A display device with high visibility regardless of the ambient brightness is provided. The display device includes a first display element, a second display element, a first transistor, and a second transistor. The first display element has a function of reflecting visible light. The second display element has a function of emitting visible light. The first transistor has a function of controlling the driving of the first display element. The second transistor has a function of controlling the driving of the second display element. The first transistor is positioned closer to a display surface side of the display device than the first display element is. The first display element is positioned closer to the display surface side of the display device than the second display element and the second transistor are.

A vehicular video camera display system includes an interior rearview mirror assembly having a casing and an electrochromic reflective element, with a video display device disposed in the casing behind the electrochromic reflective element. With the interior rearview mirror assembly mounted at the in-cabin side of a windshield of a vehicle, a video display screen of the video display device is operable to display video images that are viewable through the electrochromic reflective element by a driver of the vehicle. A rearward-viewing video camera is disposed at a rear portion of the vehicle and views at least rearward of the vehicle. Control circuitry is disposed at the interior rearview mirror assembly. Image data captured by the rearward-viewing video camera is communicated as a digital signal from the rearward-viewing video camera via a cable to the control circuitry disposed at the interior rearview mirror assembly.

A vehicular video camera display system includes an interior rearview mirror assembly having a casing and an electrochromic reflective element, with a video display device disposed in the casing behind the electrochromic reflective element. With the interior rearview mirror assembly mounted at the in-cabin side of a windshield of a vehicle, a video display screen of the video display device is operable to display video images that are viewable through the electrochromic reflective element by a driver of the vehicle. A rearward-viewing video camera is disposed at a rear portion of the vehicle and views at least rearward of the vehicle. Control circuitry is disposed at the interior rearview mirror assembly. Image data captured by the rearward-viewing video camera is communicated as a digital signal from the rearward-viewing video camera via a cable to the control circuitry disposed at the interior rearview mirror assembly.

A display device includes: a base layer including a display area (DA) and a non-DA; a circuit element layer on the base layer and including: a power supply electrode (PSE) overlapping the non-DA, circuit elements, and a shielding electrode connected to the PSE and overlapping some of the circuit elements; a display element layer on the circuit element layer and including: a light emitting element including a first electrode, a light emitting unit, and a second electrode, and a connection electrode connecting the second electrode to the PSE and including first through-holes; a thin film encapsulation layer (TFEL) on the display element layer and including an organic layer overlapping the DA; and an input sensing layer on the TFEL and including sensing electrodes and sensing signal lines connected to the sensing electrodes. The sensing signal lines overlap the connection electrode. Some of the first through-holes overlap the shielding electrode.

A display panel includes a display layer and two electrophoresis layers; the display layer is located between the two electrophoresis layers; the display layer has two display surfaces; each of the two electrophoresis layers comprises a plurality of electrophoresis units, and states of the electrophoresis units include transparent state and non-transparent state. The display panel can implement single-side display, two-side display and completely-transparent display and has a simple structure, thereby leading to a reduced thickness.

The present disclosure provides a display panel and a display device. The display panel comprises a first substrate, a liquid crystal layer, a second substrate and a polarizer which are stacked sequentially; a light reflection layer and a plurality of organic light-emitting units being provided on the first substrate, wherein the plurality of organic light-emitting units are located at a side of the light reflection layer close to the liquid crystal layer; the second substrate is configured to control deflections of liquid crystal molecules in the liquid crystal layer, and the second substrate comprises a plurality of sub-pixel regions. The display panel provided by the embodiment of the present disclosure achieves a transmission-type displaying in a case that the display signal is input to the first substrate, and achieves a reflection-type displaying in a case that the display signal is input to the second substrate.

To provide a display device capable of lowering power consumption while reducing a weight by using the organic electroluminescence element for the backlight.

A display device that is provided with a light-transmitting shutter element panel wherein shutter elements that control light transmission are arranged in a matrix and with a backlight panel that has organic electroluminescence elements and that is arranged so as to overlap the shutter element panel. The area in which the shutter elements are arrayed on the shutter element panel is partitioned into partitioned areas, and the organic electroluminescence elements are arranged so as to individually overlap the partitioned area that corresponds thereto.

An organic light emitting display device includes a substrate including first to third sub-pixels; first to third light emitting diodes disposed on the substrate and respectively located in the first to third sub-pixels; and a transmittance control layer, light emitted from the first to third light emitting diodes being transmitted toward the transmittance control layer, the transmittance control layer including a lens-shaped transparent pattern and a gray pattern, wherein the gray pattern is located to cover the lens-shaped transparent pattern, and has different thicknesses according to a thick of the transparent pattern.

An organic light emitting display device includes a substrate including first to third sub-pixels; first to third light emitting diodes disposed on the substrate and respectively located in the first to third sub-pixels; and a transmittance control layer, light emitted from the first to third light emitting diodes being transmitted toward the transmittance control layer, the transmittance control layer including a lens-shaped transparent pattern and a gray pattern, wherein the gray pattern is located to cover the lens-shaped transparent pattern, and has different thicknesses according to a thick of the transparent pattern.

Disclosed are a display panel, a method for adjusting a viewing angle of the display panel and a display device including the display panel. The display panel includes a plurality of pixels, wherein each of the plurality of pixels includes the plurality of sub-pixels; a bank defining a plurality of light-emitting areas corresponding to a plurality of sub-pixels; a plurality of lower electrodes disposed on the bank and extending in a first direction and along a boundary between the plurality of pixels; a plurality of light control posts disposed on the lower electrodes, wherein the plurality of light control posts is disposed around each of the plurality of pixels so as to control propagation of light; a first encapsulation layer surrounding the plurality of light control posts; a plurality of upper electrodes disposed on the plurality of light control posts and the first encapsulation layer, wherein the plurality of upper electrodes extends in a second direction intersecting the first direction and along a boundary between the plurality of pixels; and a second encapsulation layer covering the plurality of upper electrodes and the first encapsulation layer.