An integrated circuit (IC) assembly and a method for encapsulating of IC are presented. The IC assembly comprises an IC substrate having one or more micro-devices, at least one dielectric matrix element placed on said IC substrate over at least one of its one or more micro-devices; and an encapsulation element applied over said IC substrate and said at least one dielectric matrix element placed thereon to enclose and seal said IC substrate.

A semiconductor package includes a package substrate, an interposer provided on the package substrate, a plurality of semiconductor devices on the interposer and spaced apart from each other, and electrically connected to each other through the interposer, at least one dummy member on the interposer to cover at least one corner portion of the interposer and arranged spaced apart from a first semiconductor device among the plurality of semiconductor devices, and a sealing member contacting the interposer and filling a space between the first semiconductor device and the at least one dummy member so as to cover a first side surface of the first semiconductor device, a first side surface of the at least one dummy member, and an upper surface of the dummy member. A second side surface, opposite to the first side surface, of the at least one dummy member is uncovered by the sealing member.

The present disclosure relates to an embedded packaging module comprising a first semiconductor device, a first packaging layer and a first wiring layer, the first semiconductor device having a first and a second face, at least two positioning bulges and at least one bonding pad being provided on the first face of the first semiconductor device; the first packaging layer being formed on both the first face and a surface adjacent to the first face, the positioning bulges being positioned in the first packaging layer, at least one first via hole being provided in the first packaging layer, the bottom of the first via hole being positioned in the bonding pad and contacting with the bonding pad; the first wiring layer being positioned on the side of the first packaging layer away from the first semiconductor device and being electrically connected with the bonding pad through the first via hole.

A package structure includes a semiconductor device, a circuit substrate and a heat dissipating lid. The semiconductor device includes a semiconductor die. The circuit substrate is bonded to and electrically coupled to the semiconductor device. The heat dissipating lid is bonded to the circuit substrate and thermally coupled to the semiconductor device, where the semiconductor device is located in a space confined by the heat dissipating lid and the circuit substrate. The heat dissipating lid includes a cover portion and a flange portion bonded to a periphery of the cover portion. The cover portion has a first surface and a second surface opposite to the first surface, where the cover portion includes a recess therein, the recess has an opening at the second surface, and a thickness of the recess is less than a thickness of the cover portion, where the recess is part of the space.

A package structure includes a semiconductor device, a circuit substrate and a heat dissipating lid. The semiconductor device includes a semiconductor die. The circuit substrate is bonded to and electrically coupled to the semiconductor device. The heat dissipating lid is bonded to the circuit substrate and thermally coupled to the semiconductor device, where the semiconductor device is located in a space confined by the heat dissipating lid and the circuit substrate. The heat dissipating lid includes a cover portion and a flange portion bonded to a periphery of the cover portion. The cover portion has a first surface and a second surface opposite to the first surface, where the cover portion includes a recess therein, the recess has an opening at the second surface, and a thickness of the recess is less than a thickness of the cover portion, where the recess is part of the space.

A chip package structure is provided. The chip package structure includes a substrate. The chip package structure also includes a first chip structure and a second chip structure over the substrate. The chip package structure further includes an anti-warpage bar over a first portion of the first chip structure and over a second portion of the second chip structure. A width of the anti-warpage bar overlapping the second portion of the second chip structure is greater than a width of the anti-warpage bar overlapping the first portion of the first chip structure.

A semiconductor device module. The semiconductor device module may include a first substrate; and a semiconductor die assembly, disposed on the first substrate. The semiconductor die assembly may include a first semiconductor die, bonded to the first substrate; a second semiconductor die, disposed over the first semiconductor die; and an electrical connector, disposed between the first semiconductor die and the second semiconductor die, wherein the semiconductor die assembly comprises an insulated gate bipolar transistor (IGBT) die and a freewheeling diode die.

A semiconductor device module. The semiconductor device module may include a first substrate; and a semiconductor die assembly, disposed on the first substrate. The semiconductor die assembly may include a first semiconductor die, bonded to the first substrate; a second semiconductor die, disposed over the first semiconductor die; and an electrical connector, disposed between the first semiconductor die and the second semiconductor die, wherein the semiconductor die assembly comprises an insulated gate bipolar transistor (IGBT) die and a freewheeling diode die.

Techniques and mechanisms for mitigating stress on hybrid bonded interfaces in a multi-tier arrangement of integrated circuit (IC) dies. In an embodiment, first dies are bonded at a host die each via a respective one of first hybrid bond interfaces, wherein a second one or more dies are coupled to the host die each via a respective one of the first dies, and via a respective second hybrid bond interface. Stress at one of the hybrid bond interfaces is mitigated by properties of a first dielectric layer that extends to that hybrid bond interface. In another embodiment, stress at a given one of the hybrid bond interfaces is mitigated by properties of a dummy chip—or alternatively, properties of a patterned encapsulation structure—which is formed on the given hybrid bond interface.

Electronic device package stiffener and capacitor technology is disclosed. A combination stiffener and capacitor can include a structural material configured to be coupled to a substrate. The structural material can have a shape configured to provide mechanical support for the substrate. The combination stiffener and capacitor can also include first and second electrodes forming a capacitor. An electronic device package and a package substrate configured to receive the combination stiffener and capacitor are also disclosed.