In one example, a semiconductor device comprises an electronic component comprising a component face side, a component base side, a component lateral side connecting the component face side to the component base side, and a component port adjacent to the component face side, wherein the component port comprises a component port face. A clip structure comprises a first clip pad, a second clip pad, a first clip leg connecting the first clip pad to the second clip pad, and a first clip face. An encapsulant covers portions of the electronic component and the clip structure. The encapsulant comprises an encapsulant face, the first clip pad is coupled to the electronic component, and the component port face and the first clip face are exposed from the encapsulant face. Other examples and related methods are also disclosed herein.

An electronic module has a first substrate 11, a first conductor layer 12 that is provided on one side of the first substrate 11, a first electronic element 13 that is provided on one side of the first conductor layer 12, a second electronic element 23 that is provided on one side of the first electronic element 23, and a second connecting body 70 that has a second head part 71 provided on one side of the second electronic element 23 and an extending part 75 extending from the second head part 71 to the other side and abutting against the first substrate 11 or the first conductor layer 12.

An electronic module has a first substrate 11; an electronic element 13, 23 provided on one side of the first substrate 11; a sealing part 90 that seals at least the electronic element 13, 23; a connection terminal 110 electrically connected to the electronic element 13, 23 and exposed from a side surface of the sealing part 90; and a stress relaxation terminal 150, which is not electrically connected to the electronic element 13, 23, exposed from the side surface of the sealing part 90.

A semiconductor device according to an embodiment includes a base frame, a semiconductor element provided on the base frame, a connector provided on the semiconductor element, the connector having an upper surface, a side surface, and a porous body having a plurality of pores provided on at least the side surface, and a molded resin provided in a periphery of the semiconductor element and at least the side surface of the connector. The upper surface of the connector is exposed.

A semiconductor device according to an embodiment includes a base frame, a semiconductor element provided on the base frame, a connector provided on the semiconductor element, the connector having an upper surface, a side surface, and a porous body having a plurality of pores provided on at least the side surface, and a molded resin provided in a periphery of the semiconductor element and at least the side surface of the connector. The upper surface of the connector is exposed.

In some examples, a system comprises a first component having a first surface, a first set of nanoparticles coupled to the first surface, and a first set of nanowires extending from the first set of nanoparticles. The system also comprises a second component having a second surface, a second set of nanoparticles coupled to the second surface, and a second set of nanowires extending from the second set of nanoparticles. The system further includes an adhesive positioned between the first and second surfaces. The first and second sets of nanowires are positioned within the adhesive.

A semiconductor device of the present invention includes a first main electrode and a second main electrode respectively disposed on a first main surface and a second main surface of a semiconductor substrate, a protective film disposed on an edge part of the first main electrode; and a first metal film disposed in a region enclosed by the protective film on the first main electrode. The first metal film has a film thickness at a central portion larger than that at a part in contact with the protective film, and has irregularities on a surface thereof.

A semiconductor package includes a carrier having a recess, a semiconductor die arranged on the carrier such that a first side of the semiconductor die faces the carrier, and a contact clip arranged over a second side of the semiconductor die, opposite the first side. The contact clip includes a lowered part. The lowered part is arranged in the recess.

The present disclosure describes a power module having a substrate, first and second pluralities of vertical power devices, and first and second terminal assemblies. The substrate has a top surface with a first trace and a second trace. The first plurality of vertical power devices and the second plurality of vertical power devices are electrically coupled to form part of a power circuit. The first plurality of vertical power devices is electrically and mechanically directly coupled between the first trace and a bottom of a first elongated bar of the first terminal assembly. The second plurality of vertical power devices are electrically and mechanically directly coupled between the second trace and a bottom of a second elongated bar of the second terminal assembly.

In described examples, a microelectronic device includes a microelectronic die with a die attach surface. The microelectronic device further includes a nanoparticle layer coupled to the die attach surface. The nanoparticle layer may be in direct contact with the die attach surface, or may be coupled to the die attach surface through an intermediate layer, such as an adhesion layer or a contact metal layer. The nanoparticle layer includes nanoparticles having adjacent nanoparticles adhered to each other. The microelectronic die is attached to a package substrate by a die attach material. The die attach material extends into the nanoparticle layer and contacts at least a portion of the nanoparticles.