A photosensitive and via-forming circuit board comprising a laminate unit, a conductor unit, and a cover layer unit is provided. The laminate unit includes an insulating layer, a first conductive wiring layer and a second conductive wiring layer formed at two opposite sides of the insulating layer, respectively, and at least one through-hole surface defining a through hole extending from the upper surface of the first conductive wiring layer through the insulating layer to the lower surface of the second conductive wiring layer. The conductor unit is formed on the at least one through-hole surface. The cover layer unit is formed from a photosensitive composition comprising an epoxy group-containing compound and a photosensitive polyimide capable of reacting with the epoxy group of the epoxy group-containing compound, and includes a first cover layer formed on the first conductive wiring layer and extending into and filling the through hole.

A method of forming a metallic pattern on a substrate is provided. The method includes applying onto a metallic surface, a chemically surface- activating solution having an activating agent that chemically activates the metallic surface; non-impact printing an etch-resist ink on the activated surface to produce an etch resist mask according to a predetermined pattern, wherein at least one ink component within the etch-resist ink undergoes a chemical reaction with the activated metallic surface to immobilize droplets of the etch-resist ink when hitting the activated surface; performing an etching process to remove unmasked metallic portions that are not covered with the etch resist mask; and removing the etch resist mask.

A method for manufacturing a structure containing a conductor circuit according to the present invention can provide openings in various shapes by patterning a first photosensitive resin layer in a first patterning process according to shapes of openings formed in a heat-curable resin layer. Further, in the method for manufacturing a structure containing a conductor circuit, a plurality of openings can be formed at the same time and a residue of the resin around the opening can be reduced, unlike a case in which openings are formed with a laser. Therefore, it is possible to sufficiently efficiently manufacture the structure having excellent reliability even when the number of pins of a semiconductor element increases and it is necessary to provide a great number of fine openings.

A method of a segmented electroplating golden finger includes a substrate, which is drilled and plated, and including: a. first etching, forming circuit patterns and gold finger parts on the substrate, the gold finger part is composed of several mutually independent gold fingers, a lead channel is provided between the two adjacent gold fingers, and a side lead connected to each gold finger is arranged on the lead channel; b. solder resist, solder resist protection for the etched substrate; c. the gold fingers partly covered with a wet film; d. parallel exposure to perform image transfer; e. gold finger electroplating; f. adhesive glue; g. second etching, removing the leads, completing a finished product.

The present disclosure relates to a method of manufacturing a layer structure for a component carrier. According to the method, a carrier layer is provided. An imprint resist layer is added onto the carrier layer and predefined structures forming at least one recess are stamped into the imprint resist layer by a predefined stamp. The recess defines a filling structure in or on the carrier layer. In the filling structure at least one of an electrically insulating material and an electrically conductive material is filled.

To provide a technique capable of easily forming a resin opening of a desired shape. As a solution, a base is prepared which has a first surface region and a second surface region around the first surface region, and which has a wiring formed thereon. Subsequently, a resist which covers the first surface region is formed. Then, the first surface region and the second surface region are covered with a resin body such that the resist is included therein, and the resist is exposed from the resin body. After that, the exposed resist is removed, so that a resin opening that exposes the base in the first surface region is formed in the resin body.

A hard disk drive flexure assembly includes an insulative base layer over a metal substrate, a first conductive layer over the base layer, a plurality of electrical pads each comprising a second conductive layer over the first conductive layer, a pre-formed bump of solder material positioned over each pad, and a conductive cover layer over at least a portion of each pre-solder bump. With the conductive cover layer, e.g., gold, solder material from each pre-solder bump is inhibited from transferring to a probe during electrical check of the flexure, the solder material is inhibited from oxidizing, and solder splash is inhibited. These techniques are especially relevant with narrow, high-density, small pitch electrical pads.

To provide a technique capable of easily forming a resin opening of a desired shape. As a solution, a base is prepared which has a first surface region and a second surface region around the first surface region, and which has a wiring formed thereon. Subsequently, a resist which covers the first surface region is formed. Then, the first surface region and the second surface region are covered with a resin body such that the resist is included therein, and the resist is exposed from the resin body. After that, the exposed resist is removed, so that a resin opening that exposes the base in the first surface region is formed in the resin body.

A method for manufacturing a structure containing a conductor circuit according to the present invention can provide openings in various shapes by patterning a first photosensitive resin layer in a first patterning process according to shapes of openings formed in a heat-curable resin layer. Further, in the method for manufacturing a structure containing a conductor circuit, a plurality of openings can be formed at the same time and a residue of the resin around the opening can be reduced, unlike a case in which openings are formed with a laser. Therefore, it is possible to sufficiently efficiently manufacture the structure having excellent reliability even when the number of pins of a semiconductor element increases and it is necessary to provide a great number of fine openings.

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.