An apparatus is used in preparing a printed circuit board (PCB). The apparatus can include a common chassis, an inkjet printer mounted on the common chassis, and a pattern exposer mounted on the common chassis. The inkjet printer can selectively print unexposed photosensitive patterns on a PCB substrate with a photosensitive ink. The pattern exposer can expose said photosensitive patterns to radiation thereby defining exposed patterns. A photosensitive ink for use in an ink jet printer can include a photoresist, a solvent, a humectant, a surfactant, an adhesion promoter, and a basic solution. The adhesion promoter is operative to increase anisotropy of a wet etching process of a copper component on which said photosensitive ink is printed.

A method for producing a wiring circuit board includes a first step, a second step, and a third step. In the first step, while a work film which is a long metal substrate having a first surface and a second surface opposite to the first surface is fed and wound by a roll-to-roll method, a composition containing a photosensitive resin is applied onto the first surface to form an insulating film, and a protective film is interposed between the second surface and the insulating film of the work film in being wound. In the second step, while the work film having undergone the first step is fed and wound by the roll-to-roll method, the protective film is peeled from the insulating film, and the insulating film is subjected to light exposure treatment to be formed with a latent image pattern. In a third step, the insulating film having undergone the second step is subjected to development treatment to be patterned.

The present disclosure provides a method of manufacturing a conductive pattern and applications thereof, the method including: a step of preparing a laminate including a transparent substrate, a light shielding pattern that is formed on the transparent substrate, and a negative tone photosensitive resin layer that is disposed on the transparent substrate and the light shielding pattern and is in contact with the transparent substrate; a step of irradiating a surface of the transparent substrate opposite to a surface facing the light shielding pattern with light; a step of developing the negative tone photosensitive resin layer to form a resin pattern in a region defined by the transparent substrate and the light shielding pattern; and a step of forming a conductive pattern on the light shielding pattern.

Provided are a pattern formation method including a step of preparing a base material which has an etching layer transparent to an exposure wavelength on each of two surfaces thereof and is transparent to the exposure wavelength, a step of forming a photosensitive resin layer, in which an optical density to the exposure wavelength is in a range of 0.50 to 2.50, on the etching layer on each of the two surfaces of the base material, a step of pattern-exposing the photosensitive resin layer, a step of developing the photosensitive resin layer to form a resist pattern on two surfaces, a step of removing the etching layer on a portion that is not coated with the resist pattern, and a step of peeling the resist pattern off, in this order, a laminate, and a method of producing a touch panel.

The invention discloses a circuit board enhancing structure and a manufacture method thereof. The method includes the following steps: providing a substrate; forming a first circuit on the substrate; forming a first dielectric layer enclosing the first circuit on the substrate; forming a first opening on the first dielectric layer; forming a first pattern photoresist layer on the first dielectric layer to divide a surface of the first dielectric layer as a first structure enhancing area and a second circuit area, wherein the first opening is disposed in the first structure enhancing area; forming a second circuit in the second circuit area and a first enhancing structure in the first opening, wherein the first enhancing structure protrudes from the first opening; removing the first pattern photoresist layer; and forming a second dielectric layer enclosing the second circuit and the first enhancing structure on the first dielectric layer.

The present invention includes a method of creating high temperature mechanically and thermally stabilized PCB fabrication on a photo-definable glass substrate or photosensitive glass substrate.

A circuit board includes a circuit substrate, at least one metal pad, and a tin bar corresponding to each of the at least one metal pad. Each of the at least one metal pad is formed on a side of the circuit substrate and is electrically connected to the circuit substrate. A surface of the metal pad facing away from the circuit substrate is recessed toward the circuit substrate to from a recess. The tin bar is received in the recess. A method for manufacturing a circuit board is also provided.

The present invention includes a method of fabricating an integrated RF power condition capacitor with a capacitance greater than or equal to 1 nf and less than 1 mm.sup.2, and a device made by the method.

A method for producing a wired circuit board, the method including the steps of: a first step of providing an insulating layer having an opening penetrating in the thickness direction at one side surface in the thickness direction of the metal plate, a second step of providing a first barrier layer at one side surface in the thickness direction of the metal plate exposed from the opening by plating, a third step of providing a second barrier layer continuously at one side in the thickness direction of the first barrier layer and an inner surface of the insulating layer facing the opening, a fourth step of providing a conductor layer so as to contact the second barrier layer, and a fifth step of removing the metal plate by etching.

A circuit board includes a circuit substrate, at least one metal pad, and a tin bar corresponding to each of the at least one metal pad. Each of the at least one metal pad is formed on a side of the circuit substrate and is electrically connected to the circuit substrate. A surface of the metal pad facing away from the circuit substrate is recessed toward the circuit substrate to from a recess. The tin bar is received in the recess. A method for manufacturing a circuit board is also provided.