Abstract: An embodiment provides a magnetic flux leakage compensation structure, which includes an upper clamping piece and a lower clamping piece which are electrically disconnected from side-column tension plates and electrically connected with core-column tension plates, respectively, and which are electrically connected with each other through bypass cables. According to the magnetic flux leakage compensation structure provided by the embodiment, by the bypass cables connecting the upper and lower clamping pieces, currents flowing through the side-column tension plates and cores and induced voltages caused by the magnetic flux leakage in an electric circuit may be effectively avoided.

Abstract: A shift register includes first, second and third output sub-circuits, first and second pull-down sub-circuits, and a selection sub-circuit. The first output sub-circuit is coupled to a pull-up node, a first output terminal, and a first clock signal terminal. The second output sub-circuit is coupled to the first clock signal terminal, the selection sub-circuit, and a second output terminal. The third output sub-circuit is coupled to a second clock signal terminal, the selection sub-circuit, and the second output terminal. The selection sub-circuit is coupled to the second and third output sub-circuits, the pull-up node, and a gating signal terminal. The first pull-down sub-circuit is coupled to a first pull-down node, the first output terminal, a second voltage terminal, and the pull-up node. The second pull-down sub-circuit is coupled to the second output terminal, a first voltage terminal, and the first pull-down node.

Abstract: A touch control display panel includes an array substrate, which includes a substrate, a pixel unit including a plurality of pixel subunits, and a touch control signal line. Both the pixel unit and the touch control signal line are over the substrate. An orthographic projection of the touch control signal line on the substrate is located in an opening region of one pixel subunit on the substrate. The one pixel subunit can include a first electrode and a second electrode, one or both having at least one gap, each arranged between two adjacent portions thereof. An orthographic projection of the touch control signal line on the substrate can be contained within an orthographic projection of one gap in one or both of the first electrode and the second electrode on the substrate.

Abstract: A shift register, a gate line driving method, an array substrate and a display device are provided. The shift register includes a plurality of shift register s arranged in a one-to-one correspondence with gate lines on an array substrate; and a control circuit configured to control signals outputted from the shift register s to the gate lines, to control each row of gate lines to be turned on and off, so that a display area has a high-resolution area and a low-resolution area. In the low-resolution area, the control circuit controls the gate lines to be turned on and off group by group. Each group of gate lines include at least two adjacent gate lines, and gate lines in the same group are turned on and off synchronously.

Abstract: A thin film transistor and a method of forming the same, a display substrate and a display device are provided. The thin film transistor includes: a source electrode, a drain electrode and an active layer on a base substrate, where the active layer includes a source electrode contact region configured to be in contact with the source electrode, a drain electrode contact region configured to be in contact with the drain electrode and a channel region between the source electrode contact region and the drain electrode contact region; a first conductive pattern, arranged at the channel region of the active layer and being in contact with the channel region of the active layer.

Abstract: Disclosed are a display panel, a display device, and a method for driving the same. The display panel includes a plurality of data lines extending in a first direction, and at least one signal compensation line extending in a second direction, insulated from and intersecting with the plurality of data lines, a compensation capacitor is arranged at a position where the plurality of data lines intersect with the signal compensation line, and one terminal of the compensation capacitor is connected with one of the plurality of data lines, and the other terminal of the compensation capacitor is connected with the signal compensation line.

Abstract: The present disclosure provides a gate driving circuit, a driving method, and a display device. The gate driving circuit includes cascaded multistage gate driving units and a reset adjustment unit. Each stage of the gate driving units includes a pull-up module, a first output module, a second output module, and a reset module. The reset adjustment unit is used for, under the control of a first and a second control signal, inputting the reset signal of the reset terminal of a former stage gate driving unit to the reset module of a latter stage gate driving unit, and inputting the reset signal of the reset terminal of the latter stage gate driving unit to the reset module of the former stage gate driving unit.

Abstract: The present disclosure relates to a grating and a method for manufacturing the same, a method for driving a grating, and a naked eye three-dimensional display system. The grating includes a simplest grating and a driving signal line, the simplest grating is composed of a plurality of grating units arranged in sequence, the driving signal lines are connected to the grating units, and the driving signal line is configured to transmit a driving signal to each one of the plurality of grating units according to different resolutions so as to drive each grating unit to present a light penetration state or a light blocking state such that a grating constant corresponding to the resolution is obtained by the simplest grating.

Abstract: Disclosed is a rectification device, a method for manufacturing the same and an ESD protection device. The rectification device comprises: a semiconductor substrate with a doping type of P-type; an epitaxial semiconductor layer with a doping type of N-type and located on the semiconductor substrate; a first doped region with a doping type of N-type and located in the epitaxial semiconductor layer; wherein the semiconductor substrate and the epitaxial semiconductor layer are respectively used as an anode and a cathode of the rectification device, and the rectification device further comprises a reverse Schottky barrier being formed in the cathode. According to the disclosure, a reverse Schottky barrier is formed to reduce the parasitic capacitance of the diode at high voltages, thereby increasing the response speed of the ESD protection device at high voltages.

Abstract: A shift register, a gate line driving method, an array substrate and a display device are provided. The shift register includes a plurality of shift register s arranged in a one-to-one correspondence with gate lines on an array substrate; and a control circuit configured to control signals outputted from the shift register s to the gate lines, to control each row of gate lines to be turned on and off, so that a display area has a high-resolution area and a low-resolution area. In the low-resolution area, the control circuit controls the gate lines to be turned on and off group by group. Each group of gate lines include at least two adjacent gate lines, and gate lines in the same group are turned on and off synchronously.

