| PHOENIX PRECISION TECHNOLOGY CORPORATION Patent applications |
| Patent application number | Title | Published |
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| 20110057305 | PACKAGE SUBSTRATE HAVING SEMICONDUCTOR COMPONENT EMBEDDED THEREIN AND FABRICATION METHOD THEREOF - A package substrate having a semiconductor component embedded therein and a method of fabricating the same are provided, including: providing a semiconductor chip with electrode pads disposed on an active surface thereof; forming a passivation layer on the active surface and the electrode pads; forming on the passivation layer metal pads corresponding in position to the electrode pads, respectively, so as for the semiconductor chip to be fixed in position to an opening of a substrate body; forming a first dielectric layer on the semiconductor chip and the substrate body; forming dielectric layer openings by laser and preventing the electrode pads from being penetrated by the metal pads; removing the metal pads and the passivation layer in the dielectric layer openings so as to expose the electrode pads therefrom; and forming a first wiring layer on the first dielectric layer for electrical connection with the electrode pads. | 03-10-2011 |
| 20110056738 | PACKAGE SUBSTRATE AND MANUFACTURING METHOD THEREOF - A package substrate and a manufacturing method thereof are provided, including: forming a solder mask on a package substrate body having a plurality of conductive pads; forming a plurality of first-step openings in the solder mask by exposure and development; forming a plurality of second-step openings in the solder mask by a laser-based or plasma-based drilling process; and removing a solder mask foot from the bottom of each of the first-step openings so as to expose large surface areas of the conductive pads. Hence, the contact area between a conductive element and a corresponding one of the conductive pads is large enough to enhance bonding and electrical connection therebetween. | 03-10-2011 |
| 20110042800 | PACKAGE STRUCTURE - A package structure includes a first carrier board provided with a through hole, at least a filling hole in communication with the through hole, a semiconductor chip received in the through hole, and a fastening member disposed in the filling hole and abutting against the semiconductor chip so as to secure the semiconductor chip in position, thereby preventing the semiconductor chip in the through hole from displacement under an external force. | 02-24-2011 |
| 20100115767 | METHOD FOR FABRICATING PRINTED CIRCUIT BOARD HAVING CAPACITANCE COMPONENTS - A method of fabricating a printed circuit board having capacitance components, including: providing a core board having first and second surfaces with first and second wiring layers provided thereon, respectively, and electrically connected, a second dielectric layer, and a carrier board sequentially provided thereon with a second metal layer, a high dielectric material layer, and a third wiring layer with a plurality of first electrode plates thereon; laminating the core board, second dielectric layer, and carrier board to one another; removing the carrier board so as to expose the second metal layer; and patterning the second metal layer so as to form a fifth wiring layer having a plurality of second electrode plates and a plurality of second conductive vias electrically connected to the third wiring layer, thereby allowing the first electrode plates, high dielectric material layer, and second electrode plates together to form a plurality of capacitance components. | 05-13-2010 |
| 20100096750 | Packaging substrate - A packaging substrate is disclosed, which comprises: a substrate body, wherein a surface thereof has a plurality of conductive pads and a solder mask disposed on the surface and having a plurality of openings to expose the conductive pads; dielectric rings disposed on the inner walls of the openings and extending to parts of the surface of the solder mask surrounding the openings; and metal bumps disposed in the openings and on the conductive pads exposed thereby, and combined with the dielectric rings. | 04-22-2010 |
| 20100089612 | Electrical connection element of packaging substrate - An electrical connection element of packaging substrate is disclosed. Wherein a plurality of conductive pads and a solder mask are formed on the surface of the packaging substrate, and a plurality of openings is formed in the solder mask to expose the conductive pads covered there beneath. The electrical connection element formed on the conductive pad comprises a core layer, a first covering layer and a second covering layer. The first covering layer covers the core layer, and the density of the first covering layer is higher than the density of the core layer. The second covering layer covers the first covering layer. | 04-15-2010 |
| 20100029047 | METHOD OF FABRICATING PRINTED CIRCUIT BOARD HAVING SEMICONDUCTOR COMPONENTS EMBEDDED THEREIN - A method for fabricating a printed circuit board having semiconductor components embedded therein is provided. A carrier board having at least a predetermined hole area is provided. A plurality of through holes are formed in the surround of the predetermined hole area on the carrier board. A rectangular cavity is formed by punching to remove the predetermined hole area, and a plurality of through holes are formed around the rectangular cavity The through holes facilitate receipt of the semiconductor chip and filling of a fixing material in the rectangular cavity, to avoid displacement of the semiconductor chip in subsequent fabricating steps that would otherwise cause a drawback, that is, a wiring to be formed later is improperly electrically connected to the semiconductor chip. | 02-04-2010 |
| 20100002406 | CIRCUIT BOARD HAVING SEMICONDUCTOR CHIP EMBEDDED THEREIN - A circuit board having a semiconductor chip embedded therein includes: a core board having opposing first and second surfaces and a through-hole; a semiconductor chip received in the through-hole and having a first active surface and an opposing second active surface, wherein first electrode pads comprising signal pads, power pads, and ground pads are provided on the first active surface; a first dielectric layer provided on the first surface of the core board and the first active surface of the semiconductor chip and configured to fill a gap between the through-hole and the semiconductor chip so as to secure the semiconductor chip in position to the through-hole; and a first circuit layer disposed in the first dielectric layer so as to be flush with the first dielectric layer, provided with first conductive vias disposed in the first dielectric layer, and electrically connected to the first electrode pads. | 01-07-2010 |
| 20100002405 | PACKAGE SUBSTRATE STRUCTURE - A package substrate structure includes: a substrate having a first surface and an opposing second surface and characterized by a plurality of wire-bonding pads provided on the first surface of the substrate, a plurality of ball-implanting pads provided on the second surface of the substrate, and at least a cavity formed to penetrate the first and second surfaces of the substrate; a metal board mounted on the second surface of the substrate and covering the cavity, wherein the metal board has a thickness greater than that of the ball-implanting pads and has an area greater than that of the cavity; and solder masks disposed on the first and second surfaces of the substrate respectively and having at least a solder-mask cavity corresponding in position to the cavity of the substrate, the solder masks further having a plurality of openings for exposing the wire-bonding pads, the ball-implanting pads and the metal board. | 01-07-2010 |
| 20090309202 | PACKAGE SUBSTRATE HAVING EMBEDDED SEMICONDUCTOR CHIP AND FABRICATION METHOD THEREOF - A packaging substrate having a semiconductor chip embedded and a fabrication method thereof are provided. The method includes forming a semiconductor chip in a through cavity of a core board and exposing a photosensitive portion of the semiconductor chip from the through cavity; sequentially forming a first dielectric layer and a first circuit layer on the core board, the first circuit layer being electrically connected to the electrode pads of the semiconductor chip; forming a light-permeable window on the first dielectric layer to expose the photosensitive portion of the semiconductor chip and adhering a light-permeable layer onto the light-permeable window, thereby permitting light to penetrate through the light-permeable layer to reach the photosensitive portion. Therefore, when fabricated with the method, the packaging substrate dispenses with conductive wires and dams and thus can be downsized. | 12-17-2009 |
