| SHINKO ELECTRIC INDUSTRIES CO., LTD. Patent applications |
| Patent application number | Title | Published |
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| 20120133056 | SEMICONDUCTOR DEVICE, ELECTRONIC APPARATUS AND SEMICONDUCTOR DEVICE FABRICATING METHOD - There is provided a semiconductor device which includes a primary semiconductor chip | 05-31-2012 |
| 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 |
| 20120126423 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD AND SEMICONDUCTOR DEVICE - According to an aspect of the present invention, there is provided a semiconductor device manufacturing method, including: preparing a support plate having a mounting portion on which a mounting terminal is mountable; preparing a circuit board having a mounting surface on which a semiconductor chip is mounted and a connection pad is formed; bringing the support plate to face the mounting surface of the circuit board, and connecting the support plate to the connection pad through the mounting terminal; forming a resin layer between the support plate and the mounting surface of the circuit board to cover the mounting terminal; and removing the support plate, thereby faulting a via in the resin layer along a shape of the mounting portion so as to expose the mounting terminal therethrough. | 05-24-2012 |
| 20120120624 | WIRING SUBSTRATE AND SEMICONDUCTOR DEVICE - A wiring substrate | 05-17-2012 |
| 20120119391 | SEMICONDUCTOR PACKAGE AND MANUFACTURING METHOD THEREOF - A semiconductor package includes a support member having a concave portion formed in one surface thereof. A semiconductor chip is accommodated in the concave portion so that a circuit formation surface of the semiconductor chip is exposed on a side of the one surface of the support member. A wiring structure including a wiring layer electrically connected to the semiconductor chip is formed on the circuit formation surface of the semiconductor chip and the one surface of the support member. A portion of the support member including the one surface is made of silicon or borosilicate glass. | 05-17-2012 |
| 20120119379 | ELECTRIC PART PACKAGE AND MANUFACTURING METHOD THEREOF - A disclosed electric part package includes a supporting member that includes a first area in which an electric part is arranged, and a second area in which a first opening is positioned, the second area being isolated from the first area; a resin part provided on the supporting member thereby to cover the electric part arranged in the first area, the resin part including an electric terminal exposed in the first opening of the supporting member; and a wiring structure provided on the resin part, the wiring structure being electrically connected to the electric part and the electric terminal of the resin part. | 05-17-2012 |
| 20120119377 | WIRING SUBSTRATE, SEMICONDUCTOR DEVICE, AND METHOD OF MANUFACTURING WIRING SUBSTRATE - A wiring substrate is provided with a first wiring layer including a first land, a first insulative layer formed on the first wiring layer, a second wiring layer formed on the first insulative layer, a second insulative layer formed on the second wiring layer, and a via formed extending through the first insulative layer and the second insulative layer in a thicknesswise direction. The via includes one end, which is electrically connected to the first land of the first wiring layer, and another end, which is located opposed to the one end and serves as a pad to which a mounted electronic component is electrically connected. The second wiring layer includes a coupling portion electrically connected to the via. The coupling portion of the second wiring has a width that is smaller than a diameter of the via. | 05-17-2012 |
| 20120113599 | HEAT SPREADER FOR IC PACKAGE, AND IC PACKAGE CLAMPER HAVING THE HEAT SPREADER - According to one aspect of the present invention, there is provided a heat spreader to be mounted on an IC package, the IC package including: a circuit board; an IC chip mounted on one surface of the circuit board; and a plurality of connection terminals formed on the other surface of the circuit board, the heat spreader including: a top wall formed into a rectangular shape; a circumferential wall formed continuously from the top wall, the circumferential wall and the top wall defining a block-like cavity for enclosing the IC chip when the heat spreader is mounted on the IC package; and ear portions formed at lengthwise central portions of a facing pair of side walls of the circumferential wall so to extend outwardly from bottom edges of the facing pair of side walls, respectively. | 05-10-2012 |
| 20120108108 | CONNECTING TERMINAL STRUCTURE, MANUFACTURING METHOD OF THE SAME AND SOCKET - A connecting terminal structure includes a plurality of connecting terminals, each including a connecting part to be in contact with an object to be connected at an end of the connecting terminal and a plate-like fixing part at another end of the connecting terminal, a first face of the plate-like fixing part being configured to be electrically connectable; and electronic components, each including at least two electrode terminals, wherein the two electrode terminals of the electronic components are mounted on faces opposite to the first faces of the fixing parts of the connecting terminals. | 05-03-2012 |
| 20120103667 | WIRING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a wiring substrate, includes forming a laminated body in which a nickel copper alloy layer is formed via an insulating resin layer, on a first wiring layer, forming a via hole reaching the first wiring layer in the nickel copper alloy layer and the insulating resin layer, applying a desmear process to an inside of the via hole, forming a seed layer on the nickel copper alloy layer and an inner surface of the via hole, forming a plating resist in which an opening portion is provided on a part containing the via hole, forming a metal plating layer in the opening portion in the plating resist by an electroplating, removing the plating resist, and forming a second wiring layer by etching the seed layer and the nickel copper alloy layer while using the metal plating layer as a mask. | 05-03-2012 |
| 20120103663 | WIRING SUBSTRATE, ELECTRONIC DEVICE, AND METHOD OF MANUFACTURING WIRING SUBSTRATE - A wiring substrate includes a heat sink to dissipate heat generated in an electronic part mounted in an electronic part loading area on a principal surface of the wiring substrate, an encapsulation resin to cover the heat sink, an inner connection terminal having an end face electrically connected to an electrode of the electronic part, and an outer connection terminal electrically connected to the inner connection terminal via a wiring and having an end face for inputting and outputting of a signal with an external device. The encapsulation resin is arranged to cover a part of the wiring, the inner connection terminal except the end face, and the outer connection terminal except the end face. A surface of the heat sink, the end face of the inner connection terminal, and the end face of the outer connection terminal are flush with and exposed to the principal surface. | 05-03-2012 |
| 20120096711 | WIRING BOARD AND METHOD FOR MANUFACTURING THE SAME - A wiring board | 04-26-2012 |
| 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 |
| 20120074578 | SEMICONDUCTOR ELEMENT, SEMICONDUCTOR ELEMENT MOUNTED BOARD, AND METHOD OF MANUFACTURING SEMICONDUCTOR ELEMENT - A semiconductor element includes connection terminals. The connection terminals are each shaped in such a manner that the transverse cross-sectional area in a portion near the leading end thereof decreases toward the leading end. Specifically, the shape of each of the connection terminals is columnar except for the portion near the leading end, and the side surface in the portion near the leading end of the connection terminal is shaped in a tapered form. Furthermore, a metal layer for improving a solder wettability may be formed at least on the side surface shaped in the tapered form, of the connection terminal. | 03-29-2012 |
| 20120073131 | METHOD OF PRODUCING WIRING SUBSTRATE - A method of producing a wiring substrate includes producing a substrate body including a first primary surface on which a semiconductor chip mounting area is provided and a second primary surface opposed to the first primary surface; attaching a stiffener member on the first primary surface, the stiffener member including an opening which the semiconductor chip mounting area is exposed from; and connecting lead pins to corresponding connection pads provided on the second primary surface by way of electrically conductive members. | 03-29-2012 |
| 20120064361 | HEAT RADIATING COMPONENT AND METHOD OF PRODUCING SAME - A heat radiating component includes a base including a first metal, a first plating layer formed on the base and including a second metal and carbon material structures dispersed in the second metal, and a second plating layer formed on the first plating layer. The first plating layer includes protruding parts that are parts of the carbon material structures protruding from a surface of the second metal. The second plating layer is formed on the first plating layer to cover surfaces of the protruding parts and the surface of the second metal without filling spaces between the protruding parts. | 03-15-2012 |
| 20120043005 | ELECTRONIC PACKAGING APPARATUS AND ELECTRONIC PACKAGING METHOD - A bonding tool holds a lower chip against a release tape held by a suction force. The bonding tool has an electronic-component suction opening against which the lower chip is held and, surrounding the electronic-component suction opening, a trench that accommodates the release tape. The lower chip is heated, by being pressed against an underfill material and, thus, an area on which an upper chip is mounted is formed in such a manner that the underfill material protrudes out from the lower chip. During the heating, because an expanded part of the release tape, expanded due to heat, is inserted into the trench, no folded line is formed on the upper surface of the underfill material. | 02-23-2012 |
| 20120021625 | SOCKET AND METHOD OF FABRICATING THE SAME - A socket detachably connects a connecting item to a substrate via connecting terminals. The socket includes a support member with first and second surfaces to fix the connecting terminals, and penetrating holes formed in the support member. Each connecting terminal includes first and second connecting parts formed on opposite ends thereof. Each connecting terminal is inserted into a corresponding penetrating hole in a state in which the first connecting part is fixed to the first surface and the second connecting part projects from the second surface of the support member. | 01-26-2012 |
| 20120013021 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDCUTOR DEVICE - An electronic component incorporation substrate and a method for manufacturing the same that provide a high degree of freedom for selecting materials. An electronic component incorporation substrate includes a first structure, which has a substrate and an electronic component. The substrate includes a substrate body having first and second surfaces. A first wiring pattern is formed on the first surface and electrically connected to a second wiring pattern formed on the second surface through a through via. The electronic component is electrically connected to the first wiring pattern. The electronic component incorporation substrate includes a sealing resin, which seals the first structure, and a third wiring pattern, which is connected to the second wiring pattern through a second via. | 01-19-2012 |
| 20110318878 | MANUFACTURING METHOD OF SEMICONDUCTOR PACKAGES - Conductive core balls are joined to joint pads formed on an upper substrate. Core balls are joined to joint pads formed on an extending part of an upper-substrate substrate material. The joint pads formed on the extending part of the upper-substrate substrate material are joined to the joint pads formed on an extending part of a lower-substrate substrate material via the core balls. The joint pads formed in an area corresponding to the upper substrate of the upper-substrate substrate material are connected to the joint pads formed in an area corresponding to a lower substrate of the lower-substrate substrate material via the core balls and the conductive core balls. The upper-substrate substrate material is fixed to the lower-substrate substrate material by a mold resin supplied therebetween. The extending parts of the upper-substrate substrate material and the lower-substrate substrate material are removed, and the semiconductor packages are individualized. | 12-29-2011 |
| 20110316172 | SEMICONDUCTOR PACKAGE AND MANUFACTURING METHOD THEREOF - There is provided a semiconductor package that includes: a wiring board; a first semiconductor chip mounted on the wiring board; a second semiconductor chip mounted on the first semiconductor chip, wherein a size of second semiconductor chip is larger than that of the first semiconductor chip when viewed from a thickness direction of the semiconductor package; an insulating resin provided between the wiring board and the second semiconductor chip and between the wiring board and the first semiconductor chip so as to cover the first semiconductor chip; a base disposed on the wiring board to face a surface of the second semiconductor chip, wherein the insulating resin is provided between the base and the second semiconductor chip so as to cover the base. | 12-29-2011 |
| 20110316169 | WIRING SUBSTRATE AND METHOD FOR MANUFACTURING THE WIRING SUBSTRATE - A wiring substrate includes a substrate body including a first substrate surface and a second substrate surface, a trench being open toward the first substrate surface, the trench having an inner bottom surface and an inner side surface, a through-hole having a first end communicating with the inner bottom surface of the trench and a second end being open toward the second substrate surface, a first conductive layer having a first surface toward the trench and being filled inside at least a portion of the through-hole from the second end, a second conductive layer covering the first surface and at least a part of the inner bottom surface of the trench, and a third conductive layer covering the second conductive layer and being filled inside the trench. | 12-29-2011 |
| 20110316152 | MANUFACTURING METHOD OF SEMICONDUCTOR PACKAGES AND A SEMICONDUCTOR PACKAGE - Semiconductor chips are placed in recesses of a support carrier with electrode surfaces facing upward in a state where the semiconductor chips are arranged separately from each other. A seal resin part is formed by encapsulating the semiconductor chips by an insulating resin on said support carrier. Rewiring patterns are formed on a top surface of the seal resin part. External connection terminals are formed on the rewiring patterns. Bottom parts of the recesses of the support carrier are removed from the seal resin part while maintaining reinforcing members of the support carrier to be remained. The semiconductor packages are individualized by cutting the seal resin part along an outside of each reinforcing member. | 12-29-2011 |
| 20110316151 | SEMICONDUCTOR PACKAGE AND METHOD FOR MANUFACTURING SEMICONDUCTOR PACKAGE - A semiconductor package includes a board, an under fill resin layer provided on the board, and a semiconductor chip having a first face and a second face at an opposite side to the first face, the semiconductor chip being flip-chip mounted on the board via the under fill resin layer with the first face facing the board. The semiconductor chip is covered with the under fill resin layer over the first face and from the first face to an edge part of the second face. | 12-29-2011 |
| 20110316150 | SEMICONDUCTOR PACKAGE AND METHOD FOR MANUFACTURING SEMICONDUCTOR PACKAGE - A semiconductor package includes a first board, a semiconductor chip having a first face and a second face at an opposite side to the first face, the semiconductor chip being mounted on the first board with the first face facing the first board, an insulating film provided on the second face of the semiconductor chip, and a second board stacked on the first board. A bump provided on a face of the second board facing the first board is connected to a pad provided on a face of the first board facing the second board and a gap is formed between the first board and the second board. The semiconductor chip and the insulating film are provided in the gap. | 12-29-2011 |
| 20110316148 | WIRING SUBSTRATE - A wiring substrate includes plural wiring layers and plural insulation layers being alternately stacked one on top of the other. The plural insulation layers are formed with insulation resin having the same composition. The plural insulation layers are formed with a filler having the same composition. The filler content of each of the plural insulation layers ranges from 30 vol % or more to 65 vol % or less. The thermal expansion coefficient of each of the plural insulation layers ranges from 12 ppm/° C. or more to 35 ppm/° C. or less. | 12-29-2011 |
