A semiconductor package includes a die pad having a die attach surface, a semiconductor die mounted on the die attach surface and having a first bond pad at an upper surface facing away from the die attach surface, an interconnect clip including a first segment which at least partially encloses a central opening, a second segment vertically offset and spaced apart from the first segment, and a support extending between the first segment and the second segment. The package further includes an electrically insulating encapsulant covering the semiconductor die. An upper surface of the first segment of the interconnect clip is exposed from a planar surface of the encapsulant. A lower surface of the second segment is flush against the upper surface of the semiconductor die and conductively connected to the first bond pad.

A semiconductor device package is provided. The semiconductor device package includes providing a first substrate, a computing unit and a power module. The first substrate has a first surface and a second surface opposite to the first surface. The computing unit is adjacent to the first surface. The computing unit includes a semiconductor die. The power module is adjacent to the second surface. The power module includes a power element and a passive element. Each of the semiconductor die, the power element, and the passive element is vertically arranged with respect to each other, and the passive elements are assembled between the semiconductor die and the power element.

According to one embodiment, a semiconductor device includes a semiconductor chip, first and second conductive members, a first connection member, and a resin portion. The first conductive member includes first and second portions. The second portion is electrically connected to the semiconductor chip. A direction from the semiconductor chip toward the second portion is aligned with a first direction. A direction from the second portion toward the first portion is aligned with a second direction crossing the first direction. The second conductive member includes a third portion. The first connection member is provided between the first and third portion. The first connection member is conductive. The resin portion includes a first partial region. The first partial region is provided around the first and third portions, and the first connection member. The first portion has a first surface opposing the first connection member and including a recess and a protrusion.

A semiconductor module includes at least two semiconductor elements connected in parallel; a control circuit board placed between the at least two semiconductor elements; a control terminal for external connection; a first wiring member that connects the control terminal and the control circuit board; and a second wiring member that connects a control electrode of one of the at least two semiconductor elements and the control circuit board, wherein the second wiring member is wire-bonded from the control electrode towards the control circuit board, and has a first end on the control electrode and a second end on the control circuit board, the first end having a cut end face facing upward normal to a surface of the control electrode and the second end having a cut end face facing sideways parallel to a surface of the control circuit board.

A semiconductor device package is provided. The semiconductor device package includes providing a first substrate, a computing unit and a power module. The first substrate has a first surface and a second surface opposite to the first surface. The computing unit is adjacent to the first surface. The computing unit includes a semiconductor die. The power module is adjacent to the second surface. The power module includes a power element and a passive element. Each of the semiconductor die, the power element, and the passive element is vertically arranged with respect to each other, and the passive elements are assembled between the semiconductor die and the power element.

A system configured to increase a reliability of electrical connections in a device. The system including a lead configured to electrically connect a pad of at least one support structure to a pad of at least one electrical component. The lead includes an upper portion that includes a lower surface arranged on a lower surface thereof. The lower surface of the upper portion is arranged vertically above a first upper surface of a first pad connection portion; and the lower surface of the upper portion is arranged vertically above a second upper surface of the second pad connection portion. A process configured to increase a reliability of electrical connections in a device is also disclosed.

The present disclosure is directed to a high throughput clip bonding tool or system which is flexible and easily adapts to different clip bond pitches or sizes. The clip bonding system may be an integrated system with various modules, including a clip singulation module, a feeder module, a transfer module and a clip attach module within a shared footprint. For example, an incoming clip source may be fed to the clip singulation module for clip singulation before the singulated clips are transferred by the feeder and transfer modules to a clip presentation area for clip alignment before pickup. A pickup tool of the clip attach module is configured to facilitate pickup and attachment of clips onto the semiconductor packages to be clip bonded. For example, the pickup head is programmable to facilitate clip bonding process of different applications which may require clips and packages with different sizes.

A clip for a semiconductor package includes a first portion and a second portion. The first portion includes a first surface, a second surface opposite to the first surface and configured to contact a first electrically conductive component, and a stepped region between the first surface and the second surface such that the second surface has a smaller area than the first surface. The second portion is coupled to the first portion and configured to contact a second electrically conductive component. The second portion includes a third surface aligned with the first surface.

A semiconductor package includes a plurality of metal leads and a semiconductor die attached to the plurality of metal leads by an interconnect. A surface of the plurality of metal leads, a metallized surface of the semiconductor die, and/or a surface of the interconnect comprises Cu and has a thermal conductivity in a range of 340 to 400 W/mK and an electrical conductivity in a range of 80 to 110% IACS. One or more of the surfaces which comprise Cu and have a thermal conductivity in the range of 340 to 400 W/mK and an electrical conductivity in the range of 80 to 110% IACS also includes micropores having a diameter in a range of 1 m to 10 m. A method of manufacturing a metal surface with such micropores also is described.

An interconnect clip includes a die contact portion having substantially planar upper and lower surfaces that are parallel to and opposite from one another, a bridge portion adjoining the die contact portion and having substantially planar upper and lower surfaces that are parallel to and opposite from one another, a lead contact portion adjoining the bridge portion and having a lead contact surface or contact point, and a bridge portion adjoining the die contact portion and having substantially planar upper and lower surfaces that are parallel to and opposite from one another. The lower surface of the die contact portion extends along a first plane. The lower surface of the bridge portion extends along a second plane that is completely above the first plane throughout a complete length of the bridge portion. The lead contact surface or contact point is disposed below the first plane.