GOA CIRCUIT FOR LIQUID CRYSTAL DISPLAYING AND DISPLAY DEVICE

摘要

The present invention relates to a GOA circuit for liquid crystal displaying and a display device. The GOA circuit includes a plurality of cascaded GOA units and the nth-stage GOA unit includes a pull-up part (100), a key pull-down part (200), a pull-down holding part (300), a pull-up control part (400), and a boost capacitor (Cb). In operation, a nth-stage clock signal (CK(n)) and first and second clock signals (LC1 and LC2) are inputted. The frequencies of the first clock signal (LC1) and the second clock signal (LC2) are lower than the nth clock signal (CK(n)). The first clock signal (LC1) charging a first circuit point (P) and the second clock signal (LC2) charging a second circuit point (K) are alternately carried out. The present invention also provides a corresponding display device. The GOA circuit of the present invention precisely controls the voltage of the gate Q(n) that affects charging of a horizontal scan line by means of the low frequency clock signal and the high frequency clock signal, so as to ensure a stable output of the GOA charging signal.

主权项

1. A GOA (Gate Driver on Array) circuit for liquid crystal displaying, comprising a plurality of cascaded GOA units, in which a nth-stage GOA control unit controls charging of a nth-stage horizontal scan line of a display region and the nth-stage GOA unit comprises a pull-up part, a key pull-down part, a pull-down holding part, a pull-up control part, and a boost capacitor, the pull-up part, the key pull-down part, the pull-down holding part, and the boost capacitor being connected with a gate signal point and the nth-stage horizontal scan line, the pull-up control part being connected with the gate signal point;
wherein the key pull-down part comprises:
a first thin film transistor, which has a gate connected with a first circuit point and a drain and a source respectively connected with the nth horizontal scan line and receiving an input of a direct current low voltage;a second thin film transistor, which has a gate connected with a second circuit point and a drain and a source respectively connected with the nth horizontal scan line and receiving an input of the direct current low voltage;a third thin film transistor, which has a gate connected with the gate signal point and a drain and a source respectively connected with the first circuit point and receiving an input of the direct current low voltage;a fourth thin film transistor, which has a gate connected with the gate signal point and a drain and a source respectively connected with the second circuit point and receiving an input of the direct current low voltage;a fifth thin film transistor, which has a drain and a source respectively connected with the gate signal point and the nth horizontal scan line;a sixth thin film transistor, which has a drain and a source respectively receiving an input of a nth-stage clock signal and connected with a gate of the fifth thin film transistor;a seventh thin film transistor, which has a gate receiving an input of a first clock signal and a drain and a source respectively connected with a gate of the sixth thin film transistor and the first circuit point;an eighth thin film transistor, which has a gate receiving an input of a second clock signal and a drain and a source respectively connected with the gate of the sixth thin film transistor and the second circuit point;a ninth thin film transistor, which has a gate receiving an input of the first clock signal and a drain and a source respectively receiving an input of the first clock signal and connected with the gate of the sixth thin film transistor; anda tenth thin film transistor, which has a gate receiving an input of the second clock signal and a drain and a source respectively receiving an input of the second clock signal and connected with the gate of the sixth thin film transistor;whereby in operation, frequencies of the first clock signal and the second clock signal are set lower than the nth clock signal and the first clock signal charging the first circuit point and the second clock signal charging the second circuit point are alternately carried out.