| 20110310229 | PROFILE MEASURING DEVICE, PROFILE MEASURING METHOD, AND METHOD OF MANUFACTURING SEMICONDUCTOR PACKAGE - There is provided a profile measuring device. The profile measuring device includes: a projector which projects a certain pattern on an object to be measured using incoherent light having a plurality of wavelength components; a first imaging device which captures a first image of the object on which the certain pattern is projected; a second imaging device which captures a second image of the object on which the certain pattern is projected; and a computing device which measures a profile of the object based on the first image and the second image. | 12-22-2011 |
| 20110309498 | SEMICONDUCTOR DEVICE - A semiconductor device includes a semiconductor substrate including a bump electrode, a first insulating layer formed on the semiconductor substrate and arranged to a lateral direction of the bump electrode, a first wiring layer formed on the first insulating layer and connected to the bump electrode, a second insulating layer formed on the first wiring layer, a via hole formed in the second insulating layer, and reaching the first wiring layer, a second wiring layer formed on the second insulating layer and connected to the first wiring layer via a via conductor formed in the via hole, and an external connection terminal connected to the second wiring layer, wherein an elastic modulus of the second insulating layer is set lower than an elastic modulus of the first insulating layer. | 12-22-2011 |
| 20110308849 | WIRING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A wiring substrate includes a first insulating layer formed as an outermost layer on one surface side, and exhibiting a black color or a gray color, a first connection pad formed to expose from the first insulating layer, a second insulating layer formed as an outermost layer on another surface side, and exhibiting a black color or a gray color, and a second connection pad formed to expose from the second insulating layer, wherein a connection hole having a side wall surface formed like a curved surface is formed in the second insulating layer, and the second connection pad is exposed to a bottom part of the connection hole. | 12-22-2011 |
| 20110304016 | WIRING BOARD, METHOD OF MANUFACTURING THE SAME, AND SEMICONDUCTOR DEVICE - A wiring board includes a structure in which a plurality of wiring layers are stacked with insulating layers interposed therebetween, a plurality of pads for mounting an electronic component, the pads being formed on an outermost insulating layer on one surface side of the structure and exposed to the surface of the outermost insulating layer, and a recessed portion formed at a place corresponding to a mounting area for the electronic component. The recessed portion is formed in the outermost insulating layer at an area between the pads to which electrode terminals of the electronic component to be mounted are to be connected, respectively. | 12-15-2011 |
| 20110300746 | SOCKET - A socket includes a first relay board provided above a mounting board; a second relay board detachably provided above the first relay board; and a frame part provided at side parts of the first relay board and the second relay board, wherein the frame part is configured to hold the first relay board and the second relay board and detachably configured to hold an electronic device being mounted above the second relay board; and the first connecting part comes in contact with the first relay board and the second connecting part comes in contact with a pad of the electronic device, so that the electronic device and the mounting board are electrically connected to each other. | 12-08-2011 |
| 20110297426 | WIRING SUBSTRATE AND MANUFACTURING METHOD THEREOF - A wiring substrate includes a wiring layer made of copper, an electrode layer made of copper, and an insulating layer arranged adjacent to the electrode layer. The wiring layer is stacked on the electrode layer and the insulating layer. The insulating layer and the wiring layer are stacked with an adhesive layer interposed between the insulating layer and the wiring layer. The electrode layer and the wiring layer are stacked with a copper alloy layer formed adjacent to the adhesive layer and interposed between the electrode layer and the wiring layer. | 12-08-2011 |
| 20110297425 | WIRING SUBSTRATE AND MANUFACTURING METHOD THEREOF - A wiring substrate includes a plurality of insulating layers; and a plurality of wiring layers being alternately laminated, wherein an opening portion is formed in an outermost insulating layer to expose a part of the outermost wiring layer to an outside, a cross-sectional shape of a sidewall of the opening portion is concaved and curved, and the outermost wiring layer has a recess on a side exposed to the outside. | 12-08-2011 |
| 20110291258 | HEAT RADIATION COMPONENT AND SEMICONDUCTOR PACKAGE INCLUDING SAME - A heat radiation component configured to be provided through a thermal interface material on a semiconductor device mounted on a board includes a first layer to be positioned on a first side and a second layer stacked on the first layer to be positioned on a second side farther from the semiconductor device than the first side. The coefficient of thermal expansion of the second layer is lower than the coefficient of thermal expansion of the first layer. | 12-01-2011 |
| 20110290536 | WIRING SUBSTRATE - A wiring substrate includes a wiring layer, and an insulating layer configured to cover the wiring layer, wherein the insulating layer is recognized to have any color in a range from purple to blue. | 12-01-2011 |
| 20110287671 | SOCKET - A socket includes a first relay board mounted on a mounting board, a second relay board detachably mounted on the first relay board, and a frame part fixed to the first relay board. The frame part positions and holds the first and second relay boards, and positions detachably and holds an object of connection on the second relay board. The first relay board includes first and second conductor layers on its first and second surfaces, respectively. The second conductor layer is electrically connected to the mounting board. The second relay board includes third and fourth conductor layers on its first and second surfaces, respectively; and first and second connection terminals with a spring characteristic on the third and fourth conductor layers, respectively. The first and second connection terminals contact the object of connection and the first conductor layer, respectively, to electrically connect the object of connection and the mounting board. | 11-24-2011 |
| 20110286692 | OPTICAL WAVEGUIDE DEVICE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing an optical waveguide device, includes obtaining an optical waveguide by forming sequentially a first cladding layer, a core layer, and a second cladding layer on a substrate, forming a groove portion including a light path conversion inclined surface and a sidewall surface which intersects with it, and the groove portion dividing the second cladding layer and the core layer, on both end sides of the optical waveguide respectively, forming selectively a metal layer on the light path conversion inclined surface and the sidewall surface of the groove portion, forming a protection insulating layer sealing the metal layer on the optical waveguide, and obtaining a light path conversion mirror that the metal layer is formed on the light path conversion inclined surface, by forming a concave portion which penetrates the core layer from the protection insulating layer to remove the metal layer formed on the sidewall surface of the groove portion. | 11-24-2011 |
| 20110286189 | METHOD OF FABRICATING WIRING BOARD AND METHOD OF FABRICATING SEMICONDUCTOR DEVICE - A method of fabricating a wiring board includes forming a resist layer, such as a solder or plating resist layer, defining an opening portion on a support board such that a portion of the support board is exposed. An electrode is formed directly on the support board within the opening portion, and the plating resist layer, when used, is removed. An insulating layer is formed on the electrode, as well as the support board or solder resist layer, and a wiring portion connected to the electrode at the insulating layer is also formed. A solder resist layer having an opening portion is then formed on the wiring portion, and the support board is removed to expose a surface of the electrode or a surface of the electrode and insulating layer. Another solder resist layer having an opening portion may then be formed on the exposed surface of the insulating layer. | 11-24-2011 |
| 20110283535 | WIRING BOARD AND METHOD OF MANUFACTURING THE SAME - A wiring board is provided. The wiring board includes: a resin substrate having a through-hole therethrough; metal foil patterns formed on the resin substrate; and a first wiring layer formed on the metal foil patterns and on an inner surface of the through-hole, wherein the first wiring layer includes: a first power feeding layer; and a first plated layer laminated on the first power feeding layer; a resin member filled in the through-hole and between adjacent wiring patterns of the first wiring layer, wherein an end surface of the resin member is flush with a surface of the first wiring layer; and a second wiring layer formed on the surface of the first wiring layer and formed to cover an end surface of the through-hole, wherein the second wiring layer includes: a second power feeding layer; and a second plated layer laminated on the second power feeding layer. | 11-24-2011 |
| 20110274388 | OPTOELECTRONIC COMPOSITE SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing an optoelectronic composite substrate, includes forming a first cladding layer in an area except the connection pad on a wiring substrate including a connection pad on an upper surface, forming a belt-like core layer on the first cladding layer, and obtaining an optical waveguide having a structure in which the core layer is surrounded by the first cladding layer and the second cladding layer, by forming a second cladding layer which covers the core layer. A thickness of the first cladding layer is set identically to a thickness of the connection pad, and thus a level difference caused by the connection pad is eliminated. | 11-10-2011 |
| 20110272773 | METHOD FOR MANUFACTURING SOLID-STATE IMAGE SENSING DEVICE, AND SOLID-STATE IMAGE SENSING DEVICE - A method for manufacturing a solid-state image sensing device, includes mounting a solid-state image sensor on a substrate, forming an elastic layer on a first surface of a glass lid, fixing the glass lid onto the solid-state image sensor with a bonding agent so that the glass lid covers the solid-state image sensor while a second surface opposite to the first surface of the glass lid faces the solid-state image sensor, electrically connecting a terminal provided on the solid-state image sensor, to a terminal provided on the substrate, through a wire, and encapsulating the wire and covering a side surface of the glass lid with a resin. | 11-10-2011 |
| 20110266697 | ELECTRONIC PART PACKAGE - A peeling off layer | 11-03-2011 |
| 20110260744 | PROBE CARD AND METHOD FOR MANUFACTURING PROBE CARD - A probe card for conducting an electrical test on a test subject includes a substrate body including a first surface, which faces toward the test subject, and a second surface, which is opposite to the first surface. A through electrode extends through the substrate body between the first surface and the second surface. A contact bump is formed in correspondence with the electrode pad and electrically connected to the through electrode. An elastic body is filled in an accommodating portion, which is formed in the substrate body extending from the first surface toward the second surface. The contact bump is formed on the elastic body. | 10-27-2011 |
| 20110258850 | Wiring substrate and method of manufacturing the same - In a method of manufacturing a wiring substrate of the present invention, a through-hole plating layer is formed from an inner surface of a through hole in a substrate to both surface sides, then a resin is filled in a through hole, and then a first resist in which an opening portion is provided on the through hole is formed. Then, a partial cover plating layer is formed in the opening portion in the first resist, then the first resist is removed, and then a second resist that covers a whole of the partial cover plating layer and has a pattern for patterning the through-hole plating layer is formed. Then, a pad wiring portion containing the partial cover plating layer and a wiring pattern are obtained by etching the through-hole plating layer while using the second resist as a mask. | 10-27-2011 |
| 20110256662 | CHIP EMBEDDED SUBSTRATE AND METHOD OF PRODUCING THE SAME - A method of producing a chip embedded substrate is disclosed. This method comprises a first step of mounting a semiconductor chip on a first substrate on which a first wiring is formed; and a second step of joining the first substrate with a second substrate on which a second wiring is formed. In the second step, the semiconductor chip is encapsulated between the first substrate and the second substrate and electrical connection is made between the first wiring and the second wiring so as to form multilayered wirings connected to the semiconductor chip. | 10-20-2011 |
| 20110253422 | WIRING BOARD AND METHOD OF MANUFACTURING THE SAME - A wiring board includes: an uppermost wiring layer formed on a prescribed number of underlying wiring layers, a portion of the uppermost wiring layer being exposed and used as a pad for connection with a component to be mounted; and an insulation resin layer covering the uppermost wiring layer, wherein the thickness of the portion of the uppermost wiring layer is larger than that of other portions thereof. | 10-20-2011 |
| 20110244631 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD, SEMICONDUCTOR DEVICE, AND WIRING BOARD - In a semiconductor device manufacturing method, a semiconductor chip is mounted on a support board so as to expose a side of the semiconductor chip on which a plurality of terminal electrodes are provided. An insulating layer is formed so as to cover the side of the semiconductor chip on which the terminal electrodes are provided. Through electrodes connecting to the terminal electrodes and piercing the insulating layer are formed. Metal wirings connecting to the through electrodes are formed on the insulating layer. External terminal electrodes connecting the metal wiring are formed. Second spacing, spacing between the adjacent external terminal electrodes, is larger than first spacing, spacing between the adjacent terminal electrodes. | 10-06-2011 |
| 20110227218 | SILICON SUBSTRATE FOR PACKAGE - In a silicon substrate for a package, a through electrode is provided with which a through hole passing through from a bottom surface of a cavity for accommodating a chip of an electronic device to a back surface of the substrate is filled. An end part of the through electrode in the bottom surface side of the cavity has a connection part to a wiring that forms an electric circuit including the chip of the electronic device. The silicon substrate for a package is characterized in that (1) a thin film wiring is included as the wiring and the connection part is reinforced by a conductor connected to the thin film wiring and/or (2) a wire bonding part is included as the wiring and the connection part is formed by wire bonding the end part of the through electrode in the bottom surface side of the cavity. | 09-22-2011 |
| 20110227214 | WIRING BOARD AND METHOD OF MANUFACTURING THE SAME, AND SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A wiring board has a structure where multiple wiring layers are stacked one on top of another with insulating layers interposed therebetween. A sheet-shaped member is buried in an outermost insulating layer located on a side of the structure opposite to a side on which a semiconductor element is to be mounted. The sheet-shaped member has a modulus of elasticity and a coefficient of thermal expansion which are similar to a modulus of elasticity and a coefficient of thermal expansion of the semiconductor element. The sheet-shaped member is made of a material having a modulus of elasticity and a coefficient of thermal expansion which are enough to bring respective distributions thereof into a substantially symmetric form in a direction orthogonal to a surface of the wiring board in the case where the semiconductor element is mounted. | 09-22-2011 |
| 20110221069 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device includes a semiconductor element having a first surface on which an electrode terminal is formed, and a second surface located opposite to the first surface. The semiconductor device further includes a first insulating layer in which the semiconductor element is buried, and second insulating layers and wiring layers formed in such a manner that at least one insulating layer and at least one wiring layer are formed on each of both surfaces of the first insulating layer. The electrode terminal of the semiconductor element is connected to a first wiring layer located on the first surface side through a first via formed in the first insulating layer, and the first wiring layer is connected to a second wiring layer located on the second surface side through a second via formed in the first insulating layer. | 09-15-2011 |
