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.

The invention describes a circuit assembly comprising a circuit board with a metal core, a pattern of conductive tracks, and a dielectric layer between the metal core and the conductive tracks; at least one circuit component mounted to the circuit board by means of solder interconnects, wherein a solder interconnect is formed between a contact pad of the circuit component and a conductive track; characterized in that the metal core comprises at least one cavity, wherein a cavity is arranged in the vicinity of a solder interconnect. The invention further describes a circuit board for such a circuit assembly, and a method of manufacturing such a circuit assembly.

A compact and refined chip resistor, with which a plurality of types of required resistance values can be accommodated readily with the same design structure, was desired. The chip resistor is arranged to have a resistor network on a substrate. The resistor network includes a plurality of resistor bodies arrayed in a matrix and having an equal resistance value. A plurality of types of resistance units are respectively arranged by one or a plurality of the resistor bodies being connected electrically. The plurality of types of resistance units are connected in a predetermined mode using connection conductor films and fuse films. By selectively fusing a fuse film, a resistance unit can be electrically incorporated into the resistor network or electrically separated from the resistor network to make the resistance value of the resistor network the required resistance value.

Disclosed is an elastic electric contact terminal comprising: an elastic core; a polymer film which is bonded while covering the core, with an adhesive layer being interposed therebetween; and a copper foil capable of being soldered, which is bonded while covering the polymer film. A metal plating layer is formed on every surface exposed outwardly from the copper foil.

A suspension board with circuit includes a first terminal and a second terminal disposed at spaced intervals to each other, a piezoelectric element disposed between the first terminal and the second terminal so as to be electrically connected to the first terminal and the second terminal, a facing portion facing the piezoelectric element at the second terminal-side relative to the center between the first terminal and the second terminal, and a compensation portion compensating a degree of inclination of the piezoelectric element produced at the time of contact of the facing portion with the piezoelectric element at the first terminal-side relative to the center between the first terminal and the second terminal.

An LED lighting apparatus is provided. The LED lighting apparatus includes LED chips, a substrate, and an electronic element. The substrate includes a mount surface on which the LED chips are mounted. The LED chips are arranged at or near a center of the mount surface of the substrate. The substrate includes a base, a wiring pattern, and an insulating layer. The wiring pattern is formed on the base. The insulating layer is formed on the base or the wiring pattern and formed with a plurality of openings. The wiring pattern includes pad portions comprising parts of the wiring pattern, respectively. Each of the parts of the wiring pattern is exposed through one of the openings of the insulating layer as viewed in a thickness direction of the substrate. Each of the LED chips is mounted on one of the pad portions.

A manufacturing method of a metal bump structure is provided. A driving base is provided. At least one pad and an insulating layer are formed on the driving base. The pad is formed on an arrangement surface of the driving base and has an upper surface. The insulating layer covers the arrangement surface of the driving base and the pad, and exposes a part of the upper surface of the pad. A patterned metal layer is formed on the upper surface of the pad exposed by the insulating layer, and extends to cover a part of the insulating layer. An electro-less plating process is performed to form at least one metal bump on the patterned metal layer. A first extension direction of the metal bump is perpendicular to a second extension direction of the driving base.

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 transparent PCB includes a transparent base film, a hardened layer, an electrode film, a first conductive paste, a second conductive paste, and an electronic component. The hardened layer is formed on a side of the transparent base film. The electrode film is formed on a side of the hardened layer. The electrode film includes a first transparent conductive oxide layer, a metal layer, and a second transparent conductive oxide layer. The first conductive paste is formed on the electrode film. The second conductive paste is formed on the electrode film and spaced from the first conductive paste. The electronic component is electrically connected to the electrode film through the first conductive paste and the second conductive paste. The present invention also needs to provide a method for manufacturing the transparent PCB.

A coil component, adopted to be mounted on an electronic device, includes: an element body part; a coil fixed to the element body part and constituted by a wound conductive wire; lead wires that are each extended from the conductive wire and led out from the coil, and whose tip parts are each disposed a bottom face, which is a mounting face, of the element body part; and terminal parts that are each constituted by the tip part and a metal member that is joined to the tip part on the bottom face, and also has an opening at a position overlapping the tip part in a direction intersecting the bottom face.