A display device includes a base layer including a first portion and a second portion disposed around the second portion; a display unit disposed on a first surface of the first portion and including a light emitting element; a driving circuit disposed on a first surface of the second portion and including a driving chip; a support member attached to a second surface of the first portion and a second surface of the second portion; and an adhesive member disposed between the base layer and the support member, wherein the adhesive member includes a first adhesive member having a first elastic modulus and a second adhesive member having a second elastic modulus that is higher than the first elastic modulus, and the second adhesive member overlaps the driving circuit.

A display device includes a base layer including a first portion and a second portion disposed around the second portion; a display unit disposed on a first surface of the first portion and including a light emitting element; a driving circuit disposed on a first surface of the second portion and including a driving chip; a support member attached to a second surface of the first portion and a second surface of the second portion; and an adhesive member disposed between the base layer and the support member, wherein the adhesive member includes a first adhesive member having a first elastic modulus and a second adhesive member having a second elastic modulus that is higher than the first elastic modulus, and the second adhesive member overlaps the driving circuit.

A method includes forming a layer stack with at least one electrically insulating layer structure and at least one patterned electrically conductive layer structure on a temporary carrier, the layer stack includes a lower surface adjoining the temporary carrier and an upper surface opposite to the lower surface; mounting a first component at the upper surface; placing a first frame structure at the upper surface, the first frame structure surrounding at least partially the first component; covering the first component with a first coating material, the first coating material spatially extending at least partially into voids at or within the first frame structure and into voids at or within the layer stack; and removing the temporary carrier. The lower surface of the layer stack is an even surface. The opposite upper surface of the layer stack is an uneven surface. An electronic package can be manufactured with the described method.

A method includes forming a layer stack with at least one electrically insulating layer structure and at least one patterned electrically conductive layer structure on a temporary carrier, the layer stack includes a lower surface adjoining the temporary carrier and an upper surface opposite to the lower surface; mounting a first component at the upper surface; placing a first frame structure at the upper surface, the first frame structure surrounding at least partially the first component; covering the first component with a first coating material, the first coating material spatially extending at least partially into voids at or within the first frame structure and into voids at or within the layer stack; and removing the temporary carrier. The lower surface of the layer stack is an even surface. The opposite upper surface of the layer stack is an uneven surface. An electronic package can be manufactured with the described method.

A method of manufacturing the semiconductor structure includes: providing a substrate; forming a first conductive via and a second conductive via extending in the substrate; depositing a first dielectric layer over the substrate and the first and second conductive vias; receiving a waveguide; moving the waveguide to a location over the first dielectric layer and aligning the waveguide with a position of the first dielectric layer; attaching the waveguide to the position of the first dielectric layer; forming a first conductive member and a second conductive member over the waveguide, the first conductive member and the second conductive member being in contact with the waveguide; and etching a backside of the substrate to electrically expose the first and second conductive vias. The first conductive member or the second conductive member is electrically connected to the first or second conductive via.

A method of manufacturing the semiconductor structure includes: providing a substrate; forming a first conductive via and a second conductive via extending in the substrate; depositing a first dielectric layer over the substrate and the first and second conductive vias; receiving a waveguide; moving the waveguide to a location over the first dielectric layer and aligning the waveguide with a position of the first dielectric layer; attaching the waveguide to the position of the first dielectric layer; forming a first conductive member and a second conductive member over the waveguide, the first conductive member and the second conductive member being in contact with the waveguide; and etching a backside of the substrate to electrically expose the first and second conductive vias. The first conductive member or the second conductive member is electrically connected to the first or second conductive via.

A semiconductor device and a semiconductor package including the same are provided. The semiconductor device includes a semiconductor element; a protective layer disposed adjacent to the surface of the semiconductor element, the protective layer defining an opening to expose the semiconductor element; a first bump disposed on the semiconductor element; and a second bump disposed onto the surface of the protective layer. The first bump has a larger cross-section surface area than the second bump.

A semiconductor device and a semiconductor package including the same are provided. The semiconductor device includes a semiconductor element; a protective layer disposed adjacent to the surface of the semiconductor element, the protective layer defining an opening to expose the semiconductor element; a first bump disposed on the semiconductor element; and a second bump disposed onto the surface of the protective layer. The first bump has a larger cross-section surface area than the second bump.

A package structure is provided. The package structure includes a first package component and a second package component. The second package component includes a substrate and an electronic component disposed on the substrate, and the first package component is mounted to the substrate. The package structure further includes a ring structure disposed on the second package component and around the first package component. The ring structure has a first foot and a second foot, the first foot and the second foot extend toward the substrate, the electronic component is covered by the ring structure and located between the first foot and the second foot, and the first package component is exposed from the ring structure.

A package structure is provided. The package structure includes a first package component and a second package component. The second package component includes a substrate and an electronic component disposed on the substrate, and the first package component is mounted to the substrate. The package structure further includes a ring structure disposed on the second package component and around the first package component. The ring structure has a first foot and a second foot, the first foot and the second foot extend toward the substrate, the electronic component is covered by the ring structure and located between the first foot and the second foot, and the first package component is exposed from the ring structure.