Abstract: A package structure includes a redistribution structure, a chip, one or more structural reinforcing elements, and a protective layer. The redistribution structure includes a first circuit layer and a second circuit layer disposed over the first circuit layer. The first circuit layer is electrically connected to the second circuit layer. The chip is disposed over the redistribution structure and electrically connected to the second circuit layer. The one or more structural reinforcing elements are disposed over the redistribution structure. The structural reinforcing element has a Young's modulus in a range of 30 to 200 GPa. The protective layer overlays the chip and a sidewall of the structural reinforcing element.

Abstract: A carrier structure includes a carrier having at least one through hole penetrating the carrier and a build-up circuit layer located on the carrier and including at least one first circuit layer, at least one first dielectric layer, a second circuit layer, a second dielectric layer, and a plurality of conductive vias. The first circuit layer is located on a first surface of the carrier and includes at least one first pad disposed relative to the through hole. The first dielectric layer is located on the first circuit layer. The second circuit layer is located on the first dielectric layer and includes at least one second pad. The second dielectric layer is located on the second circuit layer and includes at least one opening exposing the second pad. The conductive vias penetrate the first dielectric layer and are electrically connected to the first and second circuit layers.

Abstract: A circuit board including an interconnect substrate and a multilayer structure is provided. The interconnect substrate includes a core layer and a conductive structure disposed on the core layer. The multilayer structure is disposed on the conductive structure. The multilayer structure includes a plurality of dielectric layers and a plurality of circuit structures. The circuit structures are disposed in the dielectric layers. A topmost layer in the circuit structures is exposed to the dielectric layers to be in contact with the conductive structure. A pattern of the topmost layer in the circuit structures and a pattern of a top surface of the conductive structure are engaged with each other.

Abstract: A composite substrate structure includes a circuit substrate, a first anisotropic conductive film, a first glass substrate, a dielectric layer, a patterned circuit layer and a conductive via. The first anisotropic conductive film is disposed on the circuit substrate. The first glass substrate is disposed on the first anisotropic conductive film and has a first surface and a second surface opposite to the first surface. The first glass substrate includes a first circuit layer, a second circuit layer and at least one first conductive via. The first circuit layer is disposed on the first surface. The second circuit layer is disposed on the second surface. The first conductive via penetrates the first glass substrate and is electrically connected to the first circuit layer and the second circuit layer. The first glass substrate and the circuit substrate are respectively located on two opposite sides of the first anisotropic conductive film.

Abstract: A manufacturing method of a light emitting device package structure is provided. The method includes following operations: (i) providing a circuit redistribution structure; (ii) providing a first substrate; (iii) forming a circuit layer structure over the first substrate, wherein the circuit layer structure includes a first circuit layer; (iv) before or after operation (iii), placing a light emitting device between the first substrate and the circuit layer structure or over the circuit layer structure, wherein the light emitting device is electrically connected with the first circuit layer; and (v) placing the circuit redistribution structure over the light emitting device, wherein the circuit redistribution structure includes a first redistribution layer, a second redistribution layer, and a chip, and the first redistribution layer includes a second circuit layer and a conductive contact that contacts the second circuit layer.

Abstract: A circuit board structure has a first flexible circuit board, a second flexible circuit board, and a rigid board structure. The first flexible circuit board has a first dielectric layer and a first conductive circuit. The second flexible circuit board has a second dielectric layer and a second conductive circuit. The rigid board structure connects the first flexible circuit board and the second flexible circuit board. The rigid board structure has a third dielectric layer and a third conductive circuit. A dielectric loss value of the third dielectric layer is less than that of each of the first dielectric layer and the second dielectric layer. The third conductive circuit is electrically connected to the first and second conductive circuits.

