A die includes a metal pad, a passivation layer over the metal pad, and a polymer layer over the passivation layer. A metal pillar is over and electrically coupled to the metal pad. A metal ring is coplanar with the metal pillar. The polymer layer includes a portion coplanar with the metal pillar and the metal ring.

Embodiments of the present invention are directed to a method of manufacturing a semiconductor package with an internal routing circuit. The internal routing circuit is formed from multiple molding routing layers in a plated and etched copper terminal semiconductor package by using an inkjet process to create conductive paths on each molding compound layer of the semiconductor package.

A semiconductor device includes a leadframe that includes contact pins and a semiconductor die that has protruding connection formations. A flexible support member is disposed between the leadframe and the semiconductor die and supports the semiconductor die. The flexible support member has electrically conductive lines that extend between the leadframe and the semiconductor die. The electrically conductive lines of the flexible support member are electrically coupled with the contact pins of the leadframe and with the connection formations of the semiconductor die.

A semiconductor device includes: a semiconductor chip having an electrode on one surface; a first conductive member disposed on one surface side of the semiconductor chip; a metal member having a base member and a membrane and disposed between the semiconductor chip and the first conductive member; a first solder disposed between the electrode of the semiconductor chip and the metal member; and a second solder disposed between the metal member and the first conductive member. The membrane has a metal thin film arranged on the surface of the base member and an uneven oxide film. The uneven oxide film is arranged on the metal thin film in at least a part of a connection region of a surface of the metal member, the connection region connecting a first connection region to which the first solder is connected and a second connection region to which the second solder is connected.

The semiconductor device includes first and second semiconductor elements. Each element has an obverse surface and a reverse surface, with a first electrode arranged on the reverse surface, and with a second electrode arranged on the obverse surface. The semiconductor device further includes: a first lead having an obverse surface and a reverse surface; an insulating layer covering the first lead, the first semiconductor element and the second semiconductor element; a first electrode connected to the second electrode of the first semiconductor element; and a second electrode connected to the first lead. The first semiconductor element and the first lead are bonded to each other with the reverse surface of the first semiconductor element facing the lead obverse surface. The second semiconductor element and the first lead are bonded to each other with the reverse surface of the second semiconductor element facing the lead reverse surface.

In a described example, an apparatus includes: a package substrate having a die mount portion and lead portions; at least one semiconductor device die over the die mount portion of the package substrate, the semiconductor device die having bond pads on an active surface facing away from the package substrate; electrical connections between at least one of the bond pads and one of the lead portions; a post interconnect over at least one of the bond pads, the post interconnect extending away from the active surface of the semiconductor device die; and a dielectric material covering a portion of the package substrate, the semiconductor device die, a portion of the post interconnect, and the electrical connections, forming a packaged semiconductor device, wherein the post interconnect extends through the dielectric material and had an end facing away from the semiconductor device die that is exposed from the dielectric material.

A package-embedded board includes: a core layer having a through-hole portion; a package at least partially disposed in the through-hole portion and including a die pad, an electronic component disposed on the die pad, and a molded portion covering the electronic component; and a core insulating material disposed in the through-hole portion and covering the core layer and the package.

A semiconductor package includes a connection structure having including a plurality of insulating layers and redistribution layers on the plurality of insulating layers. A semiconductor chip has connection pads connected to the redistribution layers, and an encapsulant encapsulates the semiconductor chip. A passive component is embedded in the connection structure and has connection terminals connected to the redistribution layer. The redistribution layers include a plurality of redistribution patterns, each disposed on the plurality of insulating layers and a plurality of redistribution vias each penetrating through the plurality of insulating layers and connected to the plurality of redistribution patterns. The plurality of redistribution vias include a plurality of blocking vias arranged to surround the passive component, and the plurality of redistribution patterns include a blocking pattern connected to adjacent blocking vias.

A semiconductor module includes a laminated substrate that includes a heat radiating plate, and an insulation layer having a conductive pattern thereof and being disposed on a top surface of the heat radiating plate, a semiconductor element disposed on a top surface of the conductive pattern, an integrated circuit that controls driving of the semiconductor element, a control-side lead frame having a primary surface on which the integrated circuit is disposed, and a mold resin that seals the laminated substrate, the semiconductor element, the integrated circuit, and the control-side lead frame. The control-side lead frame has a rod-shaped first pin having a first end, a first end side of the first pin extending toward the top surface of the heat radiating plate, and the heat radiating plate has at least one insertion hole into one of which the first end of the first pin is press-fitted.

A power semiconductor device includes a circuit body, first and second insulations, first and second bases, a case, and a distance regulation portion. The circuit body incudes a semiconductor element and a conductive portion. The first insulation and the second insulation oppose each other. The first base and second base also oppose each other. The case has a first opening portion covered with the first base and a second opening portion covered with the second base. The distance regulation portion has a first end that contacts the first base and a second end, that is opposite to the first end, and that contacts the second base. The distance regulation portion regulates a distance between the first base and the second base.