CN105427829B - Shift register and its driving method, gate driving circuit and display device - Google Patents

Abstract

The invention discloses a kind of shift register and its driving method, gate driving circuit and display device.The shift register includes：Pre-charge module, reseting module, pull-up control module and put module of making an uproar, pre-charge module is connected to reseting module and pull-up node, reseting module is connected to pull-up node, puts make an uproar module and output end, pull-up control module is connected to pull-up node, puts make an uproar module and output end, puts module of making an uproar and is connected to output end；Pre-charge module, for being charged in pre-charging stage for pull-up node；Module of making an uproar is put, for output end put in the touch-control stage making an uproar；Control module is pulled up, for being pulled up in the output stage by the current potential of pull-up node and passing through output end output drive signal；Reseting module, to pull-up node and output end put making an uproar for resetting pull-up node and output end in reseting stage, and putting the stage of making an uproar.It is affected present invention, avoiding the touch controllable function of display device.

Description

Shift register and its driving method, gate driving circuit and display device

Technical field

The present invention relates to display technology field, more particularly to a kind of shift register and its driving method, raster data model electricity Road and display device.

Background technology

With extensive use of the liquid crystal display device in life, high-resolution becomes current liquid crystal display with narrow frame The trend of device.The driver of liquid crystal display device mainly includes data driver and gate drivers, wherein, grid drives Dynamic device can make liquid crystal display device realize that high-resolution and narrow frame are shown.Gate driving circuit can pass through chip on film (Chip On Film, referred to as：COF) or chip be attached to glass substrate (Chip On Glass, referred to as：COG encapsulation side) Formula is arranged in display panel, can also pass through thin film transistor (TFT) (Thin Film Transistor, abbreviation：TFT collection) is constituted It is arranged on into circuit unit in display panel.Gate driving circuit is generally a pole of shift register and a grid line pair Connect, by gate driving circuit to grid line input signal, so as to realize the progressive scan of pixel.Set with traditional COF or COG Meter is compared, and gate drivers can make it that the cost of liquid crystal display device is lower, while reducing a procedure, improves production Amount.

Because touch control display apparatus (Touch Panel) has ease for use, multi-functional, the price that constantly declines of operation The advantages of with the yield steadily improved, using increasingly popularizing.Touch control display apparatus can be divided into external hanging type touch control display apparatus and Embedded touch display device.Wherein, embedded touch display device be divided into again embedded (In Cell) touch control display apparatus and Two kinds of external (On Cell) touch control display apparatus.

When gate drivers are applied in embedded touch display device, the drive signal meeting of gate drivers output Touching signals are interfered with, so that the touch controllable function of touch control display apparatus is affected.

The content of the invention

The present invention provides a kind of shift register and its driving method, gate driving circuit and display device, for avoiding The touch controllable function of display device is affected.

To achieve the above object, the invention provides a kind of shift register, including：Pre-charge module, reseting module, on Draw control module and put module of making an uproar, the pre-charge module is connected to the reseting module and pull-up node, the reseting module Be connected to pull-up node, put make an uproar module and output end, the pull-up control module be connected to pull-up node, it is described put make an uproar module and Output end, the module of making an uproar of putting is connected to output end；

The pre-charge module, for being charged in pre-charging stage for pull-up node；

It is described to put module of making an uproar, for output end put in the touch-control stage making an uproar；

The pull-up control module, for by the current potential pull-up of pull-up node and exporting drive by output end in the output stage Dynamic signal；

The reseting module, for being resetted in reseting stage to pull-up node and output end, and is putting the stage of making an uproar Pull-up node and output end put making an uproar.

Alternatively, in addition to：Compensating module, the compensating module is connected to pull-up node；

The compensating module, for being charged in the touch-control stage for pull-up node.

Alternatively, in addition to：Pull down control module, the drop-down control module be connected to pull-up node, pull-down node and Reseting module；

The drop-down control module, for the current potential of pull-down node to be dragged down.

Alternatively, in forward scan, the pre-charge module includes first switch pipe；

Control pole and the signal input part connection of first switch pipe；

First pole of first switch pipe and the connection of the first power supply；

Second pole of first switch pipe and pull-up node connection.

Alternatively, in forward scan, the reseting module includes：Second switch pipe, the 4th switching tube, the 7th switch Pipe, the 8th switching tube, the 9th switching tube and the tenth switching tube；

The control pole of second switch pipe and the connection of reset signal end, the first pole of second switch pipe are connected with pull-up node, Second pole of second switch pipe is connected with second source；

The control pole of 4th switching tube is connected with pull-down node, the first pole of the 4th switching tube and pull-up control module, defeated Go out end and put the connection of hot-tempered module, the second pole of the 4th switching tube and the 3rd power supply and put module of making an uproar and be connected；

The control pole of 7th switching tube is connected with pull-up node, the first pole of the 7th switching tube and the control of the 8th switching tube Pole and the connection of the second pole of the 9th switching tube, the second pole of the 7th switching tube is connected with the 3rd power supply；

The control pole of 8th switching tube is connected with the second pole of the 9th switching tube, the first pole of the 8th switching tube and the 4th electricity The control pole connection of source and the 9th switching tube, the second pole of the 8th switching tube is connected with pull-down node；

The control pole of 9th switching tube is connected with the first pole of the 9th switching tube and the 4th power supply；

The control pole of tenth switching tube is connected with pull-down node, and the first pole of the tenth switching tube is connected with pull-up node, the Second pole of ten switching tubes is connected with the 3rd power supply.

Alternatively, in reverse scan, the pre-charge module includes second switch pipe；

The control pole of second switch pipe and the connection of reset signal end；

First pole of second switch pipe and pull-up node connection；

Second pole of second switch pipe and second source connection.

