A display device according to an embodiment of the present disclosure may comprise: a roller accommodated in the housing; a display configured to be withdrawn from or retracted into the housing by operating the roller; and a control unit configured to control the roller such that a screen of the display is formed to face at least one of a first direction and a second direction.

A display device includes: a display panel including pixels, a data driving circuit, a scan driving circuit which drives a plurality of first scan lines and a plurality of second scan lines, and a driving controller which controls the data driving circuit and the scan driving circuit to drive a first display area of the display panel at a first operating frequency and drive a second display area of the display panel at a second operating frequency lower than the first operating frequency while an operating mode is a multi-frequency mode. During the multi-frequency mode, first scan signals provided to first scan lines, which correspond to the second display area, of the plurality of first scan lines are maintained at inactive levels in predetermined frames, and second scan signals provided to the plurality of second scan lines transition to active levels at least twice in each of the predetermined frames.

The present disclosure is directed to display circuitry that can be formed on a flexible substrate. The circuitry includes a voltage divider formed from a first and second non-linear resistor device or a first and second transistor coupled in a diode configuration. The circuitry includes a driving thin film transistor coupled to the voltage divider. The non-linear resistor devices may include a lower electrode that is amorphous metal or a crystalline metal. The first and second transistor coupled in a diode configuration may have a lower electrode that is amorphous metal. Upper electrodes may be crystalline metal. The driving thin film transistors may have the lower electrode as amorphous or crystalline metal.

A display device includes a substrate which includes a display area and in which a first opening area is defined, and a non-display area which includes a first driving circuit area and a second driving circuit area adjacent to the first driving circuit area, and in which a second opening area is defined between the first driving circuit area and the second driving circuit area, and a circuit layer disposed on the substrate and including a first driving circuit overlapping the first driving circuit area and including a first conductive pattern and a second driving circuit overlapping the second driving circuit area and including a second conductive pattern. A shape of the first conductive pattern and a shape of the second conductive pattern are inverted from each other based on a first virtual straight line passing through a center of the first driving circuit area and a center of the second driving circuit area in a plan view.

A rollable payment card is shiftable between a flat configuration and a rolled configuration via a manual rolling process. The payment card comprises a verification element, a processor, an electronic display unit in communication with the processor, and a power element providing electrical power to the display unit. The electronic display unit includes an electronic display region configured to display an image. The electronic display region is manually rollable. The payment card in the flat configuration presents horizontally spaced apart first and second ends and vertically spaced apart top and bottom edges. The first end overlaps the second end during the course of the rolling process, with the first end being disposed arcuately past the second end when the payment card is in the rolled configuration.

The present application provides a flexible display module. A display area of the flexible display module comprises a plurality of island-shaped structures separated from each other. A bending structure including at least three bending portions is provided to connect the island-shaped structures, which effectively realizes stretching of the flexible display module in three directions of space. At the same time, since the bending structure is connected to one end of one side of the adjacent island-shaped structures, it increases a bending length of the bending structure and a bending space of the flexible display module. The present application also provides a display device comprising the flexible display module.

An electronic device and method are disclosed. The electronic device includes a housing, a flexible display having a variable display area including: a visible first region, and a second region that is stowable/extendable, a display driver integrated circuit (DDI), and a processor. The processor implements the method, including: when the housing is disposed in a first state in which the second region is stowed, control the flexible display to display a user interface (UI) screen through the first region based on a first driving frequency and a first light emission frequency, control the flexible display to display a compensation image through the second region based on a second driving frequency and a second light emission frequency, wherein the second driving frequency is equal to or less than the first driving frequency, and the second light emission frequency is less than the first light emission frequency.

An electronic apparatus is provided. The electronic apparatus includes at least one housing which may have a plurality of states, at least one display, and at least one processor. The at least one processor is set to display a first execution screen of at least one application on a first display area of the at least one display when the at least one housing is in a first state, wherein the first display area corresponds to the first state, identify the transition of the at least one housing from the first state to a second state, display a first screen, which includes at least one graphic object, on the second display area when a first condition is satisfied, wherein the first screen is displayed on the basis of the transition of the at least one housing from the first state to the second state, and display a second execution screen of a first application on at least a portion of the second display region in response to a first input to a first graphic object, corresponding to the first application, among the one or more graphic objects.

A stretchable display panel, a control method of the stretchable display panel, and a display device are provided. The stretchable display panel includes a stretchable substrate and a plurality of display units. The stretchable substrate contains a plurality of hollows, and a display unit is disposed corresponding to a hollow. The plurality of display units include a first display unit and a second display unit. In a stretched state, both the first display unit and the second display unit are disposed on a side of the stretchable substrate facing a light-exiting surface. In a first contracted state or a second contracted state, one of the first display unit and the second display unit is disposed on the side of the stretchable substrate facing the light-exiting surface, and the other one is disposed on a side of the stretchable substrate away from the light-exiting surface.

A display panel is provided. The display panel includes a display part; and a fanout part. The display part includes a plurality of pixel driving circuits. The fanout part includes a bendable portion and a multiplexer. The display panel includes a plurality of first signal lines extending through the bendable portion, and connecting the plurality of pixel driving circuits to the multiplexer. A direct current supply line extending through the bendable portion and electrically connected to the plurality of pixel driving circuits. A portion of the direct current supply line is between the multiplexer and the bendable portion and crosses over the plurality of first signal lines.