A solid-state storage device includes a housing, a wiring board and a semiconductor package unit. The housing is formed with a heat-dissipating recess thereon. The wiring board is fixed in the housing. One side of the semiconductor package unit is mounted on the wiring board, and the other side of the semiconductor package unit is embedded in the heat-dissipating recess. A top surface and lateral surfaces surrounding the top surface of the semiconductor package unit are all thermally connected to the housing in the heat-dissipating recess.

A power semiconductor device includes a semiconductor wafer having a junction and a junction termination laterally surrounding the junction. A protection layer covers the lateral side of the semiconductor wafer and covers the second main side at least in an area of the junction termination. A first metal disk is arranged on the first main side to cover the first main side of the semiconductor wafer. An interface between the first metal disk and the semiconductor wafer is a free floating interface. A metal layer sandwiched between the first metal disk and the semiconductor wafer.

A package structure includes a first die, a die stack structure, a support structure and an insulation structure. The die stack structure is bonded to the first die. The support structure is disposed on the die stack structure. A width of the support structure is larger than a width of the die stack structure and less than a width of the first die. The insulation structure at least laterally wraps around the die stack structure and the support structure.

A semiconductor device assembly comprises a substrate including internal contacts on a first side and first external contacts on a second side. The assembly further comprises one or more first dies disposed over the first side and electrically coupled to the internal contacts, and a interposer having a length and a width less than a length and a width of the substrate, having inner contacts on a first side, and having second external contacts on a second side. The interposer is coupled to the second side of the substrate by one or more of the inner contacts. The assembly further comprises a second die disposed between the substrate and the interposer. The assembly further comprises first solder balls on the first external contacts, and second solder balls on the second external contacts. The first and second solder balls are configured to bond with co-planar package contacts.

Embodiments disclosed herein include electronic package and methods of forming such packages. In an embodiment, an electronic package comprises a mold layer and a first die embedded in the mold layer. In an embodiment, the first die comprises first pads at a first pitch and second pads at a second pitch. In an embodiment, the electronic package further comprises a second die embedded in the mold layer, where the second die comprises third pads at the first pitch and fourth pads at the second pitch. In an embodiment, a bridge die is embedded in the mold layer, and the bridge die electrically couples the second pads to the fourth pads.

A semiconductor package includes: a semiconductor chip having an active surface, on which a connection pad is disposed, and an inactive surface opposite to the active surface; a heat-dissipating member disposed on the inactive surface of the semiconductor chip and including graphite; an encapsulant sealing at least a portion of each of the semiconductor chip and the heat-dissipating member; a capping metal layer disposed directly between the heat-dissipating member and the encapsulant; and a connection structure disposed on the active surface of the semiconductor chip and including a redistribution layer electrically connected to the connection pad, wherein the heat-dissipating member includes holes passing through at least a portion of the heat-dissipating member, and the holes overlap the inactive surface of the semiconductor chip.

A semiconductor device assembly comprises a substrate including internal contacts on a first side and first external contacts on a second side. The assembly further comprises one or more first dies disposed over the first side and electrically coupled to the internal contacts, and a interposer having a length and a width less than a length and a width of the substrate, having inner contacts on a first side, and having second external contacts on a second side. The interposer is coupled to the second side of the substrate by one or more of the inner contacts. The assembly further comprises a second die disposed between the substrate and the interposer. The assembly further comprises first solder balls on the first external contacts, and second solder balls on the second external contacts. The first and second solder balls are configured to bond with co-planar package contacts.

A package structure includes a first die, a die stack structure bonded to the first die, a support structure and an insulation structure. The support structure is disposed on the die stack structure, and a sidewall of the support structure is laterally shifted from a sidewall of the die stack structure. The insulation structure is disposed on the first die and laterally wraps around the die stack structure and the support structure.

A semiconductor package structure is provided. The semiconductor package structure includes a substrate, a semiconductor die disposed over the substrate, and a frame disposed over the substrate. The frame is adjacent to the semiconductor die, and an upper surface of the frame is lower than the upper surface of the semiconductor die. IN addition, a passive component is disposed on the substrate and located between the frame and the semiconductor die.

A semiconductor chip includes a semiconductor substrate, a plurality of first wirings extending in a first direction parallel to the upper surface of the semiconductor substrate and disposed entirely above the upper surface of the semiconductor substrate, a second wiring disposed between two of the first wirings that are adjacent to each other and entirely below the upper surface of the semiconductor substrate such that an upper surface of the second wiring is below a lower surface of the two first wirings, and a first insulating film provided on the second wiring and spaced apart from the two first wirings in a second direction that is perpendicular to the first direction, the first insulating film having an upper surface that is above the lower surface of the two first wirings.