A display device may include: a substrate including a display area and a non-display area; pixels in the display area, each of the pixels including first to fourth electrodes, and light emitting elements connected with the first to fourth electrodes; first pads in a pad area of the non-display area; first to third lines provided in the non-display area; and a circuit board overlapping with the pad area of the substrate and including second pads electrically connected with the first pads. The first pads may include a 1-1th pad connected to the first line, a 1-2th pad connected to the second line, and a 1-3th pad connected to the third line. An identical driving voltage may be applied to at least two lines of the first to third lines. The first to third lines may apply alignment signals to the first to fourth electrodes.

A method for packaging a chip and a chip package structure are provided. The method is used to package the chip including an acoustic filter. The packaging substrate and the device wafer are welded together, wherein the edge of the device wafer is chamfered, the packaging substrate is provided with a groove, the chamfered portion of device wafer is aligned with the groove on the substrate, and then a mask is disposed. The surface of the mask facing the device wafer is an inclined surface, forming a wedge-shaped opening. A package resin material is printed, wherein the package resin material falls into the groove through the inclined surface of the mask, and a package resin film is formed between the groove and the chamfer. The mask is removed along the first surface toward the second surface. The package resin is cured in a position where the resin film is located.

A package includes a first die, a second die, a semiconductor frame, and a reinforcement structure. The first di has a first surface and a second surface opposite to the first surface. The first die includes grooves on the first surface. The second die and the semiconductor frame are disposed side by side over the first surface of the first die. The semiconductor frame has at least one notch exposing the grooves of the first die. The reinforcement structure is disposed on the second surface of the first die. The reinforcement structure includes a first portion aligned with the grooves.

A semiconductor package according to an aspect includes a package substrate, a first semiconductor chip disposed on the package substrate and including a first through electrode, a second semiconductor chip stacked on the first semiconductor chip and having a second through electrode, and a nonconductive film disposed in a bonding zone between the first semiconductor chip and the second semiconductor chip. At an edge portion of the bonding zone, an edge portion of the first semiconductor chip is recessed in the lateral direction, based on an edge portion of the second semiconductor chip.

Disclosed are semiconductor packages and/or methods of fabricating the same. The semiconductor package comprises a substrate, a semiconductor chip on the substrate, and a molding layer. The semiconductor chip includes a circuit region and an edge region around the circuit region. The molding layer covers a sidewall of the semiconductor chip. The semiconductor chip includes a reforming layer on the edge region. A top surface of the reforming layer is coplanar with a top surface of the molding layer.

An image sensor chip-scale package includes a pixel array, a cover glass covering the pixel array, a dam, and an adhesive layer. The pixel array is embedded in a substrate top-surface of a semiconductor substrate. The semiconductor substrate includes a plurality of conductive pads in a peripheral region of the semiconductor substrate surrounding the pixel array. The dam at least partially surrounds the pixel array and is located (i) between the cover glass and the semiconductor substrate, and (ii) on a region of the substrate top-surface between the pixel array and the plurality of conductive pads. The adhesive layer is (i) located between the cover glass and the semiconductor substrate, (ii) at least partially surrounding the dam, and (iii) configured to adhere the cover glass to the semiconductor substrate.

The present disclosure, in some embodiments, relates to an integrated chip structure. The integrated chip structure includes a substrate and an interconnect structure on the substrate. The interconnect structure includes a plurality of interconnects disposed within a dielectric structure. A dielectric protection layer is along a sidewall of the interconnect structure and along a sidewall and a recessed surface of the substrate. A bottommost surface of the dielectric protection layer rests on the recessed surface of the substrate.

Embodiments are directed to a device having an overhang portion. In some embodiments, a main body structure of the device comprises an IC die and an exterior surface of the main body structure comprises the overhang portion. The overhang portion adjoins a sidewall structure of the main body structure of the device, which is substantially perpendicular to a backside of the IC die. In some embodiments, the main body structure further comprises a package mold structure, which comprises the overhang portion.

Disclosed are semiconductor packages and their fabrication methods. The semiconductor package comprises semiconductor chips stacked on a substrate and including first and second pads on top surfaces thereof, and bonding wires connecting the first and second pads to the substrate. The semiconductor chips alternately protrude in a first direction and its opposite direction. The semiconductor chip has a first lateral surface spaced apart from another semiconductor chip. The top surface of the semiconductor chip is provided thereon with a first arrangement line extending along the first lateral surface and with second arrangement lines extending from opposite ends of the first arrangement line. Wherein as a distance between the first and second arrangement lines increases, a distance between the second arrangement lines and the first lateral surface increases. The first pads are arranged along the first arrangement line. The second pads are arranged along the second arrangement lines.

A fan-out wafer level package includes a semiconductor die with a redistribution layer on a sidewall of the semiconductor die. A redistribution layer positioned over the die includes an extended portion that extends along the sidewall. The semiconductor die is encapsulated in a molding compound layer. The molding compound layer is positioned between the extended portion of the redistribution layer and the sidewall of the semiconductor die. Solder contacts, for electrically connecting the semiconductor device to an electronic circuit board, are positioned on the redistribution layer. The solder contacts and the sidewall of the redistribution layer can provide electrical contact on two different locations. Accordingly, the package can be used to improve interconnectivity by providing vertical and horizontal connections.