A power semiconductor module includes a substrate with a metallization layer that is structured. A semiconductor chip having a first side bonded to the metallization layer. A metal clip, which is a strip of metal, has a first planar part bonded to a second side of the semiconductor chip opposite to the first side. The metal clip also has a second planar part bonded to the metallization layer. A mold encapsulation at least partially encloses the substrate and the metal clip. The mold encapsulation has a recess approaching towards the first planar part of the metal clip. The semiconductor chip is completely enclosed by the mold encapsulation, the substrate and the metal clip and the first planar part of the metal clip is at least partially exposed by the recess. A sensor is accommodated in the recess.

A semiconductor device includes a substrate, a conductive part, a controller module and a sealing resin. The substrate has a substrate obverse surface and a substrate reverse surface facing away from each other in a z direction. The conductive part is made of an electrically conductive material on the substrate obverse surface. The controller module is disposed on the substrate obverse surface and electrically connected to the conductive part. The sealing resin covers the controller module and at least a portion of the substrate. The conductive part includes an overlapping wiring trace having an overlapping portion overlapping with the electronic component as viewed in the z direction. The overlapping portion of the overlapping wiring trace is not electrically bonded to the controller module.

A semiconductor device includes a pre-molded leadframe mounting substrate. The substrate includes a die pad (configured to have a semiconductor die mounted thereon) and a first electrically conductive pad and a second electrically conductive pad. A strip of insulating material is molded between the first and second electrically conductive pads to provide a mutually electrically insulation and extends in a longitudinal direction with the first electrically conductive pad and the second electrically conductive pad lying on opposite sides of the strip of insulating material. A semiconductor die is arranged on the die pad in register with the strip of insulating material. A single electrically conductive ribbon extending in register with the strip of insulating material electrically couples the semiconductor die with both the first and second electrically conductive pads to provide a common current flow path from the semiconductor die towards the first and the second electrically conductive pads.

A device comprising a first package and a second package coupled to the first package. The first package includes a first substrate, at least one gradient interconnect structure coupled to the first substrate, and a first integrated device coupled to the first substrate. The second package includes a second substrate and a second integrated device coupled to the second substrate. The second substrate is coupled to the at least one gradient interconnect structure.

The Invention relates to a housing for an optoelectronic semiconductor component, comprising: a housing main body, which has a chip mounting side, at least two electrical conducting structures in and/or on the housing main body, and a plurality of drainage structures on the chip mounting side. The electrical conducting structures form, on the chip mounting side, electrical contact surfaces for at least one optoelectronic semiconductor chip and the drainage structure are designed as means for feeding a liquid potting material to the electrical contact surfaces.

A semiconductor device includes a semiconductor element, a first wiring member, a second wiring member, and a terminal. The semiconductor element includes a first main electrode and a second main electrode on a side opposite from the first main electrode. The first wiring member is connected to the first main electrode. The terminal has a first terminal surface connected to the second main electrode and a second terminal surface. The second terminal has four sides. Two of the four sides are parallel to a first direction intersecting the thickness direction, and other two sides of the four sides are parallel to a second direction perpendicular to the thickness direction and the first direction. The second wiring member is connected to the second terminal surface of the terminal through solder, and has a groove. The groove overlaps one or two of the four sides of the second terminal surface.

A semiconductor package includes a semiconductor chip having an active surface on which a connection pad is disposed and an inactive surface opposing the active surface, and a first encapsulant covering at least a portion of each of the inactive surface and a side surface of the semiconductor chip. A metal layer is disposed on the first encapsulant, and includes a first conductive layer and a second conductive layer, sequentially stacked. A connection structure is disposed on the active surface of the semiconductor chip, and includes a first redistribution layer electrically connected to the connection pad. A lower surface of the first conductive layer is in contact with the first encapsulant and has first surface roughness, and an upper surface of the first conductive layer is in contact with the second conductive layer and has second surface roughness smaller than the first surface roughness.

Disclosed are a leadframe, a bracket and an LED device. The leadframe includes a first photo-etched metal part, having a first electrode and a chip placement layer thereon, which has a greater length for short and long edges than those of the first electrode; and a second photo-etched metal part, composed of a second electrode and a connection layer thereon, which has a greater length for short and long edges than those of the second electrode; wherein a first long edge of the chip placement layer is flush with a first long edge of the first electrode, and a first long edge of the connection layer is flush with a first long edge of the second electrode; and wherein the chip placement layer and the connection layer are provided with L-shaped pins at corners of their first long edges to cover sidewalls of the corresponding corners.

A semiconductor package of the present invention comprises a base plate, an insulating substrate, and a lead frame, wherein the base plate is made of a metallic material including Cu and Be—Cu. The present invention can ensure bonding reliability and thus prevent performance degradation of semiconductor devices.

A circuit assembly may include a substrate and a pattern of contact points formed from deformable conductive material supported by the substrate. The assembly may further include an electric component supported by the substrate and having terminals arranged in a pattern corresponding to the pattern of contacts points. The one or more of the terminals of the electric component may contact one or more of the corresponding contact points to form one or more electrical connections between the electric component and the contact points.