| 20110220404 | WIRING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A wiring substrate includes a composite substrate including an oxidized aluminum substrate portion in which a large number of penetration conductors penetrating in a thickness direction are provided, and a frame-like aluminum substrate portion provided around the oxidized aluminum substrate portion, and a wiring layer of n layers (n is an integer of 1 or more) connected to the penetration conductors. | 09-15-2011 |
| 20110207346 | SOCKET AND SEMICONDUCTOR DEVICE INCLUDING SOCKET AND SEMICONDUCTOR PACKAGE - A socket includes: a circuit board; a plurality of connection terminals disposed on the circuit board; a plurality of contacts each fixed to a corresponding one of the connection terminals, wherein each of the contacts is formed of a conductive elastic member, each of the contacts comprising: a tail portion fixed to the corresponding connection terminal; an extending portion connected to the tail portion and extending in a direction substantially parallel with a surface of the circuit board; a rise portion connected to the extending portion and extending in a direction substantially perpendicular to the surface of the circuit board; and a tip portion connected to the rise portion. | 08-25-2011 |
| 20110188802 | OPTICAL WAVEGUIDE BOARD - An optical waveguide board includes: an optical waveguide configured to transmit an optical signal to and from a light receiving element and a light emitting element; wiring patterns that are electrically connected with the light receiving and emitting elements, respectively; and supporting members disposed on the wiring patterns on sides of end parts of the optical waveguide, the supporting members supporting the light receiving and emitting elements, respectively; wherein each of the supporting members includes: a conduction portion that electrically connects a corresponding one of the light receiving and emitting elements and the wiring pattern; and a smooth surface configured to reflect the optical signal appearing between the corresponding one of the light receiving and emitting elements and the optical waveguide. | 08-04-2011 |
| 20110187002 | SEMICONDUCTOR DEVICE AND ITS MANUFACTURE METHOD - A support substrate includes a first surface and a second surface located above the level of the first surface. Chips are mounted on the first surface. A first insulating film is disposed over each chip. First conductive plugs are connected to the chip extending through each first insulating film. Filler material made of resin filling a space between chips. Wirings are disposed over the first insulating film and the filler material for interconnecting different chips. The second surface, an upper surface of the first insulating film and an upper surface of the filler material are located at the same level. | 08-04-2011 |
| 20110176286 | LEAD PIN AND WIRING SUBSTRATE WITH LEAD PIN - A lead pin includes a shaft portion, and a connection head portion which is provided on a top end side of the shaft portion and has a diameter larger than a diameter of the shaft portion, and whose whole outer surface is formed of a spherical surface. The connection head portion is formed of a ball shape, an oval spherical shape, or a teardrop-like shape, and also the connection head portion of the lead pin is connected to a wiring substrate by the reflow soldering. | 07-21-2011 |
| 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 |
| 20110169164 | WIRING SUBSTRATE, MANUFACTURING METHOD THEREOF, AND SEMICONDUCTOR PACKAGE - A disclosed wiring substrate includes an insulating layer, a recess formed on a surface of the insulating layer, and an alignment mark formed inside of the recess, wherein a face of the alignment mark is roughened, recessed from the surface of the insulating layer, and exposed from the recess. | 07-14-2011 |
| 20110169133 | WIRING SUBSTRATE, METHOD FOR MANUFACTURING WIRING SUBSTRATE, AND SEMICONDUCTOR PACKAGE INCLUDING WIRING SUBSTRATE - A wiring substrate includes a ceramic substrate including plural ceramic layers, an inner wiring, and an electrode electrically connected to the inner wiring, the electrode exposed on a first surface of the ceramic substrate, and a silicon substrate body having a front surface and a back surface situated on an opposite side of the front surface and including a wiring pattern formed on the front surface and a via filling material having one end electrically connected to the wiring pattern and another end exposed at the back surface. The back surface is bonded to the first surface of the ceramic substrate via a polymer layer. The via filling material penetrates through the polymer layer and is directly bonded to the electrode. | 07-14-2011 |
| 20110156264 | SEMICONDUCTOR ELEMENT BUILT-IN DEVICE - A semiconductor element built-in device includes: a first substrate having a first pad thereon; a semiconductor element on the first substrate; a second substrate having a second pad thereon and mounted on the first substrate via a solder terminal having a solder coated thereon; a resin layer provided between the first substrate and the second substrate such that the solder terminal and the semiconductor element are embedded in the resin layer; and a dam provided at least partially around at least one of the first and second pads, the dam being configured to restrain the solder flowing from the solder terminal. | 06-30-2011 |
| 20110156242 | SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THE SAME - There is provided a method of manufacturing a semiconductor package. The method includes: (a) providing a silicon wafer comprising a first surface and a second surface opposite to the first surface; (b) forming vias through the silicon wafer in its thickness direction; (c) forming wiring patterns on the first surface of the silicon wafer such that the wiring patterns are electrically connected to the vias; (d) bonding a MEMS element wafer comprising MEMS elements onto the second surface of the silicon wafer such that the MEMS elements are electrically connected to the vias; (e) dividing the MEMS element wafer into the respective MEMS elements; (f) bonding a lid having concave portions therein onto the second surface of the silicon wafer such that the respective MEMS elements face a corresponding one of the concave portions; and (g) dicing the lid and the silicon wafer. | 06-30-2011 |
| 20110156228 | SEMICONDUCTOR DEVICE - A semiconductor device includes a structure in which a semiconductor element (chip) is mounted in a cavity formed in a wiring board with an adhesive interposed between the chip and a bottom surface of the cavity, and electrode terminals of the chip are connected via wires to wiring portions formed on the board around the cavity. The chip is mounted in close contact with a side wall of the cavity, the side wall being near a region where a wiring for higher frequency compared with other wirings within the wiring portion is formed. A recessed portion is provided in a region of the bottom surface of the cavity, and a thermal via extending from the bottom surface of the recessed to the outside of the board is provided, the region being near a portion where the chip is in close contact. | 06-30-2011 |
| 20110155442 | MULTILAYER WIRING BOARD - A multilayer wiring board has a structure in which vias are formed on an inner wiring layer in directions toward both surfaces of the inner wiring layer, respectively, and lands are each defined in the inner wiring layer at a position to be connected to one of the vias, each of the lands having a side surface formed in a tapered shape. The lands include first lands and second lands, and the vias include a via connected to a surface on a smaller diameter side of the first land, and a via connected only to a surface on a larger diameter side of the second land. The size of the surface of the larger diameter side of the second land is equal to the size of the surface of the smaller diameter side of the first land. | 06-30-2011 |
| 20110155439 | MULTILAYER WIRING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - The multilayer wiring substrate includes: a first insulating layer comprising a first surface and a second surface opposite to the first surface; a second insulating layer on the first surface of the first insulating layer; a first wiring pattern on the second surface of the first insulating layer; a second wiring pattern on a surface of the second insulating layer; a first via formed through the first insulating layer; a second via formed through the second insulating layer; and a third wiring pattern formed on the first surface of the first insulating layer and embedded in the second insulating layer, the third wiring pattern having a hole therethrough. A diameter of the hole is smaller than each diameter of the first and second vias. The first via and the second via are connected to each other through a metal filled in the hole of the third wiring pattern. | 06-30-2011 |
| 20110151645 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - A manufacturing method of a semiconductor device, including a first step of forming a first electrode pad at an external edge part of a semiconductor chip mounting area of a supporting board; a second step of fixing a rear surface of a semiconductor chip having a main surface, the main surface where a second electrode pad is formed, to an inside of an area of the main surface of the supporting board, the area where the first electrode pad is formed; a third step of forming a first internal connecting terminal on the first electrode pad, and forming a second internal connecting terminal on the second electrode pad; and a fourth step of forming a first insulation layer on the main surface of the supporting board. | 06-23-2011 |
| 20110150405 | METHOD OF MANUFACTURING OPTICAL WAVEGUIDE, OPTICAL WAVEGUIDE AND OPTICAL TRANSMISSION DEVICE - A method for manufacturing an optical waveguide which includes a core configured to transmit an optical signal, and a mirror portion configured to reflect the optical signal, the method includes: forming a mask layer patterned in a predetermined shape, on a first crystal plane of a substrate made of a crystalline material; etching the first crystal plane by a wet-etching using the mask layer to form a groove having a plurality of crystal planes; providing a metallic reflection film on at least one of the plurality of crystal planes to form the mirror portion; and providing the groove with a core material to form the core. | 06-23-2011 |
| 20110149537 | HEAT-RADIATING COMPONENT AND ELECTRONIC COMPONENT DEVICE - A heat-radiating component is bonded via a thermal interface material (TIM) to an electronic component (chip) mounted on a wiring board. The heat-radiating component includes a plate-like portion thermally bonded to the chip through the TIM, and a foot portion formed on a surface which faces the electronic component, of the plate-like portion. The foot portion is formed in a ring shape at a position which surrounds a region corresponding to a mounting area of the electronic component, on the inner side of the periphery of the plate-like portion. | 06-23-2011 |
| 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 |
| 20110147924 | WIRING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A wiring substrate includes an insulating layer, a wiring layer buried in the insulating layer, and a connection pad connected to the wiring layer via a via conductor provided in the insulating layer and in which at least a part is buried in an outer surface side of the insulating layer, wherein the connection pad includes a first metal layer (a first copper layer) arranged on the outer surface side, an intermediate metal layer (a nickel layer) arranged on a surface of an inner layer side of the first metal layer, and a second metal layer (a second copper layer) arranged on a surface of an inner layer side of the intermediate metal layer, and a hardness of the intermediate metal layer is higher than a hardness of the first metal layer and the second metal layer. | 06-23-2011 |
| 20110140286 | MULTILAYER WIRING SUBSTRATE MOUNTED WITH ELECTRONIC COMPONENT AND METHOD FOR MANUFACTURING THE SAME - A multilayer wiring substrate mounted with an electronic component includes an electronic component, a core material layer having a first opening for accommodating the electronic component, a resin layer which is formed on one surface of the core material layer and which has a second opening greater than the first opening, a supporting layer which is formed on the other surface of the core material layer and which supports the electronic component, a plurality of connection conductor sections which are provided around the first opening and within the second opening on the one surface of the core material layer, bonding wires for electrically connecting the electronic component to the connection conductor sections, and a sealing resin filled into the first and second openings in order to seal the electronic component and the bonding wires. | 06-16-2011 |
| 20110139502 | WIRING BOARD MANUFACTURING METHOD, SEMICONDUCTOR DEVICE MANUFACTURING METHOD AND WIRING BOARD - A semiconductor device | 06-16-2011 |
| 20110136270 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing a semiconductor device, the semiconductor device including an integrated circuit having plural connection terminals arranged on a predetermined local region of the integrated circuit, plural metal bumps, and a wiring layer connected to at least a portion of the connection terminals via the plural metal bumps, the method includes the steps of a) measuring an impedance value of the predetermined local region of the integrated circuit, b) determining whether the measured impedance value matches a predetermined impedance value, c) determining positions of the plural metal bumps in accordance with the determination result of step b), d) forming the plural metal bumps on the positions determined in step c), and e) forming the wiring layer on the plural metal bumps. | 06-09-2011 |
| 20110133342 | WIRING BOARD, MANUFACTURING METHOD OF THE WIRING BOARD, AND SEMICONDUCTOR PACKAGE - A wiring board includes a ceramic substrate including a plurality of stacked ceramic layers, an internal wiring, and an electrode, the internal wiring being electrically connected to the electrode, the electrode being exposed from a first surface of the ceramic substrate; and a silicon substrate including a wiring layer, the wiring layer including a wiring pattern and a via-fill, the wiring pattern being formed on a main surface of the silicon substrate, an end of the via-fill being electrically connected to the wiring pattern, another end of the via-fill being exposed from a rear surface of the silicon substrate positioned opposite to the main surface, wherein the rear surface of the silicon substrate is anodically bonded to the first surface of the ceramic substrate; and the via-fill of the silicon substrate is directly connected to the electrode of the ceramic substrate. | 06-09-2011 |
| 20110133341 | SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THE SAME - There is provided a method of manufacturing a semiconductor package. The method includes: (a) providing a semiconductor chip having a first surface and a second surface opposite to the first surface, wherein a pad is formed on the first surface; (b) disposing the semiconductor chip on a supporting substrate such that the first surface is directed upward; (c) forming an encapsulation resin layer on the supporting substrate so as to cover the semiconductor chip; and (d) polishing the encapsulation resin layer to expose a top surface of the pad. | 06-09-2011 |
| 20110129182 | OPTICAL WAVEGUIDE DEVICE AND METHOD OF MANUFACTURING THE SAME - An optical waveguide device includes a wiring substrate, an optical waveguide bonded on the wiring substrate and having a light path conversion inclined surface on both ends, and a light path conversion mirror formed to contact the light path conversion inclined surface of the optical waveguide and formed of a light reflective resin layer or a metal paste layer. In case the light reflective resin layer is used as the light path conversion mirror, the light reflective resin layer may be formed partially only on the side of the light path conversion inclined surface, or may be formed on the whole of the wiring substrate to coat the optical waveguide. | 06-02-2011 |
| 20110127655 | SEMICONDUCTOR DEVICE - A semiconductor device includes a semiconductor element, a wiring board including a conductor portion formed on a first surface thereof on which the semiconductor element is mounted, the conductor portion being electrically connected to the semiconductor element, and a concave cap provided to seal the first surface of the wiring board, the concave cap being mounted through an adhesive on the first surface of the wiring board | 06-02-2011 |
| 20110127013 | HEAT-RADIATING COMPONENT AND METHOD OF MANUFACTURING THE SAME - A heat-radiating component includes a wick layer formed on an inner wall of a hermetically sealed container made of metal and a working fluid encapsulated in the hermetically sealed container. In the wick layer, micro carbon fiber is mixed into metal powder. In one aspect, the wick layer is a structure combined by a first wick and a second wick, the first wick being formed of sintered metal powder, and the second wick being a plating layer into which micro carbon fiber is mixed so as to partially fill air space inside the first wick while covering a surface of the first wick. The first wick is preferably a body sintered copper powder, and the second wick is preferably made of a copper plating layer into which carbon nanotube or carbon nanofiber is mixed. | 06-02-2011 |