Abstract: A package structure includes a first substrate, a second substrate, a plurality of conductive pillars and an adhesive layer. The first substrate includes a plurality of vias and a plurality of pads. The pads are disposed on the first substrate, and fill the vias. The second substrate is disposed opposite to the first substrate. Each conductive pillar electrically connects each pad and the second substrate, and the adhesive layer fills the gaps between the conductive pillars. A bonding method of the package structure is also provided.

Abstract: A package structure includes a redistribution structure, a chip, one or more structural reinforcing elements, and a protective layer. The redistribution structure includes a first circuit layer and a second circuit layer disposed over the first circuit layer. The first circuit layer is electrically connected to the second circuit layer. The chip is disposed over the redistribution structure and electrically connected to the second circuit layer. The one or more structural reinforcing elements are disposed over the redistribution structure. The structural reinforcing element has a Young's modulus in a range of 30 to 200 GPa. The protective layer overlays the chip and a sidewall of the structural reinforcing element.

Abstract: A manufacturing method of a light emitting device package structure is provided. The method includes following operations: (i) providing a circuit redistribution structure; (ii) providing a first substrate; (iii) forming a circuit layer structure over the first substrate, wherein the circuit layer structure includes a first circuit layer; (iv) before or after operation (iii), placing a light emitting device between the first substrate and the circuit layer structure or over the circuit layer structure, wherein the light emitting device is electrically connected with the first circuit layer; and (v) placing the circuit redistribution structure over the light emitting device, wherein the circuit redistribution structure includes a first redistribution layer, a second redistribution layer, and a chip, and the first redistribution layer includes a second circuit layer and a conductive contact that contacts the second circuit layer.

Abstract: A composite substrate structure includes a circuit substrate, a first anisotropic conductive film, a first glass substrate, a dielectric layer, a patterned circuit layer and a conductive via. The first anisotropic conductive film is disposed on the circuit substrate. The first glass substrate is disposed on the first anisotropic conductive film and has a first surface and a second surface opposite to the first surface. The first glass substrate includes a first circuit layer, a second circuit layer and at least one first conductive via. The first circuit layer is disposed on the first surface. The second circuit layer is disposed on the second surface. The first conductive via penetrates the first glass substrate and is electrically connected to the first circuit layer and the second circuit layer. The first glass substrate and the circuit substrate are respectively located on two opposite sides of the first anisotropic conductive film.

Abstract: A package structure includes a redistribution structure, a chip, one or more structural reinforcing elements, and a protective layer. The redistribution structure includes a first circuit layer and a second circuit layer disposed over the first circuit layer. The first circuit layer is electrically connected to the second circuit layer. The chip is disposed over the redistribution structure and electrically connected to the second circuit layer. The one or more structural reinforcing elements are disposed over the redistribution structure. The structural reinforcing element has a Young's modulus in a range of of 30 to 200 GPa. The protective layer overlays the chip and a sidewall of the structural reinforcing element.

Abstract: A package substrate structure includes a first substrate, a second substrate, a plurality of conductive pillars and an adhesive layer. The first substrate includes a plurality of vias and a plurality of pads. The vias and the pads are disposed on the first substrate, and fills the vias. The second substrate is disposed opposite to the first substrate. Each conductive pillar is disposed between the first substrate and the second substrate, where each conductive pillar electrically connects each pad and the second substrate, and the adhesive layer fills the gaps between the conductive pillars. A bonding method of the package substrate structure is also provided.

Abstract: A light emitting device package structure includes a substrate, a circuit layer structure, a light emitting device, a first redistribution layer, a conductive connector, a second redistribution layer, and a chip. The circuit layer structure is disposed over the substrate, and the circuit layer structure includes a first circuit layer. The light emitting device is disposed over the circuit layer structure and is electrically connected with the first circuit layer. The first redistribution layer is disposed over the light emitting device and includes a second circuit layer and a conductive contact contacting the second circuit layer. The conductive connector connects the first circuit layer and the second circuit layer. The second redistribution layer is disposed over the first redistribution layer and includes a third circuit layer contacting the conductive contact. The chip is disposed over the second redistribution layer and is electrically connected with the third circuit layer.

