A PoP semiconductor device has a top semiconductor package disposed over a bottom semiconductor package. The top semiconductor package has a substrate and a first semiconductor die disposed over the substrate. First and second encapsulants are deposited over the first semiconductor die and substrate. A first build-up interconnect structure is formed over the substrate after depositing the second encapsulant. The top package is disposed over the bottom package. The bottom package has a second semiconductor die and modular interconnect units disposed around the second semiconductor die. A second build-up interconnect structure is formed over the second semiconductor die and modular interconnect unit. The modular interconnect units include a plurality of conductive vias and a plurality of contact pads electrically connected to the conductive vias. The I/O pattern of the build-up interconnect structure on the top semiconductor package is designed to coincide with the I/O pattern of the modular interconnect units.

A semiconductor package includes a redistribution substrate and a semiconductor chip thereon. The redistribution substrate includes a ground under-bump pattern, signal under-bump patterns laterally spaced apart from the ground under-bump pattern, first signal line patterns disposed on the signal under-bump patterns and coupled to corresponding signal under-bump patterns, and a first ground pattern coupled to the ground under-bump pattern and laterally spaced apart from the first signal line pattern. Each of the signal and ground under-bump patterns includes a first part and a second part formed on the first part and that is wider than the first part. The second part of the ground under-bump pattern is wider than the second part of the signal under-bump pattern. The ground under-bump pattern vertically overlaps the first signal line patterns. The first ground pattern does not vertically overlap the signal under-bump patterns.

A method for forming a chip package structure is provided. The method includes forming a first conductive bump and a first ring-like structure over a chip. The first ring-like structure surrounds the first conductive bump, the first ring-like structure and the first conductive bump are made of a same first material, the chip includes an interconnect structure, and the first ring-like structure is electrically insulated from the interconnect structure and the first conductive bump. The method includes bonding the chip to a substrate through the first conductive bump.

A display device includes a substrate including a conductive pad, a driving chip facing the substrate and including a conductive bump electrically connected to the conductive pad and an inspection bump which is insulated from the conductive pad, and an adhesive member which is between the conductive pad and the driving chip and connects the conductive pad to the driving chip. The adhesive member includes a first adhesive layer including a conductive ball; and a second adhesive layer facing the first adhesive layer, the second adhesive layer including a first area including a color-changing material, and a second area adjacent to the first area and excluding the color-changing material.

A semiconductor device is disclosed including a semiconductor die mounted on a substrate. The substrate includes a pattern of solder balls which is complementary and aligned to a pattern of solder bumps on the semiconductor die. These complementary and aligned patterns of solder balls and solder bumps minimize the lengths of current paths between the solder balls and solder bumps, and provide current paths between the solder balls and solder bumps of relatively uniform lengths.

A semiconductor package includes a base substrate; a redistribution substrate disposed on the base substrate, and that includes first insulating layers and redistribution pattern layers disposed on the first insulating layers, respectively; a semiconductor chip disposed on the redistribution substrate and electrically connected to the redistribution pattern layers; and a chip structure disposed on the redistribution substrate adjacent to the semiconductor chip and electrically connected to the semiconductor chip through the redistribution pattern layers, wherein the semiconductor chip includes a body that has an active surface that faces the redistribution substrate; first and second contact pads spaced apart from each other below the active surface; a first bump structure and a passive device electrically connected to the first connection pad at a lower level from the first connection pad; and a second bump structure electrically connected to the second connection pad at a lower level from the second connection pad.

An optical module includes an optical semiconductor chip including a first electrode pad, a second electrode pad, and a third electrode pad arranged between the first electrode pad and the second electrode pad, a wiring substrate on which the optical semiconductor chip is flip-chip mounted, including a fourth electrode pad, a fifth electrode pad, and a sixth electrode pad arranged between the fourth electrode pad and the fifth electrode pad, a first conductive material connecting the first electrode pad with the fourth electrode pad, a second conductive material connecting the second electrode pad with the fifth electrode pad, a third conductive material arranged between the first conductive material and the second conductive material, connecting the third electrode pad with the sixth electrode pad, and a resin provided in an area on the second conductive material side of the third conductive material between the optical semiconductor chip and the wiring substrate.

A display device includes a substrate including a conductive pad, a driving chip facing the substrate and including a conductive bump electrically connected to the conductive pad and an inspection bump which is insulated from the conductive pad, and an adhesive member which is between the conductive pad and the driving chip and connects the conductive pad to the driving chip. The adhesive member includes a first adhesive layer including a conductive ball, and a second adhesive layer facing the first adhesive layer, the second adhesive layer including a first area including a color-changing material, and a second area adjacent to the first area and excluding the color-changing material.

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.

Semiconductor packages may include a semiconductor chip on a substrate and an under-fill layer between the semiconductor chip and the substrate. The semiconductor chip may include a semiconductor substrate including first and second regions, and an interlayer dielectric layer that may cover the semiconductor substrate and may include connection lines. First conductive pads may be on the first region and may be electrically connected to some of the connection lines. Second conductive pads may be on the second region and may be electrically isolated from all of the connection lines. The semiconductor chip may also include a passivation layer that may cover the interlayer dielectric layer and may include holes that may expose the first and second conductive pads, respectively. On the second region, the under-fill layer may include a portion that may be in one of the first holes and contact one of the second conductive pads.