A semiconductor package includes a package substrate, a semiconductor chip, connection pins and a molding member. The package substrate includes wiring patterns provided respectively in insulation layers, and has insertion holes extending from an upper surface of the package substrate in a thickness direction that expose portions of the wiring patterns in different insulation layers. The semiconductor chip is disposed on the package substrate, and has a first surface on which chip pads are formed. The connection pins are provided on the chip pads, respectively, and extend through corresponding ones of the insertion holes and electrically connect to the portions of the wiring patterns, respectively, that are exposed by the insertion holes. The molding member is provided on the package substrate to cover the semiconductor chip.

A terminal structure includes a first wiring layer, an insulation layer covering the first wiring layer, an opening extending through the insulation layer and partially exposing the first wiring layer, a via wiring formed in the opening, a second wiring layer connected to the via wiring on the insulation layer, a protective metal layer on the second wiring layer, a solder layer covering the protective metal layer, and an intermetallic compound layer formed at an interface of the protective metal layer and the solder layer. The protective metal layer includes a projection projecting further outward from a side surface of the second wiring layer. The solder layer covers upper and side surfaces of the protective metal layer through the intermetallic compound layer and exposes a side surface of the second wiring layer. The intermetallic compound layer covers the upper and side surfaces of the protective metal layer.

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.

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.

Disclosed is a semiconductor package including a package substrate, a semiconductor chip mounted on the package substrate, a connection solder pattern between the package substrate and the semiconductor chip, and a dummy bump between the package substrate and the semiconductor chip and spaced apart from the connection solder pattern. The connection solder pattern includes a first intermetallic compound layer, a connection solder layer, and a second intermetallic compound layer. The dummy bump includes a dummy pillar and a dummy solder pattern. A thickness of the dummy solder pattern is less than a thickness of the connection solder pattern. A melting point of the dummy solder pattern is greater than that of the connection solder layer.

A semiconductor package includes a redistribution substrate having first and second surfaces, a first semiconductor chip on the first surface, external terminals on the second surface, a second semiconductor chip above the first semiconductor chip, external connection members below the second semiconductor chip, conductive pillars electrically connecting the external connection members to the redistribution substrate. The second semiconductor chip includes a device layer, a wiring layer, and a redistribution layer on a semiconductor substrate. The wiring layer includes intermetallic dielectric layers, wiring lines, and a conductive pad connected to an uppermost wiring line. The redistribution layer includes a first redistribution dielectric layer, a first redistribution pattern, and a second redistribution dielectric layer. A vertical distance between the semiconductor substrate and the conductive pillars is less than that between the first semiconductor chip and the external terminals.

In an implementation, a semiconductor chip includes a device layer, an interconnect layer fabricated on the device layer, the interconnect layer including a conductive pad, and a conductive pillar coupled to the conductive pad. The conductive pillar includes at least a first portion having a first width and a second portion having a second width, the first portion being disposed between the second portion and the conductive pad, wherein the first width of the first portion is greater than the second width of the second portion.

Disclosed are semiconductor packages and methods of fabricating the same. The semiconductor package comprises a redistribution substrate including dielectric and redistribution patterns, a first substrate pad on the redistribution substrate and penetrating the dielectric pattern to be coupled to the redistribution pattern, a second substrate pad the redistribution substrate and spaced apart from the first substrate pad, a semiconductor chip on the redistribution substrate, a first connection terminal connecting the first substrate pad to one of chip pads of the semiconductor chip, and a second connection terminal connecting the second substrate pad to another one of the chip pads of the semiconductor chip. A top surface of the second substrate pad is located at a higher level than that of a top surface of the first substrate pad. A width of the second substrate pad is less than that of the first substrate pad.

Disclosed are semiconductor packages and methods of fabricating the same. The semiconductor package comprises a redistribution substrate including dielectric and redistribution patterns, a first substrate pad on the redistribution substrate and penetrating the dielectric pattern to be coupled to the redistribution pattern, a second substrate pad the redistribution substrate and spaced apart from the first substrate pad, a semiconductor chip on the redistribution substrate, a first connection terminal connecting the first substrate pad to one of chip pads of the semiconductor chip, and a second connection terminal connecting the second substrate pad to another one of the chip pads of the semiconductor chip. A top surface of the second substrate pad is located at a higher level than that of a top surface of the first substrate pad. A width of the second substrate pad is less than that of the first substrate pad.

Implementations of a semiconductor package may include a die; a first pad and a second pad, the first pad and the second pad each including a first layer and a second layer where the second layer may be thicker than the first layer. At least a first conductor may be directly coupled to the second layer of the first pad; at least a second conductor may be directly coupled to the second layer of the second pad; and an organic material may cover at least the first side of the die. The at least first conductor and the at least second conductor extend through openings in the organic material where a spacing between the at least first conductor and the at least second conductor may be wider than a spacing between the second layer of the first pad and the second layer of the second pad.