A display device including a window, an electronic device including the display device and a method for repairing the window of the display device are provided. The display device includes a window including a protective layer, a base substrate below the protective layer, an adhesive layer between the protective layer and the base substrate, and a light blocking pattern along an edge of the protective layer and between the protective layer and the adhesive layer, and includes a display module below the window, wherein a cutting line is defined in the base substrate and the cutting line overlaps the light blocking pattern.

A light-emitting diode (LED) package is provided, which includes a plurality of LED units, an encapsulant, and a first light guide. The encapsulant covers the LED units and has a recessed portion. The recessed portion is between the LED units, and the encapsulant has a plurality of side surfaces surrounding the LED units and the recessed portion. The first light guide is disposed in the recessed portion of the encapsulant, wherein the first light guide has a top portion and a bottom portion, with the top portion having a larger area than the bottom portion. The first light guide includes a plurality of reflective surfaces between the top portion and the bottom portion, and each reflective surface corresponds to a respective LED unit to reflect a portion of the light emitted from the LED units toward the side surfaces of the encapsulant.

A light-emitting diode (LED) package is provided, which includes a plurality of LED units, an encapsulant, and a first light guide. The encapsulant covers the LED units and has a recessed portion. The recessed portion is between the LED units, and the encapsulant has a plurality of side surfaces surrounding the LED units and the recessed portion. The first light guide is disposed in the recessed portion of the encapsulant, wherein the first light guide has a top portion and a bottom portion, with the top portion having a larger area than the bottom portion. The first light guide includes a plurality of reflective surfaces between the top portion and the bottom portion, and each reflective surface corresponds to a respective LED unit to reflect a portion of the light emitted from the LED units toward the side surfaces of the encapsulant.

A pixel module includes a substrate, a first sub-pixel unit, and a second sub-pixel unit. The first sub-pixel unit is disposed on the substrate, and includes a first light-emitting unit, a second light-emitting unit, and a light-transmitting layer. The first light-emitting unit and the second light-emitting unit are connected in series through the light-transmitting layer and are located on the same side of the light-transmitting layer. The second sub-pixel unit is disposed on the substrate, and the first sub-pixel unit and the second sub-pixel unit can emit different color lights.

A pixel module includes a substrate, a first sub-pixel unit, and a second sub-pixel unit. The first sub-pixel unit is disposed on the substrate, and includes a first light-emitting unit, a second light-emitting unit, and a light-transmitting layer. The first light-emitting unit and the second light-emitting unit are connected in series through the light-transmitting layer and are located on the same side of the light-transmitting layer. The second sub-pixel unit is disposed on the substrate, and the first sub-pixel unit and the second sub-pixel unit can emit different color lights.

A display panel includes a substrate, front electrodes, back electrodes, connection via holes and connection wires. The front electrodes and the back electrodes are disposed on a first surface and a second surface of the substrate, respectively. At least one connection via hole includes a first splicing hole and a second splicing hole, a dimension of a first end of the first splicing hole away from the second splicing hole is greater than or equal to that of a second end of the first splicing hole close to the second splicing hole, and a dimension of a first end of the second splicing hole away from the first splicing hole is greater than or equal to that of a second end of the second splicing hole close to the first splicing hole. Each connection wire passes through a connection via hole to connect one front electrode and one back electrode.

A display panel includes a substrate, front electrodes, back electrodes, connection via holes and connection wires. The front electrodes and the back electrodes are disposed on a first surface and a second surface of the substrate, respectively. At least one connection via hole includes a first splicing hole and a second splicing hole, a dimension of a first end of the first splicing hole away from the second splicing hole is greater than or equal to that of a second end of the first splicing hole close to the second splicing hole, and a dimension of a first end of the second splicing hole away from the first splicing hole is greater than or equal to that of a second end of the second splicing hole close to the first splicing hole. Each connection wire passes through a connection via hole to connect one front electrode and one back electrode.

A backplane includes a substrate, a circuit structure layer, a reflective layer, a plurality of electronic devices and a plurality of encapsulation portions. Each encapsulation portion covers an electronic device in the plurality of electronic devices. At least one first conductive line includes at least one of a first linear extending portion, a second linear extending portion and a third linear extending portion. Orthographic projections of the first linear extending portion, the second linear extending portion, the third linear extending portion and an encapsulation portion in the plurality of encapsulation portions on the substrate are respectively a first orthographic projection, a second orthographic projection, a third orthographic projection and a fourth orthographic projection. The first orthographic projection is located within the fourth orthographic projection, the second orthographic projection is partially overlapped with the fourth orthographic projection, and the third orthographic projection is located outside the fourth orthographic projection.

Provided are a light emitting substrate, a method for manufacturing same, and a display apparatus. The light emitting substrate includes a base substrate; a plurality of light emitting units located at a side of the base substrate; a plurality of protective structures located at a side of the plurality of light emitting units facing away from the base substrate; the plurality of protective structures each covers a respective one of the plurality of light emitting units; and a plurality of reflective patterns located at a side of the plurality of protective structures facing away from the plurality of light emitting units; orthographic projections of the plurality of reflective patterns on the base substrate fall within orthographic projections of the plurality of protective structures on the base substrate.

Disclosed is a display device including a micro light-emitting element. The display device includes a substrate; a pixel driving circuit disposed on the substrate; an insulating layer disposed on the pixel driving circuit; a bank layer disposed on the insulating layer; a light-emitting element disposed on the bank layer and overlapping the bank layer; a first optical layer disposed so as to surround the light-emitting element; and a second optical layer disposed so as to surround the first optical layer, wherein a distance from an uppermost surface of the insulating layer to an uppermost end of the first optical layer is smaller than a distance from the uppermost surface of the insulating layer to an uppermost end of the second optical layer.