| 20090309179 | PACKAGE SUBSTRATE HAVING EMBEDDED PHOTOSENSITIVE SEMICONDUCTOR CHIP AND FABRICATION METHOD THEREOF - A packaging substrate with an embedded photosensitive semiconductor chip and a method for fabricating the same are provided. The method includes the steps of: disposing the semiconductor chip in an through cavity of a core board with the photosensitive portion of the semiconductor chip being exposed from the through cavity; forming a first circuit layer on the core board at a side opposite to the photosensitive portion so as to electrically connect the electrode pads of the semiconductor chip; and forming a light-permeable layer on the core board at the same side with the photosensitive portion via an adhesion layer so as to allow light to penetrate through the light-permeable layer and reach the photosensitive portion of the semiconductor chip. When fabricated by the method, the packaging substrate dispenses with conductive wires and a surrounding dam and thus is efficiently downsized. | 12-17-2009 |
| 20090308652 | PACKAGE SUBSTRATE HAVING DOUBLE-SIDED CIRCUITS AND FABRICATION METHOD THEREOF - A package substrate having double-sided circuits and a method of manufacturing the same are proposed. The package substrate includes a core board having a plated through hole, a plurality of first electrical contact pads, and a first solder mask layer formed on the core board. A first wiring layer and a second wiring layer are disposed on two opposite surfaces of the core board, respectively, and electrically connected to the plated through hole. A portion of the first wiring layer is exposed from a first opening formed in the first solder mask layer. The first electrical contact pads are disposed on the exposed portion of the first wiring layer. The top surface of the first electrical contact pads is higher than that of the first wiring layer to thereby allow a semiconductor chip to be mounted on the electrical contact pads for improving electrical connection. | 12-17-2009 |
| 20090294993 | Packaging substrate structure - A packaging substrate structure is disclosed, which comprises a dielectric material with Young's Modulus less than 1 Gpa and moisture absorption ratio less than 1.0% in a solder mask, an outer dielectric layer or the combination. The package substrate structure improves the stability and the integration of the product. | 12-03-2009 |
| 20090294962 | PACKAGING SUBSTRATE AND METHOD FOR FABRICATING THE SAME - A packaging substrate and a method for fabricating the same are proposed, including: providing a substrate body having a first surface and an opposing second surface, wherein the first surface has a plurality of flip-chip solder pads and wire bonding pads and the second surface has a plurality of solder ball pads; forming a first and a second solder mask layers on the first and second surfaces respectively and forming openings in the first and second solder mask layers to expose the flip-chip solder pads, the wire bonding pads and the solder ball pads; forming first bumps on the flip-chip solder pads; and forming an electroless Ni/Pd/Au layer on the first bumps and the wire bonding pads by electroless plating, wherein the electroless Ni/Pd/Au layer has a thickness tolerance capable of meeting evenness requirements for fine pitch applications. | 12-03-2009 |
| 20090236750 | Package structure in which coreless substrate has direct electrical connections to semiconductor chip and manufacturing method thereof - A package structure in which a coreless substrate has direct electrical connections to a semiconductor chip and a manufacturing method thereof are disclosed. The method includes the following steps: providing a metal carrier board having a cavity; placing a chip having a plurality of electrode pads on an active surface in the cavity of a board; filling the cavity with an adhesive for fixing the chip; forming a solder mask on the active surface of the chip and the surface of the metal carrier board at the same side, wherein the solder mask has a plurality of openings to expose the electrode pads of the chip; forming a built-up structure on the solder mask and the exposed active surface of the chip in the openings; and removing the metal carrier board. In this method the metal carrier board can support the built-up structure to thereby avoid warpage. | 09-24-2009 |
| 20090200658 | CIRCUIT BOARD STRUCTURE EMBEDDED WITH SEMICONDUCTOR CHIPS - A circuit board structure embedded with semiconductor chips is proposed. A semiconductor chip is received in a cavity of a supporting board. A dielectric layer and a circuit layer are formed on the supporting board and the semiconductor chip. A plurality of hollow conductive vias are formed in the dielectric layer for electrically connecting the circuit layer to the semiconductor chip. By providing the hollow conductive vias of present invention, the separating results of different coefficients of expansion and thermal stress are prevented, and thus electrical function of products is ensured. | 08-13-2009 |
| 20090168380 | PACKAGE SUBSTRATE EMBEDDED WITH SEMICONDUCTOR COMPONENT - A package substrate embedded with a semiconductor component is provided. A semiconductor chip is received in a cavity of a substrate body, and has electrode pads on an active surface thereof. A passivation layer is disposed on the active surface and has openings for exposing the electrode pads. An electroless plating metal layer, a first sputtering metal layer and a second sputtering metal layer are sequentially formed on the electrode pads, the openings of the passivation layer and the passivation layer surface around the openings. Contact pads are formed on the second sputtering metal layer. A first dielectric layer is disposed on the substrate body and the passivation layer. A first circuit layer is formed on the first dielectric layer. First conductive vias are formed in the first dielectric layer and electrically connected to the contact pads. The first circuit layer is electrically connected to the first conductive vias. | 07-02-2009 |
| 20090166841 | PACKAGE SUBSTRATE EMBEDDED WITH SEMICONDUCTOR COMPONENT - A package substrate embedded with a semiconductor component includes a substrate, a semiconductor chip, a first dielectric layer, a first circuit layer and first conductive vias. The substrate is formed with an opening for allowing the semiconductor chip to be secured therein. The semiconductor chip has an active surface and an inactive surface, wherein a plurality of electrode pads are formed on the active surface thereof and a passivation layer disposed thereon. The first dielectric layer is disposed both on the substrate and the passivation layer, wherein vias are formed at locations corresponding to those of the electrode pads and penetrating the dielectric layer and the passivation layer to expose the electrode pads therefrom. The first circuit layer is disposed on the first dielectric layer and electrically connected to the first conductive vias. The first conductive vias are disposed in the openings of the dielectric and passivation layers and the first circuit layer is electrically connected to the electrode pads, thereby allowing the first conductive vias to be electrically connected to the electrode pads of the chip. | 07-02-2009 |
| 20090146317 | PACKAGE SUBSTRATE HAVING ELECTRICALLY CONNECTING STRUCTURE - A package substrate having an electrically connecting structure are provided. The package substrate include: a package substrate substance with at least a surface having a plurality of electrically connecting pads formed thereon, allowing an insulating protective layer to be formed on the surface of the package substrate substance and the electrically connecting pads and formed with a plurality of openings corresponding in position to the electrically connecting pads so as to expose a portion of the electrically connecting pads, respectively; and a metal layer provided on an exposed portion of the electrically connecting pads, walls of the openings of the insulating protective layer, and a circular portion of the insulating protective layer encircling each of the openings thereof, and provided with a slope corresponding in position to a bottom rim of each of the openings. Accordingly, solder bleeding and short circuits are prevented. | 06-11-2009 |
| 20090134515 | SEMICONDUCTOR PACKAGE SUBSTRATE - A semiconductor package substrate includes a main body with a surface having a first circuit layer thereon and a dielectric layer covering the first circuit layer, with a plurality of vias on a portion of the first circuit layer; a plurality of first conductive vias disposed in the vias; a plurality of first electrically connecting pads on the first conductive vias and completely exposed on the dielectric layer having no extending circuits for a semiconductor chip to be mounted thereon, the first electrically connecting pad being electrically connected to the first circuit layer of the first conductive via; and an insulating protective layer disposed on the main body with an opening for completely exposing the first electrically connecting pads, whereby the circuit layout density is increased without disposing circuits between the electrically connecting pads. | 05-28-2009 |