Abstract: A stacked structure includes a circuit board, an electronic component, metallic cores, and insulating cladding layers. The circuit board includes first bonding pads. The electronic component includes second bonding pads that are opposite to the first bonding pads. Each metallic core is connected to a corresponding first bonding pad and a corresponding second bonding pad. The metallic cores have a curved surface interposed between the corresponding first bonding pad and the corresponding second bonding pad. The insulating cladding layers are separated from each other and cover the curved surfaces of the metallic cores.

Abstract: A package substrate structure includes a first substrate, a second substrate, a plurality of conductive pillars and an adhesive layer. The first substrate includes a plurality of vias and a plurality of pads. The vias and the pads are disposed on the first substrate, and fills in the vias. The second substrate is disposed opposite to the first substrate. Each conductive pillar is disposed between the first substrate and the second substrate, where each conductive pillar electrically connects each pad and the second substrate, and the adhesive layer fills in the gaps between the conductive pillars. A bonding method of the package substrate structure is also provided.

Abstract: A package structure includes a first substrate, a second substrate, a plurality of conductive pillars and an adhesive layer. The first substrate includes a plurality of vias and a plurality of pads. The pads are disposed on the first substrate, and fill in the vias. The second substrate is disposed opposite to the first substrate. Each conductive pillar electrically connects each pad and the second substrate, and the adhesive layer fills in the gaps between the conductive pillars. A bonding method of the package structure is also provided.

Abstract: A light emitting device package structure includes a substrate, a circuit layer structure, a light emitting device, a first redistribution layer, a conductive connector, a second redistribution layer, and a chip. The circuit layer structure is disposed over the substrate, and the circuit layer structure includes a first circuit layer. The light emitting device is disposed over the circuit layer structure and is electrically connected with the first circuit layer. The first redistribution layer is disposed over the light emitting device and includes a second circuit layer and a conductive contact contacting the second circuit layer. The conductive connector connects the first circuit layer and the second circuit layer. The second redistribution layer is disposed over the first redistribution layer and includes a third circuit layer contacting the conductive contact. The chip is disposed over the second redistribution layer and is electrically connected with the third circuit layer.

Abstract: An embedded component structure including a circuit board, an electronic component, a dielectric layer and a connection circuit layer and a manufacturing method thereof is provided. The circuit board has a through hole and includes a core layer, a first circuit layer, and a second circuit layer. The first circuit layer and the second circuit layer are disposed on the core layer. The through hole penetrates the first circuit layer and the core layer. The electronic component including a plurality of connection pads is disposed within the through hole where the dielectric layer is filled in. The Young's modulus of the core layer is greater than the Young's modulus of the dielectric layer. The connection circuit layer covers and contacts a first electrical connection surface of the first circuit layer and at least one of a second electrical connection surface of each of the connection pads. A manufacturing method of an embedded component structure is also provided.

Abstract: A stacked structure includes a circuit board, an electronic component, metallic cores, and insulating cladding layers. The circuit board includes first bonding pads. The electronic component includes second bonding pads that are opposite to the first bonding pads. Each metallic core is connected to a corresponding first bonding pad and a corresponding second bonding pad. The metallic cores have a curved surface interposed between the corresponding first bonding pad and the corresponding second bonding pad. The insulating cladding layers are separated from each other and cover the curved surfaces of the metallic cores.

Abstract: A circuit board including an interconnect substrate and a multilayer structure is provided. The interconnect substrate includes a core layer and a conductive structure disposed on the core layer. The multilayer structure is disposed on the conductive structure. The multilayer structure includes a plurality of dielectric layers and a plurality of circuit structures. The circuit structures are disposed in the dielectric layers. A topmost layer in the circuit structures is exposed to the dielectric layers to be in contact with the conductive structure. A pattern of the topmost layer in the circuit structures and a pattern of a top surface of the conductive structure are engaged with each other.