An electronic component mounting structure includes a terminal of an electronic component package and a chip heat radiating member. The terminal is soldered on a land of an electronic substrate and the chip heat radiating member is soldered on a back surface of the package. The chip heat radiating member is covered by a packaging resin. The metallic heat radiating pattern integrally includes a pattern extension part that is protruded from the package, such that at least a part of the metallic heat radiating pattern in formed to be larger than the package. The pattern extension part guides excessive solder to outside of the package.

A solder resist composition includes: a carboxyl group-containing resin; a photopolymerizable compound; a photopolymerization initiator containing a bisacylphosphine oxide-based photopolymerization initiator and an α-hydroxy alkylphenone-based photopolymerization initiator; and a phosphorescent dye. The bisacylphosphine oxide-based photopolymerization initiator contains bis-(2,4,6-trimethylbenzoyl)-phenylphosphine oxide. The α-hydroxy alkylphenone-based photopolymerization initiator contains 2-hydroxy-2-methyl-1-phenyl-propane-1-one. A mass ratio of the bis-(2,4,6-trimethylbenzoyl)-phenylphosphine oxide to the 2-hydroxy-2-methyl-1-phenyl-propane-1-one is 2:1 to 1:10.

A printed wiring board to which an electronic component is soldered by a jet soldering device, the printed wiring board includes as insulating substrate, a land provided on one surface of the insulating substrate, the one surface serving as a soldering surface, a through hole provided in the land and passing through the insulating substrate in a thickness direction of the insulating substrate. A lead of the electronic component is inserted into the through hole from the other surface of the insulating substrate, the other surface is opposed to the one surface, and an auxiliary conductor is provided in a region of a plane on the one surface, the region is adjacent to the land in a predetermined direction. The auxiliary conductor is provided to have a width equal to a width of the land in the same region of the plane.

X.5 layer substrates that do not use an embedded traces substrate process during formation may produce a high yield with relaxed L/S in a short manufacturing time (only 4× lamination process without a detach process) at a low cost. For example, a substrate may include an mSAP, two landing pads, two escape lines, two bump pads, and a photo-imageable dielectric layer on the mSAP patterned substrate.

A camera module according to an embodiment includes a reinforcing plate; a substrate disposed on the reinforcing plate; a lens driving unit disposed on the substrate; and an adhesive layer disposed between the reinforcing plate and the substrate, wherein the substrate includes a first cover layer including a plurality of holes; and a circuit pattern layer disposed on the first cover layer; wherein the adhesive layer is adhered contacts the circuit pattern layer through the plurality of holes.

A printed circuit board includes a first insulating layer, a metal pad including a first metal portion disposed on the first insulating layer, and a second metal portion disposed on the first metal portion and integrated with the first metal portion without a boundary therebetween, the second metal portion having a width narrower than a width of the first metal portion on a cross section, a second insulating layer disposed on the first insulating layer and covering at least a portion of a side surface of the first metal portion, and a surface metal layer disposed on the metal pad and covering at least a portion of each of an upper surface and a side surface of the second metal portion.

Disclosed is a semiconductor package comprising a solder ball, a printed circuit board on the solder ball, a bump on the printed circuit board, and a semiconductor chip on the bump. The printed circuit board includes a base substrate, a low-k dielectric layer that penetrates the base substrate, a connection conductive structure electrically connected to the bump and surrounded by the low-k dielectric layer, and a lower conductive structure electrically connected to the solder ball and the connection conductive structure. A top surface of the lower conductive structure is in contact with a first bottom surface of the low-k dielectric layer.

An optical module includes: a first substrate with a first surface, the first substrate having some first pads on the first surface; a second substrate with a second surface, the second substrate having some second pads on the second surface, each of the first pads and a corresponding one of the second pads being opposed to each other and constituting an opposed pair of pads; a first insulation wall between an adjacent pair of the first pads, and in contact with the first surface of the first substrate; and a second insulation wall between an adjacent pair of the second pads, and in contact with the second surface of the second substrate. The first insulation wall and the second insulation wall overlap with none of the opposed pair of pads and are adjacent to each other in a direction along the first surface and the second surface.

A display apparatus, includes: a flexible circuit board including a first board pad and a second board pad, which are spaced apart from each other in a first direction and extend in a second direction intersecting the first direction; a main circuit board coupled to the flexible circuit board; and a display panel coupled to the flexible circuit board, the display panel including a first display pad overlapped with the first board pad and a second display pad overlapped with the second board pad, wherein the first board pad includes a first, second, and third portions, and the second board pad includes a first, second, and third portions.

An arrangement, a method of manufacturing component carriers and a component carrier are provided. The arrangement includes a central carrier structure having a front side and a back side, a first layer stack having a first surface structure made of another material than the interior of the first layer stack and covered by a first release layer which is attached to the front side, and a second layer stack covered by a second release layer which is attached to the back side.