Abstract: A printed circuit board and a manufacturing method thereof are disclosed. Using a method of manufacturing a printed circuit board which includes forming a circuit pattern, which includes lands, on a first board; forming a paste bump on the land of the first board; and stacking an insulation on a surface of the first board such that the paste bump penetrates the insulation, where the paste bump is formed to cover the land of the first board, the areas of the lands can be reduced to manufacture a printed circuit board of high density, and the contact reliability can be increased due to the increase in contact area between the lands and paste bumps to improve the performance of the high-density printed circuit-board.

Abstract: A printed circuit board using paste bumps and manufacturing method thereof are disclosed.

Abstract: Disclosed is a die mounting substrate, which includes a mounting substrate having a pad, a die having a terminal and surface-mounted on the mounting substrate, and a conductive paste bump formed on the pad or the terminal so as to connect the pad and the terminal to each other. When the die is connected and mounted on the mounting substrate using the conductive paste bump, shear stress is relieved thus preventing reliability from decreasing due to a difference in the coefficient of thermal expansion between the die and the mounting substrate, and also preventing the force of adhesion of the bump from decreasing due to the reduction in size of the pad of the mounting substrate.

Abstract: Disclosed herein is an electromagnetic bandgap structure, including: a dielectric layer; a plurality of conductive plates formed on one side of the dielectric layer; a stitching via serving to electrically connect two adjacent conductive plates of the plurality of conductive plates; and a first dummy via formed each of the plurality of conductive plates in a direction of thickness of the dielectric layer, and a printed circuit board comprising the electromagnetic bandgap structure. The printed circuit board comprising the electromagnetic bandgap structure can solve a mixed signal problem even when an analog circuit and a digital circuit are simultaneously mounted therein.

Abstract: The present invention provides a conductive paste including: a conductive powder particle including a polymer powder and a first low melting point metal and a second low melting point metal which are sequentially provided on a surface of the polymer powder and have different melting points; and a binder mixed in the conductive powder particle, and a method of manufacturing a printed circuit board using the same.

Abstract: 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.

Abstract: 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.

Abstract: A method of fabricating a paste bump for a printed circuit board, provides preparing a base plate; printing a conductive paste on the base plate and drying the conductive paste on the base plate, thus forming a first paste bump; flattening an upper surface of the first paste bump through coining; and printing a conductive paste on the first paste bump and drying the conductive paste on the first bump, thus forming a second paste bump, wherein the printing a conductive paste on the base plate and drying the conductive paste on the base plate includes placing a first mask having a hole having a first size on the base plate; applying a conductive paste on the first mask, and pressing the conductive paste using a squeegee; filling the hole having a first size in the first mask with the conductive paste, and sticking a bottom of the conductive paste to the base plate; and removing the first mask and drying the conductive paste, thus forming the first paste bump.

Abstract: A manufacturing method for a printed circuit board is disclosed. The method includes: forming a first circuit pattern on a metal layer of a conductive carrier, which has the metal layer stacked on one side, pressing the conductive carrier and a first insulation layer together with the first circuit pattern facing the first insulation layer, forming a via by selectively removing the conductive carrier, and removing the metal layer. Using this method, a high-density thin package can be manufactured with increased reliability, and the productivity of the manufacturing process can also be improved.

Abstract: Disclosed herein is a circuit layer including CNTs including an electroless copper plating layer formed on an insulating layer, and a CNT layer deposited on the electroless copper plating layer, thus the circuit layer has excellent electrical properties.

Abstract: The invention relates to a printed circuit board and a method of manufacturing the printed circuit board, in which the printed circuit board includes an insulating layer, a circuit layer embedded in the insulating layer and having a connection pad that is embedded in the insulating layer such that one side of the connection pad is flush with a surface of the insulating layer, and insulating materials configured to protect the circuit layer from an external environment and having an opening through which the connection pad is exposed. The invention makes the printed circuit board slim, and increases reliability and the degree of design freedom.

Abstract: 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.

Abstract: A method for manufacturing a printed circuit board having an embedded component is disclosed. The method includes: forming at least one contact bump and at least one electrode bump on one side of a base substrate; mounting the component such that the electrode bump is in correspondence with a contact terminal of the component; stacking an insulation layer, in which an opening is formed in correspondence to the component, on the one side of the base substrate, such that the contact bump penetrates the insulation layer; filling a filler in the opening; and stacking a metal layer on the insulation layer. Using the method, the reliability of circuit connections between the component and the circuit patterns can be improved, and the manufacturing process can be reduced in embedding the component in the printed circuit board.

Abstract: 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.

Abstract: A printed circuit board and a method for manufacturing the printed circuit board are disclosed. The method can include; providing an insulated layer, in which a first metal layer is formed on one side of the insulated layer; forming a groove on the insulated layer; forming a metallic substance on an inner side of the groove and on another side of the insulated layer; and forming a first circuit pattern on at least one of one side of the insulated layer and the metallic substance formed on the groove by removing a portion of the first metal layer. The present invention provides the printed circuit board having a high efficiency of heat emission by disposing a heat sink in direct contact with a board and the method of manufacturing the printed circuit board.

Abstract: The printed circuit board is manufactured using a simple process of forming a bump on a first metal layer using fireable paste containing carbon nanotubes, firing the first metal layer including the bump, forming an insulating layer and a second metal layer on the first metal layer, and patterning the first and second metal layers, thus specific resistance of the resulting printed circuit board is decreased, and electrical conductivity and cooling performance are improved.

Abstract: Disclosed is a printed circuit board including bumps formed using a conductive paste including carbon nanotubes and a photosensitive binder. A method of manufacturing the printed circuit board is also provided. The printed circuit board includes bumps formed using the conductive paste having carbon nanotubes, and can realize good electrical connection with electronic parts mounted thereon. The bumps can be formed at a fine pitch, thus realizing a circuit layer having a high density.

Abstract: Disclosed herein is a cooling fin, which is excellent in cooling performance and is simply manufactured, a package substrate comprising the cooling fin, and a manufacturing method thereof. Fireable paste containing a carbon component is applied into grooves of a mold, thus forming a cooling fin having a pattern corresponding to the grooves. Thus, it enables the production of cooling fins having various configurations, thus improving a cooling performance of a package substrate incorporating the cooling fin.

Abstract: 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.

Abstract: A core substrate and multilayer printed circuit board using paste bumps and manufacturing method thereof are disclosed. With the method of manufacturing a core substrate using paste bumps comprising: (a) aligning a pair of paste bump boards, each of which has a plurality of paste bumps joined to its surface, such that the paste bumps face each other, and (b) pressing the pair of paste bump boards together, where an insulation element is placed between the pair of paste bump boards, it is easier to implement interlayer electrical interconnection between circuit patterns, the thickness of the core substrate can readily be adjusted by adjusting the thickness of the insulation layer, the stiffness is improved as a pair of paste bump boards are pressed from the top and bottom, and high-density wiring can be formed more easily as the paste bumps are connected in pairs so that the diameters of the paste bumps formed on the paste bump boards can be reduced.