Alternatively, in reverse scan, the reseting module includes：First switch pipe, the 4th switching tube, the 7th switch Pipe, the 8th switching tube, the 9th switching tube and the tenth switching tube；

Control pole and the signal input part connection of first switch pipe, the first pole of first switch pipe are connected with the first power supply, Second pole of first switch pipe is connected with pull-up node；

The control pole of 4th switching tube is connected with pull-down node, the first pole of the 4th switching tube and pull-up control module, defeated Go out end and put the connection of hot-tempered module, the second pole of the 4th switching tube and the 3rd power supply and put module of making an uproar and be connected；

The control pole of 7th switching tube is connected with pull-up node, the first pole of the 7th switching tube and the control of the 8th switching tube Pole and the connection of the second pole of the 9th switching tube, the second pole of the 7th switching tube is connected with the 3rd power supply；

The control pole of 8th switching tube is connected with the second pole of the 9th switching tube, the first pole of the 8th switching tube and the 4th electricity The control pole connection of source and the 9th switching tube, the second pole of the 8th switching tube is connected with pull-down node；

The control pole of 9th switching tube is connected with the first pole of the 9th switching tube and the 4th power supply；

The control pole of tenth switching tube is connected with pull-down node, and the first pole of the tenth switching tube is connected with pull-up node, the Second pole of ten switching tubes is connected with the 3rd power supply.

Alternatively, the pull-up control module includes：3rd switching tube and electric capacity；

The control pole of 3rd switching tube is connected with pull-up node, and the first pole of the 3rd switching tube is connected with clock signal terminal, Second pole of the 3rd switching tube and the second end of electric capacity, output end and putting is made an uproar module connection；

The first end of electric capacity is connected with pull-up node, the second end of electric capacity and output end, reseting module and puts the module company that makes an uproar Connect.

Alternatively, the module of making an uproar of putting includes：5th switching tube；

The control pole of 5th switching tube is connected with Switching Power Supply, the first pole and reseting module, the output end of the 5th switching tube With pull-up control module connection, the second pole of the 5th switching tube is connected with reseting module and the 3rd power supply.

Alternatively, the compensating module includes：11st switching tube, the 12nd switching tube and the 13rd switching tube；

The control pole of 11st switching tube is connected with the second pole of the 12nd switching tube and the first pole of the 13rd switching tube, First pole of the 11st switching tube is connected with the first pole of Switching Power Supply and the 12nd switching tube, the second pole of the 11st switching tube It is connected with pull-up node；

The control pole of 12nd switching tube is connected with pull-up node, and the first pole and the Switching Power Supply of the 12nd switching tube connect Connect, the second pole of the 12nd switch is connected with the first pole of the 13rd switching tube；

The control pole of 13rd switching tube is connected with pull-down node, and the second pole and the 3rd power supply of the 13rd switching tube connect Connect.

Alternatively, the drop-down control module includes：6th switching tube；

The control pole of 6th switching tube is connected with pull-up node, and the first pole of the 6th switching tube is connected with pull-down node, the Second pole of six switching tubes is connected with the 3rd power supply.

To achieve the above object, the invention provides a kind of gate driving circuit, including：The above-mentioned displacement of multiple cascades is posted Storage.

To achieve the above object, the invention provides a kind of display device, including：Above-mentioned gate driving circuit.

To achieve the above object, the invention provides a kind of driving method of shift register, including：

In pre-charging stage：Pre-charge module charges for pull-up node；

In the touch-control stage：Module of making an uproar is put output end put to make an uproar；

In the output stage：The current potential of pull-up node is pulled up and passes through output end output drive signal by pull-up control module；

In reseting stage：Reseting module resets to pull-up node and output end, and is putting the stage of making an uproar to pull-up section Point and output end put making an uproar.

The invention has the advantages that：

The technical scheme of shift register and its driving method, gate driving circuit and display device that the present invention is provided In, shift register includes pre-charge module, reseting module, pull-up control module and puts module of making an uproar, wherein, put module of making an uproar and touching The control stage carries out putting and making an uproar to output end, it is to avoid interference of the drive signal of output end output to touching signals, so as to avoid The touch controllable function of display device is affected.

Brief description of the drawings

Fig. 1 is a kind of structural representation for shift register that the embodiment of the present invention one is provided；

Fig. 2 is a kind of structural representation for shift register that the embodiment of the present invention two is provided；

Fig. 3 carries out the schematic diagram of forward scan for the shift register in Fig. 2 in the first mode；

Fig. 4 carries out the schematic diagram of forward scan for the shift register in Fig. 2 in the second mode；

Fig. 5 is the schematic diagram not compensated to pull-up node；

Fig. 6 is a kind of structural representation for shift register that the embodiment of the present invention three is provided；

Fig. 7 is a kind of structural representation for gate driving circuit that the embodiment of the present invention four is provided.

Embodiment

To make those skilled in the art more fully understand technical scheme, the present invention is carried below in conjunction with the accompanying drawings Shift register and its driving method, the gate driving circuit and display device of confession are described in detail.

Fig. 1 is a kind of structural representation for shift register that the embodiment of the present invention one is provided, as shown in figure 1, the displacement Register includes：Pre-charge module 1, reseting module 2, pull-up control module 3 and put module 4 of making an uproar, pre-charge module 1 is connected to multiple Position module 2 and pull-up node PU, reseting module 2 are connected to pull-up node PU, put make an uproar module 4 and output end Output, pull-up control Molding block 3 is connected to pull-up node PU, puts make an uproar module 4 and output end Output, puts module 4 of making an uproar and is connected to output end Output.

Pre-charge module 1 is used to charge for pull-up node in pre-charging stage.Putting module 4 of making an uproar is used in the touch-control stage to defeated Go out to hold progress to put to make an uproar.Pulling up control module 3 is used to pull up pull-up node PU current potential and defeated by output end in the output stage Go out drive signal.Reseting module 2 is used to reset pull-up node PU and output end Output in reseting stage, and is putting Stage of making an uproar to pull-up node PU and output end Output put making an uproar.

Further, the shift register also includes：Compensating module 5, compensating module 5 is connected to pull-up node PU, compensation Module 5 is used to charge for pull-up node in the touch-control stage.

Further, the shift register also includes：Control module 6 is pulled down, drop-down control module is connected to pull-up node PU and pull-down node PD, reseting module 2 is additionally coupled to pull-down node PD.Pulling down control module 6 is used for pull-down node PD electricity Position is dragged down.

The shift register that the present embodiment is provided includes pre-charge module, reseting module, pull-up control module and puts mould of making an uproar Block, wherein, put module of making an uproar output end is carried out in the touch-control stage to put and make an uproar, it is to avoid the drive signal of output end output is believed touch-control Number interference so that the touch controllable function for avoiding display device is affected.