| 20090129040 | Circuit board having power source - A circuit board having a power source is provided, including: a carrier board having a first dielectric layer disposed on at least a surface thereof and a first circuit layer disposed on the first dielectric layer, wherein the first circuit layer has at least an electrode pad; a first electrode plate disposed on the electrode pad; an insulating frame member disposed on the first electrode plate, with a portion of the first electrode plate being exposed from the insulating frame member, wherein electrolyte is received in the insulating frame member and in contact with the first electrode plate; and a porous second electrode plate disposed on the insulating frame member and the electrolyte, the second electrode plate being in contact with the electrolyte, so as to provide the power source for the circuit board. | 05-21-2009 |
| 20090115045 | Stacked package module and method for fabricating the same - The present invention relates to a stacked package module and a method for fabricating the same. The stacked package module comprises: a first package structure, a second package structure, a ceramic-surfaced aluminum plate, and a metal paste. Herein, the ceramic-surfaced aluminum plate has a plurality of through holes filled with the metal paste to correspond with and electrically connect the first conductive pads of the first package structure and the second conductive pads of the second package structure; and the ceramic-surfaced aluminum plate further has a first cavity to receive a chip. Besides, the present invention provides a stacked package module, which can avoid warpage, omit the process for soldering, favor the shrinkage of size and pitch of the conductive pads, and also can reduce the height of the package. | 05-07-2009 |
| 20090102050 | SOLDER BALL DISPOSING SURFACE STRUCTURE OF PACKAGE SUBSTRATE - A solder ball disposing surface structure of a package substrate is disclosed, wherein a package substrate has a chip disposing surface with a first circuit layer, an opposed solder ball disposing surface with a second circuit layer, and a first insulative protection layer formed on the chip disposing surface and the first circuit layer. The solder ball disposing surface structure includes: metal pads integral to the second circuit layer; metal flanges formed around the metal pads; and a second insulative protection layer formed on the solder ball disposing surface, the second insulative protection layer having second openings each with a size smaller than an outer diameter of each of the metal flanges so as to expose a part of surfaces of the metal flanges, thereby increasing contact area of the surface for mounting conductive elements and preventing detachment of the conductive elements from the surface due to poor bonding force. | 04-23-2009 |
| 20090102045 | Packaging substrate having capacitor embedded therein - A packaging substrate having capacitors embedded therein, comprising: two capacitor disposition layers, each respectively consisting of a high dielectric layer and two first circuit layers disposed on two opposite surfaces of the high dielectric layer, wherein each of the first circuit layers has a plurality of electrode plates and a plurality of circuits; an adhesive layer disposed between the capacitor disposition layers to adhere the capacitor disposition layers to form a core board structure, wherein spaces between the circuits of every first circuit layer are filled with the adhesive layer; and a plurality of conductive through holes penetrating the capacitor disposition layers and the adhesive layer, and electrically connecting the circuits of the capacitor disposition layers respectively; wherein, pairs of the electrode plates on the opposite surfaces of each of the capacitor disposition layers are parallel and correspond to each other to form capacitors. | 04-23-2009 |
| 20090102039 | Package on package structure - The present invention relates to a package on package (PoP) structure, which comprises: a first packaging substrate having a plurality of conductive elements on its surface; a second packaging substrate having a plurality of conductive elements on its surface; and a surface-ceramic aluminum plate sandwiched between the first packaging substrate and the second packaging substrate. The surface-ceramic aluminum plate includes plural plated through holes extending through the layer. In addition, the first packaging substrate electrically conducts with the second packaging substrate through these plated through holes. The disclosed structure eliminates the warpage problem of PoP structure, and enhances the strength of PoP structure. | 04-23-2009 |
| 20090096099 | PACKAGE SUBSTRATE AND METHOD FOR FABRICATING THE SAME - A package substrate and a method for fabricating the same are provided according to the present invention. The package substrate includes: a substrate body with a die attaching side and a ball implanting side lying opposite each other, having a plurality of wire bonding pads and a plurality of solder ball pads respectively, and having a first insulating passivation layer and a second insulating passivation layer respectively, wherein a plurality of first apertures and a plurality of second apertures are formed in the first insulating passivation layer and the second insulation passivation layer respectively to corresponding expose the wire bonding pads and the solder ball pads; a chemical plating metal layer formed on the wire bonding pads and solder ball pads respectively; and a wire bonding metal layer formed on a surface of the chemical plating metal layer of the wire bonding metal layer. | 04-16-2009 |
| 20090091903 | Stack structure of circuit boards embedded with semiconductor chips - A stack structure of circuit boards embedded with semiconductor chips is proposed. At least two circuit boards are provided. Each of the circuit boards includes circuit layers formed on surfaces thereof and at least one opening embedded with a semiconductor chip, wherein, the circuit layers have a plurality of conductive structures and electrically conductive pads, and the semiconductor chip has a plurality of electrode pads, and the conductive structures of the circuit layers are electrically conductive to the electrode pads of the semiconductor chip. At least one adhesive layer is formed between the two circuit boards and disposed with a conductive material corresponding in position to the electrically conductive pads of the circuit boards. Thus, a conductive path can be formed by the conductive material between the electrically conductive pads of the circuit boards, thereby establishing electrical connection between the two circuit boards. | 04-09-2009 |
| 20090090548 | CIRCUIT BOARD AND FABRICATION METHOD THEREOF - A circuit board is disclosed, including a core board, wherein at least one surface thereof has a core circuit layer with a plurality of conductive lands; a first dielectric layer disposed on the core board and disposed with a plurality of openings for exposing the conductive lands; a first coupling layer disposed on the first dielectric layer, the first coupling layer having a plurality of openings disposed corresponding to the openings of the first dielectric layer; and a first circuit layer disposed on the first coupling layer and a plurality of first conductive vias disposed in the openings of the first coupling layer for electrically connecting to the conductive lands of the core circuit layer. By the formation of the first coupling layer that connects the first circuit layer and the first dielectric layer, the bond strength between the first circuit layer and the first dielectric layer is enhanced, thereby preventing detachment and delamination as encountered in the prior art. The invention further provides a fabrication method of the circuit board described above. | 04-09-2009 |
| 20090090541 | STACKED SEMICONDUCTOR DEVICE AND FABRICATING METHOD THEREOF - Provided is a stacked semiconductor device including a first flexible layer and a second flexible layer combined together, serving as a flexible substrate body being bent somewhere such that a surface of the first flexible layer itself is face-to-face clipped, two semiconductor chips each embedded in the flexible substrate body, and an adhesive layer sandwiched in a gap between the face-to-face surface of the first flexible layer. The active surface of each of the semiconductor chips has plurality of electrode pads thereon electrically connected to a first circuit layer on the second flexible layer. The semiconductor chips are stacked up and embedded in the flexible substrate body, thereby reducing package height to achieve miniaturization of electronic products. A method for fabricating the stacked semiconductor device is also provided. | 04-09-2009 |
