摘要:
Disclosed herein are a printed circuit board and a method for manufacturing the same capable of implementing a slim and small semiconductor package by the printed circuit board configured to include a circuit layer and an insulating layer as a single layer and shortening a process time and reducing processing costs by forming a bump using a screen printing method. Further, disclosed herein is a method for manufacturing a printed circuit board capable of improving a warpage problem of the printed circuit board that occurs during a polishing process by adopting a coining process instead of a polishing process.
摘要:
Disclosed herein is a method for manufacturing a semiconductor package which uses a base member 120 in which a first metal layer 113, a barrier layer 115, and a second metal layer 117 are stacked on both surface thereof in sequence based on an adhesive member 111 to simultaneously manufacture two printed circuit boards through a single sheet process, thereby making it possible to improve manufacturing efficiency; electrically connects a semiconductor chip 300 to a printed circuit board through a solder bump 250, thereby making it possible to implement a high-density package substrate; and forms a metal post 140 instead of a through hole to required in an interlayer circuit connection, thereby making it possible to reduce costs required in the processing/plating of the through hole.
摘要:
Disclosed herein is a carrier for manufacturing a substrate, including: two insulation layers, each being provided on one side thereof with a first metal layer and on the other side thereof with a second metal layer; and a third metal layer having a lower melting point than the first metal layer and formed between the two first metal layers respectively formed on the two insulation layers such that the two first metal layers are attached to each other. The carrier is advantageous in that the carrier can be separated by heating the third metal layer, so that the size of a substrate does not change at the time of separating the carrier, thereby maintaining the compatibility between a substrate and manufacturing facilities.
摘要:
Disclosed herein is a method of manufacturing a printed circuit board that simultaneously forms a via and an embedding land and thus improves the matching value of the via and the embedding land to secure interlayer conduction reliability, and further simultaneously forms the via and the embedding land to reduce manufacturing costs. In addition, the embedding land is formed to be embedded in the second insulating layer to implement high-density/high-integration of the printed circuit board and a via is formed in less time as compared to a method of forming a via hole using laser to reduce a process time.
摘要:
Disclosed herein is a carrier for manufacturing a substrate, including: an insulation layer including a first metal layer formed on one side or both sides thereof; a second metal layer formed on one side of the first metal layer; and a third metal layer formed on one side of the second metal layer, wherein the second metal layer has a lower melting point than the first metal layer or the third metal layer. The carrier is advantageous in that a build up layer can be separated from a carrier by heating, so that a routing process is not required, with the result that the size of a substrate does not change when the build up layer is separated from the carrier, thereby reusing to the carrier and maintaining the compatibility between the substrate and manufacturing facilities.
摘要:
Disclosed herein is a carrier for manufacturing a substrate, including: an insulation layer including a first metal layer formed on one side or both sides thereof; a second metal layer formed on one side of the first metal layer; and a third metal layer formed on one side of the second metal layer, wherein the second metal layer has a lower melting point than the first metal layer or the third metal layer. The carrier is advantageous in that a build up layer can be separated from a carrier by heating, so that a routing process is not required, with the result that the size of a substrate does not change when the build up layer is separated from the carrier, thereby reusing the carrier and maintaining the compatibility between the substrate and manufacturing facilities.