| 20110106287 | Wiring forming system and wiring forming method for forming wiring on wiring board - A wiring forming system comprises: maskless exposure unit which directly exposes an unexposed board by using exposure data generated based on design data relating to an wiring board; post-development inspect unit which tests the board after development, by using the exposure data and the image data of the board exposed and developed by the maskless exposure unit; etching unit which etches the developed board; and post-etching inspect unit which tests an etching pattern formed on the etched board, by using etching inspect data generated based on the design data and the image data of the board etched by the etching unit. | 05-05-2011 |
| 20110104858 | METHOD OF MANUFACTURING SEMICONDUCTOR ELEMENT MOUNTED WIRING BOARD - A semiconductor element sealed substrate including a semiconductor element covered by an insulating layer is fabricated while a wiring substrate formed by stacking wiring layers is fabricated by a process different from the process of fabricating the semiconductor element sealed substrate. Next, the semiconductor element sealed substrate and the wiring substrate are stacked on each other in such a way that electrode terminals of the semiconductor element and corresponding conductive bumps on the outermost wiring layer face each other. The electrode terminals and the conductive bumps are thus connected to each other. | 05-05-2011 |
| 20110103029 | LEAD PIN AND WIRING SUBSTRATE WITH LEAD PIN, AND METHOD OF MANUFACTURING THE SAME - A lead pin includes a shaft portion, a connection head portion provided to a top end side of the shaft portion, and having a diameter which is larger than a diameter of the shaft portion, wherein the connection head portion includes a bonding surface on an opposite side to the shaft portion side, and the bonding surface includes a flat surface provided in a center part, a convex surface which is provided like a ring shape to an outside of the flat surface and rounded by a radius R like a convex shape, and a concave surface which is provided like a ring shape to an outside of the convex surface and rounded by a radius R like a concave shape. | 05-05-2011 |
| 20110101349 | SEMICONDUCTOR PACKAGE, METHOD OF EVALUATING SAME, AND METHOD OF MANUFACTURING SAME - A semiconductor package includes a wiring board, a semiconductor device mounted on the wiring board, an electrically-conductive thermal interface material provided on the semiconductor device, a test electrode in contact with a first surface of the thermal interface material to be electrically connected to the thermal interface material, and an electrically-conductive heat spreader in contact with a second surface of the thermal interface material opposite to its first surface. | 05-05-2011 |
| 20110099806 | Method of manufacturing a multilayer wiring board - First, a unilayer wiring board is fabricated, which has wiring layers formed in desired shapes on both sides of an insulating base member; and a metal bump formed on the wiring layer on one side of the insulating base member. Then, a desired number of unilayer boards are prepared and stacked up. On that case, the board disposed in the uppermost layer is prepared without having a metal bump. The boards are positioned and stacked up in such a manner that a metal bump of one of adjacent boards is connected to a corresponding wiring layer of the other board. Thereafter, resin is filled into gaps between the stacked boards, and insulating layers are formed on both sides of a multilayer board obtained through the above steps, in such a manner as to cover the entire surface except pad areas defined at predetermined positions on the wiring layers. | 05-05-2011 |
| 20110096461 | SUBSTRATE FOR ELECTROSTATIC CHUCK AND ELECTROSTATIC CHUCK - An electrostatic chuck includes a metal base member and an insulating substrate having an opposite surface to an attraction surface joined onto the base member via an adhesive layer. In the substrate, an electrode layer to which a direct current voltage for attraction is applied is embedded in a portion of the substrate, close to the attraction surface. In addition, a plurality of independent RF electrode layers to which different radio frequencies for plasma control are fed, respectively, are embedded in portions of the substrate, at an opposite side of the first electrode layer to the attraction surface. The RF electrode layers are arranged separately in different layers which are not on an identical plane in such a manner as to partially overlap each other in a plan view. | 04-28-2011 |
| 20110096460 | ELECTROSTATIC CHUCK - An electrostatic chuck has a structure in which a heater is sandwiched between a base member and an electrostatic chuck substrate, the heater being bonded to the base member with an adhesive layer interposing therebetween. The adhesive layer interposing between the heater and the base member has a structure in which a first adhesive layer and a second adhesive layer are stacked, the first adhesive layer being formed by curing an adhesive having high thermal conductivity, the second adhesive layer being formed as gel by curing an adhesive having lower viscosity than the adhesive of the first adhesive layer. Preferably, the first and second adhesive layers are both made of a silicone-based resin. | 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 |
| 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 |
| 20110095404 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A disclosed semiconductor device includes a semiconductor chip having an electrode pad on a circuit forming face of the semiconductor chip, an internal connection terminal formed on the electrode pad, a stepped portion formed along an outer edge portion of the circuit forming face of the semiconductor chip, a first insulating layer formed on the circuit forming face of the semiconductor chip to cover at least the stepped portion, a second insulating layer formed on the circuit forming face of the semiconductor chip to cover the first insulating layer, and an interconnection formed on the second insulating layer and electrically connected to the electrode pad via the internal connection terminal. | 04-28-2011 |
| 20110092020 | METHOD FOR PRODUCING ELECTRONIC PART PACKAGE - A peeling off layer | 04-21-2011 |
| 20110090650 | THERMAL CONDUCTIVE MEMBER, MANUFACTURING METHOD OF THE THERMAL CONDUCTIVE MEMBER, HEAT RADIATING COMPONENT, AND SEMICONDUCTOR PACKAGE - A thermal conductive member includes linear high thermal conductivity materials; a first solder layer provided at first end sides of the linear high thermal conductivity materials; and a second solder layer provided at second end sides of the linear high thermal conductivity materials; wherein at least one of the first end sides and the second end sides of the linear high thermal conductivity materials are connected to the first solder layer or the second solder layer. | 04-21-2011 |
| 20110083836 | HEAT RADIATING COMPONENT - A heat radiating component provided on a semiconductor package, the heat radiating component coming in contact with a semiconductor element, the heat radiating component includes a heat radiating plate having a concave part; linear high thermal conductivity materials formed on a bottom surface of the concave part so as to stand in a thermal conductive direction; first and second resin layers configured to fill space parts formed by the neighboring linear high thermal conductivity materials, the first and the second resin layers being stacked on the bottom surface of the concave part in order to expose head end parts of the linear high thermal conductivity materials; and a metal layer formed on an upper surface of the second resin layer and at least a portion of a surface of the heat radiating plate where the concave part is formed. | 04-14-2011 |
| 20110080713 | INTERPOSER MOUNTED WIRING BOARD AND ELECTRONIC COMPONENT DEVICE - An interposer mounted wiring board includes a wiring board including outermost wiring layers respectively on both surfaces thereof, the outermost wiring layers being electrically connected to each other through an inside of the board, and first and second interposers electrically connected to the outermost wiring layers on the both surfaces of the board, respectively. Each of the first and second interposers has a value of a coefficient of thermal expansion (CTE), the value being equal or close to a value of a CTE of a corresponding one of first and second electronic components to be mounted respectively on the first and second interposers. The base member of each of the interposers is preferably formed of silicon, and the base member of the wiring board is preferably formed of resin. Further, the electronic components are mounted respectively on surfaces of the interposers and thus form a semiconductor device, the surfaces being opposite to the surfaces of the interposers facing the wiring board. | 04-07-2011 |
| 20110080247 | Inductor and Manufacturing Method Thereof - An inductor includes a core substrate including minute column-like electrical conductors extending between a front surface and a back surface of the core substrate. Each column-like electrical conductor is insulated from adjacent column-like electrical conductors by being surrounded by an insulating material. Insulation layers are formed on the front surface and the back surface of the core substrate, respectively. At least two connection electrical conductors extend through each of the insulation layers. Each connection electrical conductor is electrically connected to a plurality of the column-like electrical conductors. Wirings are formed on each of the insulation layers to connect said connection electrical conductors to each other electrically. The wirings, the connection electrical conductors and the column-like electrical conductors are connected to form a coil in a three-dimensional manner. | 04-07-2011 |
| 20110079913 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a semiconductor device, includes temporarily fixing a semiconductor chip to a supporting member to direct a connection electrode toward the supporting member side, forming an insulating layer for preventing resin-permeation covering the semiconductor chip, on the supporting member and the semiconductor chip, forming a resin substrate sealing a periphery and a back surface side of the semiconductor chip, on the insulating layer, and removing the supporting member to expose the connection electrode of the semiconductor chip. A build-up wiring is connected directly to the connection electrode of the semiconductor chip. | 04-07-2011 |
| 20110074438 | STACKED SEMICONDUCTOR DEVICE AND METHOD OF CONNECTION TEST IN THE SAME - A stacked semiconductor device includes a first semiconductor device equipped with a first semiconductor chip | 03-31-2011 |
| 20110073648 | READER/WRITER AND MANUFACTURING METHOD THEREOF - A reader/writer comprises a circuit board, a communication control portion mounted on the circuit board and configured to perform communication with IC tags, sealing resin for sealing the communication control portion; and an antenna electrically connected to the communication control portion, in which a resin layer is disposed on the sealing resin, the resin layer having a higher adhesiveness to a conductive film used as the antenna than that of the sealing resin, and the antenna is disposed on the resin layer. | 03-31-2011 |
| 20110062578 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device includes a semiconductor chip having a connection electrode on a surface side, and a resin substrate sealing a periphery of the semiconductor chip and formed to have a thickness from a back surface of the semiconductor chip to a lower side thereof, and the resin substrate whose lower surface is positioned to a lower side than the back surface of the semiconductor chip. A wiring layer is connected directly to the connection electrode of the semiconductor chip without the intervention of solder. | 03-17-2011 |
| 20110053392 | BOARD WITH CONNECTION TERMINALS - Connection terminals each include: a bonding portion bonded to a pad of a substrate; a contacting portion disposed to face the bonding portion; a spring portion present between the bonding portion and the contacting portion; and an engaging portion engaged with a portion of a slit provided in a plate-like member. These constituent portions of the connection terminal are formed integrally with each other. The plate-like member has recessed portions formed at predetermined positions, and the connection terminals are electrically connected to the pads of the substrate with the bonding portions of the connection terminals being locked to the recessed portions. | 03-03-2011 |
| 20110045642 | METHOD OF MANUFACTURING SEMICONDUCTOR PACKAGE - A method of manufacturing a semiconductor package comprises: preparing a photosensitive insulating material having a first surface and a second surface opposite to the first surface; bonding a semiconductor chip to the first surface of the photosensitive insulating material with a connecting terminal of the semiconductor chip facing the first surface of the photosensitive insulating material; exposing the second surface of the photosensitive insulating material after the bonding the semi-conductor to the first surface of the photosensitive material; encapsulating the first surface of the photosensitive insulating material, and the semiconductor chip bonded to the first surface, with a resin to form a resin encapsulated portion after exposing the second surface of the photosensitive insulating material; and developing the photosensitive insulating material, thereby forming a through-hole communicating with the connecting terminal of the semiconductor chip in the photosensitive insulating material after the exposing the second surface of the photosensitive insulating material. | 02-24-2011 |
| 20110039370 | Electronic parts packaging structure and method of manufacturing the same - In an electronic parts packaging structure of the present invention constructed by stacking a plurality of sheet-like units in a thickness direction, each of the units includes a first insulating layer, wirings formed on one surface of the first insulating layer, a semiconductor chip (electronic parts) connected to the wirings, a second insulating layer formed on an one surface side of the first insulating layer to cover the semiconductor chip, and connecting portions (terminals and contact vias) for connecting electrically the wirings and wirings of other unit, wherein arrangement of the first insulating layer, the semiconductor chip, the wirings, and the second insulating layer is symmetrical between units adjacent in a thickness direction. | 02-17-2011 |
| 20110034022 | SEMICONDUCTOR PACKAGE AND FABRICATION METHOD - A semiconductor package and a fabrication method thereof are disclosed, whereby an environmental problem is solved by using external connection terminals or semiconductor element-mounting terminals containing a smaller amount of lead, while at the same time achieving a fine pitch of the terminals. The semiconductor package includes a board ( | 02-10-2011 |
| 20110032710 | LIGHT-EMITTING DEVICE AND METHOD FOR MANUFACTURING THE SAME - A light-emitting device including a light-emitting element and a substrate where the light-emitting element is arranged. A housing part housing the light-emitting element and having a shape that is tapered upward from the substrate and a metal frame surrounding the light-emitting element and including the side face of the housing part made into an almost mirror-polished surface are provided on the substrate. | 02-10-2011 |
| 20110027990 | SEMICONDUCTOR CHIP AND METHOD OF MANUFACTURING THE SAME - A semiconductor chip includes a semiconductor substrate, a through via provided in a through hole that passes through the semiconductor substrate, insulating layers laminated on the semiconductor substrate, a multi-layered wiring structure having a first wiring pattern and a second wiring pattern, and an external connection terminal provided on an uppermost layer of the multi-layered wiring structure, wherein the through via and the external connection terminal are connected electrically by the second wiring pattern. | 02-03-2011 |
| 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 |
| 20110012255 | SEMICONDUCTOR DEVICE - A semiconductor device includes a wiring substrate, a first semiconductor chip mounted on the wiring substrate, a second semiconductor chip mounted to the wiring substrate in a lateral direction thereof, a first radiation unit connected to the first semiconductor chip, and arranged to extend from an upper side of the first semiconductor chip to an upper side the second semiconductor chip, and a second radiation unit connected to the second semiconductor chip, and arranged to extend from an lower side of the first radiation unit to an outside thereof in a non-contact state to the first radiation unit. | 01-20-2011 |
