Disclosed relates to a power module package and a method for manufacturing the same. The power module package includes a lower substrate on which a pattern is formed, a power semiconductor element and a ribbon which are separated apart from each other at a predetermined distance to be mounted on an upper surface of the lower substrate, a first spacer attached to an upper portion of the power semiconductor element via a first adhesive layer, a second spacer attached to an upper portion of the ribbon via a second adhesive layer, and an upper substrate attached to an upper portion of each of the first and second spacers via a third adhesive layer.

Embodiments of the present disclosure are directed towards apparatuses, systems, and methods for die attach coatings for semiconductor packages. In one embodiment, a die may be coupled with a substrate by a die attach and a coating may be applied to an edge of the die attach.

Embodiments of the present disclosure are directed towards apparatuses, systems, and methods for die attach coatings for semiconductor packages. In one embodiment, a die may be coupled with a substrate by a die attach and a coating may be applied to an edge of the die attach.

An integrated circuit device includes a semiconductor substrate with a top surface, a bottom surface opposite the top surface and an intermediate portion positioned between the top and bottom surfaces. The device also includes interior substrate surfaces defined by at least one void extending from the bottom surface to the intermediate portion.

Embodiments of a flexibly-wrapped integrated circuit die device and a method for mounting a flexibly-wrapped integrated circuit die to a substrate are disclosed. In some embodiments, the flexibly-wrapped integrated circuit die device includes a substrate and a flexible integrated circuit die coupled to the substrate in a substantially vertical orientation with reference to a surface of the substrate.

A disclosed circuit arrangement includes a flexible substrate. A layer of pressure sensitive adhesive (PSA) is directly adhered to a first major surface of the substrate. One or more metal foil pads and electrically conductive wire are attached directly on a surface of the PSA layer. The wire has a round cross-section and one or more portions directly connected to the one or more metal foil pads with one or more weld joints, respectively. An electronic device is attached directly on the surface of the layer of PSA and is electrically connected to the one or more portions of the round wire by one or more bond wires, respectively.

One embodiment of an integrated circuit device includes a semiconductor substrate with a top surface, a bottom surface opposite said top surface and an intermediate portion positioned between the top and bottom surfaces. The device also includes interior substrate surfaces defined by at least one void extending from the bottom surface to the intermediate portion.

A power device without a package structure in a radio frequency power amplifier module and an assembly method for a radio frequency power amplifier module are provided. The radio frequency power amplification module includes the power device, a heat dissipating plate and a printed circuit board. The power device includes a carrier flange, a plurality of electronic elements and bond-wires, and the electronic elements are adhered to the carrier flange, the power device and the printed circuit board are fixed on the heat dissipating plate, the electronic elements of the power device are connected with each other through the bond-wires, and the electronic elements are directly connected to the printed circuit board through the bond-wires. The electronic elements include at least one passive device, a decoupling capacitor is disposed on the printed circuit board, and the decoupling capacitor is connected to the passive device through the bond-wires.

The present disclosure provides a power module with the integration of a control circuit at least, including: a power substrate; a power device mounted on the power substrate; and at least one control substrate which supports the control circuit, is electrically connected with the power substrate and disposed at an angle of inclination on a surface of the power substrate on which the power device is mounted; wherein the angle of inclination is greater than or equal to 45 degrees and smaller than or equal to 135 degrees. In the power module provided by the present disclosure, only the power substrate as well as the connections between the control substrate and the power substrate occupies the footprint area of the power module, and thus the horizontal footprint area of the power module is effectively reduced and thereby the power density of the power module is increased.

Embodiments of the present disclosure are directed to leadframes having the cantilevered extension that includes an integral support on the end of the lead nearest the die pad. A support integral to the leadframe allows the support to be built to the proper height to support the cantilevered lead in each package and reduces or eliminates the upward, downward, and side to side deflections caused or allowed by supports built-in to the tooling of the manufacturing equipment. Also, by building the support into the leadframe, the leadframes may be pretaped prior to the die attach and wire bonding steps of the manufacturing process.