A semiconductor package includes a die pad, a semiconductor die mounted on the die pad and comprising a first terminal facing away from the die pad and a second terminal facing and electrically connected to the die pad, an interconnect clip electrically connected to the first terminal, an encapsulant body of electrically insulating material that encapsulates the semiconductor die and the interconnect clip, and a first opening in the encapsulant body that exposes a surface of the interconnect clip, the encapsulant body comprises a lower surface, an upper surface opposite from the lower surface, and a first outer edge side extending between the lower surface and the upper surface, and the first opening is laterally offset from the first outer edge side.

A semiconductor package includes a die pad, a semiconductor die mounted on the die pad and comprising a first terminal facing away from the die pad and a second terminal facing and electrically connected to the die pad, an interconnect clip electrically connected to the first terminal, an encapsulant body of electrically insulating material that encapsulates the semiconductor die and the interconnect clip, and a first opening in the encapsulant body that exposes a surface of the interconnect clip, the encapsulant body comprises a lower surface, an upper surface opposite from the lower surface, and a first outer edge side extending between the lower surface and the upper surface, and the first opening is laterally offset from the first outer edge side.

Provided is an apparatus for attaching semiconductor parts. The apparatus includes a substrate loading unit, at least one semiconductor part loader, a first vision examination unit, at least one semiconductor part picker, at least one adhesive hardening unit, and a substrate unloading unit, wherein the substrate loading unit supplies a substrate on which semiconductor units are arranged, the at least one semiconductor part loader supplies semiconductor parts, the first vision examination unit examines arrangement states of the semiconductor units, the at least one semiconductor part picker mounts semiconductor parts in the semiconductor units, the at least one adhesive hardening unit hardens and attaches adhesives interposed between the semiconductor units and the semiconductor parts, and the substrate unloading unit releases the substrate on which semiconductor parts are mounted. The adhesive hardening units restrictively transmit a heat source only to at least one semiconductor unit, which is to be hardened.

A package structure includes a first insulation layer, a first redistribution structure, at least one electronic component, a second redistribution structure, a second insulation layer, a first heat spreader, a heat dissipation substrate, a second heat spreader and plural thermal conduction structures. A part of the second redistribution structure is disposed on a part of a top surface of the first insulation layer, and the other part of the second redistribution is located in the first insulation layer. At least one of the conducting terminals is connected with the second redistribution structure. At least one of the thermal conduction structures is connected with at least one of the first redistribution structure and the second redistribution structure, and the thermal conduction structures are respectively extended outwardly from the opposite sides of the first insulation layer to form pins.

A package structure includes a first insulation layer, a first re-distribution block, at least one electronic component, a second re-distribution block, a second insulation layer, a first heat spreader, a heat dissipation substrate, a second heat spreader and plural thermal conduction structures. A part of the second re-distribution block is disposed on a part of a top surface of the first insulation layer, and the other part of the second re-distribution block is located in the first insulation layer. At least one of the conducting terminals is connected with the second re-distribution block. At least one of the thermal conduction structures is connected with at least one of the first re-distribution block and the second re-distribution block, and the thermal conduction structures are respectively extended outwardly from the opposite sides of the first insulation layer to form pins.

An object of the present invention is to provide a power module capable of realizing a superior heat radiation property while satisfying a high insulation property. A power module according to the present invention includes: a conductor plate to which a switching element is connected; a heat radiation plate which is disposed to face the conductor plate; an insulating member which is disposed between the conductor plate and the heat radiation plate; and a conductive intermediate conductor which is disposed in the insulating member in a state of being electrically insulated from the conductor plate and the heat radiation plate, wherein the intermediate conductor has a communication region which communicates between the insulating member disposed on the side of the conductor plate with respect to the intermediate conductor and the insulating member disposed on the side of the heat radiation plate with respect to the intermediate conductor.

An object of the present invention is to provide a power module capable of realizing a superior heat radiation property while satisfying a high insulation property. A power module according to the present invention includes: a conductor plate to which a switching element is connected; a heat radiation plate which is disposed to face the conductor plate; an insulating member which is disposed between the conductor plate and the heat radiation plate; and a conductive intermediate conductor which is disposed in the insulating member in a state of being electrically insulated from the conductor plate and the heat radiation plate, wherein the intermediate conductor has a communication region which communicates between the insulating member disposed on the side of the conductor plate with respect to the intermediate conductor and the insulating member disposed on the side of the heat radiation plate with respect to the intermediate conductor.