An electronic device, a split television implementation method and a split television are disclosed. The split television implementation method includes: processing, by the processor, a received video signal, such that the video signal is converted into a first signal capable of being transmitted in a wireless manner; sending, by the processor, the first signal obtained via conversion to the playing device; acquiring, by the playing device, the first signal obtained via conversion; and processing, by the playing device, the acquired first signal, and converting the first signal into a video signal capable of being displayed on a display screen. The present disclosure further provides a split television, and the split television includes: a video signal processing module, configured to process a received video signal, such that the video signal is converted into a first signal; a sending module, configured to send the first signal to a playing device; an acquiring module, configured to acquire the first signal obtained via conversion; and a first signal processing module, configured to process the acquired first signal, and convert the first signal into a video signal capable of being displayed on a display screen. According to some embodiments of the present disclosure, aesthetica) shape of the split television is improved, and in addition, arrangement and space restrictions of the split television are also reduced.

An electronic device, a split television implementation method and a split television are disclosed. The split television implementation method includes: processing, by the processor, a received video signal, such that the video signal is converted into a first signal capable of being transmitted in a wireless manner; sending, by the processor, the first signal obtained via conversion to the playing device; acquiring, by the playing device, the first signal obtained via conversion; and processing, by the playing device, the acquired first signal, and converting the first signal into a video signal capable of being displayed on a display screen. The present disclosure further provides a split television, and the split television includes: a video signal processing module, configured to process a received video signal, such that the video signal is converted into a first signal; a sending module, configured to send the first signal to a playing device; an acquiring module, configured to acquire the first signal obtained via conversion; and a first signal processing module, configured to process the acquired first signal, and convert the first signal into a video signal capable of being displayed on a display screen. According to some embodiments of the present disclosure, aesthetica) shape of the split television is improved, and in addition, arrangement and space restrictions of the split television are also reduced.

Disclosed herein is a display apparatus having a slim display body to display pictures. Main components, such as a switching mode power supply and a main board, are disposed in a base unit, and a drive board mounted to a display module is connected to the switching mode power supply and the main board such that power is supplied to the display module and the main board transmits and receives a control signal. The base unit serves as a stand to support the display body below the display body. Also, the base unit is fixed to the rear of the display body to mount the display apparatus to a wall. A connection unit to connect the display body and the base unit is provided to change the position of the base unit. The connection unit is hingedly rotatable with respect to the display body and the base unit.

Disclosed herein is a display apparatus having a slim display body to display pictures. Main components, such as a switching mode power supply and a main board, are disposed in a base unit, and a drive board mounted to a display module is connected to the switching mode power supply and the main board such that power is supplied to the display module and the main board transmits and receives a control signal. The base unit serves as a stand to support the display body below the display body. Also, the base unit is fixed to the rear of the display body to mount the display apparatus to a wall. A connection unit to connect the display body and the base unit is provided to change the position of the base unit. The connection unit is hingedly rotatable with respect to the display body and the base unit.

A modular electrical system for controlling a liquid crystal display (LCD) contained within a chassis. The system may include a backplane in communication with a power module and video module through connectors on the back plane and respective connectors on the modules. The system may also include a timing and control board (TCON) that is in communication with the backplane via conduction lines that are provided to carry power, video signals, etc., to the TCON. Guides may be provided to ensure proper alignment of the power module and video module with the backplane. In some embodiments, the power module and video module may include input and output connectors that facilitate connection of multiple displays in a daisy chain fashion.

Systems, methods, and media for projecting light to indicate a device status are provided. In accordance with some implementations of the disclosed subject matter, systems for projecting light to indicate a device status are provided, the systems comprising: a hardware processor that: determines a light status; determines whether to turn a light source on; selects a light format corresponding to the light status; projects light of a light source according to the light format; and determines whether to turn the light source off.

A display apparatus is provided. The display apparatus includes a display including a plurality of display modules, each of which includes a plurality of light emitting devices; a plurality of wireless power transmitters configured to wirelessly transmit power; a plurality of wireless power receivers configured to receive the power from the plurality of wireless power transmitters, each of the plurality of wireless power receivers including output terminals configured to output the power to the plurality of display modules; and a connector configured to connect the output terminals of the plurality of wireless power receivers to each other.

The present invention involves a display panel and a display device. The display panel includes a display surface for displaying images, and the display surface is concave when being viewed in front of the display surface. The display panel can provide a good sense of presence when displaying images.

A head-up display device includes: a cover having a light-transmissive light exit part; a first case mating with the cover and having a light entry part for entry of display light and a housing part housing a reflecting member; a light source unit outside the housing part; and a second case covering the light source unit and fastened to the first case. The device has a heat radiator of higher rigidity than the second case, having a wall part that externally projects from the housing part through the intervening light entry part, the light source unit affixed to the wall part to diffuse the heat from the light source unit; and includes a mating part in which the second case and the wall part mate together, the second case fastened to the heat radiator at locations to either side of the mating part.

A display unit (1) includes a transparent plate (11) and a display body. The transparent plate has a first surface and a second surface that are opposite to each other, and is disposed to allow substantially an entire region of the first surface to be exposed. The transparent plate has a curved shape that is bent in an arc shape in a first direction. The display body is joined to side of the second surface of the transparent plate to follow the curved shape.