A semiconductor package includes: a semiconductor chip including a front end of line (FEOL) layer and a first back end of line (BEOL) layer disposed on the FEOL layer; and a printed circuit board including a wiring layer and a second BEOL layer disposed on the wiring layer, wherein the semiconductor chip is mounted on the printed circuit board so that the first and second BEOL layers are connected to each other while facing each other, and the second BEOL layer includes a wiring for power transmission.

A package structure with a wettable side surface and a manufacturing method thereof, and a vertical package module are disclosed. The package structure includes a first dielectric layer, a chip and a circuit layer. The first dielectric layer is provided with a package cavity, side wall bonding pads are arranged on a side wall of the first dielectric layer and located outside the package cavity. The chip is packaged inside the package cavity, pins of the chip face first surface of the first dielectric layer. The circuit layer is arranged on the first surface of the first dielectric layer, and the circuit layer is directly or indirectly connected to the side wall bonding pads and the pins of the chip.

A package comprising a substrate and an integrated device coupled to the substrate through a plurality of pillar interconnects and a plurality of solder interconnects. The plurality of pillar interconnects includes a first pillar interconnect comprising a first cavity. The plurality of solder interconnects comprises a first solder interconnect located in the first cavity of the first pillar interconnect. A planar cross section that extends through the first cavity of the first pillar interconnect may comprise an O shape. The first pillar interconnect comprises a first pillar interconnect portion comprising a first width; and a second pillar interconnect portion comprising a second width that is different than the first width.

The disclosure provides an electronic device which includes a substrate structure, a driving component, and a conductive pattern. The driving component and the conductive pattern are formed on the substrate structure, and the thickness of the conductive pattern is greater than or equal to 0.5 μm and less than or equal to 15 μm.

One or more implementations of the subject technology may enable a bond-on-pad (BoP) substrate technology that can eliminate the need to utilize a solder-on-pad (SoP) process. Unlike an SoP process, a BoP Process does not require a solder bump to be formed on a bump pad to attach a joint to a bump pad. The size of an opening on a bump pad for a BoP process may be larger than that of an SoP process. A BoP process may use a solder mask having multiple thicknesses and may be thinner near the bump pads. A BoP process may use a joint having a copper pillar and a solder cap. A BoP process can be used with an underfill or a molding compound technology.

A semiconductor package may include vertically-stacked semiconductor chips and first, second, and third connection terminals connecting the semiconductor chips to each other. Each of the semiconductor chips may include a semiconductor substrate, an interconnection layer on the semiconductor substrate, penetration electrodes connected to the interconnection layer through the semiconductor substrate, and first, second, and third groups on the interconnection layer. The interconnection layer may include an insulating layer and first and second metal layers in the insulating layer. The first and second groups may be in contact with the second metal layer, and the third group may be spaced apart from the second metal layer. Each of the first and third groups may include pads connected to a corresponding one of the first and third connection terminals in a many-to-one manner. The second group may include pads connected to the second connection terminal in a one-to-one manner.

A chip on film package is provided. The chip on film package includes a film substrate with a base film, a conductive pad extending in a first direction on the base film, and a conductive line pattern extending from the conductive pad; a semiconductor chip provided on the film substrate; and a bump structure provided between the semiconductor chip and the conductive pad. A first peripheral wall and a second peripheral wall of the bump structure extend in the first direction and define a trench, a portion of the conductive pad is provided in the trench, and the conductive pad is spaced apart from at least one of the first peripheral wall and the second peripheral wall.

A semiconductor package is provided. The semiconductor package includes: a first stack including a first semiconductor substrate; a through via that penetrates the first semiconductor substrate in a first direction; a second stack that includes a second face facing a first face of the first stack, on the first stack; a first pad that is in contact with the through via, on the first face of the first stack; a second pad including a concave inner side face that defines an insertion recess, the second pad located on the second face of the second stack; and a bump that connects the first pad and the second pad, wherein the bump includes a first upper bump on the first pad, and a first lower bump between the first upper bump and the first pad.

An electronic device includes a substrate, a bump, a chip, and an adhesive layer. The substrate includes a first connection pad. The bump is disposed on the first connection pad. The chip includes a second connection pad. The bump is disposed between the first connection pad and the second connection pad. The adhesive layer is disposed between the substrate and the chip. A dissipation factor of the adhesive layer is less than or equal to 0.01 at a frequency of 10 GHz. A manufacturing method of an electronic device includes the following: providing a substrate, where the substrate includes a first connection pad; applying an adhesive layer on the substrate; patterning the adhesive layer, such that the adhesive layer produces an opening exposing the first connection pad; forming a bump on the first connection pad; and bonding the chip onto the bump through the second connection pad.

A package comprising a substrate and an integrated device coupled to the substrate through a plurality of pillar interconnects and a plurality of solder interconnects. The plurality of pillar interconnects comprises a first pillar interconnect. The first pillar interconnect comprises a first pillar interconnect portion comprising a first width and a second pillar interconnect portion comprising a second width that is different than the first width.