Fig. 2 is a kind of structural representation for shift register that the embodiment of the present invention two is provided, as shown in Fig. 2 the displacement Register is on the basis of above-described embodiment one, and pre-charge module 1 includes first switch pipe M1, first switch pipe M1 control pole With signal input part Input connections, first switch pipe M1 the first pole and the connection of the first power supply, first switch pipe M1 the second pole With pull-up node PU connections.

In the present embodiment, reseting module 2 includes：Second switch pipe M2, the 4th switching tube M4, the 7th switching tube M7, the 8th Switching tube M8, the 9th switching tube M9 and the tenth switching tube M10.Second switch pipe M2 control pole and reset signal end RESET connects Connect, second switch pipe M2 the first pole is connected with pull-up node PU, second switch pipe M2 the second pole is connected with second source；The Four switching tube M4 control pole is connected with pull-down node PD, the 4th switching tube M4 the first pole and pull-up control module 3, output end Output and put hot-tempered module 4 and connect, the 4th switching tube M4 the second pole and the 3rd power supply and put module 4 of making an uproar and be connected；7th switch Pipe M7 control pole is connected with pull-up node PU, the 7th switching tube M7 the first pole and the 8th switching tube M8 control pole and the 9th Switching tube M9 the second pole connection, the 7th switching tube M7 the second pole is connected with the 3rd power supply；8th switching tube M8 control pole It is connected with the 9th switching tube M9 the second pole, the 8th switching tube M8 the first pole and the 4th power supply and the 9th switching tube M9 control Pole is connected, and the 8th switching tube M8 the second pole is connected with pull-down node PD；9th switching tube M9 control pole and the 9th switching tube M9 the first pole and the connection of the 4th power supply；Tenth switching tube M10 control pole is connected with pull-down node PD, the tenth switching tube M10 The first pole be connected with pull-up node PU, the tenth switching tube M10 the second pole is connected with the 3rd power supply.

In the present embodiment, pull-up control module 3 includes：3rd switching tube M3 and electric capacity C1.3rd switching tube M3 control Pole is connected with pull-up node PU, and the 3rd switching tube M3 the first pole is connected with clock signal terminal, the 3rd switching tube M3 the second pole With electric capacity C1 the second end, output end Output and putting module 5 of making an uproar and being connected；Electric capacity C1 first end is connected with pull-up node PU, Electric capacity C1 the second end and output end Output, reseting module 2 and put module 5 of making an uproar and be connected.

In the present embodiment, putting module 4 of making an uproar includes：5th switching tube M5, the 5th switching tube M5 control pole and Switching Power Supply SW connections, the 5th switching tube M5 the first pole is connected with reseting module 2, output end Output and pull-up control module 3, and the 5th opens The second pole for closing pipe M5 is connected with the power supply of reseting module 2 and the 3rd.

In the present embodiment, compensating module 5 includes：11st switching tube M11, the 12nd switching tube M12 and the 13rd switch Pipe M13.11st switching tube M11 control pole and the 12nd switching tube M12 the second pole and the first of the 13rd switching tube M13 Pole is connected, and the 11st switching tube M11 the first pole is connected with Switching Power Supply SW and the 12nd switching tube M12 the first pole, and the tenth One switching tube M11 the second pole is connected with pull-up node PU；12nd switching tube M12 control pole is connected with pull-up node PU, 12nd switching tube M12 the first pole is connected with Switching Power Supply SW, the 12nd switch M12 the second pole and the 13rd switching tube M13 the first pole connection；13rd switching tube M13 control pole is connected with pull-down node PD, and the second of the 13rd switching tube M13 Pole is connected with the 3rd power supply.

In the present embodiment, drop-down control module 6 includes：6th switching tube M6.6th switching tube M6 control pole and pull-up Node PU connections, the 6th switching tube M6 the first pole is connected with pull-down node PD, the 6th switching tube M6 the second pole and the 3rd electricity Source is connected.

Specifically, the second of the 4th switching tube M4 the first pole and the 5th switching tube M5 the first pole and the 3rd switching tube M3 Pole, electric capacity C1 the second end and output end Output connections, the 4th switching tube M4 the second pole and the second of the 5th switching tube M5 Pole and the connection of the 3rd power supply.Tenth switching tube M10 control pole is connected to pull-down node PD.3rd switching tube M3 the second pole with 4th switching tube M4 the first pole, the 5th switching tube M5 the first pole, electric capacity C1 the second end and output end Output connections.Electricity The second end for holding C1 is connected with the 4th switching tube M4 the first pole, the 5th switching tube M5 the first pole and output end Output.

It is described in detail below by the course of work of Fig. 3 to Fig. 5 shift registers provided the present embodiment.

Shift register can form gate driving circuit by way of cascade in the present embodiment.Displacement is posted in the present embodiment Storage can realize the raster data model process of both of which.

Fig. 3 carries out the schematic diagram of forward scan for the shift register in Fig. 2 in the first mode, with reference to Fig. 2 and Fig. 3 Shown, the first pattern is compatibility mode, and this kind of pattern is divided into pre-charging stage, output stage, reseting stage and put the stage of making an uproar.

In pre-charging stage, first switch pipe M1 is led under the control of signal input part Input (N) input signals exported It is logical, wherein, the input signal of signal input part Input (N) outputs is the output end Output (N-1) of upper level shift register The output signal of output, the output signal of output end Output (N-1) outputs of upper level shift register is high level signal. The clock signal clk of clock signal terminal output is low level signal, and because first switch pipe M1 is turned on, therefore the first power supply passes through First switch pipe M1 charges to electric capacity C1 so that pull-up node PU voltage high, and the voltage of now the first power supply output is electricity VDD is pressed, the voltage VDD of the first power supply output is high level.3rd switching tube M3, the 6th switching tube M6 and the 7th switching tube M7 exist Turned under the control of PU voltage, now the voltage of PU points is high level.7th switching tube M7 is turned on so that the 8th switching tube M8 Grid voltage be the 3rd power supply export voltage VGL, the control for the voltage VGL that the 8th switching tube M8 is exported in the 3rd power supply Lower to close, now, the voltage VGL of the 3rd power supply output is low level.6th switching tube M6 is turned on so that pull-down node PD electricity The voltage exported for the 3rd power supply is pressed, because the voltage VGL that the 3rd power supply is exported is low level, therefore pull-down node PD voltage For low level, the 4th switching tube M4 and the tenth switching tube M10 are closed under the control of pull-down node PD voltage.5th switching tube M5 is closed under the control of the Switching Power Supply SW voltages exported, and the voltage of now Switching Power Supply SW outputs is low level.4th opens Close pipe M4, the 5th switching tube M5 and the tenth switching tube M10 to close, so as to ensure that output end Output signal stabilization is defeated Go out.

