A semiconductor package may include a substrate including a first coupling terminal and a second coupling terminal, a first chip disposed on the substrate, the first chip including a first pad and a second pad, and a connection structure connecting the first coupling terminal to the first pad. A portion of the connection structure may be in contact with a first side surface of the first chip. The connection structure may include a connection conductor electrically connecting the first pad to the first coupling terminal.

Semiconductor devices including stacked semiconductor dies and associated systems and methods are disclosed herein. In one embodiment, a semiconductor device includes a first semiconductor die coupled to a package substrate and a second semiconductor die stacked over the first semiconductor die and laterally offset from the first semiconductor die. The second semiconductor die can accordingly include an overhang portion that extends beyond a side of the first semiconductor die and faces the package substrate. In some embodiments, the second semiconductor die includes bond pads at the overhang portion that are electrically coupled to the package substrate via conductive features disposed therebetween. In certain embodiments, the first semiconductor die can include second bond pads electrically coupled to the package substrate via wire bonds.

A semiconductor memory includes a substrate, a memory controller, a plurality of memory modules, and a cover layer. The memory controller is provided on an upper surface of the substrate. Each of the memory modules partially covers an upper surface of the memory controller and the upper surface of the substrate through at least an adhesive layer. The cover layer is on the upper surface of the substrate and encloses the memory controller and the plurality of memory modules between the substrate and the cover layer.

A semiconductor package includes a package substrate, a chip stack structure on the package substrate, the chip stack structure including a base chip having a first thickness and a plurality of upper chips sequentially stacked on the base chip, wherein the plurality of upper chips each have a second thickness smaller than the first thickness, and a sealing member on an upper surface of the package substrate and on the chip stack structure. At least one of the plurality of upper chips includes a chip substrate having opposite first and second surfaces, a circuit layer on the first surface, and a stress compensation layer on the second surface and having an internal stress that offsets a warpage of the chip substrate.

The present disclosure relates to an imaging element package, a method of manufacturing the same, and an electronic device capable of further improving reliability. An imaging element package includes a solid-state imaging element having a first pad, a substrate on which the solid-state imaging element is mounted, the substrate having a second pad, and a wire wiring that connects the first pad and the second pad. The wire wiring has a ball portion bonded to the first pad in a shape having a thickness equal to or larger than a depth of an opening portion provided for opening the first pad, and a crescent portion provided by pressing an end of the metal wire against the ball portion and bonding the end to the ball portion, and connected to the metal wire with a connection length of a predetermined ratio or more with respect to the metal wire.

A semiconductor package includes a substrate, a semiconductor die, a dummy die, a conductive layer, at least one first conductive wire, and at least one second conductive wire. The semiconductor die is disposed on the substrate. The dummy die is disposed on the semiconductor die. The conductive layer is disposed on the dummy die. The first conductive wire electrically connects the semiconductor die to a signal source. The second conductive wire electrically connects the conductive layer to a ground reference.

A semiconductor package is provided. The semiconductor package includes: a mounting substrate including at least one bonding pad; a first semiconductor chip disposed on the mounting substrate, and including a first protrusion on one side of the first semiconductor chip; a first spacer ball electrically connected to the first semiconductor chip; a first bump ball electrically connected to the first spacer ball; and a first wire which electrically connects the first bump ball and the bonding pad without contacting the first protrusion, wherein the first wire includes a first portion extending in a direction away from the bonding pad, and a second portion extending in a direction approaching the bonding pad.

A land grid array semiconductor device is disclosed which is configured for removable insertion to and from a host device. The land grid array semiconductor device may include a first set of one or more contact fingers on the first surface of the land grid array semiconductor device, and a second set of one or more contact fingers on the second surface of the land grid array semiconductor device. In order to electrically couple the second set of one or more contact fingers, one or more electrical connectors may be provided physically extending between the second set of one or more contact fingers and at least one of the substrate and the at least one semiconductor die.

Semiconductor devices including stacked semiconductor dies and associated systems and methods are disclosed herein. In one embodiment, a semiconductor device includes a first semiconductor die coupled to a package substrate and a second semiconductor die stacked over the first semiconductor die and laterally offset from the first semiconductor die. The second semiconductor die can accordingly include an overhang portion that extends beyond a side of the first semiconductor die and faces the package substrate. In some embodiments, the second semiconductor die includes bond pads at the overhang portion that are electrically coupled to the package substrate via conductive features disposed therebetween. In certain embodiments, the first semiconductor die can include second bond pads electrically coupled to the package substrate via wire bonds.

A semiconductor package including a package base substrate; at least one semiconductor chip on the package base substrate; a heat sink attached on the at least one semiconductor chip, the heat sink including a base and a plurality of protrusion patterns on a top of the base; and a molding covering a top of the package base substrate, a side surface of the at least one semiconductor chip, and a side surface of the heat sink without covering a top of the heat sink.