A package structure includes a circuit substrate, a semiconductor package, a first ring structure and a second ring structure. The semiconductor package is disposed on and electrically connected to the circuit substrate. The first ring structure is attached to the circuit substrate and surrounding the semiconductor package, wherein the first ring structure includes a central opening and a plurality of corner openings extending out from corners of the central opening, the semiconductor package is located in the central opening, and the plurality of corner openings is surrounding corners of the semiconductor package.

A method of manufacturing a display device includes forming a thin film transistor layer in an active area of a substrate, forming a metal layer on an edge area of the substrate, transferring first coating patterns to the edge area, the first coating patterns covering a portion of the metal layer corresponding to shapes of side surface lines, etching the metal layer to form the side surface lines, an upper surface of each of the side surface lines being covered by the first coating patterns, transferring a second coating pattern to the edge area, the second coating pattern covering a side surface of each of the side surface lines and the first coating patterns, and transferring light emitting elements to the thin film transistor layer. The second coating pattern includes openings corresponding to the first coating patterns in a plan view.

A semiconductor package assembly and an electronic device are provided. The semiconductor package assembly includes a base, a system-on-chip (SOC) package, a memory package and a silicon capacitor die. The base has a first surface and a second surface opposite the first surface. The SOC package is disposed on the first surface of the base and includes a SOC die having pads and a redistribution layer (RDL) structure. The RDL structure is electrically connected to the SOC die by the pads. The memory package is stacked on the SOC package and includes a memory package substrate and a memory die. The memory package substrate has a top surface and a bottom surface. The memory die is electrically connected to the memory package substrate. The silicon capacitor die is disposed on and electrically connected to the second surface of the base.

The semiconductor stacked package including a semiconductor die. The semiconductor die includes a substrate, a transistor, and a through-silicon-via (TSV) structure. The transistor is over the substrate. The TSV structure penetrates the substrate and comprises a first conductive layer, a second conductive layer, and a dielectric layer. The dielectric layer is between the first conductive layer and the second conductive layer. The method of manufacturing the same includes the following steps: forming a via hole in a substrate; forming a first conductive layer in the via hole; forming a dielectric layer in the via hole and over the first conductive layer; forming a second conductive layer in the via hole and over the dielectric layer; and forming a transistor over the substrate. The first conductive layer, the dielectric layer, and the second conductive layer collectively form a through-silicon-via (TSV) structure.

A semiconductor package includes a semiconductor chip including a semiconductor substrate having an active layer, ground chip pads on the semiconductor substrate, and signal chip pads on the semiconductor substrate and a package substrate supporting the semiconductor chip, the package substrate including a substrate insulating layer, a plurality of signal line patterns extending in the substrate insulating layer and electrically connected to the signal chip pads, and a plurality of ground line patterns extending in the substrate insulating layer at a same level as a level of the plurality of signal line patterns and electrically connected to the ground chip pads. At least one of the plurality of ground line patterns extends between the plurality of signal line patterns.

An electronic device package includes a circuit layer, a first semiconductor die, a second semiconductor die, a plurality of first conductive structures and a second conductive structure. The first semiconductor die is disposed on the circuit layer. The second semiconductor die is disposed on the first semiconductor die, and has an active surface toward the circuit layer. The first conductive structures are disposed between a first region of the second semiconductor die and the first semiconductor die, and electrically connecting the first semiconductor die to the second semiconductor die. The second conductive structure is disposed between a second region of the second semiconductor die and the circuit layer, and electrically connecting the circuit layer to the second semiconductor die.

Methods, apparatuses, and systems related to an apparatus configured to provide varied connection positions. The varied connection positions may be provided through an alternating pattern of pads and pedestals that are each configured to attach and electrically couple to complementary connection points on a connected device.

The disclosure provides an electronic device and a manufacturing method thereof. The electronic device includes a package structure, a circuit structure, a bonding structure and an external element. The circuit structure is disposed on the package structure and is electrically connected to the package structure. The circuit structure has a recess. The bonding structure includes a first bonding pad and a second bonding pad. The second bonding pad is disposed in the recess, and the second bonding pad is disposed on the first bonding pad. The bonding structure is disposed between the circuit structure and the external element. The external element is electrically connected to the circuit structure through the bonding structure. A width of the first bonding pad is smaller than a width of the second bonding pad.

A package comprising a first substrate; an integrated device coupled to the first substrate, wherein the integrated device comprises a plurality of back side metallization interconnects; and a second substrate coupled to the first substrate through a first plurality of solder interconnects, wherein the second substrate is coupled to the plurality of back side metallization interconnects through the second plurality of solder interconnects.

A package substrate according to the present disclosure includes a package substrate, an interposer disposed over the package substrate, a photonic die disposed over the interposer, a memory structure disposed over the interposer and including a controller die, a system die disposed over the interposer and partially overlapping with the photonic die and the controller die, and a lid covering the system die, the memory structure, and photonic die. The system die includes micro bumps extending from a bottom surface of the system die to a top surface of the controller die.