A method of manufacturing a high-frequency device includes mounting a first chip having a first pillar on an upper surface thereof on a metal base, forming an insulator layer covering the first chip on the metal base, exposing an upper surface of the first pillar from the insulator layer, and forming a first wiring connected to the first pillar on the insulator layer and transmitting a high-frequency signal.

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.

The present invention provides a semiconductor package structure including a first dielectric layer, an integrated chip, a second power chip, a first patterned conductive layer, a second patterned conductive layer, a first conductive adhesive part, a second conductive adhesive part, a plurality of first conductive connecting elements and a plurality of second conductive connecting elements, and including a build-up circuit structure below, wherein the integrated chip includes a control chip and a first power chip. By means of integrating the control chip and the first power chip into a single chip, volume of semiconductor package structure can be further reduced. In addition, a manufacturing method of a semiconductor package structure is also provided.

A package includes a die, first conductive structures, second conductive structures, and an encapsulant. The die has a rear surface. The first conductive structures and the second conductive structures surround the die. The first conductive structures include cylindrical columns and the second conductive structures include elliptical columns. At least one of the second conductive structures is closer to the die than the first conductive structures. The encapsulant encapsulates the die, the first conductive structures, and the second conductive structures.

A POP structure of a three-dimensional fan-out memory and a packaging method are disclosed. The POP structure includes a first package unit of three-dimensional fan-out memory device and a system-in-package (SiP) package unit of the two-dimensional fan-out peripheral circuit. The first package unit includes: memory chips laminated in a stepped configuration; first metal connection pillars connected to the memory chips; a first encapsulating layer; a first rewiring layer; and first metal bumps formed on the first rewiring layer. The SiP package unit includes: a second rewiring layer; one peripheral circuit chip; a third rewiring layer bonded to the peripheral circuit chip; second metal connection pillars; a second encapsulating layer on the peripheral circuit chip and the second metal connection pillars; and second metal bumps on the second rewiring layer. Attaching the first package unit and the SiP package unit by bonding first metal bumps to the third rewiring layer.

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.

A method of forming a semiconductor package includes the following steps. A redistribution layer structure is formed over a first die and a dummy die, wherein the redistribution layer structure is directly electrically connected to the first die. An insulating layer is formed, wherein the insulating layer is disposed opposite to the redistribution layer structure with respect to the first die. At least one thermal through via is formed in the insulating layer.

An electronic device having a first component carrier and an electronic component which is surface mounted on or embedded within the first component carrier. The electronic device further has a second component carrier. The first component carrier together with the electronic component is at least partially embedded within the second component carrier.

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.

Various embodiments relate to a semiconductor package. The semiconductor package includes a first die. The first die includes a first bridge interconnect region. The semiconductor package further includes a second die. The second die includes a second bridge interconnect region. The semiconductor package includes a bridge die. The bridge die includes a first contact area to connect to the first bridge interconnect region and a second contact area to connect to the second bridge interconnect region. In the semiconductor package, the first bridge interconnect region is larger than the second bridge interconnect region. Additionally, each of the first bridge interconnect region and the second bridge interconnect region include a plurality of conductive bumps. An average pitch between adjacent bumps of the first bridge interconnect region is larger than an average pitch between adjacent bumps of the second bridge interconnect region.