A light emitting device module includes a substrate, a plurality of light emitting devices mounted on the substrate, an adhesive layer interposed between the substrate and the light emitting device; and bonding wires electrically connecting the plurality of light emitting devices. The substrate includes an outer electrode in at least a partial region, and the adhesive layer has a non-conductive material.

A light emitting device module includes a substrate, a plurality of light emitting devices mounted on the substrate, an adhesive layer interposed between the substrate and the light emitting device; and bonding wires electrically connecting the plurality of light emitting devices. The substrate includes an outer electrode in at least a partial region, and the adhesive layer has a non-conductive material.

A light emitting device module includes a substrate, a plurality of light emitting devices mounted on the substrate, an adhesive layer interposed between the substrate and the light emitting device; and bonding wires electrically connecting the plurality of light emitting devices. The substrate includes an outer electrode in at least a partial region, and the adhesive layer has a non-conductive material.

A light emitting device module includes a substrate, a plurality of light emitting devices mounted on the substrate, an adhesive layer interposed between the substrate and the light emitting device; and bonding wires electrically connecting the plurality of light emitting devices. The substrate includes an outer electrode in at least a partial region, and the adhesive layer has a non-conductive material.

A semiconductor package includes a first semiconductor die, a second semiconductor die and a plurality of bumps. The first semiconductor die has a front side and a backside opposite to each other. The second semiconductor die is disposed at the backside of the first semiconductor die and electrically connected to first semiconductor die. The plurality of bumps is disposed at the front side of the first semiconductor die and physically connects first die pads of the first semiconductor die. A total width of the first semiconductor die may be less than a total width of the second semiconductor die.

A semiconductor package includes a first semiconductor die, a second semiconductor die and a plurality of bumps. The first semiconductor die has a front side and a backside opposite to each other. The second semiconductor die is disposed at the backside of the first semiconductor die and electrically connected to first semiconductor die. The plurality of bumps is disposed at the front side of the first semiconductor die and physically connects first die pads of the first semiconductor die. A total width of the first semiconductor die may be less than a total width of the second semiconductor die.

Light emitting devices and methods for their manufacture are provided. According to one aspect, a light emitting device is provided that comprises a substrate having a recess, and an interlayer dielectric layer located on the substrate. The interlayer dielectric layer may have a first hole and a second hole, the first hole opening over the recess of the substrate. The light emitting device may further include first and second micro LEDs, the first micro LED having a thickness greater than the second micro LED. The first micro LED and the second micro LED may be placed in the first hole and the second hole, respectively.

Light emitting devices and methods for their manufacture are provided. According to one aspect, a light emitting device is provided that comprises a substrate having a recess, and an interlayer dielectric layer located on the substrate. The interlayer dielectric layer may have a first hole and a second hole, the first hole opening over the recess of the substrate. The light emitting device may further include first and second micro LEDs, the first micro LED having a thickness greater than the second micro LED. The first micro LED and the second micro LED may be placed in the first hole and the second hole, respectively.

Semiconductor chips may include a substrate; a protective layer on a first surface of the substrate, through electrodes extending through the substrate and the protective layer, and a Peltier structure including first through structures including first conductivity type impurities, and second through structures including second conductivity type impurities, which may extend through the substrate and the protective layer; pads on the protective layer and connected to the through electrodes, respectively, first connection wires connecting respective first ends of the first through structures to respective first ends of the second through structures, and second connection wires connecting respective second ends of the first through structures to respective second ends of one of the second through structures. The first through structures and the second through structures may be alternately connected to each other in series by the first connection wires and the second connection wires.

Semiconductor chips may include a substrate; a protective layer on a first surface of the substrate, through electrodes extending through the substrate and the protective layer, and a Peltier structure including first through structures including first conductivity type impurities, and second through structures including second conductivity type impurities, which may extend through the substrate and the protective layer; pads on the protective layer and connected to the through electrodes, respectively, first connection wires connecting respective first ends of the first through structures to respective first ends of the second through structures, and second connection wires connecting respective second ends of the first through structures to respective second ends of one of the second through structures. The first through structures and the second through structures may be alternately connected to each other in series by the first connection wires and the second connection wires.