Patent application number | Description | Published |
20080314621 | Parallel chip embedded printed circuit board and manufacturing method thereof - A parallel chip embedded printed circuit board and manufacturing method thereof are disclosed. With a method of manufacturing a parallel chip embedded printed circuit board, comprising: (a) forming a parallel chip by connecting in parallel a plurality of unit chips having electrodes or electrically connected members formed on the upper and lower surfaces thereof, using at least one conductive member; (b) joining an electrode on one side of the parallel chip to a first board; and (c) joining an electrode on the other side of the parallel chip to a second board, chips may be embedded in a printed circuit board at a low cost, as a plurality of unit chips can be embedded at once, and a mechanical drill or router can be used instead of a laser drill in perforating the cavity or via holes. | 12-25-2008 |
20090028494 | Optical waveguide, package board having the same, and manufacturing method thereof - An optical waveguide, a package board having the optical waveguide, and manufacturing methods thereof are disclosed. The method of manufacturing an optical waveguide includes: forming a first reflective bump and a second reflective bump, which have inclined surfaces formed on sides opposite to each other and which are disposed with a predetermined distance in-between, on one side of a first cladding; forming a core between the first reflective bump and the second reflective bump; and stacking a second cladding over the one side of the first cladding such that the second cladding covers the first reflective bump, the second reflective bump, and the core. With this method, inclined surfaces can be formed by stacking a metal layer on the lower cladding and then selectively etching the metal layer, which can reduce lead time and enable a high degree of freedom in design. | 01-29-2009 |
20090072419 | Method of manufacturing optical waveguide and method of manufacturing package board - A method of manufacturing an optical waveguide includes: forming a first reflective bump and a second reflective bump, which have inclined surfaces formed on sides opposite to each other and which are disposed with a predetermined distance in-between, on an upper side of a conductive carrier; polishing the surfaces of the first reflective bump and the second reflective bump; forming a core between the first reflective bump and the second reflective bump; stacking an upper cladding over the upper side of the carrier to cover the first reflective bump, the second reflective bump, and the core; removing the carrier; and stacking a lower cladding over a lower side of the upper cladding. Forming reflective bumps on a conductive carrier, and polishing the reflective bumps to form inclined surfaces, can reduce lead time and can provide a high degree of freedom in design. | 03-19-2009 |
20090084584 | Printed circuit board - A printed circuit board is disclosed. The printed circuit board includes a first board unit and a second board unit disposed with a gap in-between, and a flexible optical board configured to transmit optical signals, which has one side stacked on the first board unit and the other side stacked on the second board unit, where the flexible optical board includes a core through which the optical signals travel, a cladding surrounding the core, and a circuit pattern buried in the cladding which transmits electrical signals. By forming the rigid boards and the flexible optical board as an integrated structure, the need for separate connectors is obviated, and thus the cost of the product can be lowered. | 04-02-2009 |
20090208164 | 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 can include: an optical waveguide, in one side of which a circuit pattern and a pad are buried; an insulation layer stacked over one side of the optical waveguide; a first insulating material stacked over the insulation layer; a first electrical wiring layer stacked over the first insulating material; a second insulating material stacked over the other side of the optical waveguide; a second electrical wiring layer stacked over the second insulating material; and a via penetrating the optical waveguide. Certain embodiments of the invention enable the efficient transmission of optical and electrical signals, reduce loss in the optical signals transferred to the photoelectric converters, and allow more efficient designs for the wiring in the board. | 08-20-2009 |
20090232467 | Printed circuit board for optical waveguide and method of manufacturing the same - Disclosed herein is a printed circuit board for an optical waveguide, including a base board, and an optical waveguide formed on the base board. The optical waveguide includes a lower clad layer formed on the base board, an insulation layer formed on the lower clad layer and having a core-forming through-hole, a core part formed on a region of the lower clad layer, which is exposed through the through-hole, and an upper clad layer formed in the through-hole and on the insulation layer. | 09-17-2009 |
