A semiconductor package structure includes a substrate; a first die on the substrate, wherein an active surface of the first die is facing away from the substrate; a second die on the active surface of the first die, electrically connected to the first die through a plurality of conductive terminals; and a sealing structure on the active surface of the first die, surrounding the plurality of conductive terminals and abutting the second die thereby forming a cavity between the first die and the second die. A method for manufacturing the semiconductor package structure is also provided.

Embodiments include semiconductor packages and methods of forming the semiconductor packages. A semiconductor package includes a die over a substrate, a first conductive layer over the die, and a conductive cavity antenna over the first conductive layer and substrate. The conductive cavity antenna includes a conductive cavity, a cavity region, and a plurality of interconnects. The conductive cavity is over the first conductive layer and surrounds the cavity region. The semiconductor package also includes a second conductive layer over the conductive cavity antenna, first conductive layer, and substrate. The conductive cavity extends vertically from the first conductive layer to the second conductive layer. The cavity region may be embedded with the conductive cavity, the first conductive layer, and the second conductive layer. The plurality of interconnects may include first, second, and third interconnects. The first interconnects may include through-mold vias (TMVs), through-silicon vias (TSVs), conductive sidewalls, or conductive trenches.

A semiconductor device includes a semiconductor package, including a package body that includes an encapsulant portion and an isolation structure, a semiconductor die embedded within the package body, and a plurality of leads that protrude out from the encapsulant body, wherein the encapsulant portion and the isolation structure are each electrically insulating structures, wherein the isolation structure has a greater thermal conductivity than the encapsulant portion, and wherein the isolation structure is thermally coupled to the semiconductor die, and a releasable layer affixed to the semiconductor package, wherein a first outer face of the package body includes a first surface of the isolation structure, wherein the releasable layer at least partially covers the first surface of the isolation structure, and wherein the releasable layer is releasable from the semiconductor package.

Aspects of the present disclosure relate to a molded electronic package and a method for manufacturing the same. The molded electronic package includes a first substrate, a second substrate, an electronic component arranged on the first substrate, a spring member arranged between the second substrate and the electronic component, the spring member including a first contact portion being fixated relative to the second substrate, and a second contact portion physically contacting the electronic component, and a body of solidified molding compound configured to encapsulate the electronic component and the spring member and to mutually fixate the first substrate, the second substrate, the electronic component and the spring member. The second substrate and the spring member are electrically and/or thermally conductive.

Embodiments of semiconductor chips and fabrication methods thereof are disclosed. In one example, a semiconductor chip includes a main chip region and a protection structure surrounding the main chip region in a plan view. The protection structure includes a dielectric layer and a conductive portion in the dielectric layer. The conductive portion includes a conductive layer and a core having a material different from that of the conductive layer.

In some examples, a semiconductor package comprises a semiconductor die; an operational component on an active surface of the semiconductor die; and a cover coupled to the active surface of the semiconductor die and covering the operational component. The cover comprises a monolithic structure including a vertical portion and a horizontal portion. A hollow area is between the cover and the operational component. The package also includes a mold compound covering the semiconductor die and the cover.

Embodiments disclosed herein include electronic packages. In an embodiment, an electronic package comprises a package substrate, a first die electrically coupled to the package substrate, and a mold layer over the package substrate and around the first die. In an embodiment, the electronic package further comprises a through mold opening through the mold layer, and a through mold interconnect (TMI) in the through mold opening, wherein a center of the TMI is offset from a center of the through mold opening.

A semiconductor device includes: a substrate having a first surface and a second surface opposite to the first surface; an electronic component disposed on the first surface of the substrate; a sensor disposed adjacent to the second surface of the substrate; an electrical contact disposed on the first surface of the substrate; and a package body exposing a portion of the electrical contact.

Power module packaged in a housing accommodating a carrying substrate forming a plurality of connection regions of conductive material. An electronic component is arranged inside the housing, attached to a connection region of the plurality of connection regions. An electrical connector, coupled to the electronic component, extends towards the main surface of the housing and is accessible from the outside of the housing. The electrical connector has a tubular portion forming a pillar fixed to a pin which protrudes from the greater surface of the housing. The housing includes a packaging mass of electrically insulating material that embeds the pillar and blocks it therein.

A semiconductor package includes a circuit board, an interposer structure on the circuit board, a first semiconductor chip and a second semiconductor chip on the interposer structure, the first and the second semiconductor chips electrically connected to the interposer structure and spaced apart from each other, and a mold layer between the first and second semiconductor chips, the mold layer separating the first and second semiconductor chips. A slope of a side wall of the mold layer is constant as the side wall extends away from an upper side of the interposer structure, and an angle defined by a bottom side of the mold layer and the side wall of the mold layer is less than or equal to ninety degrees.