A method of testing includes attaching a first and second die to first and second die sites of a lead frame and forming a plurality of wire bonds coupling a plurality of pins of the first die site to the first die and a plurality of pins of the second die site to the second die. The first and second die are encapsulated. An isolation cut is performed to isolate the plurality of pins of the first die site from the plurality of pins of the second die site, while maintaining electrical connection between the first tie bar of the first die site and the first tie bar of the second die site. The first and second die are tested while providing a first power supply source to the first and second die via the first tie bars. After testing, the dies sites are fully singulated to result in packaged IC device.

Electronic power device comprising: an active layer comprising several lateral and/or semi-lateral components for which the electrodes are located on a front face of the active layer; an interconnection structure comprising several conducting portions to which component electrodes are connected, and located in contact with these electrodes extending parallel to the active layer; a support comprising a front face on which electrically conducting tracks are located, and in which: the interconnection structure is located between the active layer and the support, the conducting portions being placed in contact with the conducting tracks, or the active layer is placed between the interconnection structure and the support, the conducting portions comprising parts extending next to the active layer and connected to the conducting tracks.

A semiconductor device includes a leadframe, a semiconductor die attached to the leadframe, and an encapsulation material encapsulating the semiconductor die and a portion of the leadframe. The leadframe includes a first main face and a second main face opposite to the first main face. The leadframe includes leads wherein each lead includes a fully plated end face extending between an unplated first sidewall and an unplated second sidewall opposite to the first sidewall. The end face and the first and second sidewalls of each lead are perpendicular to the first and second main faces.

One or more embodiments are directed to semiconductor packages that include conductive test pads that are electrically coupled to, but distinct from, the leads of the package. In one embodiment the test pads are located on the plastic packaging material, such as encapsulation material, of the package and are electrically coupled to the leads of the package by traces. The traces may also be located on the packaging material and portions of the leads. In one embodiment, all of the test pads are located on a single surface of the packaging material of the package, which may allow for ease of electrical testing of the package.

A mechanically-stable and thermally-conductive interface device between a semiconductor die and a package for the die, and related method of fabrication, comprising: a semiconductor die; a package for the die; a surface area-enhancing pattern on the package and/or the die; and die attach materials between the die and the package, the die attach materials attaching the die to the package through an interface provided by the die attach materials; wherein: an effective bonding area between the die attach materials and the package and/or the die is greater with the pattern than without the pattern; and the increase of the effective bonding area simultaneously increases the surface area for thermal transport between the package and/or the die, and the die attach materials; and increases the surface area for stably attaching the at least one of the package and the die to the die attach materials.

The disclosed embodiments of electronic packages include electrical contact pad features present on all sides of the package that facilitate simple and low cost electrical connections to the package made through a mechanical contacting scheme. In an embodiment, an electronic package comprises: a metal leadframe having a first leadframe portion having a first thickness and a second leadframe portion having a second thickness that is less than the first thickness, the second leadframe portion defining electrical contact pads; a silicon die attached to the second leadframe portion and overlying a space formed in the leadframe by the first and second leadframe portions; and wirebonds coupling the silicon die to the electrical contact pads. A method of fabricating the electronic package is also disclosed.

A semiconductor power chip has a semiconductor power device formed on a semiconductor die; wherein the semiconductor power device comprises an array of conductive contact elements; a passivation layer formed over the plurality of conductive contact elements, the passivation layer comprising passivation openings over a plurality of the conductive contact elements; and an array of conductive bumps including one or more interconnection bumps, wherein each interconnection bump is formed over the passivation layer and extends into at least two of the passivation openings and into contact with at least two underlying conductive contact elements to thereby provide a conductive coupling between the at least two underlying conductive contact elements.

In one embodiment, an electronic package structure includes multiple rows of I/O pads and is formed without a flag portion. An electronic device may be attached to a pair of adjacent inner rows of I/O pads. The pair of adjacent inner rows of I/O pads is configured to support, at least in part, the electronic device, and to receive connective structures, such as wire bonds. Connective structures may electrically connect the electronic device to the multiple rows of I/O pads, and an encapsulating layer covers portions of the I/O pads, the electronic device and the connective structures.

A semiconductor device includes a semiconductor chip with bonding pads, the bonding pads being arranged along one side of an element forming surface of the semiconductor chip, a lead frame including first and second internal leads arranged such that tips thereof correspond to some of the bonding pads of the semiconductor chip, and first and second bonding wires by which the first internal leads and the some of the bonding pads are bonded to each other. The semiconductor device further includes a hanging pin section provided on the element non-forming surface of the semiconductor chip, and a sealing member with which the semiconductor chip is sealed including the hanging pin section and a bonding section between the first and second internal leads and the first and second bonding wires.

A packaged electronic system having a support formed by an insulating organic substrate housing a buried conductive region that is floating. A first die is fixed to the support and carries, on a first main surface, a first die contact region capacitively coupled to a first portion of the buried conductive region. A second die is fixed to the support and carries, on a first main surface, a second die contact region capacitively coupled to a second portion of the buried conductive region. A packaging mass encloses the first die, the second die, the first die contact region, the second die contact region, and, at least partially, the support.