| 20110010932 | WIRING BOARD, SEMICONDUCTOR DEVICE HAVING WIRING BOARD, AND METHOD OF MANUFACTURING WIRING BOARD - The present disclosure relates to a method of manufacturing a wiring board. The method includes: (a) preparing a first board having a pad; (b) providing an insulating member on the first board, wherein a size of the insulating member is larger than that of the first board, when viewed from the top; (c) forming a via in the insulating member such that the via is directly connected to the pad; and (d) repeatedly forming a wiring layer and an insulating layer on the insulating member in which the via is formed, thereby forming a second board. | 01-20-2011 |
| 20110002370 | SAMPLING POINT DETECTION CIRCUIT, TRANSMISSION SYSTEM, PRE-EMPHASIS INTENSITY ADJUSTMENT METHOD, LOGIC ANALYZER, AND EVALUATION METHOD FOR EVALUATING TRANSMISSION PATH - A sampling point detection circuit | 01-06-2011 |
| 20110000706 | MULTILAYER WIRING SUBSTRATE - A multilayer wiring substrate includes a center wiring layer arranged in a center of the substrate in a thickness direction, and wiring layers stacked on one side of the center wiring layer and the other side of the center wiring layer via an insulating layer. The wiring layers on one side of the center wiring layer and the wiring layers on the other side are provided in a same layer number. The insulating layers on one side of the center wiring layer and the insulating layers on the other side are provided in a same layer number. | 01-06-2011 |
| 20100323297 | METHOD OF MANUFACTURING OPTICAL WAVEGUIDE LAMINATED WIRING BOARD - A via hole is formed in a first cladding layer laminated on a wiring board. A conductive material is filled in the via hole so as to form a first conductor portion (a portion of a conductive via) having a mushroom-like shape projecting from a surface of the first cladding layer. Then, a second cladding layer is formed to cover the first conductor portion, the first cladding layer and a core layer, and a via hole is formed in the second cladding layer. A conductive material is filled in the via hole so as to form a second conductor portion (a remaining portion of the conductive via) connected to the first conductor portion. | 12-23-2010 |
| 20100320622 | ELECTRONIC COMPONENT BUILT-IN WIRING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - In an electronic component built-in wiring substrate, an electronic component is mounted on a first wiring substrate. A second wiring substrate is stacked on the first wiring substrate and is connected electrically to the first wiring substrate by connection terminals. The second wiring substrate has an opening portion of a size larger than a planar area of the electronic component. An underfill resin is filled in a first space between the first wiring substrate and the electronic component, and has a raised portion which is raised along an outer peripheral side surface of the electronic component, seals a clearance between an inner peripheral edge of the opening portion and an outer peripheral edge of the electronic component and supports the second wiring substrate. A sealing resin is filled in a second space between the first and second wiring substrates. | 12-23-2010 |
| 20100316343 | OPTICAL WAVEGUIDE AND METHOD OF MANUFACTURING THE SAME, AND OPTICAL WAVEGUIDE MOUNTED BOARD - A first clad layer is formed on a first substrate, and further first cores extending in parallel to each other in one direction are formed on the first clad layer. Separately from this, a second clad layer is formed on a second substrate, and further second cores extending in parallel to each other in a direction parallel to the first cores are formed on the second clad layer. Next, the first substrate and the second substrate are integrated with a third clad layer interposed therebetween in such a manner that a surface of the first substrate having the first cores formed thereon faces a surface of the second substrate having the second cores formed thereon, to thereby form an optical waveguide. | 12-16-2010 |
| 20100314254 | METHOD OF MANUFACTURING WIRING SUBSTRATE - There is provided a method of manufacturing a wiring substrate. The method includes: (a) forming a first resist layer having first openings therein on a first surface of a support plate, forming first plated films in the first openings by an electrolytic plating method, and removing the first resist layer; (b) forming a second resist layer having second openings therein on the first surface of the support plate, forming second plated films in the second openings by an electrolytic plating method, and removing the second resist layer; (c) forming a wiring layer and an insulating layer such that the wiring layer is electrically connected to the first and second plated films; and (d) removing the support plate to expose the first and second plated films. | 12-16-2010 |
| 20100309316 | CAMERA MODULE AND METHOD OF MANUFACTURING THE SAME - A camera module includes: a lens unit including a casing portion and a lens; and a substrate portion on which an image pick-up element is mounted. The camera module is assembled in combination of the lens unit and the substrate portion in an arrangement in which the lens and the image pick-up element are opposed to each other. The substrate portion includes: a first substrate including one of surfaces on which the image pick-up element is mounted; an infrared filter supported on a light receiving face of the image pick-up element; and a second substrate supported on a surface of the infrared filter which is opposed to the lens. The second substrate includes an opening portion disposed in alignment with the infrared filter so as not to intercept an incident light. A circuit component is mounted on the second substrate. | 12-09-2010 |
| 20100308451 | WIRING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - There is provided a wiring substrate. The wiring substrate includes: an insulating layer; first electrode pads having first exposed surfaces, the first exposed surfaces being exposed from the insulating layer; and second electrode pads having second exposed surfaces, the second exposed surfaces being exposed from the insulating layer. There is a level difference between the first exposed surfaces and the second exposed surfaces. | 12-09-2010 |
| 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 |
| 20100299918 | METHOD OF MANUFACTURING ELECTRONIC COMPONENT DEVICE - A recessed portion is formed in a predetermined position in a heat-spreading component. A thermoplastic resin serving as a thermal interface material (TIM) is stored in the recessed portion. Meanwhile, a large number of filamentous thermo-conductive elements serving as the TIM are arranged to stand side by side on a surface of the heat-spreading component in which the recessed portion is formed (or on an exposed surface of an electronic component). Then, the heat-spreading component is fixed onto a board in such a manner that the surface of the heat-spreading component in which the recessed portion is formed faces the board and that a clearance is adjusted between the electronic component and the heat-spreading component. Thereafter, the resin is heated to a softening point thereof into a fluidized state, and the resin is flowed and filled into the clearance between the electronic component and the heat-spreading component. | 12-02-2010 |
| 20100295174 | WIRING SUBSTRATE AND SEMICONDUCTOR DEVICE - A wiring substrate includes: a semiconductor chip on which a plurality of bumps are mounted, and a plurality of connection pads which are joined to the bumps mounted on the semiconductor chip in a flip chip method, wherein the connection pads of a peripheral portion of the wiring substrate are formed in a non-solder mask defined structure, and the connection pads of a center portion of the wiring substrate are formed in a solder mask defined structure. | 11-25-2010 |
| 20100294552 | ELECTRONIC COMPONENT MOUNTED STRUCTURE - An electronic component (chip) mounted structure includes a chip having a terminal, a wiring board having a terminal electrically connected to the terminal of the chip, and an interposing board disposed between the chip and the wiring board and having a structure including an insulating base material provided with a large number of filamentous conductors penetrating the insulating base material in a thickness direction thereof. The terminal of the chip is electrically connected to the terminal of the wiring board via a plurality of filamentous conductors provided in the interposing board. | 11-25-2010 |
| 20100270364 | APPARATUS AND METHOD FOR ARRANGING MAGNETIC SOLDER BALLS - An apparatus for arranging magnetic solder balls includes: a stage for placing and fixing the substrate thereon; a magnet which is incorporated in the stage and is movable in parallel with a lower surface of the placed and fixed substrate so as to cause a magnetic force to act in an upward direction of the stage; and a mask frame capable of being positioned above the stage. An arranging method using this arranging apparatus is also provided. An apparatus for arranging magnetic solder balls includes: a stage for placing and fixing the substrate thereon; a mask frame capable of being positioned above the stage; and a magnetic generator which is movable above the mask frame and causes a magnetic force to act on the stage. An arranging method using this arranging apparatus is also provided. | 10-28-2010 |
| 20100267208 | COMPONENT FOR SEMICONDUCTOR PACKAGE AND MANUFACTURING METHOD OF COMPONENT FOR SEMICONDUCTOR PACKAGE - A component for semiconductor package which has a protective insulating layer on at least one surface of a component body and exposes a conductive material of the component body to an opening part of the protective insulating layer is manufactured by a method including the steps of (a) forming a mask on at least one surface of the component body, (b) forming the protective insulating layer by filling an opening part of the mask with a protective insulating material by a molding method using a metal mold comprising a mold release film, and (c) removing the metal mold and removing the mask. A typical component is a lead frame or a substrate for semiconductor package. | 10-21-2010 |
| 20100265675 | HOUSING CASE FOR HOUSING ELECTRONIC CIRCUIT BOARD, AND ELECTRONIC APPARATUS - A housing case housing an electronic circuit board, includes: a lower case portion which internally houses a circuit board for mounting electronic components; and an upper case portion which is externally fitted to the lower case portion to form a box-like member. Each of the lower case portion and the upper case portion includes a planar portion, and sidewall portions which stand from the peripheral edge of the planar portion. The planar portion and the sidewall portions are formed by using a plate-like member made of a metal material. Engaging projections which are outwardly projected are disposed on the sidewall portions of the lower case portion. Engaging holes which are passed through the sidewall portions of the upper case portion are disposed in the sidewall portions, in positions corresponding to the engaging projections of the lower case portion. The upper case portion is externally fitted to the lower case portion, and the engaging projections are engaged with the engaging holes, whereby the lower case portion and the upper case portion are fixed to each other. | 10-21-2010 |
| 20100253834 | CAMERA MODULE AND MOBILE TERMINAL UNIT - A camera module includes a wiring substrate on which an imaging device is mounted to an upper surface side thereof, and a lens holding frame which is arranged on the wiring substrate and in which a lens portion is housed, wherein a plurality of concave portions are provided side by side to a lower part of an inner wall of the lens holding frame in a height direction, and an end part of the wiring substrate is fitted in the concave portion of the lens holding frame and is fixed thereto. A holding member having elasticity in an upper and lower direction is provided to stand to an inside part of the lens holding frame, and a top end part of the holding member touches an upper surface of the wiring substrate, and thereby the wiring substrate is held. | 10-07-2010 |
| 20100252938 | SEMICONDUCTOR PACKAGE - A semiconductor package includes: a semiconductor element mounted on a one-sided plane of a wiring board; an underfill agent dropped so as to be filled between the semiconductor element and the wiring board; and a pad group constituted by a plurality of pads which are formed in the vicinity of a circumference of the wiring board and along the circumference, the pad group being formed on a bottom plane of a groove portion formed in a solder resist which covers the one-sided plane of the wiring board, wherein a corner edge of the groove portion located in the vicinity of a dropping starting portion to which dropping of the underfill agent is started is formed at an obtuse angle or in an arc shape in order to avoid the dropped underfill agent from entering into an inner portion of the groove portion. | 10-07-2010 |
| 20100252921 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD OF THE SAME - A semiconductor device includes: a semiconductor element that has a first surface on which an electrode terminal is formed and a second surface opposite to the first surface; a resin mold portion in which the semiconductor element is embedded and that has a third surface exposing the first surface and a fourth surface opposite to the third surface; and a wiring layer formed on the third surface and the first surface, wherein a plurality of conducting portions are provided in the resin mold portion, which penetrate the resin mold portion along a thickness direction thereof to be electrically connected to the wiring layer. | 10-07-2010 |
| 20100252912 | SEMICONDUCTOR DEVICE, AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a semiconductor device, comprising the steps of preparing a structure including a semiconductor substrate, an element formed therein, a through hole formed to penetrate the semiconductor substrate, and an insulating layer formed on both surface sides of the semiconductor substrate and an inner surface of the through hole, and covering the element, forming a penetrating electrode in the through hole, forming a first barrier metal pattern layer covering the penetrating electrode, forming a contact hole reaching a connection portion of the element in the insulating layer, removing a natural oxide film on the connection portion of the element in the contact hole, and forming a wiring layer connected to the first barrier metal pattern layer and connected to the element through the contact hole. | 10-07-2010 |
| 20100252304 | WIRING BOARD AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a wiring board for use in mounting of an electronic component includes: forming an outermost wiring layer on a surface side where the electronic component is mounted; forming an insulating layer so as to cover the wiring layer; and forming a concave portion in the insulating layer. The concave portion is formed by removing, using a mask formed in a required shape by patterning, an exposed portion of the insulating layer in a step-like shape until a surface of a pad defined at a portion of the wiring layer is exposed. The concave portion is preferably formed by removing the portion of the insulating layer by sand blast. | 10-07-2010 |
| 20100244280 | METHOD OF MANUFACTURING SEMICONDUCTOR PACKAGE AND SEMICONDUCTOR PACKAGE - A board on which a wiring having an electrode pad is formed is prepared. A resist film is formed on the board in order to cover the wiring and then the resist film is left on the electrode pad through patterning. An inorganic insulating film is formed on the board in order to cover the wiring and then the resist film is removed, thereby removing the inorganic insulating film provided on the resist film to leave the inorganic insulating film between the wirings. A solder resist layer is formed on the board in order to cover the wiring and then the electrode pad is exposed. | 09-30-2010 |
| 20100244230 | SEMICONDUCTOR DEVICE, ELECTRONIC DEVICE, AND MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - A semiconductor device includes: a wiring board which includes a first face and a second face and in which a conductor pattern and a through part are provided; an electronic component which includes an electrode pad forming face where an electrode pad is formed and which is housed in the through part so that the electrode pad forming face is provided on the first face side; a seal resin which is provided in the through part and the electrode pad forming face, seals the electronic component and includes a first plane exposing a connection face of the electrode pad; and a wiring pattern which is provided in the first face of the wiring board and the first plane of the seal resin and electrically connects the connection face of the electrode pad with a first connected face of the conductor pattern, and which includes a pad part. | 09-30-2010 |
| 20100231346 | 3-ELECTRODE SURGE PROTECTIVE DEVICE - The 3-electrode surge protective device includes: a surge protective device body including: an earth electrode; a ceramic cylinder; and a pair of line electrodes; and a fail-safe spring including: an elastic mount portion; and a short-circuit portion, a conductive material that is sandwiched between the fail-safe spring and the body; and a pair of first lead pins provided on the pair of line electrodes; a second lead pin provided on the earth electrode. In a normal state, the conductive material support the short-circuit portion at a separation position where the short-circuit portion is separated from the outer peripheral face of the body and the first lead pins. In case where the body is overheated and the conductive material is melted, the short-circuit portion is moved to a contact position where the short-circuit portion comes into contact with the second lead pin and the first lead pins. | 09-16-2010 |