| 20090085192 | Packaging substrate structure having semiconductor chip embedded therein and fabricating method thereof - The present invention relates to a packaging substrate structure having an semiconductor chip embedded therein and a method for manufacturing the same. The structure comprises: a substrate body having a through cavity, wherein the substrate body is a multilayer board which comprises a core board and a first built-up structure disposed on each of the opposite surfaces of the core board; an semiconductor chip disposed and fixed in the cavity, wherein the active surface of the semiconductor chip has a plurality of electrode pads thereon; and a second built-up structure disposed on at least one surface of the substrate body as well as the surface of the semiconductor chip, wherein the second built-up structure has a plurality of conductive vias conducting to the first built-up structure. The present invention can reduce the stress imposed on the surface of the semiconductor chip and increase the reliability of the whole package structure. | 04-02-2009 |
| 20090081861 | MANUFACTURING METHOD OF SOLDER BALL DISPOSING SURFACE STRUCTURE OF PACKAGE SUBSTRATE - A manufacturing method of a solder ball disposing surface structure on a core board including: providing a core board with a first metal layer and an opposing metal bump-equipped second metal layer; forming resists on the first and second metal layers respectively; forming third, fourth and fifth openings in the resists; removing the first and second metal layers in the third and fourth openings to form first and second circuit layers and metal pads respectively; removing the metal bumps in the fifth openings to form metal flanges; removing the resists; forming first and second insulative protection layers on the first and second circuit layers and metal pads respectively; forming first and second openings in the first and second insulative protection layers to expose the first circuit layer as electrical connecting pads and expose the metal flanges respectively. Accordingly, increased contact surface area for mounting conductive elements prevents detachment thereof. | 03-26-2009 |
| 20090077799 | Circuit board structure with capacitor embedded therein and method for fabricating the same - The present invention relates to a circuit board structure with a capacitor embedded therein and the method for fabricating the same. The disclosed structure comprises: a core board; a buffer layer disposed on two surfaces of the core board and having a plurality of open areas; a first circuit layer disposed in the open areas; a high dielectric material film disposed over the first circuit layer and the buffer layer on at least one surface of the core board; and a second circuit layer disposed on the high dielectric material film, wherein the region where the second circuit layer corresponds to the first circuit layer functions as a capacitor, and the first circuit layer on two surfaces of the core board electrically connects to each other by at least one plated through hole. The present invention improves the problem of void generation and enhances the precision of the capacitor region. | 03-26-2009 |
| 20090072384 | Packaging substrate having heat-dissipating structure - Provided is a packaging substrate with a heat-dissipating structure, including a core layer with a first surface and an opposite second surface having a first metal layer and a second metal layer respectively. Portions of the first metal layer are exposed from a second cavity penetrating the core layer and second metal layer. Portions of the second metal layer are exposed from a first cavity penetrating the core layer and first metal layer. Semiconductor chips each having an active surface with electrode pads thereon and an opposite inactive surface are received in the first and second cavities and attached to the second metal layer and the first metal layer respectively. Conductive vias disposed in build-up circuit structures electrically connect to the electrode pads of the semiconductor chips. A heat-dissipating through hole penetrating the core layer and build-up circuit structures connects the metal layers and contact pads. | 03-19-2009 |
| 20090071704 | Circuit board and method for fabricating the same - A circuit board and a method for fabricating the same are disclosed. The circuit board includes: a carrier board having a circuit layer formed on at least one surface thereof; a first dielectric layer formed on the carrier board and having first openings for exposing a part of the circuit layer; conductive vias formed in the first openings; a second dielectric layer formed on the first dielectric layer and having second and third openings formed therein, wherein the second openings correspond to the first openings for exposing the conductive vias; and a multi-layered metal electroless plating circuit layer formed in the second and third openings for electrically connecting the circuit layer of the carrier board via the conductive vias, thereby allowing the multi-layered metal electroless plating circuit layer to be embedded into the first and second dielectric layers to enhance the bonding strength therebetween and increase the reliability of the circuit board and facilitate formation of fine circuits. | 03-19-2009 |
| 20090071699 | PACKAGING SUBSTRATE STRUCTURE AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a packaging substrate and a method for manufacturing the same. The packaging substrate comprises: a substrate body, wherein a surface thereof has a circuit layer comprising a plurality of circuits and a plurality of conductive pads, and the conductive pads are higher than the circuits; and an insulating protection layer disposed on the surface of the substrate body, wherein the insulating protection layer has a plurality of openings exposing the conductive pads, and the size of the openings is larger than or equal to that of the conductive pads. Accordingly, the packaging substrate structure of the present invention can be employed in a flip-chip packaging structure of fine-pitch. | 03-19-2009 |
| 20090065246 | Circuit board structure and method for manufacturing the same - A circuit board disclosed in the present invention includes a core board on which a first circuit layer is placed, wherein the first circuit layer has a plurality of conductive pads; and at least one built-up structure covering the surface of the circuit board, which comprises a dielectric layer, a second circuit layer, and a plurality of conductive vias without being surrounded by annular metal rings. The conductive vias are conducted with the conductive pads of the first circuit layer and the second circuit layer. Besides, the surface of the second circuit layer is in the same height as the surface of the dielectric layer. Also, the present invention provides a method for manufacturing the above-mentioned circuit board structure. Therefore, a circuit board having fine circuits can be formed, and the shape of the circuit can be ensured efficiently. Moreover, electric performances of the circuit board can be improved. | 03-12-2009 |
| 20090065245 | CIRCUIT BOARD STRUCTURE AND FABRICATION METHOD THEREOF - A circuit board structure and a fabrication method thereof are disclosed. The circuit board structure includes a carrying board having a first and an opposite second surface and having at least one through cavity formed therein; a semiconductor chip disposed in the through cavity of the carrying board; an adhesive material filling the gap between the through cavity of the carrying board and the semiconductor chip to fix the semiconductor chip in the through cavity; and a reinforcing layer disposed on the second surface of the carrying board and the inactive surface of the semiconductor chip, thereby increasing the strength of the carrying board as well as the reliability of the circuit board. | 03-12-2009 |
| 20090057913 | Packaging substrate structure with electronic components embedded therein and method for fabricating the same - A packaging substrate structure with electronic components embedded therein and a method for fabricating the same are disclosed. The packaging substrate structure comprises a core board with a wiring layer on the two opposite surfaces thereof; a first built-up structure disposed on at least one surface of the core board and having a cavity to expose the surface of the core board; an electronic component disposed in the cavity and having an active surface and an inactive surface, where the active surface has pluralities of electrode pads and the inactive surface faces the surface of the core board; and a solder mask disposed on the surfaces of the first built-up structure and the electronic component, where the solder mask has pluralities of first openings to expose the electrode pads of the electronic component. Accordingly, the packaging substrate disclosed by the present invention can efficiently enhance electrical performance and product reliability. | 03-05-2009 |
