The present disclosure relates to a semiconductor module, especially a power semiconductor module, in which the heat dissipation is improved and the power density is increased. The semiconductor module may include at least two electrically insulating substrates, each having a first main surface and a second main surface opposite to the first main surface. On the first main surface of each of the substrates, at least one semiconductor device is mounted. An external terminal is connected to the first main surface of at least one of the substrates. The substrates are arranged opposite to each other so that their first main surfaces are facing each other.

The semiconductor device includes first and second semiconductor elements. Each element has an obverse surface and a reverse surface, with a first electrode arranged on the reverse surface, and with a second electrode arranged on the obverse surface. The semiconductor device further includes: a first lead having an obverse surface and a reverse surface; an insulating layer covering the first lead, the first semiconductor element and the second semiconductor element; a first electrode connected to the second electrode of the first semiconductor element; and a second electrode connected to the first lead. The first semiconductor element and the first lead are bonded to each other with the reverse surface of the first semiconductor element facing the lead obverse surface. The second semiconductor element and the first lead are bonded to each other with the reverse surface of the second semiconductor element facing the lead reverse surface.

The present disclosure provides a semiconductor package structure. The semiconductor package structure includes a first die, at least a second die, an RDL disposed over the second die, a molding encapsulating the first die and the second die, a plurality of first conductors disposed in the molding, and a plurality of second conductors disposed in the second die. The first die has a first side and a second side opposite to the first side. The second die has a third side facing the first side of the first die and a fourth side opposite to the third side. The RDL is disposed on the fourth side of the second die. The first die is electrically connected to the RDL through the plurality of first conductors, and the second die is electrically connected to the RDL through the plurality of second conductors.

A package includes a die, first conductive structures, second conductive structures, an encapsulant, and a redistribution structure. The die has an active surface and a rear surface opposite to the active surface. The first conductive structures and the second conductive structures surround the die. A shape of the first conductive structures is different a shape of the second conductive structures. The second conductive structures include elliptical columns having straight sidewalls. A distance between the first conductive structure that is closest to the die and the die is greater than a distance between the second conductive structure that is closest to the die and the die. The encapsulant encapsulates the die, the first conductive structures, and the second conductive structures. The redistribution structure is over the die and the encapsulant. The redistribution structure is electrically connected to the die, the first conductive structures, and the second conductive structures.

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.

An electronic module has a first substrate 11, an electronic element 13, 23 disposed on one side of the first substrate 11, a second substrate 21 disposed on one side of the electronic element 13, 23, a first coupling body 210 disposed between the first substrate 11 and the second substrate 21, a second coupling body 220 disposed between the first substrate 11 and the second substrate 21, and shorter than the first coupling body 210, and a sealing part 90 which seals at least the electronic element. The first coupling body 210 is not electrically connected to the electronic element. The second coupling body 220 is electrically connected to the electronic element 13, 23.

A semiconductor module includes: semiconductor devices; a resin mold that integrally seals the semiconductor devices; and external terminals that are disposed at a lateral side of the resin mold along a direction perpendicular to a thickness direction of the semiconductor devices. Each semiconductor device includes an insulated gate semiconductor device having a gate electrode, a first electrode, and a second electrode. In the insulated gate semiconductor device, carriers move from the first electrode to the second electrode through a channel provided by a voltage applied to the gate electrode. The external terminals include: a gate terminal electrically connected to the gate electrode; a first terminal electrically connected to the first electrode; and a second terminal electrically connected to the second electrode. The gate terminal and the second terminal, which are electrically connected to an identical semiconductor device, are not adjacent to each other.

Semiconductor devices are provided in which a first semiconductor device is bonded to a second semiconductor device. The bonding may occur at a gate level, a gate contact level, a first metallization layer, a middle metallization layer, or a top metallization layer of either the first semiconductor device or the second semiconductor device.

Multiple non-silicon semiconductor material layers may be stacked within a fin structure. The multiple non-silicon semiconductor material layers may include one or more layers that are suitable for P-type transistors. The multiple non-silicon semiconductor material layers may further include one or more one or more layers that are suited for N-type transistors. The multiple non-silicon semiconductor material layers may further include one or more intervening layers separating the N-type from the P-type layers. The intervening layers may be at least partially sacrificial, for example to allow one or more of a gate, source, or drain to wrap completely around a channel region of one or more of the N-type and P-type transistors.

A package includes a die, a plurality of conductive structures, an encapsulant, and a redistribution structure. The die has an active surface and a rear surface opposite to the active surface. The conductive structures surround the die. The conductive structures include elliptical columns. The encapsulant encapsulates the die and the conductive structures. The redistribution structure is over the active surface of the die and the encapsulant. The redistribution structure is electrically connected to the die and the conductive structures.