An electronic package can include a substrate, a first die and a second die. The first die can include a first thickness and the second die can include a second thickness. The first and second dies can be coupled to the substrate. A mold can be disposed on the substrate and cover the first die and the second die. The mold can include a planar upper surface. A first via, having a first length, can be extended between the first die and the planar upper surface. A second via, having a second length, can be extended between the second die and the planar upper surface. In some examples, a third die can be communicatively coupled to the first die using the first via and the second die using the second via.

A semiconductor package includes: a redistribution layer including a plurality of redistribution insulating layers, a plurality of redistribution line patterns that constitute lower wiring layers, and a plurality of redistribution vias that are connected to some of the plurality of redistribution line patterns while penetrating at least one of the plurality of redistribution insulating layers; at least one semiconductor chip arranged on the redistribution layer; an expanded layer surrounding the at least one semiconductor chip on the redistribution layer; and a cover wiring layer including at least one base insulating layer, a plurality of wiring patterns that constitute upper wiring layers, and a plurality of conductive vias that are connected to some of the plurality of wiring patterns while penetrating the at least one base insulating layer.

A chip on film package is disclosed, including a flexible film and a chip. The flexible film includes a film base, a patterned metal layer includes a plurality of pads and disposed on an upper surface of the film base, and a dummy metal layer covering a lower surface of the film base and capable of dissipating heat of the chip. The dummy metal layer comprises at least one opening exposing the second surface, and at least one of the plurality of pads is located within the at least one opening in a bottom view of the chip on film package. The chip is mounted on the plurality of pads of the patterned metal layer.

A semiconductor package includes a package substrate including an insulating layer having an upper surface and a lower surface and provided with a first region which is recessed to a first depth from the upper surface toward the lower surface, a redistribution wiring buried in the insulating layer, a chip connection pad on a bottom surface of the recessed first region and connected to the redistribution wiring, and a wire connection pad on the upper surface of the insulating layer and connected to the redistribution wiring, a first semiconductor chip overlapping, in a top-down view of the semiconductor package, the recessed first region of the insulating layer and comprising a first chip pad connected to the chip connection pad of the package substrate, and a second semiconductor chip on the first semiconductor chip and connected to the wire connection pad of the package substrate through a conductive wire.

A multi-chip unit suitable for chip-level packaging may include multiple IC chips that are interconnected through a metal redistribution structure, and that are directly bonded to an integrated heat spreader. Bonding of the integrated heat spreader to the multiple IC chips may be direct so that no thermal interface material (TIM) is needed, resulting in a reduced bond line thickness (BLT) and lower thermal resistance. The integrated heat spreader may further serve as a structural member of the multi-chip unit, allowing a second side of the redistribution structure to be further interconnected to a host by solder interconnects. The redistribution structure may be fabricated on a sacrificial interposer that may facilitate planarizing IC chips of differing thickness prior to bonding the heat spreader. The sacrificial interposer may be removed to expose the RDL for further interconnection to a substrate without the use of through-substrate vias.

A package that includes a second redistribution portion, a die coupled to the second redistribution portion, an encapsulation layer encapsulating the die, and a first redistribution portion coupled to the second redistribution portion. The first redistribution portion is located laterally to the die. The first redistribution portion is located over the second redistribution portion. The first redistribution portion and the second redistribution portion are configured to provide one or more electrical paths for the die.

A flip chip package includes a circuit board, a chip and a solder layer. The chip is mounted on an inner bonding area of the circuit board. The solder layer is located between the circuit board and the chip for bonding bumps to inner leads and a T-shaped circuit unit is on the inner bonding area. The T-shaped circuit unit has a main part, a connection part, and a branch part. The connection part is connected to the main and branch parts, respectively. The main part extends along a lateral direction and the branch part extends outwardly along a longitudinal direction. The connection part is narrower than the main part in width so as to inhibit solder shorts caused by solder overflow on the branch part.

Embodiments may relate to a multi-chip microelectronic package that includes a first die and a second die coupled to a package substrate. The first and second dies may have respective radiative elements that are communicatively coupled with one another such that they may communicate via an electromagnetic signal with a frequency at or above approximately 20 gigahertz (GHz). Other embodiments may be described or claimed.

An antenna module includes an antenna substrate, a first semiconductor package, disposed on the antenna substrate, including a first connection member including one or more first redistribution layers, electrically connected to the antenna substrate, and a first semiconductor chip disposed on the first connection member, and a second semiconductor package, disposed on the antenna substrate to be spaced apart from the first semiconductor package, including a second connection member including one or more second redistribution layers, electrically connected to the antenna substrate, and a second semiconductor chip disposed on the second connection member. The first semiconductor chip and the second semiconductor chip are different types of semiconductor chips.

An electronic circuit device according to the present invention includes a base substrate including a wiring layer having a connection part, at least one electronic circuit element, and a re-distribution layer including a photosensitive resin layer, the photosensitive resin layer enclosing a surface on which a connection part of the electronic circuit element is formed and a side surface of the electronic circuit element and embedding a first wiring photo via, a second wiring photo via and a wiring, the first wiring photo via directly connected to the connection part of the electronic circuit element, the second wiring photo via arranged at the outer periphery of the electronic circuit element and directly connected to a connection part of the wiring layer, the wiring electrically connected to the first wiring photo via and the second wiring photo via on a same surface.