A semiconductor package for double sided cooling includes a first and a second carrier facing each other, at least one power semiconductor chip arranged between the first and second carriers, external contacts arranged at least partially between the first and second carriers, and spring elements arranged between the first and second carriers and configured to keep the first and second carriers at a predefined distance from each other.

A semiconductor structure and a method for forming the semiconductor structure are disclosed. The method includes receiving a first integrated circuit component having a seal ring and a fuse structure, wherein the fuse structure is electrically connected to a ground through the seal ring; receiving a second integrated circuit component having an inductor; bonding the second integrated circuit component to the first integrated circuit component; electrically connecting the inductor to the fuse structure, wherein the inductor is electrically connected to the ground through the fuse structure; and blowing the fuse structure after a treatment.

A package structure and a method of forming the same are provided. The package structure includes a die, an encapsulant, a polymer layer and a redistribution layer. The encapsulant laterally encapsulates the die. The polymer layer is on the encapsulant and the die. The polymer layer includes an extending portion having a bottom surface lower than a top surface of the die. The redistribution layer penetrates through the polymer layer to connect to the die.

A packaged integrated circuit (IC) includes a leadframe including a die pad and leads around the die pad, an analog IC die having first bond pads on its active top side, and a second circuit including second circuit bond pads attached to the analog IC die by an attachment layer configured as a ring with a hollow center that provides an inner gap. A bottom side of the analog IC or the second circuit is attached to the die pad. Bond wires couple at least some of the first bond pads or some of the second circuit bond pads to the leads, and there is a second coupling between others of the second circuit bond pads and others of the first bond pads. A mold compound is for encapsulating the second circuit and the analog IC.

A packaged integrated circuit (IC) includes a leadframe including a die pad and leads around the die pad, an analog IC die having first bond pads on its active top side, and a second circuit including second circuit bond pads attached to the analog IC die by an attachment layer configured as a ring with a hollow center that provides an inner gap. A bottom side of the analog IC or the second circuit is attached to the die pad. Bond wires couple at least some of the first bond pads or some of the second circuit bond pads to the leads, and there is a second coupling between others of the second circuit bond pads and others of the first bond pads. A mold compound is for encapsulating the second circuit and the analog IC.

A semiconductor device and method for forming the semiconductor device is provided. The semiconductor device includes an integrated circuit having through vias adjacent to the integrated circuit die, wherein a molding compound is interposed between the integrated circuit die and the through vias. The through vias have a projection extending through a patterned layer, and the through vias may be offset from a surface of the patterned layer. The recess may be formed by selectively removing a seed layer used to form the through vias.

A semiconductor package includes a substrate having thereon a high-frequency chip and a circuit component susceptible to high-frequency signal interference; a ground pad on the and between the high-frequency chip and the circuit component; a metal-post reinforced glue wall on the ground pad; a molding compound surrounding the metal-post reinforced glue wall and surrounding the high-frequency chip and the circuit component; and a conductive layer disposed on the molding compound and in contact with the metal-post reinforced glue wall. The metal-post reinforced glue wall comprises first metal posts and glue attached to the first metal posts. An interface between a base of each of the first metal posts and the ground pad has a root mean square (RMS) roughness that is less than 1.0 micrometer.

An integrated circuit packaging system and method of manufacture thereof includes: a substrate with internal circuitry between a substrate top side, a substrate bottom side, and vertical sides; an integrated circuit coupled to the internal circuitry; a molded package body formed directly on the integrated circuit and the substrate top side of the substrate; and a conductive conformal shield structure applied directly on the molded package body, the vertical sides, and to extend below the substrate bottom side coupled to the internal circuitry.

A device includes an outer seal ring, an integrated circuit, and an inner seal ring. The outer seal ring forms a first closed loop. The integrated circuit is surrounded by the outer seal ring. The inner seal ring is between the outer seal ring and the integrated circuit. The inner seal ring forms a second closed loop that defines an enclosed region external to the integrated circuit.

Chip packages and method of manufacturing the same are disclosed. In an embodiment, a chip package may include: a redistribution layer (RDL); a first chip including a plurality of first contact pads, the plurality of first contact pads facing the RDL; a second chip disposed between the first chip and the redistribution layer (RDL) wherein a portion of the first chip is disposed outside a lateral extent of the second chip; and a conductive via laterally separated from the second chip, the conductive via extending between the RDL and a first contact pad of the plurality of first contact pads, the first contact pad located in the portion of the first chip disposed outside the lateral extent of the second chip.