Abstract: A method of manufacturing a component-embedded printed circuit board is disclosed. By using a method of manufacturing a component-embedded printed circuit board, which includes: mounting a component on a first copper foil, on which a pattern is formed, such that the component is electrically connected with the pattern; stacking an insulation layer, which has a cavity formed in a position corresponding to the component, on a second copper foil, on which at least one conductive protrusion is formed; stacking together the first copper foil and the second copper foil such that the component is embedded in the cavity and the first copper foil and the second copper foil are electrically connected by the conductive protrusion; and removing portions of the first copper foil and the second copper foil to form circuit patterns, the circuit pattern formed from the first copper foil may be given a buried form, so that it is possible to manufacture a thin printed circuit board, when embedding a flip chip type component.

Abstract: A component-embedded PCB and a method of manufacturing the PCB are disclosed. Using a method that includes perforating a cavity in a core substrate; inserting a component in the cavity; stacking a film layer over the core substrate; forming at least one post by selectively leaving behind the film layer in correspondence to a position of at least one electrode of the component; covering an insulation layer over the core substrate such that the post penetrates the insulation layer to be exposed at a surface of the insulation layer; and forming at least one via hole by removing the post, can provide increased precision and finer pitch. Also, since laser is not used when processing the vias, damage to the component that may occur due to the laser is prevented. Furthermore, tolerance defects may be decreased, as well as defects caused by residue left after processing.

Abstract: A substrate embedded with a passive device, including a substrate, on which a cavity is formed; a passive device in the cavity, the passive being pre-molded; and a conductive material for adhering the passive device to the cavity, the conductive material being laminated on the cavity.

Abstract: A method for manufacturing a substrate embedded with a passive device, comprising the steps of (a) molding the passive device and (b) mounting the molded passive device in a cavity formed on the substrate, is disclosed. The substrate embedded with a passive device and the manufacturing method thereof in accordance with the present invention can prevent warpage of the substrate caused by disproportioned properties of materials.

Abstract: A method of manufacturing a package board is disclosed. The method is for manufacturing a package board that has a pad electrically connected with a component, and includes: forming an indentation, which is in correspondence with the pad, in one side of a first insulating layer; filling a metal paste in the indentation; mounting the component on the first insulating layer in correspondence with a location of the indentation; and hardening the metal paste. Using this method, damage to the component can be prevented during the forming of vias, as the component is mounted after filling paste in an indentation formed in an insulating layer.

Abstract: A printed circuit board having embedded components and a method for the manufacturing of the printed circuit board are disclosed. The printed circuit board includes: an intermediary insulation layer; a first core board, in which a first component having at least one electrode formed on one side is embedded, stacked on one side of the intermediary insulation layer; a first insulation layer stacked on the first core board such that the first component is covered; a second core board, in which a second component having at least one electrode formed on one side is embedded, stacked on the other side of the intermediary insulation layer; a second insulation layer stacked on the second core board such that the second component is covered; and a first via, which penetrates the first core board and the second core board. The use of this printed circuit board allows highly integrated designs.

Abstract: A component-embedded PCB and a method of manufacturing the PCB are disclosed. Using a method that includes perforating a cavity in a core substrate; inserting a component in the cavity; stacking a film layer over the core substrate; forming at least one post by selectively leaving behind the film layer in correspondence to a position of at least one electrode of the component; covering an insulation layer over the core substrate such that the post penetrates the insulation layer to be exposed at a surface of the insulation layer; and forming at least one via hole by removing the post, can provide increased precision and finer pitch. Also, since laser is not used when processing the vias, damage to the component that may occur due to the laser is prevented. Furthermore, tolerance defects may be decreased, as well as defects caused by residue left after processing.

Abstract: Disclosed is a printed circuit board with a weak magnetic field sensor according to the present invention, which includes a substrate having first excitation circuits and first detection circuits formed on both sides thereof. First laminates are layered on both sides of the substrate, and have soft magnetic cores with a predetermined shape formed thereon. Second laminates are layered on the first laminates, and have second excitation circuits and second detection circuits, connected through via holes to the first excitation circuits and first detection circuits, respectively, so that the first and second excitation circuits and first and second detection circuits are wound around the soft magnetic cores, formed thereon. The soft magnetic cores each include a magnetic core and non-magnetic metal layers formed on both sides of the magnetic core.

Abstract: A Printed Circuit Board (PCB) having a weak magnetic field sensor of the present invention includes a base plate on which a first excitation circuit and a first detection circuit are formed on each of the sides thereof, soft magnetic core bodies laminated on the top and bottom of the base plate, respectively, and formed of a plurality of soft magnetic cores, and outer layers that are laminated on the soft magnetic core bodies, respectively, and on which a second excitation circuit and a second detection circuit connected to the first excitation circuit and the first detection circuit through via holes are formed so as to surround the soft magnetic cores, respectively. The present invention is characterized in that the soft magnetic cores, the excitation circuit and the detection circuit formed on one side of the base plate are perpendicular to the soft magnetic cores, the excitation circuit and the detection circuit formed on the other side of the base plate.