In the output stage, the 5th switching tube M5 is closed under the control of the Switching Power Supply SW voltages exported, now switchs electricity The voltage of source SW outputs is low level.12nd switching tube M12 is turned under the control of pull-up node PU voltage, then and the ten one Switching tube M11 is closed under the control of the Switching Power Supply SW voltages exported, voltages of the 13rd switching tube M13 in pull-down node PD Control under close, now pull-down node PD output voltage be low level.Now, first switch pipe M1 is in signal input part Closed under the control of the input signal of Input (N) outputs, wherein, the input signal of signal input part Input (N) outputs is upper The output signal of output end Output (N-1) outputs of one-level shift register, the output end of upper level shift register The output signal of Output (N-1) outputs is low level signal.Pull-up node PU voltage keeps high level, therefore the 3rd switch Pipe M3 is held under the control of pull-up node PU voltage.Now, because the clock signal output terminal CLK clocks exported are believed Number be high level, therefore pull-up node PU voltage in the presence of bootstrap effect (bootstrapping) voltage be exaggerated, most After realize to output end Output transmit drive signal, for output end Output output drive signals.Now, the 6th switching tube M6 and the 7th switching tube M7 are still within conducting state under the control of the voltage of PU points so that the 4th switching tube M4 and the tenth is opened Close pipe M10 and be still within closed mode, and the 5th switching tube M5 is still within the control of the Switching Power Supply SW voltages exported Closed mode, so as to ensure that output end Output signal stabilization output.

In reseting stage, second switch pipe M2 is turned under the control of the reset signal end RESET reset signals exported, its In, the reset signal of reset signal end RESET outputs is the defeated of output end Output (N+1) outputs of next stage shift register Go out signal, the output signal of output end Output (N+1) outputs of next stage shift register is high level signal.Second switch After pipe M2 conductings, it is defeated that pull-up node PU voltage is pulled low to second source under the influence of the voltage VSS that second source is exported The voltage gone out, now because the voltage VSS that second source is exported is low level, then pull-up node PU voltage is low level, from And the 3rd switching tube M3, the 6th switching tube M6 and the 7th switching tube M7 are closed.9th switching tube M9 and the 8th switching tube M8 Turned under the control for the voltage VGH that the 4th power supply is exported, the voltage VGH of the 4th power supply output is high level, so that under Node PD voltage is drawn to be driven high, pull-down node PD voltage is high level.4th switching tube M4 and the tenth switching tube M10 are under Draw and turned under node PD control, pull-up node PU voltage is pulled low into the 3rd power supply by the tenth switching tube M10 exports Voltage VGL and by output end Output voltage by the 4th switching tube M4 be pulled low to the 3rd power supply export voltage VGL, The voltage VGL of 3rd power supply output is low level.

Putting the stage of making an uproar, output end Output no signals output, first switch pipe M1 is remained off.8th switching tube M8 and the 9th switching tube M9 are tended to remain on so that pull-down node PD voltage is protected when output end Output no signals are exported High level, the 4th switching tube M4 and the tenth switching tube M10 conductings are held, the tenth switching tube M10 is constantly put to pull-up node PU Make an uproar, the 4th switching tube M4 constantly carries out putting and making an uproar to output end Output, it is above-mentioned put the process of making an uproar and may be such that produced by clock signal terminal Coupled noise (Coupling Noise) be eliminated, so as to ensure that the stability of signal output.

Before next frame picture is shown to and, the gate shift register repeats to put always the stage of making an uproar and constantly put making an uproar Processing.Before the display of present frame picture terminates to next frame picture to arrive, i.e.,：Field blanking (V-Blank) stage, the 5th switch Pipe M5 is turned under the control of the Switching Power Supply SW voltages exported, output end Output put to make an uproar, now Switching Power Supply SW The voltage of output is high level.But because pull-up node PU voltage is low level, then the 12nd switching tube M12 is saved in pull-up Closed under the control of point PU voltage, so that the 11st switching tube M11 and the 13rd switching tube M13 are also switched off；Due to drop-down section Point PD voltage is high level, then the 13rd switching tube M13 is turned under the control of pull-down node PD voltage.Open when the 13rd When closing pipe M13 conducting, because the 13rd switching tube M13 the second pole is connected to the 3rd power supply, and the voltage of the 3rd power supply output VGL is low level, therefore the 13rd switching tube M13 can be discharged 11 switching tube M11 and the 12nd switching tube M12 to incite somebody to action Unnecessary electric charge export, effectively reduce the coupled capacitor between Switching Power Supply SW and pull-up node PU, it is to avoid by other rows Pull-up node PU voltage high caused by influence the problem of other rows are shown, so as to improve display quality.Wherein, when Need perform touch controllable function when, can also blanking period on the scene realize touch-control process, due to the field blanking stage constantly to output end Output put making an uproar, therefore can avoid interference of the drive signal that output end is exported to touching signals.As shown in the above, Compatibility mode can be used for the field blanking pattern for carrying out touch-control in the field blanking stage.In addition, when display device does not perform above-mentioned touch-control During the stage, compatibility mode can be also used for the display pattern without touch-control.To sum up, the compatible display pattern of compatibility mode and field Blanking pattern, therefore the raster data model of the field blanking of the compatibility mode compatible traditional raster data model pattern and embedded touch Pattern.This stage is not specifically illustrated in figure.

