| Patent application number | Description | Published |
|---|
| 20080225501 | Printed circuit board and manufacturing method thereof - A printed circuit board and a manufacturing method thereof are disclosed. The printed circuit board, which includes a first insulation layer, a first via that penetrates the first insulation layer, and a first pad formed on one surface of the first insulation layer, where a whole of or a portion of the first pad is buried in the first via, has a portion of or the whole of the pad buried in the via, so that the contact area between the pad and the via may be increased, and the printed circuit board can be given greater reliability. | 09-18-2008 |
| 20080283288 | Printed circuit board using paste bump and manufacturing method thereof - A printed circuit board using paste bumps and manufacturing method thereof are disclosed. The method of manufacturing a printed circuit board using paste bumps, includes: (a) perforating a core board to form at least one via hole, (b) filling the at least one via hole by fill-plating and forming a circuit pattern on at least one surface of the core board, (c) stacking a paste bump board on at least one surface of the core board, and (d) forming an outer layer circuit on a surface of the paste bump board, a structurally stable all-layer IVH structure can be implemented due to increased strength in the BVH's of the plated core boards, the manufacture time can be reduced due to parallel processes and collective stacking, implementing micro circuits can be made easy due to the copper foils of the paste bump boards stacked on the outermost layers, the manufacture costs can be reduced as certain plating and drilling processes may be omitted, the interlayer connection area is increased between circuit patterns for improved connection reliability, and dimple coverage can be obtained. | 11-20-2008 |
| 20080314635 | Printed circuit board having electromagnetic bandgap structure - A printed circuit board solving a mixed signal problem between an analog circuit and a digital circuit is disclosed. In accordance with an embodiment of the present invention, the printed circuit board, having an analog circuit and a digital circuit, includes: a first metal layer and a second metal layer, one of the first metal layer and the second metal layer being a power layer and the other being a ground layer; a third metal layer, layer-built between the first metal layer and the second metal layer; and a mushroom type structure including a via connected to a metal plate, the metal plate being arranged-in a space between circuit patterns of the third metal layer. With the present invention, the printed circuit board can lower the noise level within the same frequency band as compared with other structures having the same size. | 12-25-2008 |
| 20080315431 | Mounting substrate and manufacturing method thereof - A mounting substrate and a method of manufacturing the mounting substrate. The mounting substrate can include an insulation layer, a bonding pad buried in one side of the insulation layer in correspondence with a mounting position of a chip, and a circuit pattern electrically connected to the bonding pad. By utilizing certain embodiments of the invention, the process for stacking a solder resist layer can be omitted, as the bonding pads can be implemented in a form recessed from the surface of the insulation layer. In this way, the manufacturing process can be simplified and manufacturing costs can be reduced. Since the surface of the mounting-substrate on which to mount a chip can be kept flat without any protuberances, the occurrence of voids in the underfill can be minimized. This is correlated to obtaining a high degree of reliability, and leads to a greater likelihood of successful mounting. | 12-25-2008 |
| 20090008143 | Board having buried patterns and manufacturing method thereof - A board having buried patterns is disclosed. The board may include an insulation panel, a first pattern buried in one side of the insulation panel, a second pattern buried in the other side of the insulation panel with a predetermined insulating thickness between the first pattern and the second pattern, and a via which electrically connects the first pattern and the second pattern. The board having buried patterns according to certain embodiments of the invention can have greater rigidity compared to a board having exposed patterns, for the same insulating thickness. Also, a carrier-insulation set having a particular amount of thickness can be utilized to satisfy the thickness requirement in employing an existing roller apparatus intended for thicker boards. | 01-08-2009 |
| 20090017275 | Heat-releasing printed circuit board and manufacturing method thereof - A heat-releasing PCB and a method of manufacturing the PCB are disclosed. The method of manufacturing the heat-releasing printed circuit board includes: preparing a copper clad laminate, which has at least one copper layer stacked on at least one insulation layer; forming a coating layer, made from a paste having carbon nanotubes as a major constituent, on a surface of the copper layer; and forming a circuit pattern by removing portions of the coating layer and portions of the copper layer. | 01-15-2009 |
| 20090038840 | Electromagnetic bandgap structure and printed curcuit board - Disclosed are an electromagnetic bandgap structure and a printed circuit board including the same. In accordance with an embodiment of the present invention, the printed circuit board can include a dielectric layer, a plurality of conductive plates, and a stitching via, which is configured to electrically connect the conductive plates to each other. The stitching via can pass through the dielectric layer, and a part of the stitching via can be placed in a planar surface that is different from a planar surface in which the conductive plates are placed. With the present invention, the electromagnetic bandgap structure can prevent a signal of a predetermined frequency band from being transferred. | 02-12-2009 |
