A semiconductor device is assembled using a lead frame having leads that surround a central opening. The leads have proximal ends near to the central opening and distal ends spaced from the central opening. A heat sink is attached to a bottom surface of the leads and a semiconductor die is attached to a top surface of the leads, where the die is supported on the proximal ends of the leads and spans the central opening. Bond wires electrically connect electrodes on an active surface of the die and the leads. An encapsulant covers the bond wires and at least the top surface of the leads and the die. The distal ends of the leads are exposed to allow external electrical communication with the die.

Present disclosure provides a lead frame, including a die paddle and a plurality of leads surrounding the die paddle. Each of the leads including a finger portion proximal to the die paddle and a lead portion distal from the die paddle. The finger portion includes a main body and at least one support structure. The respective support structures on adjacent leads are mutually isolated, and a distance between the support structure and the die paddle is smaller than a distance between the lead portion and the die paddle. A semiconductor package structure including the lead frame described herein and a semiconductor package assembly including the semiconductor package structure described herein are also provided.

A semiconductor device includes: an insulating substrate; a first semiconductor element connected to the insulating substrate; a conductive member disposed on the insulating substrate, and including a first opposing portion and a second opposing portion located opposite each other with respect to the first semiconductor element in plan view; a first wire connected to the first semiconductor element and the first opposing portion; and a second wire connected to the first semiconductor element and the second opposing portion, and located opposite the first wire with respect to a connection point where the first wire and the first semiconductor element are connected to each other in plan view.

A semiconductor device includes: a baseplate; an insulating substrate on the baseplate; a semiconductor element on the insulating substrate; a case bonded to the baseplate by an adhesive, the case surrounding a space in which the semiconductor element is positioned; and an encapsulating material filling the space surrounded by the case, in which, the case includes a claw, the claw includes: a protrusion protruding from an inner wall surface of the case; and a hook inclined from the protrusion, a space being sandwiched between the hook and the inner wall surface of the case.

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.

A semiconductor device includes a first die pad, a second die pad, a first semiconductor element, a second semiconductor element, an insulating element, first terminals, second terminals, and a sealing resin. The sealing resin has a first side surface located on one side of a first direction, a second side surface located on the other side of the first direction, and third and fourth side surfaces that are separated from each other in a second direction orthogonal to both a thickness direction and the first direction and are connected to the first and second side surfaces. A first gate mark having a surface roughness larger than the other regions of the third side surface is formed on the third side surface. When viewed along the second direction, the first gate mark overlaps a pad gap provided between the first die pad and the second die pad in the first direction

A packaged electronic device comprises a power semiconductor die that includes a first terminal and a second terminal, a power substrate comprising a dielectric substrate having a first metal cladding layer on an upper surface thereof, an encapsulation covering the power semiconductor die and at least a portion of the power substrate, a first lead extending through the encapsulation that is electrically connected to the first terminal, and a second lead extending through the encapsulation that is electrically connected to the second terminal. The first terminal is bonded to the first lead via a first transient liquid phase solder joint.

A semiconductor device, including first and second conductive patterns, a plurality of first semiconductor chips each having a switching device, a plurality of second semiconductor chips each having a diode device, a plurality of first wires, respectively coupling low-potential electrodes of the switching devices and the second conductive pattern, and a plurality of second wires, respectively coupling anode electrodes of the diode devices and the second conductive pattern. Lengths of the first and second wires are substantially equal. The first semiconductor chips and the second semiconductor chips are arranged on the first conductive pattern in two rows, each row being in a first direction and including at least one first semiconductor chip and at least one second semiconductor chip, the first direction being parallel to a predetermined side of the first conductive pattern. The first and second wires are each in a second direction orthogonal to the first direction.

According to one embodiment, a semiconductor device includes a package substrate including a package member and a first conductive portion; a semiconductor package provided on a first surface of the package substrate inside the package member and coupled to the first conductive portion; a first semiconductor chip provided on the first surface of the package substrate inside the package member and including a first terminal; a second semiconductor chip provided on the first surface of the package substrate inside the package member and including a second terminal; and a connection component that couples the first and second terminals to the first conductive portion inside the package member.

A semiconductor device includes a semiconductor element, first and second leads, and a sealing resin. The semiconductor element includes first and second electrodes. The first lead includes a mounting base having a main face to which the first electrode is bonded and a back face, and includes a first terminal connected to the first electrode. The second lead includes a second terminal connected to the second electrode. The sealing resin includes a main face and a back face opposite to each other, and includes an end face oriented in the protruding direction of the terminals. The back face of the mounting base is exposed from the back face of the resin. The sealing resin includes a groove formed in its back face and disposed between the back face of the mounting base and a boundary between the second terminal and the end face of the resin.