Fig. 4 carries out the schematic diagram of forward scan for the shift register in Fig. 2 in the second mode, with reference to Fig. 2 and Fig. 4 Shown, second of pattern is horizontal blanking (H-Blank) pattern, and this kind of pattern includes pre-charging stage, touch-control stage, output rank Section, reseting stage and put the stage of making an uproar.

In pre-charging stage, first switch pipe M1 is led under the control of signal input part Input (N) input signals exported It is logical, wherein, the input signal of signal input part Input (N) outputs is the output end Output (N-1) of upper level shift register The output signal of output, the output signal of output end Output (N-1) outputs of upper level shift register is high level signal. The clock signal clk of clock signal terminal output is low level signal, and because first switch pipe M1 is turned on, therefore the first power supply passes through First switch pipe M1 charges to electric capacity C1 so that pull-up node PU voltage high, and the voltage of now the first power supply output is electricity VDD is pressed, the voltage VDD of the first power supply output is high level.3rd switching tube M3, the 6th switching tube M6 and the 7th switching tube M7 exist Turned under the control of PU voltage, now the voltage of PU points is high level.7th switching tube M7 is turned on so that the 8th switching tube M8 Grid voltage be the 3rd power supply export voltage VGL, the control for the voltage VGL that the 8th switching tube M8 is exported in the 3rd power supply Lower to close, now, the voltage VGL of the 3rd power supply output is low level.6th switching tube M6 is turned on so that pull-down node PD electricity The voltage VGL exported for the 3rd power supply is pressed, because the voltage VGL that the 3rd power supply is exported is low level, therefore pull-down node PD Voltage is low level, and the 4th switching tube M4 and the tenth switching tube M10 are closed under the control of pull-down node PD voltage.5th opens Close pipe M5 to close under the control of the Switching Power Supply SW voltages exported, the voltage of now Switching Power Supply SW outputs is low level.The Four switching tube M4, the 5th switching tube M5 and the tenth switching tube M10 are closed, so as to ensure that output end Output signal stabilization Output.

In the touch-control stage, i.e.,：During the horizontal blanking stage, pull-up node PU voltage continues to keep high voltage, the 12nd switch Pipe M12 is turned under the control of pull-up node PU voltage, and the voltage of Switching Power Supply SW outputs is high level, the 11st switching tube M11 is turned under the control of the Switching Power Supply SW voltages exported；Controls of the 13rd switching tube M13 in pull-down node PD voltage Lower to close, now pull-down node PD voltage is low level.The voltage of Switching Power Supply SW outputs is high level, the 5th switching tube M5 Turned under the control of the Switching Power Supply SW voltages exported, output end Output (N) put to make an uproar so that output end Output (N) exported without drive signal, it is to avoid interference of the drive signal to touching signals, so as to ensure that touch controllable function.Due to the tenth One switching tube M11 is turned on, therefore Switching Power Supply SW can carry out boost charge to pull-up node PU so that pull-up node PU voltage In high level and it will not reduce.Because Switching Power Supply SW is only saved by mono- switching tube of the 11st switching tube M11 to pull-up Point PU is charged, so as to cause the charging effect of compensating module good.Fig. 5 is the schematic diagram not compensated to pull-up node, As shown in figure 5, because there is leaky in second switch pipe M2 and the tenth switching tube M10, if therefore not entering to pull-up node PU Row boost charge, then can drag down pull-up node PU voltage, cause pull-up node PU voltage and reduce, so after touch-control terminates The problem of no drive signal output or too low drive signal output voltage occurs.Contrast above-mentioned Fig. 4 and Fig. 5 can be seen that In Fig. 4 after pull-up node PU progress boost charge so that pull-up node PU voltage is in high level and will not reduced.Together When low level is in due to the voltage of the pull-up node PU in the corresponding shift register of other rows, therefore do not interfere with other The follow-up work of the corresponding shift register of row.

In the output stage, the 5th switching tube M5 is closed under the control of the Switching Power Supply SW voltages exported, now switchs electricity The voltage of source SW outputs is low level.12nd switching tube M12 is turned under the control of pull-up node PU voltage, then and the ten one Switching tube M11 is closed under the control of the Switching Power Supply SW voltages exported；Voltages of the 13rd switching tube M13 in pull-down node PD Control under close, now pull-down node PD voltage be low level.Now, first switch pipe M1 is in signal input part Input (N) closed under the control of the input signal of output, wherein, the input signal of signal input part Input (N) outputs is moved for upper level The output signal of output end Output (N-1) outputs of bit register, the output end Output (N-1) of upper level shift register The output signal of output is low level signal.Pull-up node PU voltage keeps high level, therefore the 3rd switching tube M3 is in pull-up It is held under the control of node PU voltage.Now, because the clock signal output terminal CLK clock signals exported are high electricity It is flat, thus pull-up node PU voltage in the presence of bootstrap effect (bootstrapping) voltage be exaggerated, finally realize to Output end Output transmits drive signal, for output end Output output drive signals.Now, the 6th switching tube M6 and the 7th Switching tube M7 is still within conducting state under the control of the voltage of PU points so that the 4th switching tube M4 and the tenth switching tube M10 Closed mode is still within, and the 5th switching tube M5 is still within closing shape under the control of the Switching Power Supply SW voltages exported State, so as to ensure that output end Output signal stabilization output.

In reseting stage, second switch pipe M2 is turned under the control of the reset signal end RESET reset signals exported, its In, the reset signal of reset signal end RESET outputs is the defeated of output end Output (N+1) outputs of next stage shift register Go out signal, the output signal of output end Output (N+1) outputs of next stage shift register is high level signal.Second switch After pipe M2 conductings, pull-up node PU voltage is pulled low to second source output under the influence of the voltage that second source is exported Voltage VSS, now because the voltage VSS that second source is exported is low level, then pull-up node PU voltage is low level, so that So that the 3rd switching tube M3, the 6th switching tube M6 and the 7th switching tube M7 are closed.9th switching tube M9 and the 8th switching tube M8 exist Turned under the voltage VGH of 4th power supply output control, the voltage VGH of the 4th power supply output is high level, so that drop-down Node PD voltage is driven high, and pull-down node PD voltage is high level.4th switching tube M4 and the tenth switching tube M10 is in drop-down Turned under node PD control, pull-up node PU voltage is pulled low to what the 3rd power supply was exported by the tenth switching tube M10 Voltage and the voltage that output end Output voltage is pulled low to the output of the 3rd power supply by the 4th switching tube M4, the 3rd power supply The voltage of output is low level.