| 20090039984 | Electromagnetic bandgap structure and printed circuit board - An electromagnetic bandgap structure and a printed circuit board having the electromagnetic bandgap that intercepts the transfer of a signal ranging a frequency band are disclosed. The electromagnetic bandgap structure includes a metal layer; a dielectric layer, stacked on the metal layer; at least two metal plates, stacked on the same planar surface of the dielectric layer; and a stitching via, connecting the adjacent metal plates. The stitching via passes through the dielectric layer, and a part of the stitching via is placed on the same planar surface of the metal layer. With the present invention, the electromagnetic bandgap can decrease the noise of a particular frequency by having a compact size and a low bandgap frequency. | 02-12-2009 |
| 20090049683 | Apparatus and method for manufacturing printed circuit board - An apparatus and a method for manufacturing a printed circuit board are disclosed. The apparatus for manufacturing a printed circuit board that uses conductive bumps to interconnect layers includes: a conveyor unit, which is configured to transport a board that has the conductive bumps formed on one side; an upper roller and a lower roller, which press the board and an insulator together; an elastic coating layer, formed on a surface of the upper roller; and a cleaning device, which removes impurities from a surface of the elastic coating layer. The apparatus does not require a separate device for performing a cushioning function and a detaching function between the bumps and the rollers, and the rollers can be kept clean using a cleaning device. | 02-26-2009 |
| 20090064497 | Printed circuit board using paste bump and manufacturing method thereof - The method of manufacturing a printed circuit board using paste bumps includes perforating a core board to form at least one via hole, filling the at least one via hole by fill-plating and forming a circuit pattern on at least one surface of the core board, stacking a paste bump board on at least one surface of the core board, and forming an outer layer circuit on a surface of the paste bump board. The method provides a structurally stable all-layer IVH structure due to increased strength in the BVH's of the plated core boards and the interlayer connection area is increased between circuit patterns for improved connection reliability, and dimple coverage can be obtained. | 03-12-2009 |
| 20090084494 | Substrate manufacturing method - A substrate manufacturing method is disclosed. A substrate manufacturing method, comprising: providing a support body on which a first separation layer is formed; forming a second separation layer on the first separation layer; forming an adhesion layer which covers the first separation layer and the second separation layer; forming a circuit stack body on the adhesion layer; cutting the circuit stack body, the adhesion layer and the second separation layer to a pre-determined shape; and forming a circuit stack unit by separating the second layer from the first layer, provides easy separation of the circuit stack pattern, which formed on the support body, from the support body and reduced manufacturing cost by reducing number of process and required materials for manufacturing coreless thin substrate. | 04-02-2009 |
| 20090084591 | Cavity capacitor fabrication method and printed circuit board having embedded cavity capacitor - A cavity capacitor fabrication method and a printed circuit board having an embedded cavity capacitor are disclosed. In accordance with an embodiment of the present invention, the printed circuit board having the embedded cavity capacitor includes two conductive layers to be used as a power layer and a ground layer, respectively; and a first dielectric layer, placed between the two conductive layers, wherein the cavity capacitor is placed between the two conductive layers, the cavity capacitor being formed to allow a second dielectric layer to have a lower stepped portion than the first dielectric layer, and the second dielectric layer using the two conductive layers as a first electrode and a second electrode, respectively, and placed between the first electrode and the second electrode. | 04-02-2009 |
| 20090086451 | Printed circuit board with embedded cavity capacitor - A printed circuit board having an embedded cavity capacitor is disclosed. According to an embodiment of the present invention, the printed circuit board having the embedded cavity capacitor, the printed circuit board can include two conductive layers to be used as a power layer and a ground layer, respectively; and a first dielectric layer, placed between the two conductive layers, wherein at least one cavity capacitor is arranged in a noise-transferable path between a noise source and a noise prevented destination which are placed on the printed circuit board, the cavity capacitor being formed to allow a second dielectric layer to have a lower stepped region than the first dielectric layer, the second dielectric layer using the two conductive layers as a first electrode and a second electrode, respectively, and placed between the first electrode and the second electrode. | 04-02-2009 |
