Abstract: A method of manufacturing a printed circuit board having solder balls. The method may include: stacking a second carrier, in which at least one hole is formed, over one side of a first carrier; forming at least one solder bump by filling the hole with a conductive material; forming a circuit pattern layer, which is electrically connected with the solder bump, on the second carrier; and exposing the solder bump by removing the first carrier and the second carrier. Using this method, uniform hemispherical solder balls with fine pitch can be formed as a part of the manufacturing process, without having to attach the solder balls separately. Carriers may be used to serve as supports during the manufacturing process, whereby deformations can be prevented in the board.

Abstract: A method of manufacturing a printed circuit board having solder balls. The method may include: stacking a second carrier, in which at least one hole is formed, over one side of a first carrier; forming at least one solder bump by filling the hole with a conductive material; forming a circuit pattern layer, which is electrically connected with the solder bump, on the second carrier; and exposing the solder bump by removing the first carrier and the second carrier. Using this method, uniform hemispherical solder balls with fine pitch can be formed as a part of the manufacturing process, without having to attach the solder balls separately. Carriers may be used to serve as supports during the manufacturing process, whereby deformations can be prevented in the board.

Abstract: A multilayered printed circuit board is disclosed. A method of manufacturing the multilayered printed circuit board, which includes: forming a metal layer and a lower-circuit-forming pattern in order on a carrier, and forming a lower circuit by filling a conductive material in the lower-circuit-forming pattern; removing the lower-circuit-forming pattern, stacking an insulation resin, and forming at least one via hole connecting with the lower circuit; forming at least one inner circuit and at least one interlayer connector connecting the inner circuit with the lower circuit on the insulation resin, to form a pair of circuit parts; and aligning the pair of circuit parts, attaching the pair of circuit parts to each other, and removing the carrier and the metal layer, allows the forming of fine-lined circuits and provides a thin board, while preventing bending and warpage in the board.

Abstract: Disclosed herein are a printed circuit board and a method of manufacturing the same, which can achieve reliable heat resistance because heat radiation characteristics are improved, and processing costs of which are reduced because processing times are shortened.