A module includes a printed circuit board (PCB) having a substrate, component pads on a top surface of the substrate, and contact pads formed on a bottom surface of the substrate. The module further includes a mold compound disposed over the PCB; an external shield disposed over a top surface of the mold compound and on side surfaces of the mold compound and the PCB, where the external shield is configured to provide shielding of at least one component connected to at least one component pad from electromagnetic radiation; and a back-spill barrier formed on the bottom of the substrate. The back-spill barrier surrounds the contact pads, and is configured to prevent the external shield from making contact with the contact pads.

A wiring board is provided with: an insulating layer; a base electrode layer layered on one primary surface of the insulating layer in predetermined regions; an insulating covering layer layered on one primary surface of the insulating layer in a state covering parts of edges of the base electrode layer; and a surface electrode layer plated on exposed portions of the base electrode layer not covered by the insulating covering layer, the thickness of covered portions of the base electrode layer covered by the insulating covering layer being less than the thickness of the exposed portions. The surface electrode layer is formed only on the exposed portions of the base electrode layer.

A wiring board includes: a glass substrate serving as a substrate, which includes a first surface, a second surface which is opposite to the first surface, and a side surface; an input electrode serving an electrode, which is located close to a side of the first surface; an insulating layer disposed on the glass substrate; and a side wiring disposed so as to extend from the input electrode via the side surface to the second surface. An end of the insulating layer located close to the side is provided with a cutaway portion extending in an inward direction of the insulating layer, the input electrode is disposed in an entrance-side part of the cutaway portion, and the cutaway portion includes a bottom-side part constituting an inward area which is free of the input electrode.

A camera device includes a holder in which an optical member is retained and a circuit board with an image sensor. The circuit board at least includes a stack of a solder resist, a metallic layer, and a resinous layer. A groove or recess is formed in the circuit board to have a depth extending through thicknesses of the solder resist and the metallic layer to expose a portion of an outer surface of the resinous layer. The holder is attached to the exposed portion of the outer surface of the resinous layer using an adhesive agent. An overflow stopper is formed at least round the recess to stop the adhesive agent from flowing outside the recess during a production process, thereby enhancing the degree of joining of the holder and the circuit board, and ensuring the stability in positional relation between the image sensor and the optical member.

A method of manufacturing a flexible circuit comprises providing a laminated substrate that includes a conductive layer, an adhesive layer, and a support layer. The method comprises forming conductive traces by removing selected portions of the conductive layer and the adhesive layer by dry milling the laminated substrate. The method comprises applying a protective coating to the conductive traces. The method comprises dispensing a solder material on the protective coating at a first connection point and arranging a first component at the first connection point. The method comprises heating the solder material to remove the protective coating from the first connection point and to connect the first component to one of the conductive traces at the first connection point. The method comprises attaching a second component to the conductive layer at a second connection point that is free of the protective coating by a process other than soldering.

A circuit board having a high reflectivity includes a wiring board, a first solder resist layer, and a second solder resist layer. The wiring board includes a wiring layer on an outer side, the wiring layer including wiring and a bond pad spaced from the wiring. The first solder resist layer, with opening and groove, covers the wiring layer, the bond pad is exposed from the opening but spaced from the first solder resist layer. The second solder resist layer infills the groove and covers the first solder resist layer but does not make contact with the mounting surface of the bond pad. A method for manufacturing such circuit board is also disclosed.

A printed circuit board includes a first and second core. The first core has a first conductive layer, a first non-conductive layer, a first copper layer and a first opening. The first core also has a first solder mask connected to the first copper layer and a first FR4 laminate bonded to the first solder mask. The second core has a second conductive layer, a second non-conductive layer, a second copper layer and a second opening. The second core also has a second solder mask connected to the second copper layer and a second FR4 laminate bonded to the second solder mask. A prepreg layer is between the first copper layer and the second copper layer but not between the first FR4 laminate and the second FR4 laminate.

A semiconductor-mounted product includes a semiconductor package, a wiring substrate, four or more soldered portions, and a resin-reinforced portion. Each of the soldered portions electrically connects the semiconductor package to the wiring of the wiring substrate. The resin-reinforced portion is formed on a side surface of each of the soldered portions. Each of the soldered portions has a first solder region formed closer to the semiconductor package than the wiring substrate and a second solder region formed closer to the wiring substrate than the semiconductor package. A proportion of a void present in a polygon connecting centers of soldered portions located at outermost positions among the soldered portions to a sum of the void and the resin-reinforced portion is from 10% to 99%, inclusive.

This wiring board includes a substrate having a first elastic modulus and including a first surface and a second surface positioned on the opposite side of the first surface; wiring positioned on the first surface side of the substrate and connected to an electrode of an electronic component mounted on the wiring board; and a reinforcing member having a second elastic modulus greater than the first elastic modulus and at least including a first reinforcing part that is positioned on the first surface side of the substrate or on the second surface side of the substrate and that at least partially overlaps the electronic component mounted on the wiring board when viewed along the normal direction of the first surface of the substrate.

A display device includes a display area including a light emitting element and an organic insulating layer on the light emitting element; and a non-display area adjacent to the display area in a first direction, the non-display area including a first dam spaced apart from the organic insulating layer in the first direction, and a first groove between the organic insulating layer and the first dam in the first direction.