A display device includes a display panel having a curved shape in section along one axis, the display panel including a display screen that includes a concave surface, wherein a radius of curvature (R) of the curved shape of the display screen is larger than 2000 mm.

The present invention provides a method for manufacturing a highly reliable display device at a low cost with high yield. According to the present invention, a step due to an opening in a contact is covered with an insulating layer to reduce the step, and is processed into a gentle shape. A wiring or the like is formed to be in contact with the insulating layer and thus the coverage of the wiring or the like is enhanced. In addition, deterioration of a light-emitting element due to contaminants such as water can be prevented by sealing a layer including an organic material that has water permeability in a display device with a sealing material. Since the sealing material is formed in a portion of a driver circuit region in the display device, the frame margin of the display device can be narrowed.

To enhance visibility of an image provided by a wearable optical device depending on different situations. Provided is an electronic apparatus including an illuminance information acquisition unit (510) configured to acquire illuminance information indicating illuminance of light incident on a wearable optical device toward a viewer from a real space, a situation information acquisition unit (540) configured to acquire situation information indicating a situation surrounding the wearable optical device, a luminance determination unit (520) configured to determine luminance of light emitted by the wearable optical device to allow the viewer to perceive an image superimposed on the real space, the determination of luminance being performed on a basis of the illuminance information and the situation information, and a controller (530) configured to control the wearable optical device to cause the wearable optical device to emit light having the determined luminance.

A removable video module for a backlit liquid crystal display (LCD) contained within a chassis and having a timing and control board (TCON) with a board edge connector and an access opening in the chassis. The module preferably having a video input connection and means for generating a Low Voltage Differential Signaling (LVDS) video. The video module also preferably has a board edge connector adapted to connect with the board edge connector on the TCON, where the video module is adapted to fit through the access opening to connect with the TCON. Other embodiments may utilize a backplane where the video module and a power module are adapted to connect with the backplane and electrically communicate with the rest of the display. Outputs for either the video signal, power supply, or both may be provided so that a plurality of displays may be daisy-chained together.

A removable video module for a backlit liquid crystal display (LCD) contained within a chassis and having a timing and control board (TCON) with a board edge connector and an access opening in the chassis. The module preferably having a video input connection and means for generating a Low Voltage Differential Signaling (LVDS) video. The video module also preferably has a board edge connector adapted to connect with the board edge connector on the TCON, where the video module is adapted to fit through the access opening to connect with the TCON. Other embodiments may utilize a backplane where the video module and a power module are adapted to connect with the backplane and electrically communicate with the rest of the display. Outputs for either the video signal, power supply, or both may be provided so that a plurality of displays may be daisy-chained together.

A display module of the present invention is provided, which includes a supporting frame and a display panel. The supporting frame has a sidewall and a bank, wherein the bank protrudes from an outer side of a supporting surface of the sidewall toward a direction away from the supporting surface. Slits are formed at two sides of the bank by down-cutting, and a hole is formed on the sidewall below the bank. The display panel is disposed on the supporting frame; a bottom surface of the display panel is supported by the supporting surface, and the bank faces an end surface of the display panel.

A display device, of which the frame is not easily visible in an edge portion, is provided. This display device includes: a display panel having a display area and a frame area provided outside of the display area; a light-transmitting cover arranged closer to a viewer than the display panel is and including a lens portion that is arranged at a position corresponding to the boundary between the frame area and the display area of the display panel; and a housing including a lateral housing portion arranged to face the display panel's side surface. The outer side surface of the lateral housing portion is located in a space between a first plane which is parallel to a normal to the display panel's screen surface and which contacts with the outer end face of the lens portion of the light-transmitting cover and a second plane which defines an acute angle of 25 degrees or less with respect to the normal to the display panel's screen surface and which contacts with the surface of the lens portion.

A display device, of which the frame is not easily visible in an edge portion, is provided. This display device includes: a display panel having a display area and a frame area provided outside of the display area; a light-transmitting cover arranged closer to a viewer than the display panel is and including a lens portion that is arranged at a position corresponding to the boundary between the frame area and the display area of the display panel; and a housing including a lateral housing portion arranged to face the display panel's side surface. The outer side surface of the lateral housing portion is located in a space between a first plane which is parallel to a normal to the display panel's screen surface and which contacts with the outer end face of the lens portion of the light-transmitting cover and a second plane which defines an acute angle of 25 degrees or less with respect to the normal to the display panel's screen surface and which contacts with the surface of the lens portion.

Facilities are provided herein for automatically determining and applying curve profiles to flexible displays. An example process includes obtaining content to be presented on a flexible display, automatically determining a curve profile to apply to the flexible display in association with presentation of the content on the flexible display, the automatically determining being based at least in part on an analysis of the content to be presented, and applying the curve profile to the flexible display in association with the presentation of the content on the flexible display.

Facilities are provided herein for automatically determining and applying curve profiles to flexible displays. An example process includes obtaining content to be presented on a flexible display, automatically determining a curve profile to apply to the flexible display in association with presentation of the content on the flexible display, the automatically determining being based at least in part on an analysis of the content to be presented, and applying the curve profile to the flexible display in association with the presentation of the content on the flexible display.