A method for producing a power semiconductor system includes packaging a power device in plastic to form a power semiconductor component, forming a first heat dissipation face on a surface of the power semiconductor component; heating a first material between a first heat sink and the first heat dissipation face; and cooling the first material on the first heat dissipation face to connect the power semiconductor component and the first heat sink.

An intelligent power module, which includes: a lead frame; a plurality of signal processing chips, disposed on the lead frame; at least one bridge die, configured to operably transmit signals among the signal processing chips; and a package structure, encapsulating the lead frame, the signal processing chips and the bridge die.

Implementations of semiconductor devices may include a die coupled over a lead frame, a redistribution layer (RDL) coupled over the die, a first plurality of vias coupled between the RDL and the die, and a second plurality of vias coupled over and directly to the lead frame. The second plurality of vias may be adjacent to an outer edge of the semiconductor device and may be electrically isolated from the die.

An intelligent power module includes: an encapsulating material structure; a lead frame which is at least partially encapsulated inside the encapsulating material structure, wherein all portions of the lead frame encapsulated inside the encapsulating material structure are at a same planar level; and a heat dissipation structure, which is connected to the lead frame.

An integrated circuit package is formed by positioning an integrated circuit die on a die pad of a leadframe; connecting a bond wire between the die and a bond pad of the leadframe; encapsulating the bond wire, die, and bond pad with an encapsulant material to form a first mold cap of the integrated circuit package; after the encapsulating, bending one or more leads of the leadframe to form one or more bent leads; and encapsulating the first mold cap and a portion of a bend of the one or more bent leads with the encapsulant material to form a second mold cap.

The present invention provides a package structure and a method for manufacturing the same. The package structure includes at least two electrical elements, a second reconstruction layer, and a metal lead frame, wherein at least one of the electrical elements is a chip, at least one of the electrical elements has a first reconstruction layer, and the second reconstruction layer has a smaller pin pitch than that of the metal lead frame; the second reconstruction layer has a first surface and a second surface, a functional surface of the electrical element is disposed on and connected to the first surface, and at least one of the electrical elements is connected to the second reconstruction layer; and the second surface is disposed on and connected to the metal lead frame. A fan-out package structure is formed on the metal lead frame, which improves the heat dissipation capacity of the chip.

It is an object to provide technology enabling suppression of contact deformation of pin fins during assembly of a semiconductor device and the like. A semiconductor device includes a base plate, a semiconductor element, and a resin member. The base plate has a plurality of pin fins on a lower surface thereof. The semiconductor element is mounted on an upper side of the base plate. The resin member covers at least a side surface of the semiconductor element. The resin member has a rib covering a side surface of the base plate, and a lower end of the rib is located below lower ends of the plurality of pin fins.

A semiconductor device includes a semiconductor element having a surface on which a first electrode and a second electrode are disposed, a conductor plate having a surface facing the surface of the semiconductor element and electrically connected to the first electrode, an insulating layer disposed on the surface of the conductor plate and covers a part of the surface of the conductor plate, and a conductor circuit pattern disposed on the insulating layer. The conductor circuit pattern has at least one conductor line electrically connected to the semiconductor element. The at least one conductor line includes a conductor line electrically connected to the second electrode.

A semiconductor device includes a semiconductor element, a sealing member, and a first conductive plate. The semiconductor element includes a first electrode. The sealing member seals the semiconductor element. The first conductive plate includes a first surface facing the first electrode inside the sealing member. The first surface of the first conductive plate includes a mounting region, a roughened region and a non-roughened region. The first electrode is joined to the mounting region. The roughened region is located around the mounting region. The non-roughened region is located between the roughened region and an outer peripheral edge of the first surface. Surface roughness of the roughened region is larger than surface roughness of the non-roughened region.

A semiconductor device includes a power module, a circuit package, and a joint portion joining the power module and the circuit package. The circuit package includes a semiconductor element, a wiring layer electrically connected with the semiconductor element, a heat conductive member, and a second mold resin portion sealing the semiconductor element and the heat conductive member. The wiring layer includes a connecting portion connected with the heat conductive member. One of the connecting portion or the heat conductive member is joined with a signal wire in the power module via the joint portion. The heat conductive member penetrates the second mold resin portion in a thickness direction of the semiconductor element. The heat conductive member and the connecting portion are arranged in a straight line in the thickness direction of the semiconductor element.