| 20090057873 | Packaging substrate structure with electronic component embedded therein and method for manufacture of the same - A packaging substrate structure with an electronic component embedded therein and a fabricating method thereof are disclosed. The packaging substrate structure comprises a core plate; a first built-up structure disposed on a surface of the core plate and comprising a first dielectric layer and a first circuit layer disposed on the first dielectric layer; a second built-up structure disposed on the first built-up structure, wherein a cavity is disposed in the second built-up structure to expose the first built-up structure; an electronic component disposed in the cavity, wherein the electronic component has an active surface having a plurality of electrode pads and an inactive surface facing the first built-up structure; and a solder mask disposed on the surfaces of the second built-up structure and the electronic component, and having a plurality of first openings to expose the electrode pads of the electronic component. | 03-05-2009 |
| 20090051024 | SEMICONDUCTOR PACKAGE STRUCTURE - A semiconductor package structure relates to a chip-embedded semiconductor package electrically connected to a second semiconductor component. The semiconductor package structure comprises a first packaging substrate having a first surface, a second surface and at least a first cavity penetrating through the first surface and the second surface. The semiconductor package structure includes a first semiconductor component with electrode pads disposed in the first cavity. A first build-up circuit structure comprising a plurality of third and fourth conductive pads, and a second semiconductor component with electrode pads is disposed on surfaces of the third conductive pads by a first conductive element. The semiconductor package structure also includes a second conductive element disposed on the fourth conductive pads of the first build-up circuit structure of the first packaging substrate and a stacked structure electrically connecting the stacked structure to the first build-up circuit structure disposed on the first packaging substrate. | 02-26-2009 |
| 20090050359 | Circuit board having electrically connecting structure and fabrication method thereof - A circuit board having an electrically connecting structure and a method for fabricating the same are provided. A circuit board body having inner-layer circuits is provided. A circuit layer is formed on at least an outermost surface of circuit board body, and including electrically connecting pads and circuits. The electrically connecting pads are partially electrically connected to the circuits, and are partially electrically connected to the inner-layer circuits via conductive vias. An insulating protective layer is disposed on the circuit board body and is formed with openings therein for exposing the electrically connecting pads. Conductive posts are formed on the electrically connecting pads. Standalone metal pads are formed on the insulating protective layer but are not used for electrical connection. The conductive posts and electrically connecting pads are absent from the insulating protective layer beneath the standalone metal pads, such that circuits can be formed under the insulating protective layer. | 02-26-2009 |
| 20090046432 | Packaging substrate structure with electronic components embedded therein and method for manufacturing the same - A packaging substrate structure with electronic components embedded therein and a method for manufacturing the same are disclosed. The packaging substrate structure comprises: a core board; a built-up structure disposed on at least one surface of the core board, wherein the built-up structure has a plurality of conductive pads and an electronic component-disposing part on the surface thereof; a solder mask disposed on the surface of the built-up structure, where the solder mask has a open area to expose the electronic component-disposing part and a plurality of openings to expose the conductive pads of the built-up structure; and an electronic component disposed on the electronic component-disposing part and in the open area. Accordingly, the packaging substrate disclosed by the present invention exhibits enhanced electrical performance and product reliability. | 02-19-2009 |
| 20090041981 | PACKAGING SUBSTRATE HAVING ELECTRICAL CONNECTION STRUCTURE AND METHOD FOR FABRICATING THE SAME - A packaging substrate having an electrical connection structure and a method for fabricating the same are provided. The packaging substrate have a substrate body with a plurality of conductive pads on a surface thereof; a solder mask layer disposed on the substrate body with a plurality of openings corresponding to the conductive pads, the size of each of the openings being larger than each of the conductive pads; and electroplated solder bumps for covering the conductive pads to provide better bond strength and reliability. | 02-12-2009 |
| 20090039493 | Packaging substrate and application thereof - A packaging substrate is disclosed in the present invention, which includes a substrate body having a first surface and an opposite second surface. The first surface has a first cavity, and the second surface has a second cavity. The first cavity corresponds to and is interlinked to the second cavity. In order to provide a space for disposing a chip, the dimension of the second cavity is larger than that of the first cavity, such that there is a step at the interlinking region between the first cavity and the second cavity. Additionally, a plurality of wire bonding pads are disposed on the first surface around the first cavity. A package structure comprising the packaging substrate and the application thereof are also provided in the present invention. | 02-12-2009 |
| 20090038838 | CIRCUIT BOARD AND METHOD FOR FABRICATING THE SAME - A circuit board and a method for fabricating the same are provided. The circuit board includes a core board, a first bonding layer disposed on the core board, and a first wiring layer disposed on the first bonding layer. The first bonding layer enables the first wiring layer to be bonded to the core layer better, thereby preventing delamination and forming a fine-pitch wiring layer. | 02-12-2009 |
| 20090032930 | PACKAGING SUBSTRATE HAVING CHIP EMBEDDED THEREIN AND MANUFACTURING METHOD THEREOF - A packaging substrate having a chip embedded therein, comprises a first aluminum substrate having a first cavity therein; a second aluminum substrate having a second cavity corresponding to the first cavity; a dielectric layer disposed between the first aluminum substrate and the second aluminum substrate; a chip embedded in the first cavity and the second cavity, having an active surface with a plurality of electrode pads thereon; and one built-up structure disposed on the surface of the first aluminum substrate and the active surface of the chip, wherein the built-up structure has a plurality of conductive vias electrically connecting to the electrode pads. The substrate warpage is obviously reduced by the assistance of using aluminum or aluminum alloy as the material of the substrate. Also, a method of manufacturing a packaging substrate having a chip embedded therein is disclosed. | 02-05-2009 |
| 20090032294 | CIRCUIT BOARD - Provided is a circuit board including: a circuit board body with at least one surface having a plurality of electrically connecting pads; an insulating protection layer formed on the circuit board body and formed with an opening corresponding in position to one of the electrically connecting pads, being larger than the electrically connecting pad, and not being in contact with the periphery of the electrically connecting pad; and a soldering material formed on, and confined to, the electrically connecting pad; thus allowing an electrically conductive element limited in the opening formed in the insulating protection layer to be fabricated from the soldering material by a reflow process with a view to forming a fine-pitch electrically connecting structure. | 02-05-2009 |
| 20090026633 | Flip chip package structure and method for manufacturing the same - A flip chip package structure and a method for manufacturing the same are disclosed. The method for manufacturing a flip chip package structure comprises following steps: (a) providing a semiconductor chip including a plurality of electrode pads and a plurality of first solders, and providing a packaging substrate having a plurality of conductive pads and a plurality of second solders (b) forming a resin adhesive layer on the active surface of the semiconductor chip, and the first solders are exposed from the resin adhesive layer; (c) assembling the packaging substrate and the semiconductor chip with the resin adhesive layer formed thereon to form an assembly unit; and (d) reflow soldering the assembly unit to fuse the first solders of the semiconductor chip with the second solders of the packaging substrate to form fused solders, and the packaging substrate is adhered with the resin adhesive layer. | 01-29-2009 |