| 20100231344 | INDUCTOR DEVICE, AND METHOD OF MANUFACTURING THE SAME - An inductor device includes a first magnetic body pattern layer in which slits are provided and which is made to a pattern, a lower insulating layer formed on the first magnetic body pattern layer, a planar coil layer formed on the lower insulating layer, an upper insulating layer formed on the planar coil layer, and a second magnetic body pattern layer formed on the upper insulating layer and in which slits are provided and which is made to a pattern, wherein the first magnetic body pattern layer and the second magnetic body pattern layer are arranged to intersect orthogonally with the planar coil layer. | 09-16-2010 |
| 20100230823 | SEMICONDUCTOR DEVICE, ELECTRONIC DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device includes: an electronic component including an electrode pad forming face on which electrode pads are formed, a back face opposite to the electrode pad forming face; a sealing resin including a first face provided on the electrode pad forming face side and a second face provided on the back face side, and provided around the electronic component to seal up a side face of the electrode component; a multilayer wiring structure which is provided on the first face, and in which insulating layers, a wiring pattern and external connecting pads are stacked on each other; and a conductive member which is provided in a through-hole passing through the sealing resin and the insulating layer. The wiring pattern is directly connected to the electrode pads and the external connecting pads, and includes a wiring provided in the insulating layers. The conductive member is connected to the wiring. | 09-16-2010 |
| 20100230469 | CONDUCTIVE BALL MOUNTING APPARATUS AND CONDUCTIVE BALL MOUNTING METHOD - In a conductive ball mounting apparatus for mounting one conductive ball on each of a plurality of pads which are provided on a substrate and on which an adhesive is formed, the conductive ball mounting apparatus includes: a conductive ball container for containing a plurality of conductive balls therein and having an opening to pass through the plurality of conductive balls; a substrate holder disposed over the conductive ball container to face the opening, and holding the substrate in such a manner that the plurality of conductive balls and the plurality of pads face each other and the substrate is disposed over the conductive ball container with a space therebetween; and a conductive ball supplying unit for supplying the plurality of conductive balls to the plurality of pads via the opening by moving up the plurality of conductive balls. | 09-16-2010 |
| 20100225001 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE, SEMICONDUCTOR DEVICE, AND ELECTRONIC DEVICE - In a method for manufacturing a semiconductor device having a plate-shaped member, a semiconductor element, and a wiring board, the manufacturing method for the semiconductor device includes: a concave portion forming step (S | 09-09-2010 |
| 20100220425 | ELECTROSTATIC CHUCK - An electrostatic chuck includes a dielectric layer | 09-02-2010 |
| 20100219522 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC APPARATUS - A first sealing resin seals a side surface of an electronic component and a side surface of a conductive member. A second sealing resin is provided on the first sealing resin, and seals an electrode pad and an electrode pad forming surface of the electronic component and a part of the conductive member. A multilayer wiring structure includes a plurality of stacked insulating layers and a wiring pattern and is provided on a surface of the second sealing resin from which a connecting surface of the electrode pad and a first connecting surface of the conductive member are exposed. The wiring pattern is connected to the connecting surface of the electrode pad and the first connecting surface of the conductive member. | 09-02-2010 |
| 20100214751 | CHIP COMPONENT MOUNTED WIRING BOARD - A wiring board to be used with being mounted on a packaging board includes a chip component surface-mounted on a surface facing the packaging board. The chip component includes terminal electrodes at both end portions of the component body thereof. Each of the terminal electrodes is provided in a form in which a plated film (Sn) formed on the surface of the terminal electrode is separated into two portions, one portion being on the wiring board side, and another portion being on the packaging board side. In one aspect, each of the terminal electrodes of the chip component is separated into a portion on the wiring board side and a portion on the packaging board side, and the plated film (Sn) is formed on a surface of each of the separated portions of each of the terminal electrodes. | 08-26-2010 |
| 20100212950 | WIRING BOARD AND METHOD OF MANUFACTURING THE SAME - A wiring board includes a first substrate portion including a first feed-through conductor portion in a vertical direction, a second substrate portion provided on the first substrate portion and including a second feed-through conductor portion in a vertical direction of a corresponding part to the first feed-through conductor portion, and a feed-through electrode including the first feed-through conductor portion and the second feed-through conductor portion. | 08-26-2010 |
| 20100208132 | CAMERA MODULE - A camera module includes: a case including a first surface formed with a first opening for entering incident light, and a second surface opposite to the first surface, the second surface being formed with a second opening; a lens unit mounted in the case; a first substrate including a front surface and a back surface, wherein the case is bonded to the front surface of the first substrate to seal the second opening; a filter supported by the first substrate to face the lens unit; a circuit component disposed on the front surface of the first substrate; a second substrate including a front face and a back face, wherein the front face of the second substrate is bonded to the back surface of the first substrate; and an image pickup device disposed on the front face of the second substrate to face the filer. | 08-19-2010 |
| 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 |
| 20100200975 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC APPARATUS - A first multilayer wiring structure has a first surface and a second surface positioned on an opposite side to the first surface, a first wiring pattern formed on the second surface side and a housing portion penetrating through the first multilayer wiring structure from the first surface to the second surface. An electronic component has an electrode pad. The electronic component is accommodated in the housing portion in a state that an electrode pad formation surface at the side where the electrode pad is formed is positioned on the second surface side of the first multilayer wiring structure. A second multilayer wiring structure has an insulating layer and a second wiring pattern which are stacked on the second surface of the first multilayer wiring structure and the electrode pad formation surface of the electronic component. The second wiring pattern is electrically connected to the first wiring pattern and the electrode pad. | 08-12-2010 |
| 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 |
| 20100192371 | Wiring board and method of manufacturing the same, and electronic component device using the wiring board and method of manufacturing the same - A wiring board is provided with an external connection terminal to which an electrode terminal of an electronic component is to be connected. The external connection terminal is formed so that a portion thereof is electrically connected to a pad portion exposed from an outermost insulating layer on an electronic component mounting surface of a wiring board body and so that an air gap is kept between a portion of the external connection terminal, to which the electrode terminal of the electronic component is to be connected, and the insulating layer. | 08-05-2010 |
| 20100190295 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device, includes the steps of: (a) providing a support including a plane having a first region for mounting a chip thereon and a second region provided around the first region; (b) forming an insulating resin layer in a semi-curing state on the plane; (c) forming, on the insulating resin layer, a first opening portion for exposing the first region; (d) fitting a chip in the first opening portion to mount the chip on the first region; and (e) completely curing the insulating resin layer after the step (d). | 07-29-2010 |
| 20100184257 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - There is provided a method of manufacturing a semiconductor device. The method includes the successive steps of: (a) providing a semiconductor substrate; (b) forming a plurality of semiconductor chips having electrode pads on the semiconductor substrate; (c) forming internal connection terminals on the electrode pads; (d) forming an insulating layer on the plurality of semiconductor chips to cover the internal connection terminals; (e) forming a metal layer on the insulating layer; (f) pushing a whole area of the metal layer to bring the metal layer into contact with upper end portions of the internal connection terminals; (g) pushing portions of the metal layer which contact the upper end portions of the internal connection terminals, thereby forming first recesses in the internal connection terminals, and thereby forming second recesses in the metal layer; and (h) forming wiring patterns by etching the metal layer. | 07-22-2010 |
| 20100184256 | RESIN SEALING METHOD OF SEMICONDUCTOR DEVICE - A resin sealing method of a semiconductor device includes: positioning semiconductor devices at predetermined positions of an adhesive layer formed on a support body and adhering the semiconductor devices thereto, sealing a part of each of the semiconductor devices with resin by curing a first seal resin in a fluidization state so as to fix the semiconductor devices adhered to the predetermined positions of the adhesive layer formed on the support body, setting the semiconductor devices fixed to the predetermined positions of the adhesive layer formed on the support body in a mold and sealing the exposure parts of the semiconductor devices exposed from the first seal resin with a second seal resin, and removing the support body and the adhesive layer from the semiconductor devices sealed with the resin. | 07-22-2010 |
| 20100175917 | WIRING BOARD AND METHOD OF MANUFACTURING THE SAME - A wiring board (package) has a structure in which multiple wiring layers are stacked one on top of another with insulating layers each interposed between corresponding two of the wiring layers, and the wiring layers are connected to one another through vias formed in each of the insulating layers. In a peripheral region of the package, reinforcing patterns are provided on the same surfaces where the corresponding wiring layers are provided, respectively. Each of the reinforcing patterns is formed of a conductive layer formed on the same surface where the corresponding one of the wiring layers is provided, and is provided in an intermittent ring-like shape when viewed in a planar view. | 07-15-2010 |
| 20100167469 | RESIN SEALING METHOD OF SEMICONDUCTOR DEVICE - A resin sealing method of a semiconductor device, is provided with: providing a semiconductor device on which a dummy dump is formed; providing a support body including an adhesive layer provided on a surface of the support body; forming a recess in the adhesive layer; inserting the dummy bump of the semiconductor device into the recess of the adhesive layer; adhering the semiconductor device to the adhesive layer with the semiconductor device positioned on the support body; setting the supporting body having the semiconductor device in a resin sealing mold; supplying a resin into a cavity of the resin sealing mold; sealing the semiconductor device with the resin on the support body while using the dummy bump to inhibit displacement of the semiconductor device caused by a flow of the resin supplied into the cavity of the resin sealing mold; and removing the support body, the adhesive layer, and the dummy bump from the semiconductor device sealed with the resin. | 07-01-2010 |
| 20100156055 | SUBSTRATE TEMPERATURE CONTROL FIXING APPARATUS - A substrate temperature control fixing apparatus comprises an electrostatic chuck which includes a base body and adsorbs and holds an adsorbing target mounted on one of surfaces of the base body, a base plate which supports the electrostatic chuck, and a bank portion provided on an outer periphery of one of surfaces of the base plate which is opposed to the other of the surfaces of the base body. | 06-24-2010 |
| 20100155992 | MOLD RESIN MOLDING METHOD AND MOLD RESIN MOLDING APPARATUS - A mold resin molding method is provided with: providing a semiconductor device including a first wiring board and a second wiring board electrically connected to the first wiring board through a solder ball; providing a metal mold including a die plate which is independently provided to enable an approach/separation to/from the second wiring board; inserting the semiconductor device into a cavity of the metal mold; abutting the die plate on a surface side of the second wiring board through a release film; injecting a mold resin in a void between the first wiring board and the second wiring board while applying a first pressure from the die plate to the second wiring board; and further injecting the mold resin in the void while applying a second pressure which is higher than the first pressure from the die plate to the second wiring board. | 06-24-2010 |
| 20100155965 | SEMICONDUCTOR DEVICE - A semiconductor device includes: the mounting surface of the wiring substrate exposed from the semiconductor element is covered by a solder-resist layer, a part of the solder-resist layer covering the mounting surface of the wiring substrate at a dropping-commencing point at which dropping of a liquid-state under-filling agent filled in a gap between the semiconductor element and the mounting surface of the wiring substrate is commenced is extended in an area of the wiring substrate covered by the semiconductor element, and a gap between the semi conductor element at the dropping-commencing point and the vicinity thereof and an extension portion of the solder-resist layer is formed to be narrower than the gap between the semi conductor element and the mounting surface of the wiring substrate so that liquid drops of the under-filling agent dropped at the dropping-commencing point are sucked into the gap by a capillary phenomenon. | 06-24-2010 |
| 20100155928 | SEMICONDUCTOR PACKAGE AND MANUFACTURING METHOD OF THE SAME - A semiconductor package includes: a wiring board; and a semiconductor device which is formed on the wiring board; wherein the semiconductor device includes: a semiconductor chip; and a penetration electrode, one end of which is fixed on one plane of the semiconductor chip, and the other end of which penetrates the semiconductor chip and is fixed on the other plane of the semiconductor chip, the penetration electrode penetrating the semiconductor chip in such a manner that the penetration electrode is not contacted to a wall plane of the semiconductor chip by a space portion formed in the semiconductor chip; and the wiring board and the semiconductor device are electrically connected via the penetration electrode. | 06-24-2010 |
| 20100155925 | RESIN-SEALED PACKAGE AND METHOD OF PRODUCING THE SAME - A method of producing a resin-sealed package is provided with: providing an electronic component which has a plurality of terminals on one face, a first support member and a second support member; temporarily fixing said electronic component to a surface of said first support member by a first adhesive agent layer, to face said terminals with said first support member; fixing said second support member having a second adhesive agent layer to said electronic component while interposing said electronic component between said first support member and said second support member to face said second adhesive agent layer with a back face side of said electronic component; resin sealing said electronic component between said first support member and said second support member; peeling said first support member and said first adhesive agent layer from said electronic component and a sealing resin; and stacking an insulating resin layer and a wiring layer which is electrically connected to said terminals of said electronic component, on said electronic component and said sealing resin. | 06-24-2010 |
| 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 |