| 20090107709 | Printed circuit board and manufacturing method thereof - A printed circuit board and a method of manufacturing the printed circuit board are disclosed. The printed circuit board may include: an insulation layer, a circuit pattern formed on an upper surface and a lower surface of the insulation layer, and a bump penetrating the insulation layer such that the circuit pattern is electrically connected, where an alloy layer, which is configured to increase contact between the circuit pattern and the bump, may be interposed between the bump and the circuit pattern. | 04-30-2009 |
| 20090114425 | CONDUCTIVE PASTE AND PRINTED CIRCUIT BOARD USING THE SAME - A conductive paste and a printed circuit board using the conductive paste are disclosed. The conductive paste including conductive particles and carbon nanotubes according to the invention, can improve an electrical conductivity of the conductive paste. | 05-07-2009 |
| 20090120660 | Electrical member and method of manufacturing a printed circuit board using the same - An electrical member and a method of manufacturing a printed circuit board using the electrical member are disclosed. The method includes: forming an intaglio groove in an insulation layer, where the intaglio groove has at least one protrusion formed within; stacking a seed layer over the intaglio groove; forming a plating layer by performing electroplating over the seed layer; and forming a circuit pattern, which includes the plating layer filled in the intaglio groove, by removing a portion of the plating layer such that the insulation layer is exposed. | 05-14-2009 |
| 20090130390 | Optical wiring board and manufacturing method thereof - An optical wiring board and a method of manufacturing the optical wiring board are disclosed. The method of manufacturing an optical wiring board may include forming a lower cladding over an insulating layer; forming a side cladding, which has an indentation corresponding with the core, over the lower cladding; filling a core material in the indentation; and forming an upper cladding such that the core material is covered. Embodiments of the invention can be utilized to readily control the thickness of the core. | 05-21-2009 |
| 20090169837 | Package substrate and manufacturing method thereof - A package substrate and a method of manufacturing the package substrate are disclosed. The method of manufacturing the package substrate may include stacking a second metal layer in which at least one hole is formed over a first metal layer, stacking a barrier layer over the first metal layer exposed in the hole and over the second metal layer, forming at least one bump by filling the hole with a conductive metal, stacking an insulation layer over the bump and forming a circuit pattern over the insulation layer, and removing the first metal layer, the second metal layer, and the barrier layer. | 07-02-2009 |
| 20090173531 | Printed circuit board and manufacturing method thereof - A printed circuit board and a method of manufacturing the printed circuit board are disclosed. The method of manufacturing the printed circuit board can include forming a first protective layer over one surface of a core substrate, forming a first circuit pattern over the other surface of the core substrate by a first process, removing the first protective layer, forming a second protective layer over the other surface of the core substrate, and forming a second circuit pattern over the one surface of the core substrate by a second process. | 07-09-2009 |
| 20090184420 | Post bump and method of forming the same - A post bump and a method of forming the post bump are disclosed. The method of forming the post bump can include: forming a resist layer, in which an aperture is formed in correspondence to a position of an electrode pad, over a substrate, on which the electrode pad is formed; forming a metal post by filling a part of the aperture with a metallic material; filling a remaining part of the aperture with solder; reflowing the solder by applying heat; and removing the resist layer. This method can be utilized to prevent deviations in the plated solder and prevent the unnecessary flowing of the solder over the sides of the metal post during reflowing, so that the amount of solder used can be minimized. | 07-23-2009 |
| 20090206468 | Board on chip package and manufacturing method thereof - A method of manufacturing a board on chip package including laminating a dry film on a carrier film, one side of which is laminated by a thin metal film; patterning the dry film in accordance with a circuit wire through light exposure and developing process, and forming a solder ball pad and a circuit wire; removing the dry film; laminating an upper photo solder resist excluding a portion where the solder ball pad is formed; etching the thin metal film formed on a portion where the upper photo solder resist is not laminated; mounting a semiconductor chip on the solder ball pad by a flip chip bonding; molding the semiconductor chip with a passivation material; removing the carrier film and the thin metal film; and laminating a lower photo solder resist under the solder ball pad. The board on chip package provides a high density circuit since a circuit pattern is formed using a seed layer. | 08-20-2009 |
| 20090229875 | Printed circuit board having fine pattern and manufacturing method thereof - A printed circuit board having a fine pattern and related manufacturing method that includes providing a carrier plate; coating the carrier plate with a photosensitive material; forming a first circuit pattern on the photosensitive material; forming a first circuit layer by drying a conductive paste printed into a space between the photosensitive materials where the first circuit pattern is formed; depositing an insulation layer on the first circuit layer; processing via holes penetrating the insulation layer; coating the insulation layer with the photosensitive material and then forming a second circuit pattern in the photosensitive material; forming a second circuit layer and filling the via holes by drying the conductive paste printed into a space between the photosensitive materials, where the second circuit pattern is formed, and the via holes; and removing the carrier plate. | 09-17-2009 |