| 20090020322 | PACKAGING SUBSTRATE WITH CONDUCTIVE STRUCTURE - A packaging substrate with conductive structure is provided, including a substrate body having at least one conductive pad on a surface thereof, a stress buffer metal layer disposed on the conductive pad, a solder resist layer disposed on the substrate body and having at least one opening therein for correspondingly exposing a portion of top surface of the stress buffer metal layer, a metal post disposed on a central portion of the surface of the stress buffer metal layer, and a solder bump covering the surfaces of the metal post. Therefore, a highly reliable conductive structure is provided, by using the stress buffer metal layer to release thermal stresses, and using the metal post and the solder bump to increase the height of the conductive structure. | 01-22-2009 |
| 20090014896 | Flip-chip package structure, and the substrate and the chip thereof - A flip-chip package structure is disclosed, which comprises: a packaging substrate having an upper surface and a plurality of conductive pads formed on the upper surface; a semiconductor chip having an active surface and a plurality of electrode pads formed on the active surface; and a plurality of first solder bumps; wherein each first solder bump connects to an electrode pad and a conductive pad, and each first solder bump contains a solid grain. | 01-15-2009 |
| 20090014865 | HEAT-CONDUCTIVE PACKAGE STRUCTURE - A heat-conductive package structure includes a carrier board having a first surface and an opposing second surface and formed with a through opening passing the carrier board; a first heat-conductive structure including a heat-conductive hole in the through opening, a first heat-conductive sheet on the carrier board, and a second heat-conductive sheet on the carrier board, wherein the first and second heat-conductive sheets are conductively connected by the heat-conductive hole; a first dielectric layer formed on the first surface of the carrier board and formed with a first opening for exposing the first heat-conductive sheet; a second dielectric layer formed on the second surface of the carrier board and formed with at least a second opening for exposing a portion of the second heat-conductive sheet; and a second heat-conductive structure formed in the second opening and mounted on the second heat-conductive sheet. | 01-15-2009 |
| 20090000813 | PACKAGING SUBSTRATE STRUCTURE AND MANUFACTURING METHOD THEREOF - A packaging substrate structure includes a dielectric layer with a plurality of dielectric pillars disposed on a portion of a large-dimension opening area of the dielectric layer; and a first circuit layer with a plurality of first circuits disposed on a portion of the dielectric layer, and a conductive block disposed in the large-dimension opening area of the dielectric layer having the dielectric pillars. The dielectric pillars reduce the difference of the electrical current density distribution between the large-dimension opening area and small-dimension opening areas during electroplating, thereby overcoming the conventional drawback of insufficient thickness or a hollow center of the conductive block that results in an uneven thickness of the circuit layer. The invention further provides a method of manufacturing the packaging substrate structure. | 01-01-2009 |
| 20080308309 | Structure of packaging substrate having capacitor embedded therein and method for fabricating the same - A structure of a packaging substrate having capacitors embedded therein is disclosed. The structure comprises a core substrate, a dielectric layer, and an outer circuit layer. The core substrate comprises an inner circuit layer. The dielectric layer is disposed at both sides of the core substrate, having first conductive vias each connecting to the inner circuit layer through a piece of outer electrode plate, a piece of high dielectric material layer, a piece of inner electrode plate, and a piece of adhesive layer, in sequence. The outer circuit layer is disposed on the surface of each of the dielectric layers. Herein, the capacitor is composed of a piece of the outer electrode plate, the high dielectric material layer and the inner electrode plate. The invention further comprises a method for manufacturing the same. This can achieve low costs, avoid the formation of voids, and reduce parasitic capacitance. | 12-18-2008 |
| 20080290528 | SEMICONDUCTOR PACKAGE SUBSTRATE HAVING ELECTRICAL CONNECTING PADS - A semiconductor package substrate having electrical connecting pads includes: a substrate body having a plurality of electrical connecting pads formed on surface thereof, and a plurality of protruding lumps or concave areas of any geometric shape respectively formed on surfaces of the electrical connecting pads for increasing contact surfaces of the electrical connecting pads, thereby preventing detaching of conductive elements from surfaces of the electrical connecting pads caused by poor bonding force. | 11-27-2008 |
| 20080272501 | SEMICONDUCTOR PACKAGE SUBSTRATE STRUCTURE AND MANUFACTURING METHOD THEREOF - A semiconductor package substrate structure and a manufacturing method thereof are disclosed. The structure includes a substrate having a plurality of electrical connecting pads formed on at least one surface thereof; a plurality of electroplated conductive posts each covering a corresponding one of the electrical connecting pads and an insulating protective layer formed on the surface of the substrate and having a revealing portion for exposing the electroplated conductive posts therefrom. The invention allows the interval between the electroplated conductive posts to be minimized, the generation of concentrated stresses and the overflow of underfill to be avoided, as well as the reduction of the overall height of the fabricated package. | 11-06-2008 |
| 20080265411 | Structure of packaging substrate and method for making the same - A structure of a packaging substrate and a method for making the same are disclosed, wherein the structure comprises: a substrate body having a circuit layer on the surface thereof, wherein the circuit layer has a plurality of conductive pads which are each formed in a flat long shape to enhance the elasticity of circuit layout; a solder mask disposed on the substrate body and having a plurality of openings corresponding to and exposing the conductive pads, wherein the openings are each formed in a flat long shape; and a metal bump disposed in each of the openings of the solder mask and on each of the corresponding conductive pads. | 10-30-2008 |
| 20080264677 | Circuit board structure having embedded capacitor and fabrication method thereof - The present invention provides a circuit board structure having an embedded capacitor and a method for fabricating the same. The circuit board structure includes a core layer board with at least one surface having non-penetrating first and second grooves, a circuit layer and a first electrode plate formed in the first and second grooves of the core layer board respectively and being flush with the core layer board; a high dielectric material layer formed on the core layer board, the circuit layer and the first electrode plate; a second electrode plate formed on the high dielectric material layer and corresponding to the first electrode plate, thereby forming a capacitor by the first and second electrode plates and the high dielectric material layer. The high dielectric material layer is formed on a plane surface so as to eliminate poor filling and improve reliability. | 10-30-2008 |
| 20080257595 | Packaging substrate and method for manufacturing the same - The present invention relates to a packaging substrate and a method for manufacturing the same. The packaging substrate includes: a substrate body, having a plurality of conductive pads on the surface thereof, wherein the top surfaces of the conductive pads have a concave each; a solder mask, disposed on the surface of the substrate body and having a plurality of openings to correspondingly expose the concaves of the conductive pads each; and a plurality of metal bumps, disposed correspondingly in the openings of the solder mask and over the concaves of the conductive pads. The present invention increases the joint surface area between the metal bumps and the conductive pads so as to inhibit the joint crack and improve the reliability of the conductive structure of the packaging substrate. | 10-23-2008 |
