A backlight module and display device using the same are provided. The backlight module has a light guide plate. A piezoelectric module is arranged at the outer side of the backside surface of the light guide plate and configured to produce a vibration. The vibration is directly or indirectly transmitted to a resonator, for example, a light guide plate or a bezel, to produce resonance, and a space to which the backside surface is oriented is used as a resonance cavity. By means of the arrangement, the screen-to-body ratio of electronic products and the sound quality can be improved while taking into account the thickness and volume of the electronic products.

A display device includes a backlight unit and a display panel. The backlight unit includes a bottom chassis that includes a fixing surface curved to have a shape that corresponds to a graph of a sine function, a light guide member that includes a light exit surface curved to have a shape that corresponds to the fixing surface, and a light source that provides light to the light guide member. The display panel includes a display surface curved to have a shape that corresponds to the light exit surface.

An electronic device is disclosed, which includes: a display panel comprising a first substrate; a support unit disposed opposite to the display panel; a first circuit board electrically connected to the display panel and having a fist region and a second region, wherein the first region is not overlapped with the support unit in a normal direction of the first substrate, and the second region is overlapped with the support unit in the normal direction of the first substrate; and an electronic component disposed on the first region of the first circuit board.

The present disclosure relates to semiconductor structures and, more particularly, to non-planar waveguide structures and methods of manufacture. The structure includes: a first waveguide structure; and a non-planar waveguide structure spatially shifted from the first waveguide structure and separated from the first waveguide structure by an insulator material.

According to one embodiment, an electronic equipment includes a liquid crystal panel including a display portion, a polarizer superposed on the display portion, and a detection element superposed on the liquid crystal panel and the polarizer to detect infrared rays through the liquid crystal panel and the polarizer.

Embodiments of the present disclosure provide a frame structure, a backlight assembly, and a display device. The frame structure includes: a frame including an annular bottom and a sidewall surrounding the annular bottom, the annular bottom has a protrusion disposed in parallel with the sidewall; and a matching plate having a first hollow portion, the first hollow portion is configured to be engaged with the protrusion.

The present disclosure relates to semiconductor structures and, more particularly, to non-planar waveguide structures and methods of manufacture. The structure includes: a first waveguide structure; and a non-planar waveguide structure spatially shifted from the first waveguide structure and separated from the first waveguide structure by an insulator material.

Systems and methods are disclosed for a light cover that may include a blocking portion configured to block a light emitted from a light-emitting diode, the blocking portion having a first shape associated with a heated state in which the blocking portion extends vertically in parallel with a lower portion of an optical sheet, the first shape configured to minimize a gap between the lower portion of the optical sheet and the blocking portion; a mounting portion configured to contact a bottom portion of a cover bottom of the display, the mounting portion extending orthogonally from the blocking portion; and a plurality of mounting pegs disposed on interior portions of the mounting portion, each of the plurality of mounting pegs configured to removably couple the mounting portion of the light cover to the bottom portion of the cover bottom.

The present invention provides a light guide plate (30) for an electronic paper display and the electronic paper display. The light guide plate (30) is arranged above a display surface of an electrophoretic display module (10), and it comprises a main body, wherein a tooth-shaped pattern is arranged on an in-light surface (33) of the main body. The electrophoretic display module (10) comprises a microcapsule electrophoretic display module or a microcup electrophoretic display module. The tooth-shaped pattern is formed by a plurality of arc-shaped projections (331), arc-shaped recesses (332), angle-shaped projections, or angle-shaped recesses (333). The tooth-shaped pattern provides the in-light surface (33) with in-light angles of multiple directions, which greatly diffuse light beam that enters the light guide plate (30), thereby avoiding appearance of a dark area (B1, B2, B3) in an in-light position of the display area (90), so as to provide a more evenly distributed luminance in the display area (90) and thus provides a better lighting effect.

The invention provides a lighting device (100) comprising a plurality of light sources (10), a light guide plate (20), a rim (30), and an IR sensor (40), wherein: (i) the light sources (10) are configured to provide light source light (11), and wherein the light sources (10) are configured in an edge-lighting configuration with the light guide plate (20); (ii) the light guide plate (20) comprises a circumferential edge (22) of which at least part is configured as light incoupling face for the light source light (11), and a first face (21) of which at least part is configured as light outcoupling face; (iii) the rim (30) comprises the plurality of light sources (10) and the IR sensor (40); and (iv) the IR sensor (40) is configured to sense IR radiation (41) via the light guide plate (20).