Abstract: A method of manufacturing a component-embedded printed circuit board is disclosed. By using a method of manufacturing a component-embedded printed circuit board, which includes: mounting a component on a first copper foil, on which a pattern is formed, such that the component is electrically connected with the pattern; stacking an insulation layer, which has a cavity formed in a position corresponding to the component, on a second copper foil, on which at least one conductive protrusion is formed; stacking together the first copper foil and the second copper foil such that the component is embedded in the cavity and the first copper foil and the second copper foil are electrically connected by the conductive protrusion; and removing portions of the first copper foil and the second copper foil to form circuit patterns, the circuit pattern formed from the first copper foil may be given a buried form, so that it is possible to manufacture a thin printed circuit board, when embedding a flip chip type component.

Abstract: An optical pickup actuator and a method thereof includes a bobbin having a lens to scan a laser beam on a track of a disc, a winding coil moving the bobbin on the track in focusing and tracking directions, and an integrated circuit board used as the bobbin using a printed circuit board manufacturing technology and integrally formed with the winding coil in a monolithic body. The bobbin used with the optical pickup actuator includes the printed circuit board, a plurality of tracking circuit patterns formed on both surfaces of the PCB, a plurality of focusing circuit patterns formed on the both surfaces of the PCB, a plurality of via holes formed on the PCB to electrically connect the tracking circuit patterns and the focusing circuit patterns, an objective lens mounting unit formed on the PCB, and a connecting pad through which a power is supplied to the tracking and focusing circuit patterns.

Abstract: A component-embedded multilayer printed wiring board and manufacturing method thereof. A component-embedded multilayer printed wiring board that includes: a first wiring board, in which a component is embedded; an intermediate layer which is stacked on the first wiring board and through which at least one conductive bump penetrates in correspondence to a wiring pattern formed on the first wiring board; and a second wiring board which is stacked on the intermediate layer and on a surface of which a wiring pattern is formed in correspondence with the conductive bump, can contribute to forming smaller and more functional electronic products, and by individually producing wiring boards having embedded components and then stacking these with intermediate layers interposed in-between, the defect status of each wiring board can be examined in advance, while this approach can be used in conjunction with existing surface mounting approaches to increase the effective mounting area.

Abstract: A method for manufacturing a substrate embedded with a passive device, comprising the steps of (a) molding the passive device and (b) mounting the molded passive device in a cavity formed on the substrate, is disclosed. The substrate embedded with a passive device and the manufacturing method thereof in accordance with the present invention can prevent warpage of the substrate caused by disproportioned properties of materials.

Abstract: A Printed Circuit Board (PCB) having a weak magnetic field sensor of the present invention includes a base plate on which a first excitation circuit and a first detection circuit are formed on each of the sides thereof, soft magnetic core bodies laminated on the top and bottom of the base plate, respectively, and formed of a plurality of soft magnetic cores, and outer layers that are laminated on the soft magnetic core bodies, respectively, and on which a second excitation circuit and a second detection circuit connected to the first excitation circuit and the first detection circuit through via holes are formed so as to surround the soft magnetic cores, respectively. The present invention is characterized in that the soft magnetic cores, the excitation circuit and the detection circuit formed on one side of the base plate are perpendicular to the soft magnetic cores, the excitation circuit and the detection circuit formed on the other side of the base plate.

Abstract: Disclosed is a printed circuit board with a weak magnetic field sensor according to the present invention, which includes a substrate having first excitation circuits and first detection circuits formed on both sides thereof. First laminates are layered on both sides of the substrate, and have soft magnetic cores with a predetermined shape formed thereon. Second laminates are layered on the first laminates, and have second excitation circuits and second detection circuits, connected through via holes to the first excitation circuits and first detection circuits, respectively, so that the first and second excitation circuits and first and second detection circuits are wound around the soft magnetic cores, formed thereon. The soft magnetic cores each include a magnetic core and non-magnetic metal layers formed on both sides of the magnetic core.

Abstract: An optical pickup actuator and a method thereof includes a bobbin having a lens to scan a laser beam on a track of a disc, a winding coil moving the bobbin on the track in focusing and tracking directions, and an integrated circuit board used as the bobbin using a printed circuit board manufacturing technology and integrally formed with the winding coil in a monolithic body. The bobbin used with the optical pickup actuator includes the printed circuit board, a plurality of tracking circuit patterns formed on both surfaces of the PCB, a plurality of focusing circuit patterns formed on the both surfaces of the PCB, a plurality of via holes formed on the PCB to electrically connect the tracking circuit patterns and the focusing circuit patterns, an objective lens mounting unit formed on the PCB, and a connecting pad through which a power is supplied to the tracking and focusing circuit patterns.