Implementations of a semiconductor package may include two or more die, each of the two more die coupled to a metal layer at a drain of each of the two more die, the two or more die and each metal layer arranged in two parallel planes; a first interconnect layer coupled at a source of each of the two more die; a second interconnect layer coupled to a gate of each of the two or more die and to a gate package contact through one or more vias; and an encapsulant that encapsulates the two or more die and at least a portion of the first interconnect layer, each metal layer, and the second interconnect layer.

A semiconductor device has a leadframe and a first electrical component disposed over the leadframe. A clip bond is disposed over the first electrical component. The clip bond has a plurality of recesses each having a different depth. A first recess is proximate to a first distal end of the first electrical component, and a second recess is proximate to a second distal end of the first electrical component opposite the first distal end of the first electrical component. A depth of the first recess is different from a depth of the second recess. A third recess is over a surface of the first electrical component. A depth of the third recess is different from the depth of the first recess and the depth of the second recess. A second electrical component is disposed over the leadframe. The clip bond extends over the second electrical component.

A packaging structure includes heat dissipation substrate, a lead frame, multiple half-bridge modules, and a package body. The heat dissipation substrate has a metal routing. The lead frame is coupled to the heat dissipation substrate and includes a power pin and a ground pin. Half-bridge modules connect in parallel between the power pin and the ground pin. Each half-bridge module includes a high-side SiC transistor, a low-side SiC transistor and a first clip. The high-side SiC transistor and the low-side and the SiC transistor are flip-chip mounted on the corresponding position of the metal routing of the heat dissipation substrate. The source electrode of the high-side SiC transistor is coupled to the drain electrode of the low-side SiC transistor through the first connecting piece and the metal routing. The package covers the heat dissipation substrate, multiple sets of half-bridge modules and part of the lead frame.

An object is to provide a technique capable of reducing stress in the entire semiconductor device. The semiconductor device includes a plurality of sub-modules including a first sealing member, an insulating substrate provided with a first circuit pattern electrically connected to at least one of the conductive plates of the plurality of sub-modules, connection members electrically connected to at least one of the conductive pieces of the plurality of sub-modules, and a second sealing member having lower hardness than the first sealing member, which seals the plurality of sub-modules, the insulating substrate, and the connection members.

A semiconductor device includes a heat sink, a base material including an insulating layer and mounted on the heat sink on one side in a first direction, a first conductive layer bonded to the base material and located on a side opposite the heat sink with respect to the base material, a first semiconductor element bonded to the first conductive layer, a first power terminal electrically connected to the first conductive layer and the first semiconductor element, and a sealing resin covering the first conductive layer and the first semiconductor element. The first power terminal is exposed from the sealing resin. The first power terminal is surrounded by a peripheral edge of the sealing resin as viewed in the first direction.

A semiconductor device includes a support member, a semiconductor element and a sealing member. The semiconductor element is disposed on a first side in a thickness direction relative to the support member. The sealing member covers a part of the support member and the semiconductor element. The support member has a first surface facing a second side in the thickness direction and exposed from the sealing member. The first surface is formed with a first uneven region. In an example, the first uneven region has an arithmetic mean roughness between 0.2 m and 13 m. In an example, the first uneven region includes a plurality of uneven lines in an arc shape.

A semiconductor device includes a first die pad having a main surface, a second die pad having a second main surface, a first switching element connected to the first main surface, a second switching element connected to the second main surface, a first connecting member connecting the first main surface electrode of the first switching element to the second die pad, an encapsulation resin encapsulating the first switching element, the second switching element, the first die pad, the second die pad, and the first connecting member, and leads projecting out of one of the resin side surfaces of the encapsulation resin.

A semiconductor assembly includes a top substrate and a base substrate attached to top and bottom electrode layers of a semiconductor device, respectively. The top substrate includes an electrode connection plate thermally conductible with and electrically connected to the top electrode layer of the semiconductor device and vertical posts protruding from the electrode connection plate and electrically connected to the base substrate. The base substrate includes an electrode connection slug embedded in a dielectric layer and thermally conductible with and electrically connected to the bottom electrode layer of the semiconductor device and first and second routing circuitries deposited on two opposite surfaces of the dielectric layer, respectively, and electrically connected to each other.

A semiconductor apparatus includes: a base plate; an insulating circuit board including a ceramic substrate, a circuit pattern formed on an upper surface of the ceramic substrate, a metal layer formed on a lower surface of the ceramic substrate and fixed on an upper surface of the base plate with a first joint material; a semiconductor device having a first surface fixed on the circuit pattern with a second joint material and a second surface which is an opposite surface of the first surface; a lead frame fixed on the second surface with a third joint material; and a case fixed to an outer edge portion of the base plate and enclosing the semiconductor device, wherein restoring force acts on the insulating circuit board in a direction of warpage that is convex upward, and restoring force acts on the base plate in a direction of warpage that is convex downward.

A semiconductor package includes a lead frame, a low side field-effect transistor (FET), a high side FET, a metal clip, and a molding encapsulation. The low side FET is flipped and is attached to a first die paddle of the lead frame. The lead frame comprises one or more voltage input (Vin) leads; a gate lead; one or more switching node (Lx) leads; a first die paddle; a second die paddle; and an end paddle. Each of an exposed bottom surface of the one or more Lx leads is directly connected to an exposed bottom surface of the end paddle. A longitudinal direction of an exposed bottom surface of the gate lead is perpendicular to a longitudinal direction of each of the exposed bottom surface of the one or more Lx leads. An entirely of each of the one or more Vin leads is of the full thickness.