Putting the stage of making an uproar, output end Output no signals output, first switch pipe M1 is remained off.8th switching tube M8 and the 9th switching tube M9 are tended to remain on so that pull-down node PD voltage is protected when output end Output no signals are exported High level, the 4th switching tube M4 and the tenth switching tube M10 conductings are held, the tenth switching tube M10 is constantly put to pull-up node PU Make an uproar, the 4th switching tube M4 constantly carries out putting and making an uproar to output end Output, it is above-mentioned put the process of making an uproar and may be such that produced by clock signal terminal Coupling noises be eliminated, so as to ensure that the stability of signal output.

Before next frame picture is shown to and, the gate shift register repeats to put always the stage of making an uproar and constantly put making an uproar Processing.Before the display of present frame picture terminates to next frame picture to arrive, i.e.,：Blanking period on the scene, the 5th switching tube M5 exists Turned under the control of the voltage of Switching Power Supply SW outputs, output end Output put to make an uproar, now Switching Power Supply SW outputs Voltage is high level.But because pull-up node PU voltage is low level, electricity of the 12nd switching tube M12 in pull-up node PU Closed under the control of pressure, so that the 11st switching tube M11 is also switched off.Because pull-down node PD voltage is high level, then the tenth Three switching tube M13 are turned under the control of pull-down node PD voltage.When the 13rd switching tube M13 is turned on, due to the 13rd Switching tube M13 the second pole is connected to the 3rd power supply, and the voltage VGL of the 3rd power supply output is low level, therefore the 13rd opens Closing pipe M13 can be discharged 11 switching tube M11 and the 12nd switching tube M12, by unnecessary electric charge export, effectively to reduce Coupled capacitor between Switching Power Supply SW and pull-up node PU, it is to avoid by the pull-up node PU of other rows voltage high The problem of caused other rows of influence are shown, so as to improve display quality.The horizontal blanking pattern can be applied to embedded touch Horizontal blanking raster data model pattern.This stage is not specifically illustrated in figure.

It should be noted that：As shown in Figure 4 and Figure 5, some horizontal blanking stage during display realizes touch-control work( Can, then continue executing with display process.To be set between first display sweep phase in Fig. 4 and second display sweep phase It is described exemplified by first touch-control stage, performs above-mentioned pre-charging stage in first display sweep phase, then enter The horizontal blanking stage after sweep phase is shown for the first time, and first touch-control stage, touch-control stage are performed in the horizontal blanking stage Second display sweep phase is continued executing with after end, above-mentioned output stage, reset are performed in second display sweep phase Stage and put the stage of making an uproar.

In the shift register that the present embodiment is provided, put module of making an uproar and output end put in the touch-control stage to make an uproar, it is to avoid Interference of the drive signal of output end output to touching signals, so that the touch controllable function for avoiding display device is affected；Mend Repay module to charge to pull-up node in the touch-control stage, it is ensured that the voltage of pull-up node will not be reduced, so as to avoid Touch-control occur after terminating without drive signal output or drive signal output voltage it is too low the problem of.In the present embodiment, compensation The 11st switching tube of setting, three switching tubes of the 12nd switching tube and the 13rd switching tube in module, and the 13rd switching tube Second pole is connected to the 3rd power supply, effectively reduce the coupled capacitor between Switching Power Supply and pull-up node, it is to avoid will be other The problem of other rows are shown is influenceed caused by the voltage high of capable pull-up node, so as to improve display quality.

The shift register that the embodiment of the present invention three is provided in a kind of shift register, the present embodiment can also be carried out instead To scanning.When carrying out forward scan and reverse scan, the structure of shift register cell is not changed, and simply signal is inputted End and the function at reset signal end change, so that the in the first switch pipe and reseting module in pre-charge module The function of two switching tubes is exchanged.Specifically, when forward scan, the voltage VDD of the first power supply output is high level, second The voltage VSS of power supply output is low level；When reverse scan, the voltage VSS of the first power supply output is low level, second source The voltage VDD of output is high level, and signal input part Input during forward scan is used as reset signal end during reverse scan RESET, and the signal input part Input of reset signal end RESET during forward scan when being then used as reverse scan.Fig. 6 is this The structural representation for a kind of shift register that inventive embodiments three are provided, as shown in fig. 6, the shift register is in above-mentioned implementation On the basis of example one, pre-charge module 1 includes second switch pipe M2, second switch pipe M2 control pole and reset signal end RESET connections, second switch pipe M2 the first pole and pull-up node PU connections, second switch pipe M2 the second pole and second source Connection.

In the present embodiment, reseting module 2 includes：First switch pipe M1, the 4th switching tube M4, the 7th switching tube M7, the 8th Switching tube M8, the 9th switching tube M9 and the tenth switching tube M10.First switch pipe M1 control pole and signal input part Input connects Connect, first switch pipe M1 the first pole is connected with the first power supply, first switch pipe M1 the second pole is connected with pull-up node PU.

The annexation of the structure of remaining in the present embodiment is identical with embodiment one, and description is not repeated herein.

Shift register can form gate driving circuit by way of cascade in the present embodiment.Displacement is posted in the present embodiment Storage can realize the raster data model process of both of which.The first pattern be compatibility mode, this kind of pattern be divided into pre-charging stage, Output stage, reseting stage and put the stage of making an uproar.

In pre-charging stage, second switch pipe M2 is turned under the control of the reset signal end RESET reset signals exported, Wherein, the reset signal of reset signal end RESET outputs exports for the output end Output (N+1) of next stage shift register Output signal, the output signal of output end Output (N+1) outputs of next stage shift register is high level signal.Clock is believed The clock signal clk of number end output is low level signal, and due to second switch pipe M2 conductings, therefore second source opens by second Close pipe M2 to charge to electric capacity C1 so that pull-up node PU voltage high, the voltage of now second source output is voltage VDD, The voltage VDD of second source output is high level.The course of work of other structures can be found in above-described embodiment in pre-charging stage One, description is not repeated herein.

