A circuit board structure for a display device includes a substrate, a bump, a protective layer, and a moisture-resistant layer. The substrate includes a first surface and a second surface opposite to the first surface. The bump is disposed on the first surface of the substrate and includes a first inorganic material. The protective layer is disposed on the first surface of the substrate. The protective layer includes an organic material and a first opening, in which the bump is positioned in the first opening. The moisture-resistant layer entirely covers the protective layer. The moisture-resistant layer includes a second inorganic material and a second opening, in which a portion of the bump is exposed in the second opening.

A module includes: a substrate having a main surface and a side surface; an electronic component mounted on the main surface; a sealing resin that covers the main surface and the electronic component; and a shield film that covers a surface of the sealing resin and the side surface of the substrate. The sealing resin includes: a resin component containing an organic resin as a main component; and a granular filler containing an inorganic oxide as a main component. On a surface of the sealing resin, which is in contact with the shield film, parts of some grains of the filler are exposed from the resin component, a surface of the resin component includes a nitrogen functional group, and the shield film is formed of a metal that is a passivation metal and a transition metal or an alloy containing the metal.

A solder paste stencil includes, in one embodiment, a substrate defining solder apertures, each aperture wall of each of the solder apertures is coated with a coating material that reduces wetting of a solder paste relative to the aperture walls.

A method for obtaining information about a layer of an organic solderability preservative on a printed circuit board, the method including Providing or producing a printed circuit board (16) having a copper layer (18) covering a part of an area of the printed circuit board (16), Providing a fluorescence measuring system (10),
the method including following steps a) Obtaining (S2) information about the location of the openings (21) on the printed circuit board (16), b) Selecting (S3) at least one of the openings (21), thereby obtaining at least one selected opening, c) Moving (S4) the radiation source (11) and the printed circuit board (16) relatively to each other, d) Detecting (S5) the fluorescent radiation (23).

A circuit board, according to an embodiment, comprises: a first insulating layer; a second insulating layer disposed on one surface of the first insulating layer; and a third insulating layer disposed on the other surface of the first insulating layer. A circuit pattern is disposed on at least one insulating layer from among the first to third insulating layers, at least one insulating layer from among the first to third insulating layers comprises glass fiber, at least one insulating layer from among the first to third insulating layers does not comprise glass fiber, and the thicknesses of the first to third insulating layers are different from each other.

A circuit board includes a substrate having an end surface, and a principal surface on which an electronic component is mounted, a first region, provided on the principal surface, and coated with a moistureproof agent, a second region, provided on the principal surface, and prohibited from being coated with the moistureproof agent, and a groove having two ends, formed in the principal surface, between the first region and the second region. The two ends of the groove reach the end surface of the substrate. The groove includes a guiding part, configured to guide the moistureproof agent overflowing from the first region into the groove, provided at a portion of the groove farthest away from the end surface.

A barrier layer is disposed on a copper surface, the barrier layer including an organic molecule. The organic molecule may be a nitrogen-containing molecule. The nitrogen-containing organic molecule includes 1 to 6 carbon atoms. The barrier layer may be deposited on an exposed copper surface before deposition of a surface finish.

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 circuit board water-proofing coating composition is provided comprising: at least one passivating agent, preferably containing a molecule comprising a thio-functional group, desirably a thiol group, an azolic moiety, or an azole, and combinations thereof; at least one binder component comprising an organic or inorganic film-forming polymer, and/or one or more polymer pre-cursors polymerizable on a substrate surface; and optionally one or more additive(s); also provided are methods of making and using the coating composition and coated circuit boards.

A method includes forming, by atomic layer deposition, a first barrier layer on a surface of a printed circuit board (“PCB”) and on an outer surface of an electrical component attached to the surface of the PCB; forming an adhesion promotion layer on a surface of the first barrier layer; and forming, on the adhesion promotion layer, a second barrier layer including Parylene.