Abstract: A driving method of a display panel is provided, by pre-storing a new setting information of a source output enable signal in a peer-to-peer protocol, and detecting a default setting information of the source output enable signal, and according to a detection result of the default setting information, invoking the new setting information when switching different drivers, a setting information of the source output enable signal in the peer-to-peer protocol can be unified, thereby avoiding the charging time difference due to a replacement of drivers.

Abstract: The present disclosure provides a gate driver on array (GOA) circuit driving system and a display panel. The GOA circuit driving system includes a power chip including a plurality of output pins, a plurality of filter units respectively corresponding to the plurality of output pins, and a GOA circuit including a plurality of signal input terminals respectively corresponding to the plurality of output pins, wherein each of the plurality of output pins is electrically connected to the corresponding signal input terminal through the corresponding filter unit, and each of the plurality of filter units is configured to filter an electrostatic voltage transmitted from the corresponding signal input terminal to the corresponding output pin, therefore solving a problem that the power chip cannot work normally due to a release of static electricity from the GOA circuit to the power chip during an ESD test.

Abstract: The present disclosure provides a gate driver on array (GOA) circuit driving system and a display panel. The GOA circuit driving system includes a power chip including a plurality of output pins, a plurality of filter units respectively corresponding to the plurality of output pins, and a GOA circuit including a plurality of signal input terminals respectively corresponding to the plurality of output pins, wherein each of the plurality of output pins is electrically connected to the corresponding signal input terminal through the corresponding filter unit, and each of the plurality of filter units is configured to filter an electrostatic voltage transmitted from the corresponding signal input terminal to the corresponding output pin, therefore solving a problem that the power chip cannot work normally due to a release of static electricity from the GOA circuit to the power chip during an ESD test.

Abstract: A display screen comprising a display panel, at least one control chip, and a chip on film (COF) disposed corresponding to the at least one control chip, the COF is used to connect the display panel and the at least one control chip. Each control chip comprises a plurality of connection points electrically connected to a plurality of connection pins on the COF. Two of the plurality of connection points are provided with a lead end respectively, and the two lead ends are used for connecting to an external test circuit.

Abstract: Provided is a display substrate including: a base substrate, and a light-emitting device and an encapsulating structure which are disposed on the base substrate in sequence in a direction away from the base substrate, wherein the encapsulating structure includes an organic scattering layer and an inorganic barrier layer disposed on at least one side of the organic scattering layer, and the organic scattering layer has bubble structures therein. By arranging an organic scattering layer in the encapsulating structure, the optical coupling efficiency of the display substrate is improved while the encapsulating effect of the encapsulating structure is ensured.

Abstract: A power circuit includes a bleeder circuit, wherein a first terminal of the bleeder circuit is an output terminal, and a second terminal of the bleeder circuit is grounded; a control circuit, wherein a first terminal of the control circuit is connected to the output terminal, a second terminal of the control circuit is a feedback terminal and is connected to the bleeder circuit, and a third terminal of the control circuit is an input terminal; and a feedback capacitor, wherein a first terminal of the feedback capacitor is connected to the output terminal, and a second terminal of the feedback capacitor is connected to the bleeder circuit. The power circuit adds a feedback capacitor between the output terminal and the feedback terminal and can rapidly provide output terminal voltage changes to the feedback terminal and accelerate regulation of an output voltage.

Abstract: Disclosed are a thin film transistor, a method for fabricating the same, an array substrate, and a display device. The method of this disclosure includes: fabricating an anti-etching layer pattern on an active layer, wherein the anti-etching layer pattern is doped with an electrically conductive medium; etching away an area of the active layer, which is not covered with the anti-etching layer pattern, to form an active layer pattern, and reserving the anti-etching layer pattern; and fabricating a source and a drain of the thin film transistor.

Abstract: The present disclosure provides an organic light-emitting diode and a method for manufacturing the same, a display substrate and a method for manufacturing the same, and a display device. The organic light-emitting diode comprises a first electrode, a second electrode, and an organic light-emitting layer arranged between the first electrode and the second electrode, in which the second electrode is arranged close to the light-emitting side of the organic light-emitting diode, the first electrode includes a reflective conductive layer, and a surface of the reflective conductive layer close to the second electrode has an uneven structure.

Abstract: The present disclosure provides an organic light-emitting diode and a method for manufacturing the same, a display substrate and a method for manufacturing the same, and a display device. The organic light-emitting diode comprises a first electrode, a second electrode, and an organic light-emitting layer arranged between the first electrode and the second electrode, in which the second electrode is arranged close to the light-emitting side of the organic light-emitting diode, the first electrode includes a reflective conductive layer, and a surface of the reflective conductive layer close to the second electrode has an uneven structure.

Abstract: A display substrate, a method for fabricating the same, and a display panel are disclosed. The method comprises forming a TFT on a substrate. The TFT comprises a gate, a gate insulating layer, an active layer, an ohmic contact layer, a source and a drain which are formed on the substrate in sequence. After forming the active layer, and prior to forming the ohmic contact layer, the method comprises forming a first pattern in a non-TFT region. The first pattern in the non-TFT region covers the gate insulating layer.

Abstract: The present disclosure relates to an Organic Light-Emitting Diode (OLED) apparatus and a method for manufacturing the same. The OLED apparatus comprises an OLED device, a device packaging layer, an upper flexible substrate, and a lower flexible substrate, wherein an anti-reflection layer is arranged outside the upper flexible substrate, and a layer of inorganic nanoparticles is provided on a surface of the anti-reflection layer. Using the technical solution of the present disclosure, an OLED apparatus which has both waterproof and anti-reflection effects and a small overall thickness is obtained.

Abstract: The embodiments of the invention disclose an array substrate, a manufacturing method thereof, and a display panel. The array substrate comprises a base substrate, and a first conductive layer, an insulating layer and a second conductive layer arranged on the base substrate sequentially, the insulating layer comprising a via hole region, a semi-retaining region outside the via hole region and a full-retaining region encircling the semi-retaining region and the via hole region. Since the via hole region is surrounded by the semi-retaining region, the thickness of the insulating layer around the via hole is reduced, and thus the influence of the material of the insulating layer left on a rim of the via hole can be reduced. Moreover, since the height difference of the insulating layer is divided into two segments, the influence by height difference in the overall thickness of the insulating layer can be diminished.

Abstract: The present disclosure relates to an Organic Light-Emitting Diode (OLED) apparatus and a method for manufacturing the same. The OLED apparatus comprises an OLED device, a device packaging layer, an upper flexible substrate, and a lower flexible substrate, wherein an anti-reflection layer is arranged outside the upper flexible substrate, and a layer of inorganic nanoparticles is provided on a surface of the anti-reflection layer. Using the technical solution of the present disclosure, an OLED apparatus which has both waterproof and anti-reflection effects and a small overall thickness is obtained.

Abstract: A digital communication system, having a transmitter to transmit a digital signal; and a receiver to receive the digital signal; wherein the digital signal utilizes a 32APSK system with FEC coding, and the signal is bit-mapped using gray mapping, and bits of the digital signal are ordered based on the values of a log likelihood ratio from a communications channel.