| 20080251915 | Structure of semiconductor chip and package structure having semiconductor chip embedded therein - A semiconductor chip is disclosed, which comprises a chip having an active surface; plural electrode pads disposed on the active surface of the chip; a first passivation layer disposed on the chip, which has openings corresponding to the electrode pads to expose the electrode pads, wherein the first passivation layer is made of a material having high alkali resistance and low coefficient of elasticity; and plural metal bumps disposed in the openings of the first passivation layer. Therefore, as forming the metal bumps by a chemical deposition technique, the damage to the passivation layer can be prevented. Besides, as the semiconductor chip is embedded in a package structure, the problem of delamination occurred due to the mismatch in the coefficients of thermal expansion of the semiconductor chip and the dielectric layers can be avoided. Accordingly, the yield of the package structure having the semiconductor chip embedded therein can be improved. | 10-16-2008 |
| 20080246135 | Stacked package module - A stacked package module is disclosed, which comprises: a first package structure comprising a first circuit board with a first chip embedded therein, wherein the first chip has a plurality of electrode pads; the first circuit board comprises a first surface, an opposite second surface, a plurality of exposed electro-connecting ends, a plurality of first conductive pads on the first surface, a plurality of conductive vias, and at least one circuit layer, therewith the electrode pads of the first chip electrically connecting to the electro-connecting ends and the first conductive pads directly through the conductive vias and the circuit layer; and a second package structure electrically connecting to the first package structure through a plurality of first solder balls to make a package on package. The stacked package module of this invention has characters of compact size, high performance, high flexibility, and detachability. | 10-09-2008 |
| 20080245551 | CIRCUIT BOARD STRUCTURE FOR EMBEDDING SEMICONDUCTOR CHIP THEREIN AND METHOD FOR FABRICATING THE SAME - A semiconductor chip-embedded circuit board and a fabrication method thereof are provided, including: a core board having first and second surfaces with first and second circuit layers thereon respectively, the first surface having a chip-receiving area (CRA); a laminated layer formed on the first and second surfaces and formed with an opening for exposing the CRA; third and fourth circuit layers formed on the laminated layer, the third circuit layer having first and second conductive pads, the fourth circuit layer having third conductive pads; a first insulating protective layer formed on the third circuit layer and formed with a plurality of first openings for exposing the first conductive pads and the CRA and a plurality of second openings for exposing the second conductive pads; and a second insulating protective layer formed on the fourth circuit layer and formed with third openings for exposing the third conductive pads. Mounting a semiconductor chip on the CRA reduces package height. | 10-09-2008 |
| 20080237884 | Packaging substrate structure - A packaging substrate structure is disclosed, which at least comprises a build-up structure including a first dielectric layer, a second dielectric layer and a third dielectric layer. The second dielectric layer is disposed between the first dielectric layer and the third dielectric layer. The characteristic is that the Young's modulus of the second dielectric layer is lower then the first dielectric layer and the third dielectric layer so as to form a sandwich structure of high-low-high of Young's modulus. The packaging substrate structure of the present invention can improve the quality of the product. | 10-02-2008 |
| 20080237836 | SEMICONDUCTOR CHIP EMBEDDING STRUCTURE - A semiconductor chip embedding structure is disclosed, including a carrier board having a first and an opposed second surfaces and formed with at least a through hole; a semiconductor chip received in the through hole, the chip having an active surface and an inactive surface opposite to one another, wherein the active surface has a plurality of electrode pads, a passivation layer is formed on the active surface with the electrode pads exposed from the passivation layer, and metal pads are formed on surfaces of the electrode pads; a buffer layer formed on the first surface of the carrier board and on surfaces of the passivation layer and the metal pads; a first dielectric layer formed on the buffer layer; and a first circuit layer formed on the first dielectric layer and electrically connected with the metal pads of the chip via first conductive structures formed in the buffer layer and the first dielectric layer, wherein the CTE (Coefficient of Thermal Expansion) of the buffer layer is between the CTE of the semiconductor chip and the CTE of the dielectric layer. Thereby, the buffer layer can reduce the stress on the interface between the dielectric layer and the semiconductor chip. | 10-02-2008 |
| 20080237833 | MULTI-CHIP SEMICONDUCTOR PACKAGE STRUCTURE - A multi-chip semiconductor package structure is disclosed according to the present invention. The package structure includes: a carrier board having a first surface, a second surface, and at least one opening penetrating the first and second surfaces, the first and second surfaces each being formed with a plurality of electrically connecting pads thereon; a semiconductor component received in the opening and having first and second active surfaces, the first and second active surfaces each being formed with a plurality of electrode pads thereon; a plurality of first conductive elements electrically connected to the electrically connecting pads on the second surface of the carrier board and the electrode pads on the second active surface of the semiconductor component; a semiconductor chip having an active surface and an inactive surface, the active surface having a plurality of electrode pads electrically connected to the electrically connecting pads on the first surface of the carrier board and the electrode pads on the first active surface of the semiconductor component; and a molding material formed on a portion of the second surface of the carrier board and the second active surface of the semiconductor component to cover the first conductive elements. The present invention provides a modularized structure capable of electrically connecting to other modules or stacked devices as well as enhancing electrical performance. | 10-02-2008 |
| 20080237832 | MULTI-CHIP SEMICONDUCTOR PACKAGE STRUCTURE - A multi-chip semiconductor package structure is disclosed, including a carrier board having a first and an opposing second surfaces and formed with at least an opening penetrating the first and second surfaces, wherein a plurality of electrically connecting pads are formed on the first and second surfaces of the carrier board, respectively; a semiconductor component disposed in the opening, the semiconductor component having a first and a second active surfaces each with a plurality of electrode pads being formed thereon; a third semiconductor chip having an active surface and an inactive surface, the active surface having a plurality of electrode pads formed thereon for electrically connecting with the electrically connecting pads on the first surface of the carrier board and the electrode pads on the first active surface of the semiconductor component; and a fourth semiconductor chip having an active surface and an inactive surface, the active surface having a plurality of electrode pads formed thereon for electrically connecting with the electrically connecting pads on the second surface of the carrier board and the electrode pads on the second active surface of the semiconductor component, thereby providing a modularized structure for electrically connecting with other modules or stack devices and enhancing electrical functionality. | 10-02-2008 |
| 20080237831 | MULTI-CHIP SEMICONDUCTOR PACKAGE STRUCTURE - A multi-chip semiconductor package structure is disclosed according to the present invention, the package structure includes: a carrier board having a first surface, a second surface, and at least an opening penetrating the first and second surfaces, the first and second surfaces each having electrically connecting pads; a semiconductor component received in the opening, the semiconductor component has a first active surface and a second active surface, and each of the first and second active surfaces has a plurality of electrode pads; a plurality of first conductive elements electrically connected to the electrically connecting pads of the first and second surfaces of the carrier board with the electrode pads of the first and second active surfaces of the semiconductor component; and a molding material formed on a portion of the first surface of the carrier board, the first active surface of the semiconductor component, a portion of the second surface of the carrier board, and the second active surface of the semiconductor component, and adapted to cover the first conductive elements; thereby forming a module structure for electrical connection with other modules or stacked devices, and further enhancing electrical functions. | 10-02-2008 |