In the output stage, second switch pipe M2 is closed under the control of the reset signal end RESET reset signals exported, its In, the reset signal of reset signal end RESET outputs is the defeated of output end Output (N+1) outputs of next stage shift register Go out signal, the output signal of output end Output (N+1) outputs of next stage shift register is low level signal.The output stage The course of work of middle other structures can be found in above-described embodiment one, and description is not repeated herein.

In reseting stage, first switch pipe M1 is led under the control of signal input part Input (N) input signals exported It is logical, wherein, the input signal of signal input part Input (N) outputs is the output end Output (N-1) of upper level shift register The output signal of output, the output signal of output end Output (N-1) outputs of upper level shift register is high level signal. After first switch pipe M1 conductings, pull-up node PU voltage is pulled low to the first electricity under the influence of the voltage that the first power supply is exported The voltage VSS of source output, now because the voltage VSS that the first power supply is exported is low level, then pull-up node PU voltage is low Level, so that the 3rd switching tube M3, the 6th switching tube M6 and the 7th switching tube M7 are closed.Other structures in reseting stage The course of work can be found in above-described embodiment one, and description is not repeated herein.

The course of work of reseting stage can be found in above-described embodiment one, and description is not repeated herein.

Before next frame picture is shown to and, the gate shift register repeats to put always the stage of making an uproar and constantly put making an uproar Processing.Before the display of present frame picture terminates to next frame picture to arrive, i.e.,：Blanking period on the scene, the 5th switching tube M5 is being opened Turned under the control of the voltage of powered-down source SW outputs, output end Output put to make an uproar, the electricity of now Switching Power Supply SW outputs Press as high level.But because pull-up node PU voltage is low level, then electricity of the 12nd switching tube M12 in pull-up node PU Closed under the control of pressure, so that the 11st switching tube M11 is also switched off；Because pull-down node PD voltage is high level, then the tenth Three switching tube M13 are turned under the control of pull-down node PD voltage.Wherein, can also be on the scene when needing to perform touch controllable function Blanking period realizes touch-control process, because the field blanking stage constantly to output end Output put making an uproar, therefore can avoid output Hold interference of the drive signal of output to touching signals.As shown in the above, compatibility mode can be used for the field blanking stage and enter The field blanking pattern of row touch-control.In addition, when display device does not perform the above-mentioned touch-control stage, compatibility mode can be also used for enter The display pattern of row touch-control.To sum up, the compatible display pattern of compatibility mode and field blanking pattern, therefore the compatibility mode is compatible The raster data model pattern of the field blanking of traditional raster data model pattern and embedded touch.

Second of pattern is horizontal blanking pattern, and this kind of pattern includes pre-charging stage, touch-control stage, output stage, reset Stage and put the stage of making an uproar.Under such a pattern, pre-charging stage, the output stage, reseting stage and put the course of work in the stage of making an uproar with The first pattern is identical, and description is not repeated herein.And the touch-control stage in the present embodiment and the difference of above-described embodiment one exist In：Because there is leaky in first switch pipe M1 and the tenth switching tube M10, it is therefore desirable to carry out supplement to pull-up node PU and fill Electricity, remaining description and a kind of identical of embodiment, are not repeated to describe herein.

Before next frame picture is shown to and, the gate shift register repeats to put always the stage of making an uproar and constantly put making an uproar Processing.Before the display of present frame picture terminates to next frame picture to arrive, i.e.,：Blanking period on the scene, the 5th switching tube M5 exists Turned under the control of the voltage of Switching Power Supply SW outputs, output end Output put to make an uproar, now Switching Power Supply SW outputs Voltage is high level.But because pull-up node PU voltage is low level, electricity of the 12nd switching tube M12 in pull-up node PU Closed under the control of pressure, so that the 11st switching tube M11 is also switched off.Because pull-down node PD voltage is high level, then the tenth Three switching tube M13 are turned under the control of pull-down node PD voltage.When the 13rd switching tube M13 is turned on, due to the 13rd Switching tube M13 the second pole is connected to the 3rd power supply, and the voltage VGL of the 3rd power supply output is low level, therefore the 13rd opens Closing pipe M13 can be discharged 11 switching tube M11 and the 12nd switching tube M12, by unnecessary electric charge export, effectively to reduce Coupled capacitor between Switching Power Supply SW and pull-up node PU, it is to avoid by the pull-up node PU of other rows voltage high The problem of caused other rows of influence are shown, so as to improve display quality.The horizontal blanking pattern can be applied to embedded touch Horizontal blanking raster data model pattern.

In the shift register that the present embodiment is provided, put module of making an uproar and output end put in the touch-control stage to make an uproar, it is to avoid Interference of the drive signal of output end output to touching signals, so that the touch controllable function for avoiding display device is affected；Mend Repay module to charge to pull-up node in the touch-control stage, it is ensured that the voltage of pull-up node will not be reduced, so as to avoid Touch-control occur after terminating without drive signal output or drive signal output voltage it is too low the problem of.In the present embodiment, compensation The 11st switching tube of setting, three switching tubes of the 12nd switching tube and the 13rd switching tube in module, and the 13rd switching tube Second pole is connected to the 3rd power supply, effectively reduce the coupled capacitor between Switching Power Supply and pull-up node, it is to avoid will be other The problem of other rows are shown is influenceed caused by the voltage high of capable pull-up node, so as to improve display quality.

Fig. 7 is a kind of structural representation for gate driving circuit that the embodiment of the present invention four is provided, as shown in fig. 7, the grid Pole drive circuit includes：The shift register of multiple cascades.

The shift register R (1) of first order input access open signal STV.Except the shift register R of the first order (1) outside, the input of the shift register of remaining every one-level is connected thereto the output end of the shift register of one-level, for example： The shift register R (N-1) of N grades of shift register R (N) N-1 grades of input Input (N) connections output end Output(N-1).The reset terminal RESET access reset signals of the shift register (not shown) of afterbody.Except last Outside the shift register of one-level, the reset terminal of the shift register of remaining every one-level connects the shift register of its next stage Output end, for example：N grades of shift register R (N) reset terminal connects N+1 grades of shift register R (N+1) output Hold Output (N+1).

