Provided is a display apparatus including: a liquid crystal panel; a substrate; a light source module disposed on the substrate. The light source module includes a light emitting diode disposed on the substrate, a feed pad provided on the substrate, an antistatic pad provided on the substrate; and an insulating dome provided on the substrate and covering the light emitting diode. The antistatic pad is divided into two parts by an outline of the insulating dome.

The present disclosure provides a drive base plate, a light-emitting base plate, a display device, and a manufacturing method for the drive base plate. The drive base plate includes: a substrate; and a first conductive layer and a first block layer disposed on the substrate, the first conductive layer includes multiple first conductive portions arranged at intervals, and each of the first conductive portions includes a first contact pad; the first block layer includes first hollowed-out regions, each of the first hollowed-out regions corresponds to a respective first contact pads, an orthographic projection of the first contact pad on the substrate is within the orthographic projection of the first hollowed-out region on the substrate, and the material of the first block layer includes an oxidation-resistant material.

A leather-like light-emitting display device can include a leather-like sheet that is a laminate of a colored resin layer forming an outer surface layer, and a fiber substrate; a light-emitting portion disposed below the leather-like sheet; and a light-blocking portion configured to partially limit transmission of light, and interposed between any layers from the colored resin layer to the light-emitting portion. The leather-like light-emitting display device is configured to exhibit light-emitting display with a luminance Ya of 200 cd/m.sup.2 or less in a non-light emitting region corresponding to the light-blocking portion and a luminance Yb of 100 to 2,000 cd/m.sup.2 in a light-emitting region corresponding to a portion other than the light-blocking portion, both as measured from a surface of the colored resin layer, and Yb/Ya being 2.0 or more.

A semiconductor light-emitting apparatus includes: a package substrate; a semiconductor light-emitting element flip-chip bonded on the package substrate; a frame body provided around the semiconductor light-emitting element on the package substrate; and a sealing member that covers the semiconductor light-emitting element on the package substrate, covers an upper surface of the frame body, and has translucency at an emission wavelength of the semiconductor light-emitting element. A height of the upper surface of the frame body is smaller than a height ha of an upper surface of the semiconductor light-emitting element.

A display device includes a first substrate, a transistor disposed on the first substrate, a light emitting device connected to the transistor, an encapsulation layer covering the light emitting device, a plurality of banks disposed to overlap the encapsulation layer in a plan view and partitioning a first emission area, a second emission area, and a third emission area, a first color conversion layer disposed in the first emission area, a second color conversion layer disposed in the second emission area, and a transmission layer disposed in the third emission area. A thickness of at least one of the first color conversion layer or the second color conversion layer is greater than a thickness of the plurality of banks.

A display device includes: a substrate having a display area and a non-display area; and a pixel in each of a pixel area in the display area. Each of the pixels includes: an insulating layer on the substrate and having an opening; first and second electrodes on the insulating layer and spaced apart from each other; a plurality of light emitting elements in the opening; a first contact electrode electrically connecting one end of the light emitting elements and the first electrode to each other; a second contact electrode electrically connecting another end of the light emitting elements and the second electrode to each other; a first insulating pattern on the first contact electrode; and a second insulating pattern on the second contact electrode. The first insulating pattern and the second insulating pattern are on the same layer and spaced apart from each other.

A semiconductor light-emitting device includes a lead frame, a semiconductor light-emitting element mounted on the top surface of the bonding region, and a case covering part of the lead frame. The bottom surface of the bonding region is exposed to the outside of the case. The lead frame includes a thin extension extending from the bonding region and having a top surface which is flush with the top surface of the bonding region. The thin extension has a bottom surface which is offset from the bottom surface of the bonding region toward the top surface of the bonding region.

A display device and a manufacturing method thereof are provided. The display device includes a display substrate, sub-pixels on the display substrate, each of the sub-pixels including a first electrode and a second electrode on the display substrate and spaced apart from each other, light emitting elements between the first electrode and the second electrode, an insulating layer covering the light emitting elements, a protective pattern on the insulating layer and overlapping one of the light emitting elements, and a bank on the insulating layer at a boundary of one of the sub-pixels.

A lighting device includes a substrate, light sources having a first light source on the substrate, a resin layer sealing the plurality of light sources on the substrate; and a light transmitting layer on the resin layer. A surface of the resin layer has an upper surface and side surfaces, and the side surfaces of the resin layer has a convex curved surface. The light transmitting layer has a first flat region on the upper surface of the resin layer and a second curved region on the side surfaces of the resin layer. The convex curved surface of the resin layer and the second curved region of the light transmitting layer overlap the first light source in a vertical direction, and a corner between two adjacent the side surfaces of the resin layer has a convex curved surface.

An emitter and a method for emitting light are described. The emitter has a substrate with a substrate surface and at least one LED element arranged on the substrate surface for generating the light to be emitted. An active cooling unit for cooling the at least one LED element has at least one cooling channel. The at least one cooling channel is arranged on the substrate surface in a beam path of at least one portion of the light to be emitted, which can be generated by means of the at least one LED element, for redirecting the light to be emitted.