Abstract: In one embodiment, a display panel includes: a first polarization sheet, a second polarization sheet and a liquid crystal box between the first polarization sheet and the second polarization sheet. The display panel further includes: a control electrode layer and a control module; wherein the control electrode layer is provided to the liquid crystal box, the control electrode layer comprises a plurality of separated strip electrodes, a preset pitch that satisfies a requirement of grating formation is formed between adjacent strip electrodes, and transmittances of the strip electrodes are changeable under voltage. The control module is coupled to the strip electrodes and is configured to output a voltage to the strip electrodes to change the transmittances of the strip electrodes such that the control electrode layer becomes a grating or is totally transparent.

Abstract: An intelligent fabric includes: a base layer with vent holes, a thermal insulation layer on the base layer and capable of being moved relative to the base layer, an instruction generator configured to generate a switch instruction, and a controller connected to the instruction generator and the thermal insulation layer, and configured to control the thermal insulation layer to be moved relative to the base layer in accordance with the switch instruction, so as to switch the thermal insulation layer between a state where the thermal insulation layer covers the vent holes completely and a state where the thermal insulation layer does not cover the vent holes, or among the state where the thermal insulation layer covers the vent holes completely, a state where the thermal insulation layer partially covers the vent holes, and the state where the thermal insulation layer does not cover the vent holes.

Abstract: An array substrate includes a base substrate, a thin film transistor and at least one photosensitive structure formed on the base substrate, the at least one photosensitive structure electrically connected to a drain electrode of the thin film transistor and configured to sense light intensity outside, and a common electrode formed on the base substrate on which the thin film transistor and the at least one photosensitive structure are formed. A method for manufacturing the array substrate, a control assembly and a display device are further disclosed.

Abstract: A display unit, a display substrate and a method of manufacturing the same and a display device. The display unit includes: a Micro-LED chip arranged on a base substrate and a color filter. The Micro-LED chip is configured for emitting light in a first color. The color filter is arranged on the Micro-LED chip, configured for packaging the Micro-LED chip and converting the light in the first color into an outgoing light in a second color, and includes a convex structure in a light outgoing path of the Micro-LED chip.

Abstract: The present disclosure provides a thin film transistor, an array substrate, a display panel and a display device. The thin film transistor comprises a gate layer, a source and a drain located on the gate layer, and an active layer located on the source and the drain. The active layer is electrically connected to the source and the drain. The active layer comprises two sides arranged in parallel, and each side forms an acute angle of 45° with a face of the drain facing the source.

Abstract: Disclosed is an ESD protection device, comprising: a semiconductor substrate; a semiconductor buried layer located in the semiconductor substrate; an epitaxial semiconductor layer located on the semiconductor substrate and comprising a first doped region and a second doped region, wherein the semiconductor substrate and the first doped region are of a first doping type, the semiconductor buried layer, the epitaxial semiconductor layer and the second doped region are of a second doping type, the first doping type and the second doping type are opposite to each other, and the first doped region forms a plurality of interfaces with the epitaxial semiconductor layer. The disclosure improves protection performance and maximum current bearing capacity without increasing parasitic capacitance of the ESD protection device.

Abstract: A method for directly and deeply purifying high concentration organic wastewater, specifically includes following steps of: (1) fortified precipitation treatment; (2) rapid filtration of sediment of suspended solids; (3) pH value adjustment; (4) hydrolysis acidification: pH value adjusted waste water enters a water distribution unit in which biological hanging film filter is arranged to fortify an anaerobic hydrolysis acidification function of the waste water; and (5) bio-filter treatment. A rapid and low cost treatment method for high concentration, high ammonia and high nitrogen organic waste water is provided by means of water and air distribution by the biological filtering bed, an air-water backwashing bed layer structure, setting of a temperature regulation system for the biological filtering bed, and a combined process of the biological filtering bed with a fortified sedimentation unit, a suspension object sediment rapid filtration unit, and like unit structures.

Abstract: A shift register, a method for driving the same, a gate drive circuitry and a display apparatus are provided. The shift register includes: an input circuit, connected to a signal input terminal, a pull-up node and a first control terminal, and configured to provide a signal of the signal input terminal to the pull-up node under the control of the first control terminal; an output circuit, connected to the pull-up node, a first clock signal terminal and a signal output terminal, and configured to provide a signal of the first clock signal terminal to the signal output terminal under the control of the pull-up node; and a pull-up node control circuit, connected to the pull-up node, a second clock signal terminal, a third clock signal terminal and a first voltage terminal, and configured to provide a signal of the first voltage terminal to the pull-up node.

Abstract: A display panel, including: a pixel structure constituted by a plurality of sub-pixels, wherein sub-pixels in each row are arranged in alignment, sub-pixels in every two adjacent rows are spaced in a column direction by a distance of X sub-pixels, 0<X<1, and a color of each sub-pixel differs from a color of an adjacent sub-pixel; a plurality of data lines arranged at column gaps between the sub-pixels; a plurality of touch signal lines arranged at gaps between the sub-pixels, wherein the plurality of touch signal lines are arranged in a different layer from the plurality of data lines and are insulated from the plurality of data lines; and a plurality of touch detection electrodes connected with the plurality of touch signal lines. A method for manufacturing the above display panel and a display device.

Abstract: Embodiments of the present disclosure disclose an array substrate, a liquid crystal display panel and a display device. A strip shaped transparent and electrically conductive shielding electrode is arranged above a gate line, and an outer contour of a projection of the shielding electrode on a base substrate surrounds a projection of the gate line on the base substrate, and the shielding electrode is insulated from both a pixel electrode and the gate line. The shielding electrode can shield the electrical field above the gate line.