20090290832 | Printed circuit board including optical waveguide and method of manufacturing the same - Disclosed herein is a printed circuit board including an optical waveguide and a method of manufacturing the board. In the board, the optical waveguide includes a metal layer extending portion integrally connected to a metal layer constituting a mirror formed in the optical waveguide. Since the method of the present invention creates the mirror using electroless plating, which is typically used in a process of manufacturing general printed circuit boards, it is suitable for the manufacture of printed circuit boards having a large area, and the mirror has high reflectivity and is efficient in terms of material consumption. | 11-26-2009 |
20100018052 | Method of manufacturing printed circuit board for optical waveguide - Disclosed herein is a method of manufacturing a printed circuit board for an optical waveguide which includes electrical and optical layers for transmitting electrical and optical signals to the printed circuit board. The method includes forming a lower clad layer on a base substrate, layering or applying a core material on the lower clad layer, machining a trench in the core material to form a core layer having a core pattern, and forming an upper clad layer on the lower clad layer and the core layer. The method enables an optical waveguide to be manufactured using a simple apparatus and process without the use of an additional photo mask. | 01-28-2010 |
20110007999 | Printed circuit board - A printed circuit board including a first optical waveguide having a circuit pattern and a pad buried in one side thereof, a first insulation layer stacked over one side of the first optical waveguide, a first insulating material stacked over the first insulation layer, a first electrical wiring layer stacked over the first insulating material, a second optical waveguide having a circuit pattern and a pad buried in one side thereof, a second insulation layer stacked over one side of the second optical waveguide, a second insulating material stacked over the second insulation layer, a second electrical wiring layer stacked over the second insulating material, an intermediate layer interposed between the other side of the first optical waveguide and the other side of the second optical waveguide such that the first optical waveguide and the second optical waveguide are attached, and a via penetrating the first optical waveguide and the second optical waveguide. | 01-13-2011 |
20110116736 | OPTICAL WIRING BOARD AND MANUFACTURING METHOD THEREOF - An optical wiring board and a manufacturing method thereof are disclosed. In accordance with an embodiment of the present invention, the method includes providing a base substrate having an optical waveguide layer with a mirror groove formed on one surface thereof and a first insulation layer stacked on one surface of the optical waveguide layer and having a through-hole connected with the mirror groove formed thereon, forming a metal mirror layer connected from the mirror groove to an inner wall of the through-hole and forming an electrode pad on a side of the other surface of the optical waveguide layer, in which the electrode pad is disposed in accordance with the position of the metal mirror layer. | 05-19-2011 |
20110168666 | MANUFACTURING METHOD FOR OPTICAL WAVEGUIDE - A method of manufacturing an optical waveguide is disclosed. The method in accordance with an embodiment of the present invention includes providing a carrier, fixing a base substrate to the carrier by using a first insulation layer such that the base substrate is directly stacked on the carrier, stacking an optical waveguide layer on at least one of the base substrate and the first insulation layer, and severing the base substrate such that the base substrate and the optical waveguide layer are separated from the carrier. Accordingly, the optical waveguide layer can be formed with a uniform thickness since wrinkles in the base substrate supporting the optical waveguide layer are prevented from forming during the manufacturing process. | 07-14-2011 |
20120030940 | Method of manufacturing component embedded printed circuit board - A method of manufacturing an optical component embedded printed circuit board, the method including: stacking a first insulation layer on one side of a metal core; embedding an optical component in a cavity formed in the metal core; stacking a second insulation layer of a transparent material on the other side of the metal core; and forming a circuit pattern on the first insulation layer, the circuit pattern electrically connected with the optical component. | 02-09-2012 |
20120171624 | PRINTED CIRCUIT BOARD FOR OPTICAL WAVEGUIDE AND METHOD OF MANUFACTURING THE SAME - Disclosed herein is a printed circuit board for an optical waveguide, including a base board, and an optical waveguide formed on the base board. The optical waveguide includes a lower clad layer formed on the base board, an insulation layer formed on the lower clad layer and having a core-forming through-hole, a core part formed on a region of the lower clad layer, which is exposed through the through-hole, and an upper clad layer formed in the through-hole and on the insulation layer. | 07-05-2012 |