A shift register unit provided according to embodiments of the present disclosure includes an input circuit, a pull-up circuit, a control circuit, and a first discharge circuit. The pull-up circuit is configured to control an output of the signal output terminal. The control circuit is configured to control a potential of the second node based on a second voltage signal of the second voltage terminal and a potential of the first node. The first discharge circuit is configured to control, after being turned on under the control of the potential of the second node, the first node and the signal output terminal by using the third voltage terminal, and discharging a pixel unit, the first node and the signal output terminal, the pixel unit being connected to the signal output terminal.

A shift register and a driving method thereof, a gate drive circuit and a display device are provided. The shift register may comprise a transmission sub-circuit, a storage sub-circuit and an output control sub-circuit. The shift register may further comprise an output buffer sub-circuit and a reset sub-circuit. The gate drive circuit may comprise a plurality of cascaded shift registers as described above. The display device may comprise the gate drive circuit. The present disclosure guarantees the working stability, use reliability and display effect of a display panel.

A shift register unit includes a common circuit and an output circuit. The common circuit is configured to control a potential at a pull-up node under the control of an input end, a resetting end and a first clock signal input end. The output circuit is configured to control 2M gate driving signal output ends to output gate driving signals respectively under the control of the pull-up node, a noise reduction control end and an output control end, where M is an integer greater than 1.

A shift register includes a first input sub-circuit configured to transfer a first input signal at a first input terminal to a first node in response to a first scan signal at a first scan terminal being active, a first level control sub-circuit configured to transfer a first power supply voltage at a first power supply terminal to a first output control node and a second output control node in response to the first node being at an active potential, and an output sub-circuit configured to transfer a first clock signal at a first clock terminal to a first output in response to the first output control node being at an active potential, and to transfer a second clock signal at a second clock terminal to a second output terminal in response to the second output control node being at an active potential.

A shift register circuit according to an embodiment of the present disclosure includes an input sub-circuit and N-stage output sub-circuits. The input sub-circuit is configured to transmit an input signal to a pull up node at a first stage. The output sub-circuit at each stage is configured to transmit a clock signal from a clock signal terminal at a same stage to an output signal terminal at the same stage under the control of a pull-up node at the same stage. The output sub-circuit at each stage is further configured to transmit a signal transmitted to an output signal terminal at the same stage to a pull-up node at an immediately subsequent stage under the control of a shift control signal from a shift control signal terminal at the same stage.

A voltage control circuit, a shift register unit, and a display device are provided. The voltage control circuit is applied to a shift register unit, the shift register unit includes a gate-driving-signal output end, and the voltage control circuit includes a discharge control end, a discharge circuit and a discharge voltage end. The discharge circuit is configured to, under control of a signal inputted by the discharge control end, control to electrically disconnect the gate-driving-signal output end from the discharge voltage end during a display period of a display screen, and control to electrically connect the gate-driving-signal output end to the discharge voltage end during a shutdown period of the display screen.

The present disclosure relates to the field of display technologies and provides a shift register unit. The shift register unit includes an input circuit, a pull-up circuit, an output circuit, an auxiliary circuit, a pull-down circuit, a first storage capacitor, and a second storage capacitor. The auxiliary circuit is coupled to a first clock signal terminal, a second clock signal terminal, an input terminal and a first output terminal. The second storage capacitor is coupled between a first node and a pull-up node.

A memory device is provided. The memory device includes a shift register array having a plurality of shift registers arranged in a matrix of a plurality of rows and a plurality of columns. Each of the plurality of rows comprises a first plurality of shift registers and each of the plurality of columns comprises a second plurality of shift registers. Each of the plurality of rows are associated with a read word line and a write word lines. Each of the plurality of rows are associated with a data input line and a data output line. Each of the plurality of shift arrays comprises a static random access memory.

A shift register circuit and a gate driver including the shift register circuit. The shift register circuit includes an input circuit, a drive circuit, a pull-down circuit, a regulator circuit and a pull-up circuit. The input circuit is configured to receive a first clock signal and is coupled to the first node. The driving circuit is configured to receive the first clock signal and a second clock signal. The input circuit is coupled to the first node. The pull-down circuit is configured to receive the voltage of the first node. The pull-down circuit is coupled to the first node and an output terminal. The pull-down circuit outputs the first voltage to the output terminal in response to the voltage of the first node.

The present disclosure relates to the field of display technologies and, more particularly, to a shift register unit, a shift register circuit, and a display device. The shift register unit includes a detection input circuit, a display input circuit, an inverter circuit, a pull-down circuit, a reset circuit, and a first output circuit. In a working process of the shift register unit, the display input circuit and the detection input circuit share the inverter circuit, the pull-down circuit, the reset circuit, and the first output circuit.