| 20080230892 | Chip package module - A chip package module is disclosed, which comprises a core plate and two rigid plates individually having a circuit layer. The core plate is sandwiched in between the two rigid plates to form a composite circuit board. Furthermore, the two rigid plates individually have a cavity to expose the surface of the core plate. In addition, the cavities individually have at least one chip disposed therein, and each chip electrically connects to the composite circuit board. The present invention reduces the height of the package module and makes the package module lighter and smaller. | 09-25-2008 |
| 20080230886 | Stacked package module - A stacked package module is disclosed, which comprises: a first package structure comprising a first circuit board with a first chip embedded therein, wherein the first chip has a plurality of electrode pads, the first circuit board comprises a first surface, an opposite second surface, a plurality of first conductive pads on the first surface, a plurality of second conductive pads on the second surface, a plurality of conductive vias, and at least one circuit layer, and the electrodes of the first chip directly electrically connect to the conductive pads on the surfaces of the circuit board through the conductive vias and the circuit layer within the circuit board; and a second package structure electrically connecting to the first package structure through a plurality of solder balls to make package on package. The stacked package module provided by this invention has characteristics of compact size, high performance, and high flexibility. | 09-25-2008 |
| 20080230260 | Flip-chip substrate - A flip-chip substrate is disclosed, which comprises a core substrate including an aluminum oxide substrate and a first circuit layer, wherein the aluminum oxide substrate has a top surface, a bottom surface, and a plurality of conductive through holes, the conductive through holes connect the top surface and the bottom surface the first circuit layer disposed on the top surface and the bottom surface and electrically connects to the conductive through holes; and a built-up structure disposed on the top surface and the bottom surface and electrically connecting to the first circuit layer. Moreover, the conductive through holes are formed by forming plural through holes through electrolyzing, and then forming a first seed layer and a first metal layer inside the through holes. Therefore, the problem of substrate warpage can be prevented, and the wiring density of the flip-chip substrate can be improved. | 09-25-2008 |
| 20080224295 | Package structure and stacked package module using the same - A package structure with chip embedded therein is disclosed, which comprises a circuit board having a first surface, an opposite second surface and a through cavity penetrating the circuit board, wherein the first surface of the circuit board has a plurality of first conductive pads and a plurality of wire bonding pads disposed thereon, and the second surface of the circuit board has a plurality of second conductive pads disposed thereon; and a chip embedded in the through cavity of the circuit board, wherein the gap between the through cavity and the chip is filled with a filling material, the chip has an active surface with a plurality of electrode pads and an inactive surface, and the electrode pads electrically connect to the wire bonding pads of the circuit board by a plurality of metal lines. The present invention further provides a package module using the aforementioned package structure. | 09-18-2008 |
| 20080217762 | CHIP CARRIER STRUCTURE HAVING SEMICONDUCTOR CHIP EMBEDDED THEREIN AND METAL LAYER FORMED THEREON - The present invention provides a chip carrier structure having a semiconductor chip embedded therein and a protective metal layer formed thereon and a fabrication method thereof. The chip carrier structure includes a chip-embedded carrier structure, and a metal layer formed by electroplating on the bottom surface and side surfaces of the chip-embedded carrier structure. The metal layer prevents moisture from crossing the side surfaces of the chip-embedded carrier structure, so as to prevent delamination, provide a shielding effect, and improve heat dissipation through the metal layer. | 09-11-2008 |
| 20080217739 | Semiconductor packaging substrate structure with capacitor embedded therein - The present invention relates to a semiconductor packaging substrate structure with a capacitor embedded therein, which includes an inner circuit board, a patterned buffer layer, a high dielectric material layer, and a patterned metal layer. The buffer layer is disposed on at least one surface of the inner circuit board to expose the inner electrode layer of the internal board. The high dielectric material layer is located on the buffer layer and the inner electrode layer. The metal layer is placed on the high dielectric material layer including an outer circuit layer capable of electrical connection to the inner circuit layer, and an outer electrode layer corresponding to the inner electrode layer to form a capacitor. Owing to the assistance of the buffer layer, the structure can enhance the transmission and the quality of the products. | 09-11-2008 |
| 20080217047 | CIRCUIT BOARD SURFACE STRUCTURE - A circuit board surface structure includes a circuit board having at least one surface provided with a plurality of electrically connecting pads, an insulating protective layer characterized by photosensitivity and solder resisting and formed on the circuit board, and a plurality of openings formed in the insulating protective layer to expose the electrical connecting pads on the circuit board and tapered upward; and a conductive element formed in the opening, so as to increase the contact area and reinforce bonding between the electrically connecting pads and the conductive element. | 09-11-2008 |
| 20080217046 | CIRCUIT BOARD SURFACE STRUCTURE AND FABRICATION METHOD THEREOF - A circuit board surface structure and a fabrication method thereof are proposed. The circuit board surface structure includes: a circuit board having a plurality of electrically connecting pads formed on at least one surface thereof; a first and a second insulating protective layers formed on the surface of the circuit board in sequence; first and a second openings respectively formed in the first and second insulating protective layers to expose the electrically connecting pads on the surface of the circuit board, wherein the first and second openings have narrow top and wide bottom and the diameter of the first openings is bigger than that of the second openings; and conductive elements formed in the first and second openings on surfaces of the electrically connecting pads. The present structure facilitates to strengthen the bonding between the conductive elements and the corresponding electrically connecting pads. | 09-11-2008 |
| 20080210460 | Circuit board structure with capacitors embedded therein and method for fabricating the same - A circuit board structure with capacitors embedded therein and a method for fabricating the same are disclosed. The structure comprises at least two core layers individually comprising a dielectric layer having two opposite surfaces, circuit layers disposed on the outsides of the two opposite surfaces of the dielectric layer, and at least two capacitors embedded respectively on the insides of the two opposite surfaces of the dielectric layer and individually electrically connecting with the circuit layer at the same side; at least one adhesive layer disposed between the core layers to combine the core layers as a core structure; and at least one conductive through hole penetrating the core layers and the adhesive layer, and electrically connecting the circuit layers of the core layers. Accordingly, the present invention can improve the flexibility of circuit layout, and realize parallel connection between the capacitors to provide more capacitance. | 09-04-2008 |
| 20080210459 | WARPAGE-PROOF CIRCUIT BOARD STRUCTURE - The invention provides a warpage-proof circuit board structure, including: an inner layer circuit board; at least one dielectric layer formed on at least one surface of the inner layer circuit board; at least one first groove formed in the at least one dielectric layer corresponding in position thereto; a solder mask formed on the surface of the dielectric layer, a second groove formed in the solder mask and corresponding in position to the first groove formed in the dielectric layer; and a metal frame formed in the first and second grooves and protruding from the surface of the solder mask, thereby strengthening the circuit board to prevent it from warping in thermal processing and further using the metal frame as a heat-dissipating means for the package structure. | 09-04-2008 |
