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.

A semiconductor device provided with first and second semiconductor element each having an obverse and a reverse surface with a drain electrode, source electrode and gate electrode provided on the obverse surface. The semiconductor device is also provided with a control element electrically connected to the gate electrodes of the respective semiconductor elements, and with a plurality of leads, which include a first lead carrying the first semiconductor element, a second lead carrying the second semiconductor element, and a third lead carrying the control element. The first and second leads overlap with each other as viewed in a first direction perpendicular to the thickness direction of the semiconductor device, and the third lead overlaps with the first and second leads as viewed in a second direction perpendicular to the thickness direction and the first direction.

A semiconductor device provided with first and second semiconductor element each having an obverse and a reverse surface with a drain electrode, source electrode and gate electrode provided on the obverse surface. The semiconductor device is also provided with a control element electrically connected to the gate electrodes of the respective semiconductor elements, and with a plurality of leads, which include a first lead carrying the first semiconductor element, a second lead carrying the second semiconductor element, and a third lead carrying the control element. The first and second leads overlap with each other as viewed in a first direction perpendicular to the thickness direction of the semiconductor device, and the third lead overlaps with the first and second leads as viewed in a second direction perpendicular to the thickness direction and the first direction.

A semiconductor apparatus includes a cooler including a bottom plate, a plurality of fins disposed on the bottom plate, and a cover member including a fin cover member and a plate cover member. The fin cover member covers the plurality of fins and has a heat dissipation outer surface. The plate cover member surrounds an outer periphery of the fin cover member, is disposed on the bottom plate, and has a plate cover surface. The apparatus further includes an insulating substrate on the heat dissipation outer surface, a semiconductor element on the insulating substrate, and an insulating member on the plate cover surface, to seal the insulating substrate and the semiconductor element. The plate cover surface is position closer to the bottom plate than is the heat dissipation outer surface with respect to a height direction orthogonal to the bottom plate.

A semiconductor apparatus includes a cooler including a bottom plate, a plurality of fins disposed on the bottom plate, and a cover member including a fin cover member and a plate cover member. The fin cover member covers the plurality of fins and has a heat dissipation outer surface. The plate cover member surrounds an outer periphery of the fin cover member, is disposed on the bottom plate, and has a plate cover surface. The apparatus further includes an insulating substrate on the heat dissipation outer surface, a semiconductor element on the insulating substrate, and an insulating member on the plate cover surface, to seal the insulating substrate and the semiconductor element. The plate cover surface is position closer to the bottom plate than is the heat dissipation outer surface with respect to a height direction orthogonal to the bottom plate.

A semiconductor module includes a semiconductor device having a gate runner extending in a first direction at an upper surface of the semiconductor device, and a metal wiring plate having a first bonding portion with a bonding surface to which the upper surface of the semiconductor device is bonded via a first bonding material. The first bonding portion has a plurality of first protrusions at the bonding surface. Each first protrusion protrudes toward the semiconductor device, and is provided in a position away from the gate runner by a first distance in a plan view of the semiconductor module.

A semiconductor module includes a semiconductor device having a gate runner extending in a first direction at an upper surface of the semiconductor device, and a metal wiring plate having a first bonding portion with a bonding surface to which the upper surface of the semiconductor device is bonded via a first bonding material. The first bonding portion has a plurality of first protrusions at the bonding surface. Each first protrusion protrudes toward the semiconductor device, and is provided in a position away from the gate runner by a first distance in a plan view of the semiconductor module.

A semiconductor device includes: a carrier having a die pad and a contact; a semiconductor die having opposing first and second main sides and being attached to the die pad by a first solder joint such that the second main side faces the die pad; and a contact clip having a first contact region and a second contact region. The first contact is attached to the first main side by a second solder joint. The second contact region is attached to the contact by a third solder joint. The first contact region has a convex shape facing towards the first main side such that a distance between the first main side and the first contact region increases from a base of the convex shape towards an edge of the first contact region. The base runs along a line that is substantially perpendicular to a longitudinal axis of the contact clip.

A semiconductor device includes: a carrier having a die pad and a contact; a semiconductor die having opposing first and second main sides and being attached to the die pad by a first solder joint such that the second main side faces the die pad; and a contact clip having a first contact region and a second contact region. The first contact is attached to the first main side by a second solder joint. The second contact region is attached to the contact by a third solder joint. The first contact region has a convex shape facing towards the first main side such that a distance between the first main side and the first contact region increases from a base of the convex shape towards an edge of the first contact region. The base runs along a line that is substantially perpendicular to a longitudinal axis of the contact clip.

A semiconductor module includes a multilayer substrate having an insulating plate on which first to third conductive layers respectively connected to positive, negative and output electrode terminals are arranged in a first direction, a plurality of first semiconductor elements each having top and bottom electrodes on the first conductive layer and arranged in a second direction orthogonal to the first direction, a plurality of second semiconductor elements each having top and bottom electrodes on the second conductive layer and arranged in the second direction, first and second main wiring members each connecting the top electrode of each first and second semiconductor element to the second and third conductive layers. The multilayer substrate includes a first control wiring layer extending in the second direction and passing under the first main wiring member, and a second control wiring layer extending in the second direction and passing under the second main wiring member.