Disclosed are a printed circuit board and a method of manufacturing the printed circuit board. The printed circuit board includes an insulating layer, and a circuit pattern formed on the insulating layer, wherein the circuit pattern includes a first circuit pattern formed on the insulating layer and including a corner portion of an upper portion which has a predetermined curvature and a second circuit pattern formed on the first circuit pattern and configured to cover an upper surface of the first circuit pattern including the corner portion.

The present disclosure relates to the method of manufacturing circuit having lamination layer using LDS (Laser Direct Structuring) to ease the application on surface structure for applied product of various electronic circuit and particularly, in which can form circuit structure of single-layer to multiple-layer on the surface of injection-molded substrate in the shape of plane or curved surface, metal product, glasses, ceramic, rubber or other material.

Disclosed are a method for manufacturing a touch panel, a touch panel and a touch display device. The method includes: forming signal lines and multiple connection bridges disposed in a matrix on a substrate; forming multiple isolation films on the substrate provided with the signal lines and the multiple connection bridges, where the multiple isolation films are in one-to-one correspondence with the multiple connection bridges and each isolation film covers a portion of one corresponding connection bridge; and forming multiple first touch electrodes and multiple second touch electrodes made of nano-silver on the substrate provided with the multiple isolation films. The first touch electrodes and the second touch electrodes are connected to the signal lines. Each first touch electrode includes multiple first sub-electrodes. Adjacent first sub-electrodes are bridged through corresponding connection bridges. The second touch electrodes are insulated from the connection bridges through the isolation films.

Disclosed are a printed circuit board and a method of manufacturing the printed circuit board. The printed circuit board includes an insulating layer, and a circuit pattern formed on the insulating layer, wherein the circuit pattern includes a first circuit pattern formed on the insulating layer and including a corner portion of an upper portion which has a predetermined curvature and a second circuit pattern formed on the first circuit pattern and configured to cover an upper surface of the first circuit pattern including the corner portion.

The present invention provides a solder-mounted board which realizes reliable mounting of a component thereon; a method for producing the board; and a semiconductor device. The solder-mounted board includes a substrate; a wiring layer; a solder pad for mounting a component by the mediation of the solder; and an insulating layer which covers the wiring layer such that at least the solder pad is exposed, the wiring layer, the solder pad, and the insulating layer being provided on at least one surface of the substrate, wherein the insulating layer is formed of a first insulating layer provided on the substrate and the wiring layer, and a second insulating layer provided on at least a portion of the first insulating layer.

To provide a wiring substrate which can prevent short circuit between connection terminals, and which realizes reduction of the pitch between the connection terminals. The wiring substrate of the present invention includes a layered structure including one or more insulation layers and one or more conductor layers, and the wiring substrate is characterized in that a plurality of connection terminals are formed on the layered structure so as to be separated from one another; a filling member is filled between the connection terminals; and each of the connection terminals has a side surface composed of a contact surface which is in contact with the filling member, and a spaced surface which is not in contact with the filling member and which is located above the contact surface and below the top surface of the filling member.

A circuit board includes a circuit board plate, a conductive ring, a solder mask and at least one insulating pad. The circuit board plate includes a surface and a conductive through hole passing through the surface and the circuit board plate, wherein the conductive through hole have a conductive layer disposed on a wall thereof. The conductive ring on the surface surrounds an opening of the conductive through hole on the surface and electrically connects to the conductive layer. The solder mask is disposed on the surface. The conductive ring is exposed outside of the solder mask. The insulating pad has a thickness. The first surface of the insulating pad is adapted to contact the solder mask or the surface and sited at periphery of the conductive ring. The second surface of the insulating pad is adapted for spacing a distance between a solder coating tool and the solder mask.

A method for manufacturing a multi-layer circuit board including an extreme fine that may include: providing a board having one surface on at least a part of which an upper conductive layer is formed and the other surface on at least a part of which a lower conductive layer is formed; forming a lower metal layer on the other surface of the board; forming a first resist layer on the one surface of the board through a photolithography process, and forming a first opening on the first resist layer; forming a metal pillar by plating the first opening by using an electrolytic plating method; removing the first resist layer; forming an insulating layer on a location from which the first resist layer is removed; and evenly polishing the metal pillar and the insulating layer.