A die attachment structure can include: a base; a die located above a first surface of the base; a first adhesive layer located on a back surface of the die, wherein the die is pasted on the first surface of the base at least by the first adhesive layer; and a second adhesive layer at least partially covering the sidewalls of the die.

A method of manufacturing a semiconductor device is provided. The method includes forming a package leadframe including leads and a die paddle. A cavity is formed in the die paddle. Sidewall and bottom surfaces of the cavity are plated with a solder alloy material. A semiconductor die is attached to the bottom surface of the cavity by way of a thermal cycle. A molding compound encapsulates the semiconductor die, a portion of the leads, and a portion of the die paddle.

In various embodiments, the present disclosure provides semiconductor packages, devices, and methods. In one embodiment, a device includes a die pad, leads that are spaced apart from the die pad, and a semiconductor die on the die pad. The semiconductor die has a first surface and a second surface opposite the first surface. The second surface faces the die pad. An encapsulant is provided on the semiconductor die, the die pad and the leads, and the encapsulant has a first surface opposite the die pad and the leads, and a second surface opposite the first surface. The second surface of the encapsulant extends between the die pad and an adjacent lead. The second surface of the encapsulant is spaced apart from the first surface of the encapsulant by a first distance, and an exposed surface of the die pad is spaced apart from the first surface of the encapsulant by a second distance that is greater than the first distance.

Multi-die integrated circuit packages and methods of manufacturing the same are disclosed. An example integrated circuit package includes a first leadframe, a first die on a first side of the first leadframe, and a second die on a second side of the first leadframe opposite the first side. The example integrated circuit package further includes external second leadframe separate from the first leadframe.

A flexible foil-based package is disclosed which comprises at least one flexible foil substrate on which at least one electronic device is mounted in flip-chip mounting technology. The flexible foil substrate is bent so that a recess is created in which the electronic device is arranged. A casting compound is applied to cover the electronic device.

Electronic device comprising at least a first and a second branch, each branch including a first and a second transistor arranged in series to each other and formed in respective dice of semiconductor material. The dice are sandwiched between a first substrate element and a second substrate element. The first and the second substrate elements are formed each by a multilayer including a first conductive layer, a second conductive layer and an insulating layer extending between the first and the second conductive layers. The first conductive layers of the first and the second substrate elements face towards the outside of the electronic device and define a first and a second main face of the electronic device. The second conductive layer of the first and the second substrate elements is shaped so as to form contact regions facing and in selective electrical contact with the plurality of dice.

A method includes: arranging a semiconductor device on a redistribution substrate, the device having a first power electrode and a control electrode on a first surface and a second power electrode on a second surface, the redistribution substrate having an insulating board having a first major surface and a second major surface having solderable contact pads, so that the first power electrode is arranged on a first conductive pad and the control electrode is arranged on a second conductive pad on the first major surface; arranging a contact clip such that a web portion is arranged on the second power electrode and a peripheral rim portion is arranged on a third conductive pad on the first major surface; and electrically coupling the first power electrode, control electrode and peripheral rim portion to the respective conductive pads and electrically coupling the web portion to the second power electrode.

Monolithic LED chips are disclosed comprising a plurality of active regions on a submount, wherein the submount comprises integral electrically conductive interconnect elements in electrical contact with the active regions and electrically connecting at least some of the active regions in series, The submount also comprises an integral insulator element electrically insulating at least some of the interconnect elements and active regions from other elements of the submount. The active regions are mounted in close proximity to one another to minimize the visibility of the space during operation. The LED chips can also comprise layers structures and compositions that avow improved reliability under high current operation.

A semiconductor package system includes a substrate, a first and a second semiconductor package, a first thermal conductive layer, a first passive device, and a heat radiation structure. The first and second semiconductor package and first passive device may be mounted on a top surface of the substrate. The first semiconductor package may include a first semiconductor chip that includes a plurality of logic circuits. The first thermal conductive layer may be on the first semiconductor package. The heat radiation structure may be on the first thermal conductive layer, the second semiconductor package, and the first passive device. The heat radiation structure may include a first bottom surface physically contacting the first thermal conductive layer, and a second bottom surface at a higher level than that of the first bottom surface. The second bottom surface may be on the second semiconductor package and/or the first passive device.

An electronic module has a first electronic element 13, a first connector 60 provided in one side of the first electronic element 13, and having a first columnar part 62 extending to another side and a first groove part 64 provided in a one-side surface, and a second electronic element 23 provided in one side of the first connector 60 via a conductive adhesive agent provided inside a circumference of the first groove part 64. The first connector 60 has a first concave part 67 on one side at a position corresponding to the first columnar part 62.