| 20100155126 | FINE WIRING PACKAGE AND METHOD OF MANUFACTURING THE SAME - At least one electronic component having a plurality of terminals on one of surfaces is temporarily fixed to a surface of a first support with a first adhesive layer in such a manner that the terminal side of the electronic component faces the first support. A second support having a second adhesive layer is fixed to the electronic component in order to interpose the electronic component between the first support and the second support. The first support and the first adhesive layer are peeled. The electronic component on the second support is sealed with a sealing resin in such a manner that at least a part of the terminals of the electronic component is exposed. An insulating resin layer and a wiring layer to be electrically connected to the terminal of the electronic component are stacked on the electronic component and the sealing resin. | 06-24-2010 |
| 20100149768 | ELECTRONIC COMPONENT BUILT-IN SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A first wiring substrate has a first wiring substrate main body and a first wiring pattern provided on a first surface of the first wiring substrate main body. A first electronic component is surface-mounted on the first wiring pattern. A second wiring substrate has a second wiring substrate main body and a second wiring pattern provided on a first surface of the second wiring substrate main body. The second wiring substrate is arranged under the first wiring substrate such that the first surface of the first wiring substrate main body opposes to the first surface of the second wiring substrate main body. A second electronic component is surface-mounted on the second wiring pattern, and arranged to oppose to the first electronic component. A resin member seals a space between the first wiring substrate and the second wiring substrate. | 06-17-2010 |
| 20100149410 | ELECTRONIC COMPONENT APPARATUS - An electronic component apparatus includes a wiring board | 06-17-2010 |
| 20100148340 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a semiconductor device includes: (a) half-dicing a semiconductor wafer including plural semiconductor chips, thereby forming dicing grooves in the semiconductor wafer, wherein each semiconductor chip includes a circuit and pads and wherein the semiconductor wafer includes: a first surface on which the circuit and the pads are formed; and a second surface opposite to the first surface, (b) connecting the pads to each other by conductive connectors; (c) sealing the first surface of the semiconductor wafer, the dicing grooves and the conductive connectors with a resin; (d) grinding the second surface of the semiconductor wafer, thereby forming a group of sealed chips; (e) dividing the group of sealed chips into individual sealed chips; (f) mounting and stacking the individual sealed chips on a wiring substrate having connection terminals thereon; and (g) electrically-connecting the conductive connectors and the connection terminals using a conductive member. | 06-17-2010 |
| 20100148332 | SEMICONDUCTOR APPARATUS AND MANUFACTURING METHOD THEREOF - A semiconductor apparatus includes a first wiring substrate, a second wiring substrate, a semiconductor chip, an adhesive layer and a molding resin. The second wiring substrate is stacked and connected on the first wiring substrate through a bump electrode. The semiconductor chip is mounted on the first wiring substrate by flip chip bonding and received between the first wiring substrate and the second wiring substrate. An upper surface of the semiconductor chip is subject to a mirror treatment. The adhesive layer is formed on the upper surface of the semiconductor chip. The molding resin is filled in a gap between the first wiring substrate and the second wiring substrate. | 06-17-2010 |
| 20100147574 | WIRING BOARD AND METHOD OF MANUFACTURING THE SAME - A wiring board (package) has a structure in which multiple wiring layers are stacked one on top of another with insulating layers each interposed between corresponding two of the wiring layers, and the wiring layers are connected to each other through vias formed in the insulating layers. In the peripheral region around the chip mounting area of the outermost insulating layer on one of both surfaces of the board, a pad is formed in a bump shape to cover a surface of a portion of the outermost insulating layer, the portion being formed to protrude, and a pad whose surface is exposed from the insulating layer is arranged in the chip mounting area. A chip is flip-chip bonded to the pad of the package, and another package is bonded to the bump shaped pad in a peripheral region around the chip (package-on-package bonding). | 06-17-2010 |
| 20100147561 | WIRING BOARD WITH LEAD PINS AND METHOD OF PRODUCING THE SAME - A wiring board with lead pins includes: connection pads formed on a wiring board, and lead pins bonded through a conductive material to the connection pads, wherein each of the lead pins has a head portion that is formed in one end of a shaft portion to be larger in diameter than the shaft portion, the head portions are bonded to the connection pads by the conductive material, a face of the wiring board on which the connection pads are formed is resin-sealed by a first resin to be thicker than the head portions, except portions to which the head portions are bonded, and sides of faces of the head portions to which the shaft portions are connected are sealed to be in close contact with the first resin by a second resin. | 06-17-2010 |
| 20100147560 | WIRING BOARD AND METHOD OF MANUFACTURING THE SAME - A wiring board (package) includes: a cavity formed at a position corresponding to a chip mounting area of the outermost insulating layer on one side of both surfaces of the wiring board; a pad exposed from the surface of the insulating layer in the cavity; and a pad exposed from the surface of the insulating layer in a peripheral region of the cavity. A chip is flip-chip bonded to the pads in the cavity of the package, and another package is bonded to the pads in the peripheral region of the cavity, to thereby form a semiconductor device having a package on package (POP) structure. | 06-17-2010 |
| 20100142904 | OPTICAL WAVEGUIDE, OPTICAL WAVEGUIDE MOUNTING SUBSTRATE, AND LIGHT TRANSMITTING AND RECEIVING DEVICE - An optical waveguide is provided. The optical waveguide includes: a layered structure including: a first cladding layer; a second cladding layer; and a core layer that is sandwiched between the first cladding layer and the second cladding layer, wherein an inclined surface is formed on at least one longitudinal end of the layered structure; and an outer cladding layer that seals at least a portion of the inclined surface corresponding to the core layer, wherein a refractive index of the outer cladding layer is smaller than that of the core layer. | 06-10-2010 |
| 20100139970 | WIRING BOARD HAVING LEAD PIN, AND LEAD PIN - A wiring board having a lead pin is provided. The wiring board having the lead pin includes a connecting pad which is formed on the wiring board, and to which the lead pin is bonded through a conductive material. The lead pin includes: a shaft portion; a head portion which is provided on one end of the shaft portion; a protruded portion which is formed on a surface side of the head portion opposed to the connection pad; and a first taper portion which is formed between the head portion and a base part of the shaft portion. | 06-10-2010 |
| 20100139962 | WIRING BOARD AND METHOD OF MANUFACTURING THE SAME - A wiring board includes a structure in which a plurality of wiring layers are stacked one on top of another with an insulating layer (resin layer) interposed therebetween, and the wiring layers are connected to each other through a via formed in each of the resin layers. A recessed portion is formed in an annular shape surrounding a chip mounting area on the outermost resin layer on a chip mounting surface side of the wiring board. Alternatively, a projected portion is formed instead of the recessed portion. | 06-10-2010 |
| 20100134952 | Capacitor device and method of manufacturing the same - A method of manufacturing a capacitor device of the present invention, includes the steps of, forming an insulating layer on a substrate, forming a recess portion in the insulating layer by an imprinting process, forming a lower electrode by filling a metal layer in the recess portion in the insulating layer, forming a photosensitive dielectric layer on the lower electrode, forming an upper electrode on the dielectric layer, and forming a dielectric layer pattern under the upper electrode by exposing/developing the dielectric layer while using the upper electrode as a mask. | 06-03-2010 |
| 20100134122 | Substrate, substrate holding apparatus, analysis apparatus, program, detection system, semiconductor device, display apparatus, and semiconductor manufacturing apparatus - A substrate including a sensor unit, wherein the sensor unit includes a coil wound at least once arranged on the surface of the sensor or embedded within and near the surface thereof. With such an arrangement, an electric current that corresponds to information with respect to the substrate flows through the coil. | 06-03-2010 |
| 20100133677 | SEMICONDUCTOR CHIP STACKED BODY AND METHOD OF MANUFACTURING THE SAME - A plurality of chip sealing bodies stacked on a wiring substrate with a connection terminal. The chip sealing body includes a semiconductor chip having a semiconductor integrated circuit, a pad and a conductive connecting material, and a resin sealing the semiconductor chip. The chip sealing body is shaped into a cubic form in which a portion of the conductive connecting material except an end portion located on an external device side and all surfaces of semiconductor chip is sealed by the resin and the end portion of the conductive connecting material located on the external device side is exposed from the cubic form. A conductive bonding wire connects the end portions of the conductive connecting materials and the connection terminal respectively. A resin sealing material seals the plurality of chip sealing bodies, the conductive bonding wire, and the wiring substrate. | 06-03-2010 |
| 20100132995 | WIRING BOARD AND METHOD OF PRODUCING THE SAME - A wiring board includes: wiring layers; insulating layers disposed between the wiring layers; and external connection pads respectively including surface plated layers, for connecting to an external circuit. In each of the external connection pads in one face of the wiring board, an outer peripheral edge of the external connection pad is retracted from an outer peripheral edge of the surface plated layer toward a center of the external connection pad. | 06-03-2010 |
| 20100132993 | WIRING BOARD AND ELECTRONIC COMPONENT DEVICE - A wiring board includes a wiring forming region in which a plurality of wiring layers are stacked while sandwiching insulating layers, an outer periphery region which is arranged around the wiring forming region and in which a reinforcing pattern is formed in the same layer as each of the wiring layers. An area ratio of the reinforcing pattern to the outer periphery region and an area ratio of the wiring layer to the wiring forming region are substantially the same in each of the layers, and the reinforcing patterns exist without a gap in the outer periphery region when the wiring board is viewed in planar perspective. | 06-03-2010 |
| 20100127370 | WIRING BOARD, SEMICONDUCTOR DEVICE AND SEMICONDUCTOR ELEMENT - On a semiconductor element loading face, wiring patterns are drawn out from those formed in the vicinity of the edge of the semiconductor element of the loading pads formed to correspond to the electrode terminals of the semiconductor element, and connected to via pads formed in the vicinity of the edge of the semiconductor element loading face; area pads constructed of the loading pads corresponding to the electrode terminals formed in the central region of the semiconductor element and its vicinity are electrically connected to external connecting terminal pads formed in the central region on the other side of the wiring board and its vicinity, through the nearest area pad vias encircled by the external connecting terminal pads and passing through the wiring board and the wiring patterns; and a plurality of the loading pads constituting the area pads commonly use one of the area pad vias. | 05-27-2010 |
| 20100127369 | LEAD FRAME, METHOD FOR MANUFACTURING THE SAME AND SEMICONDUCTOR DEVICE - A lead frame includes a lead frame body | 05-27-2010 |
| 20100123239 | SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THE SAME - A plurality of semiconductor devices having different thicknesses from each other and having respective electrode terminals are fixed on a surface of the support plate through a resin layer in such a manner that terminal surfaces of the electrode terminals are on the level with each other. An insulating layer covers terminal forming surfaces of the semiconductor devices. At least one tapered bump having a tip surface formed in a smaller area than an area of the terminal surface of the electrode terminal of the semiconductor device is formed on one of the terminal surfaces of the electrode terminals and penetrates the insulating layer in such a manner that the tip surface of the tapered bump is exposed to a surface of the insulating layer. A wiring pattern is formed on the surface of the insulating layer and connected to the tip surface of the tapered bump. | 05-20-2010 |
| 20100122843 | CIRCUIT BOARD AND METHOD OF MANUFACTURING THE SAME - A circuit board has plated through holes which are laid out with a fine pitch and meets requirements relating to characteristics such as strength and thermal expansion coefficient. A method of manufacturing a circuit board includes: a step of forming a core portion by thermal compression bonding prepregs formed by disposing carbon fibers so as to produce openings at positions where plated through holes will pass through and impregnating the carbon fibers with resin; a step of forming through holes that pass inside the openings at positions of the openings in the core portion; and a step of forming a conductive layer on inner surfaces of the through holes to form plated through holes at positions that do not interfere with the carbon fibers and thereby produce a core substrate. | 05-20-2010 |
| 20100120204 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A chip is bonded onto a flat face of a first support through a first bonding layer with a terminal surface of the chip turned toward the flat face of the first support. A second support is bonded onto the chip through a second bonding layer. The first support is peeled from the chip to expose the terminal surface of the chip. An insulating layer from which the terminal surface of the chip is exposed is formed on the second support. | 05-13-2010 |
| 20100112804 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE EMBEDDED SUBSTRATE - A manufacturing method for a semiconductor device embedded substrate, includes: a first step including: a step of forming a connection terminal on an electrode pad formed on a semiconductor integrated circuit, a step of forming a first insulating layer on the semiconductor integrated circuit, a step of providing a plate-like body on the first insulating layer, a step of exposing a part of the connection terminal, and a step of removing the plate-like body to manufacture a semiconductor device; a second step of arranging the semiconductor device on one surface of a support body; a third step of forming a second insulating layer on the one surface of the support body; a fourth step of removing the support body; and a fifth step of forming a first wiring pattern electrically connected to the exposed portion on a surface of each of the first insulating layer and the second insulating layer. | 05-06-2010 |
| 20100112802 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE EMBEDDED SUBSTRATE - A manufacturing method for a semiconductor device embedded substrate, includes: a first step of preparing a semiconductor device having a first insulating layer; a second step of preparing a support body, and arranging the semiconductor device on one surface of the support body; a third step of forming a second insulating layer on the one surface of the support body; a fourth step of removing the support body; a fifth step of forming a first wiring pattern on a surface of each of the first insulating layer and the second insulating layer; a sixth step of forming a via-hole from which the first wiring pattern is exposed on the second insulating layer; and a seventh step of forming a second wiring pattern electrically connected on a surface of the second insulating layer. | 05-06-2010 |
| 20100112786 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor substrate has a plurality of semiconductor chip forming areas and scribe areas including substrate cutting positions arranged between the plurality of semiconductor chip forming areas. An insulating layer having first opening portions, which expose all or a part of the scribe areas respectively, is formed on the semiconductor substrate. A solder resist layer having second opening portions, which expose all or a part of the scribe areas respectively, is formed on the insulating layer. Portions of the semiconductor substrate corresponding to the substrate cutting positions are cut. | 05-06-2010 |