| 20090294739 | CONDUCTIVE PASTE INCLUDING A CARBON NANOTUBE AND PRINTED CIRCUIT BOARD USING THE SAME - The invention provides a conductive paste including a carbon nanotube and a printed circuit board using the same. The invention provides the conductive paste which exhibits an excellent electrical conductivity and allows the implementation of the X-Y interconnection and simultaneously the Z-interconnection without loosing the carbon nanotube's own original characteristics. | 12-03-2009 |
| 20100022052 | Method for manufacturing package on package with cavity - A manufacturing method of a package on package with a cavity. The method can include forming a first upper substrate cavity in one side of an upper substrate; mounting an upper semiconductor chip on the other side of the upper substrate; forming a lower substrate cavity in one side of a lower substrate; mounting a lower semiconductor chip in the lower substrate cavity formed in the lower substrate; and stacking the upper substrate above the lower substrate such that the first upper substrate cavity accommodates a part of the lower semiconductor chip. The package on package and a manufacturing method thereof can reduce the overall thickness of the package by forming cavities in both upper and lower substrates to accommodate a semiconductor chip mounted in the lower substrate. | 01-28-2010 |
| 20100025092 | Core substrate and multilayer printed circuit board using paste bumps - A core substrate using paste bumps, the core substrate including a first paste bump board having a plurality of first paste bumps joined to a surface thereof; a second paste bump board having a plurality of second paste bumps facing the first paste bumps joined thereto; and an insulation element placed between the first paste bump board and the second paste bump board. In the core substrate, the first paste bumps and the second paste bumps are electrically interconnected. | 02-04-2010 |
| 20100212951 | Electromagnetic interference noise reduction board using electromagnetic bandgap structure - An EMI noise reduction board using an electromagnetic bandgap structure is disclosed. In the EMI noise reduction board according to an embodiment of the present invention, an electromagnetic bandgap structure having band stop frequency properties can be inserted into an inner portion of the board so as to shield an EMI noise, in which the portion corresponds to an edge of the board and in which the EMI noise is conducted from the inside to the edge of the board and radiates to the outside of the board. | 08-26-2010 |
| 20110018123 | Semiconductor package and method of manufacturing the same - The present invention relates to a semiconductor package and a method of manufacturing the same. The semiconductor package may include: an insulator that has first and second opening parts; an active element that is disposed inside the first opening part; a passive element that is disposed inside the second opening part; a protective member that is disposed at a lower part of the insulator and covers a lower part of the passive element; a build-up layer that is disposed on the insulator and electrically connected to the active element; and an external connection unit that is electrically connected to the build-up layer. | 01-27-2011 |
| 20110026234 | Printed circuit board and electro application - A printed circuit board and an electronic product are disclosed. In accordance with an embodiment of the present invention, the printed circuit board includes a first board, which has an electronic component mounted thereon, and a second board, which is positioned on an upper side of the first board and covers at least a portion of an upper surface of the first board and in which an EBG structure is inserted into the second board such that a noise radiating upwards from the first board is shielded. Thus, the printed circuit board can readily absorb various frequencies, be easily applied without any antenna effect and be cost-effective in manufacturing. | 02-03-2011 |
| 20110039076 | Optical wiring board having a core - An optical wiring board having a core, the optical wiring board including: a lower cladding; a side cladding formed over the lower cladding and having an indentation formed therein, the indentation being in correspondence with the core; a core embedded in the indentation; and an upper cladding covering the core, wherein a height of the core is different from a depth of the indentation | 02-17-2011 |
| 20110079349 | Method of manufacturing printed circuit board - The present invention provides a method of manufacturing a printed circuit board including the steps of: preparing a pair of raw materials, each formed by sequentially stacking a release film and a first insulating layer, and an adhesive layer, respectively; embedding the pair of raw materials, which are opposed to each other, in the adhesive layer while disposing the release films toward an inner layer; forming a second insulating layer, which has a via formed therethrough and a circuit pattern formed on an upper surface to be connected to the via, on the first insulating layer; cutting edge portions of the second and first insulating layers, the release film, and the adhesive layer; and removing the release film from the first insulating layer. | 04-07-2011 |
