin. The core layer is sandwiched between the insulating layers containing glass fibers. The insulating layers serve to suppress an increase in the thickness of the core layer resulting from the thermal expansion of the core layer. Thermal stress is suppressed in the core substrate. | 12-03-2009 |
20090294166 | PRINTED WIRING BOARD - Large-sized through holes are formed in a core layer of a printed wiring board. Large-sized vias are formed in the shape of a cylinder along the inward wall surfaces of the large-sized through holes located within a specific area. A filling material fills the inner space of the large-sized via. A small-sized through hole penetrates through the corresponding filling material along the longitudinal axis of the small-sized through hole. A small-sized via is formed in the shape of a cylinder along the inward wall surface of the small-sized through hole. The filling material and the core layer are uniformly distributed within the specific area in the in-plane direction of the core substrate. This results in suppression of uneven distribution of thermal stress in the core layer in the in-plane direction of the core layer. | 12-03-2009 |
20090308651 | WIRING SUBSTRATE INCLUDING CONDUCTIVE CORE SUBSTRATE, AND MANUFACTURING METHOD THEREOF - A wiring substrate includes a core substrate having a first main surface and a mutually opposing second main surface, the second main surface having a conductive property. A first through hole penetrates a core substrate. A first conductive layer extends from the first main surface to the second main surface via the first through hole. An insulating layer is formed on the first conductive layer. A second through hole has the insulating layer as an interior wall. And a second conductive layer is formed inside the second through hole. | 12-17-2009 |
20100018758 | PRINTED WIRING BOARD - A printed wiring board which includes a core substrate and a plurality of buildup layer. The core substrate contains carbon fiber. The plurality of buildup layers is stacked on the core substrate. The buildup layer includes an insulating layer and a conductive wiring layer. The insulating layer contains a resin material having a glass fiber cloth embedded therein. | 01-28-2010 |
20100018762 | BUILDUP PRINTED CIRCUIT BOARD - A printed circuit board includes a first insulation layer that is formed of a resin material into which fiber cloth is embedded. A second insulation layer is formed of a resin material, and is stacked on a front surface of the first insulation layer on which a heating process has been performed. A conductive land is formed on a front surface of the second insulation layer. A via is provided in a through hole penetrating through the first insulation layer and the second insulation layer. The through hole is filled with a conductive material, and the via is connected to the conductive land. | 01-28-2010 |
20100020973 | TRANSMISSION DEVICE AND RECEPTION DEVICE FOR CIPHERING PROCESS - In a wireless communication system, a transmission device includes: a generation section configured to encrypt information shared between the transmission device and a reception device using first encryption information which changes in accordance with the sequence information, and to generate encrypted data for the shared information; a transmission section configured to transmit, to the reception device, the encrypted data for the shared information; a reception section configured to receive, from the reception device, information about a result of a comparison between the shared information and a result of decrypting the encrypted data for the shared information using second encryption information which changes in accordance with the sequence information assigned to the encrypted ciphering-process-target data at the reception device; and a determination section configured to determine, based on the comparison result, whether the first and second encryption information matches or not. | 01-28-2010 |
20100024963 | MULTILEVEL INTERCONNECTION BOARD AND METHOD OF FABRICATING THE SAME - A stack of 50 layers of a first pitch-base carbon fiber sheet is formed, two sets of stack each having two second pitch-base carbon fiber sheets stacked therein are fabricated. At this time, the second carbon fiber sheets have a thermal expansion coefficient larger than that of the first carbon fiber sheet. Next, the stack of the first carbon fiber sheet is then held between two sets of stack of the second carbon fiber sheets. The stack of the first and second carbon fiber sheets are then impregnated with an epoxy-base resin composition and the resin is solidified. As a result a prepreg composed of the first and second carbon fiber sheets and the resin component composed of the epoxy-base resin composition is obtained. Thereafter, interconnections and the like are then formed on the prepreg, to thereby complete a multilevel interconnection board. | 02-04-2010 |
20100193225 | CIRCUIT BOARD, METHOD OF MANUFACTURING THE SAME, AND RESISTANCE ELEMENT - Provided is a circuit board including a resin base, and a resistance element formed above the resin base. The resistance element includes a resistance pattern including an electrode portion and an extending portion, and an electrode formed on the electrode portion of the resistance pattern and including a foot portion reduced in thickness toward the extending portion. | 08-05-2010 |
20110220396 | WIRING SUBSTRATE AND MANUFACTURING METHOD THEREOF - A wiring substrate includes a substrate containing a carbon material, a first insulating layer formed over the substrate, an interlayer formed over the first insulating layer, the interlayer including a metal plate having a smaller coefficient of thermal expansion than the first insulating layer while having a greater elastic modulus than the first insulating layer, and a second insulating layer formed over the interlayer. | 09-15-2011 |