| 20100112759 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE EMBEDDED SUBSTRATE - A manufacturing method for a semiconductor device embedded substrate, includes: a first step of preparing a semiconductor device having a first insulating layer; a second step of arranging the semiconductor device on one surface of a support body; a third step of forming a second insulating layer on the one surface of the support body; a fourth step of removing the support body; a fifth step of forming a third insulating layer on a surface of each of the semiconductor device and the second insulating layer; a sixth step of mounting a wiring substrate on a surface of each of the semiconductor device and the second insulating layer; a seventh step of forming a via-hole in the second insulating layer and the third insulating layer; and an eighth step of forming a second wiring pattern on a surface of each of the first insulating layer and the second insulating layer. | 05-06-2010 |
| 20100109173 | METHOD OF MANUFACTURING OPTICAL WAVEGUIDE - An optical waveguide is cut by moving a heated knife blade across the optical waveguide with the knife blade maintained at a predetermined angle. At that time, by maintaining the temperature of the knife blade at a temperature not lower than the glass transition point of the optical waveguide, a portion, in contact with a bevel plane of the knife blade, of the optical waveguide softens to be planarized along the bevel plane. In this way, an optical path conversion mirror constituted of a planarized cut plane is formed in a region through which the bevel plane has passed. | 05-06-2010 |
| 20100109160 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a semiconductor device, includes the steps of preparing a semiconductor wafer having a connection pad, forming an insulating dam layer in which an opening portion is provided in an area including the connection pad, on the semiconductor wafer, and forming a bump electrode by mounting a conductive ball on the connection pad in the opening portion of the insulating dam layer. | 05-06-2010 |
| 20100101851 | WIRING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A wiring substrate, includes a first wiring layer, an insulating layer formed on the first wiring layer, a via conductor filled to penetrate the insulating layer in a thickness direction and connected to a connection portion of the first wiring layer, and a second wiring layer which is formed on the insulating layer and whose connection portion is connected to the via conductor, wherein, out of the first wiring layer and the second wiring layer, the connection portion of one wiring layer is formed as a land whose diameter is larger than a diameter of the via conductor, and the connection portion of other wiring layer is formed as a landless wiring portion whose diameter is equal to or smaller than a diameter of the via conductor. | 04-29-2010 |
| 20100101849 | ELECTRONIC COMPONENT BUILT-IN SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing an electronic component built-in substrate, includes the steps of mounting a chip-like electronic component having a connection pad and a metal protection layer formed on a whole of one surface to cover the connection pad, on a wiring substrate to direct the connection pad upward; embedding the electronic component with the insulating layer; processing the insulating layer in a thickness direction to leave the insulating layer in a side of the electronic component and to expose the metal protection layer of the electronic component; and forming an upper wiring layer having an in-chip wiring part which is connected to the connection pad and contacts an upper surface of the electronic component and is constructed by an underlying metal pattern layer formed by patterning the metal protection layer and a conductive pattern layer formed thereon, and an extended wiring part which is connected to the in-chip wiring part to extend onto the insulating layer and is formed by an identical layer as the conductive pattern layer. | 04-29-2010 |
| 20100096163 | WIRING BOARD AND METHOD OF MANUFACTURING THE SAME - A wiring board comprises a first pad which is provided on a first surface side of a substrate and on which a first electronic component is to be mounted, and a second pad which is provided on the first surface side of the substrate and on which a second electronic component having a larger amount of heat generation in an operation than that of the first electronic component is to be mounted, a first through electrode which penetrates the substrate and has one of ends connected electrically to the first pad, a second through electrode which penetrates the substrate and has one of ends connected electrically to the second pad, a through trench penetrating the substrate in a portion positioned between a first mounting region for the first electronic component and a second mounting region for the second electronic component, and a heat intercepting member provided in the through trench. | 04-22-2010 |
| 20100096078 | METHOD OF MANUFACTURING WIRING SUBSTRATE - Two stacked bodies, each having a metal layer provided on a first metallic foil with carrier via a first insulating layer, are prepared. The first metallic foil with carrier has a metallic foil provided on a carrier plate via a peeling layer. A joined body is formed by jointing the stacked bodies such that the carrier plates are joined via a joining layer. First conductor patterns are formed by patterning the metal layers on both sides of the joined body. Second metallic foils with carrier are provided to the first conductor patterns of the joined body such that the first conductor patterns are opposed to the metallic foils via second insulating layers. Two substrates are formed by peeling the carrier plates with carrier from the peeling layers. Second conductor patterns which are connected electrically to the first conductor patterns are formed from the metallic foils of the substrate. | 04-22-2010 |
| 20100090369 | RESIN SEALING METHOD IN STACKED WIRING SUBSTRATE AND RESIN SEALING DEVICE - A resin sealing device includes a lower die, an upper die which is arranged over the lower die, on a lower surface side of which a concave portion is provided, and to a bottom surface peripheral portion of the concave portion of which a projection portion projecting toward an opening portion side of the concave portion to raise partially a bottom surface is provided, and a protection film provided on a lower surface side of the upper die and adhered along a concave surface of the concave portion by adsorbing, wherein the stacked wiring substrate is sealed with a resin by making a fused resin flow into a cavity including a space between the stacked wiring substrate from a resin supplying portion, in a state that the stacked wiring substrate in which a plurality of wiring substrates are stacked via connection bumps is arranged and sandwiched between the lower die and the concave portion of the upper die. | 04-15-2010 |
| 20100090352 | FLIP-CHIP SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - There is provided a flip-chip substrate which is flip-chip connected to electrode terminals provided on one surface of an electronic component. The flip-chip substrate includes: mounting pads which are exposed to a surface of the flip-chip substrate on which the electronic component is mounted and each of which comprises a pad surface which is flip-chip connected to a corresponding one of the electrode terminals; wiring patterns which are electrically connected to the mounting pads; an insulating layer which covers the wiring patterns; and a solder resist formed on an entire surface of the insulating layer such that each pad surface of the mounting pads is exposed from the solder resist. | 04-15-2010 |
| 20100065959 | SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THE SAME, AND SEMICONDUCTOR DEVICE - A semiconductor package includes a wiring substrate having a connection pad on both surface sides respectively, and a supporting plate provided on one surface side of the wiring substrate and formed of an insulator in which an opening portion is provided in a portion corresponding to the connection pad. The external connection terminals (the lead pins, or the like) are provided on the connection pads on the surface of the wiring substrate on which the supporting plate is provided, and the semiconductor chip is mounted on the connection pads on the opposite surface. | 03-18-2010 |
| 20100065322 | WIRING BOARD AND METHOD OF MANUFACTURING THE SAME - A wiring board includes a pad exposed from an opening portion of an outermost insulating layer. The pad includes: a first metal layer a surface of which is exposed from the wiring board; a second metal layer provided on the first metal layer and formed of a material effective in preventing a metal contained in a via inside the board from diffusing into the first metal layer; and a third metal layer provided between the second metal layer and the via, and formed of a material harder to be oxidized than that of the second metal layer. The thickness of the third metal layer is relatively thick, and is preferably selected to be three times or greater than a thickness of the second metal layer. A side surface of the third metal layer and a surface of the third metal layer to which the via is to be connected are roughed. | 03-18-2010 |
| 20100062564 | METHOD FOR PRODUCING ELECTRONIC PART PACKAGE - A peeling off layer | 03-11-2010 |
| 20100059876 | ELECTRONIC COMPONENT PACKAGE AND METHOD OF MANUFACTURING THE SAME - There is provided an electronic component package. The electronic component package includes: a core layer including a plurality of insulating layers formed by impregnating a base material with a resin, wherein a hollow portion is formed in the core layer; core wiring layers each disposed between the insulating layers; and an electronic component disposed in the hollow portion. The electronic component and the core wiring layer are electrically connected to each other by a bonding wire. | 03-11-2010 |
| 20100052153 | SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THE SAME, AND SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor package of the present invention, includes a wiring substrate, a lead pin fixed to a connection pad on one surface side of the wiring substrate by solder, and a reinforcing resin layer formed on a surface of the wiring substrate on which the lead pin is provided and having a projection-shaped resin portion which projects locally around the lead pin and covers a side surface of a base portion side of the lead pin. The projection-shaped resin portion has a top surface extending from an outer peripheral portion of the lead pin to an outside, and a side surface constituting a non-identical surface to the top surface. | 03-04-2010 |
| 20100044723 | PACKAGE FOR PHOTOELECTRIC WIRING AND LEAD FRAME - A package for a photoelectric wiring in which a pair of light emitting and receiving devices are mounted as optical devices on a lead frame having an optical waveguide in which an optical waveguide having a plurality of core portions disposed in parallel and surrounded by a cladding is mounted on a support plate of a lead frame having a mirror section including the support plate for supporting the optical waveguide, mirror sections having a mirror surface portion formed by bending both edges of the support plate at an angle of 45 degrees with respect to a planar direction of the support plate in a side direction, and lead portions to be electrically connected to the optical devices, the support plate, the mirror sections and the lead sections being formed by pressing a metallic material, wherein the light emitting device and the light receiving device are mounted in alignment with an optical path of a light reflected by the mirror surface portion and transmitted through the core portions at one of sides and the other side which interpose the optical waveguide of the package for an optical waveguide wiring therebetween. | 02-25-2010 |
| 20100041183 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device including a semiconductor chip encapsulated by an encapsulation resin and a manufacturing method thereof, in which a size reduction may be attempted. The device includes a semiconductor chip, an external connection terminal pad electrically connected to the semiconductor chip, and an encapsulation resin encapsulating the semiconductor chip, wherein a wiring pattern on which the external connection terminal pad is formed is provided between the semiconductor chip and the external connection terminal pad, and the semiconductor chip is flip-chip bonded to the wiring pattern. | 02-18-2010 |
| 20100032196 | MULTILAYER WIRING BOARD, SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THE SAME - In a multilayer wiring board having a wiring layer, a pad, an insulating layer provided between the wiring layer and the pad, and a plurality of connecting vias provided on the insulating layer and connecting the wiring layer to the pad, the connecting vias are provided on a peripheral edge of the pad. | 02-11-2010 |
| 20100022054 | SEMICONDUCTOR PACKAGE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor package includes: a build-up wiring layer including a metal wiring layer and an insulation resin layer; and a low thermal expansion material layer having a coefficient of thermal expansion closer to that of a semiconductor chip mounted on the build-up wiring layer as compared with the insulation resin layer of the build-up wiring layer, the low thermal expansion material layer being bonded to an entire region of a rear surface of the build-up wiring layer corresponding to a region of a front surface of the build-up wiring layer on which the semiconductor chip is mounted. | 01-28-2010 |
| 20100022035 | Electronic apparatus and manufacturing method thereof - There are provided a plurality of semiconductor apparatuses judged as good items in electrical and functional inspections while having internal connection terminals disposed on electrode pads of semiconductor chips, resin layers which are disposed on surfaces of the semiconductor chips in which the electrode pads are formed and expose the internal connection terminals, and wiring patterns which are disposed on the resin layers and are connected to the internal connection terminals, a wiring substrate on which the plurality of semiconductor apparatuses are stepwise stacked, the wiring substrate electrically connected to the plurality of semiconductor apparatuses, and a sealing resin with which the plurality of semiconductor apparatuses are sealed. | 01-28-2010 |
| 20100001304 | LIGHT EMITTING DIODE AND METHOD FOR MANUFACTURING THE SAME - A light emitting diode includes an LED element, a fluorescent material provided so as to cover the LED element, a substrate on which the LED element is mounted and made of ceramics or silicon, and a pair of electrode pads which are electrically connected to the LED element on the substrate. | 01-07-2010 |
| 20090321896 | SEMICONDUCTOR DEVICE AND ITS MANUFACTURING METHOD - There is provided a semiconductor device | 12-31-2009 |
| 20090310274 | ELECTROSTATIC CHUCK AND SUBSTRATE TEMPERATURE CONTROL FIXING APPARATUS - There is provided an apparatus including: an electrostatic chuck for holding an object; and a base plate which supports the electrostatic chuck and controls a temperature of the electrostatic chuck. The electrostatic chuck is fixed onto the base plate via an adhesive layer. The electrostatic chuck includes: a base; an electrostatic electrode built in the base; and a mounting portion containing a dielectric material and detachably mounted on the base. The object is mounted on the mounting portion. | 12-17-2009 |
| 20090309231 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device includes: a first insulating layer having an opening therethrough; a first wiring pattern disposed on the first insulating layer; an external connection terminal provided on a portion of the first wiring pattern exposed from the opening; a second insulating layer which covers the first wiring pattern and having via holes therethrough; a second wiring pattern disposed within the second insulating layer and electrically connected to the first wiring pattern via a conductive material filled in at least one of the via holes; a semiconductor element having an electrode thereon and mounted on the second insulating layer to be electrically connected to the first wiring pattern through the electrode disposed in at least one of the via holes; an underfill resin filled between the semiconductor element and the second insulating layer; and a sealing resin portion which seals the semiconductor element. | 12-17-2009 |
| 20090309208 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device is provided. The semiconductor device includes: an insulating layer having an opening therethrough; a wiring pattern formed on the insulating layer; an external connection terminal provided on a portion of the wiring pattern which is exposed from the opening; a semiconductor element flip-chip-mounted on the wiring pattern through a connection portion; an underfill resin which is filled between the semiconductor element and the wiring pattern to cover the connection portion; and a sealing resin portion which seals the semiconductor element. | 12-17-2009 |
| 20090308538 | SUBSTRATE TEMPERATURE REGULATION FIXED APPARATUS - A substrate temperature regulation fixed apparatus has a base substance on which a vacuumed object is placed, an adhesive layer and a base plate. The base substance is fixed on the base plate through the adhesive layer. The adhesive layer contains a substance having plasma resistance. | 12-17-2009 |
