Provided is a method for manufacturing a board with a roughened surface and a method for manufacturing a board having a plated layer that allow easily manufacturing the board having a plated layer. One of embodiments is a method for manufacturing a board with a surface roughened for wiring formation. The method for manufacturing a board includes performing laser ablation on a board containing a resin at least on a surface of the board. A laser light irradiated in the laser ablation is a laser light having a pulse width of 1 ps or less, a wavelength of 320 nm or more, and an output of 1 W or less.

A method for manufacturing a printed wiring board includes forming a first conductor layer, forming an adhesive layer including a nitrogen-based organic compound and covering a surface of the first layer, forming a resin insulating layer covering the adhesive layer and having the second surface facing the first conductor layer, forming a protective film on the first surface of the insulating layer, forming an opening in the insulating layer such that the opening penetrates through the insulating layer and reaches the adhesive layer, applying plasma to the opening of the insulating layer such that the plasma cleans an inside of the opening, removing the protective film from the insulating layer after cleaning the inside of the opening, forming a second conductor layer on the first surface of the insulating layer, and forming a via conductor in the opening such that the via conductor connects the first layer and second layer.

A method for manufacturing a printed wiring board includes forming a first conductor layer, forming an adhesive layer including a nitrogen-based organic compound and covering a surface of the first layer, forming a resin insulating layer covering the adhesive layer and having the second surface facing the first conductor layer, forming a protective film on the first surface of the insulating layer, forming an opening in the insulating layer such that the opening penetrates through the insulating layer and reaches the adhesive layer, applying plasma to the opening of the insulating layer such that the plasma cleans an inside of the opening, removing the protective film from the insulating layer after cleaning the inside of the opening, forming a second conductor layer on the first surface of the insulating layer, and forming a via conductor in the opening such that the via conductor connects the first layer and second layer.

The invention, which relates to the technical field of circuit boards, specifically discloses a method for manufacturing an embedded circuit board, an embedded circuit board, and an application thereof. The method includes: providing a substrate, wherein an electronic component is embedded in the substrate, a pad is arranged on a side surface of the electronic component, and an end surface of the pad is flush with a same side surface of the substrate; forming a metallic layer on a side surface of the substrate adjacent to the pad by sputtering, evaporation, electroplating or chemical vapor deposition; and patterning the metallic layer to obtain a circuit board covered with the metallic layer on the pad, wherein the metallic layer on the pad protrudes beyond the same side surface of the substrate.

The invention, which relates to the technical field of circuit boards, specifically discloses a method for manufacturing an embedded circuit board, an embedded circuit board, and an application thereof. The method includes: providing a substrate, wherein an electronic component is embedded in the substrate, a pad is arranged on a side surface of the electronic component, and an end surface of the pad is flush with a same side surface of the substrate; forming a metallic layer on a side surface of the substrate adjacent to the pad by sputtering, evaporation, electroplating or chemical vapor deposition; and patterning the metallic layer to obtain a circuit board covered with the metallic layer on the pad, wherein the metallic layer on the pad protrudes beyond the same side surface of the substrate.

A wiring circuit board includes a base insulating layer, a conductive layer, and a metal protective film in order toward one side in a thickness direction. The conductive layer includes a signal wiring and a terminal continuous therewith. The signal wiring has one surface in the thickness direction, and first and second surfaces continuous with the one surface and disposed to face each other in a width direction. The terminal has one surface in the thickness direction, and the other surface disposed to face the one surface at the other side in the thickness direction at spaced intervals thereto. The other surface of the terminal is exposed from the base insulating layer toward the other side in the thickness direction. The metal protective film covers the one surface of the signal wiring and one surface of the terminal but not both first or second surfaces.

A printed circuit board includes: a first insulating layer; and a heat radiating circuit pattern disposed on a first surface of the first insulating layer and having a pad and a via. The heat radiating circuit pattern includes: a first metal layer disposed on the first insulating layer; a graphite layer disposed on the first metal layer; and a second metal layer disposed on the graphite layer.

A printed wiring board includes a first conductor layer, a resin insulating layer formed on the first conductor layer, a second conductor layer formed on a surface of the insulating layer, and a via conductor formed in an opening formed in the insulating layer such that the via conductor is connecting the first and second conductor layers. The second conductor layer and via conductor include a seed layer and an electrolytic plating layer formed on the seed layer such that the seed layer has a first portion formed on the surface of the insulating layer, a second portion formed on an inner wall surface of the insulating layer in the opening, and a third portion formed on the first conductor layer exposed from the opening and that the first portion has a thickness that is greater than a thickness of the second portion and a thickness of the third portion.

A printed wiring board includes a first conductor layer, a resin insulating layer formed on the first conductor layer, a second conductor layer formed on a surface of the insulating layer, and a via conductor formed in an opening formed in the insulating layer such that the via conductor is connecting the first and second conductor layers. The second conductor layer and via conductor include a seed layer and an electrolytic plating layer formed on the seed layer such that the seed layer has a first portion formed on the surface of the insulating layer, a second portion formed on an inner wall surface of the insulating layer in the opening, and a third portion formed on the first conductor layer exposed from the opening and that the first portion has a thickness that is greater than a thickness of the second portion and a thickness of the third portion.

Disclosed is a method for producing a high-temperature-resistant, lead-free solder joint between a circuit board and a part, wherein a lead-free solder preform is used that has a composite material having a first composite component arranged substantially in layers and wherein the part is soldered with the solder preform in a hot-bar selective soldering process. Also disclosed is a high-temperature-resistant, lead-free solder joint and a field device of automation technology for determining and/or monitoring the process variable of a medium with a high-temperature-resistant, lead-free solder joint.