Shift register in the present embodiment can use above-described embodiment one, embodiment two or embodiment three.

In the gate driving circuit that the present embodiment is provided, put module of making an uproar and output end put in the touch-control stage to make an uproar, it is to avoid Interference of the drive signal of output end output to touching signals, so that the touch controllable function for avoiding display device is affected； Compensating module is charged in the touch-control stage to pull-up node, it is ensured that the voltage of pull-up node will not be reduced, so as to avoid The problem of occurring exporting without drive signal after touch-control terminates or drive signal output voltage is too low.

The embodiment of the present invention five provides a kind of display device, and the display device includes：Gate driving circuit.The grid drives The gate driving circuit that dynamic circuit can be provided using above-described embodiment four.

In the display device that the present embodiment is provided, put module of making an uproar and output end is carried out in the touch-control stage to put and make an uproar, it is to avoid be defeated Go out interference of the drive signal of end output to touching signals, so that the touch controllable function for avoiding display device is affected；Compensation Module is charged in the touch-control stage to pull-up node, it is ensured that the voltage of pull-up node will not be reduced, and is being touched so as to avoid Control terminate after occur without drive signal output or drive signal output voltage it is too low the problem of.

The embodiment of the present invention six provides a kind of driving method of shift register, and this method includes：

Step 101, in pre-charging stage：Pre-charge module charges for pull-up node.

Step 102, output the stage：Control module is pulled up by the current potential pull-up of pull-up node and drive is exported by output end Dynamic signal.

Step 103, in reseting stage：Reseting module resets to pull-up node and output end, and is putting the stage of making an uproar Pull-up node and output end put making an uproar.

Step 104, in the touch-control stage：Module of making an uproar is put output end put to make an uproar.

Wherein, the touch-control stage is the field blanking stage.

The present embodiment provide shift register driving method can be used for driving above-described embodiment one, embodiment two or The shift register that embodiment three is provided.

In the driving method for the shift register that the present embodiment is provided, put module of making an uproar and output end is put in the touch-control stage Make an uproar, it is to avoid interference of the drive signal of output end output to touching signals, thus avoid the touch controllable function of display device by To influence；Compensating module is charged in the touch-control stage to pull-up node, it is ensured that the voltage of pull-up node will not be reduced, so that Avoid the problem of occurring exporting without drive signal after touch-control terminates or drive signal output voltage is too low.

The embodiment of the present invention seven provides a kind of driving method of shift register, and this method includes：

Step 201, in pre-charging stage：Pre-charge module charges for pull-up node.

Step 202, in the touch-control stage：Module of making an uproar is put output end put to make an uproar.

Wherein, the touch-control stage is the horizontal blanking stage.

Step 203, output the stage：Control module is pulled up by the current potential pull-up of pull-up node and drive is exported by output end Dynamic signal.

Step 204, in reseting stage：Reseting module resets to pull-up node and output end, and is putting the stage of making an uproar Pull-up node and output end put making an uproar.

The driving method for the shift register that the present embodiment is provided can be used for driving above-described embodiment one or embodiment three The shift register of offer.

In the driving method for the shift register that the present embodiment is provided, put module of making an uproar and output end is put in the touch-control stage Make an uproar, it is to avoid interference of the drive signal of output end output to touching signals, thus avoid the touch controllable function of display device by To influence；Compensating module is charged in the touch-control stage to pull-up node, it is ensured that the voltage of pull-up node will not be reduced, so that Avoid the problem of occurring exporting without drive signal after touch-control terminates or drive signal output voltage is too low.

It is understood that the principle that embodiment of above is intended to be merely illustrative of the present and the exemplary implementation that uses Mode, but the invention is not limited in this.For those skilled in the art, the essence of the present invention is not being departed from In the case of refreshing and essence, various changes and modifications can be made therein, and these variations and modifications are also considered as protection scope of the present invention.

Claims (12)

1. a kind of shift register, it is characterised in that including：Pre-charge module, reseting module, pull-up control module, compensation mould Block and module of making an uproar is put, the pre-charge module is connected to the reseting module and pull-up node, and the reseting module is connected to Draw node, put make an uproar module and output end, the pull-up control module be connected to pull-up node, it is described put make an uproar module and output end, The module of making an uproar of putting is connected to output end, and the compensating module is connected to pull-up node；The compensating module includes：11st opens Guan Guan, the 12nd switching tube and the 13rd switching tube；The control pole of 11st switching tube and the second pole of the 12nd switching tube and The first pole connection of 13rd switching tube, the first pole and the Switching Power Supply and the first pole of the 12nd switching tube of the 11st switching tube Connection, the second pole of the 11st switching tube is connected with pull-up node；The control pole of 12nd switching tube is connected with pull-up node, the First pole of 12 switching tubes is connected with Switching Power Supply, and the second pole of the 12nd switch connects with the first pole of the 13rd switching tube Connect；The control pole of 13rd switching tube is connected with pull-down node, and the second pole of the 13rd switching tube is connected with the 3rd power supply；

The pre-charge module, for being charged in pre-charging stage for pull-up node；

It is described to put module of making an uproar, for output end put in the touch-control stage making an uproar；

The pull-up control module, for pulling up and being believed by output end output driving by the current potential of pull-up node in the output stage Number；

The reseting module, for being resetted in reseting stage to pull-up node and output end, and is putting the stage of making an uproar to upper Node and output end is drawn put making an uproar；

The compensating module, for being charged in the touch-control stage for pull-up node.

2. shift register according to claim 1, it is characterised in that also include：Pull down control module, the drop-down control Molding block is connected to pull-up node, pull-down node and reseting module；

The drop-down control module, for the current potential of pull-down node to be dragged down.

3. shift register according to claim 1, it is characterised in that in forward scan, the pre-charge module bag Include first switch pipe；

Control pole and the signal input part connection of first switch pipe；

First pole of first switch pipe and the connection of the first power supply；

Second pole of first switch pipe and pull-up node connection.

4. shift register according to claim 1, it is characterised in that in forward scan, the reseting module includes： Second switch pipe, the 4th switching tube, the 7th switching tube, the 8th switching tube, the 9th switching tube and the tenth switching tube；

The control pole of second switch pipe and the connection of reset signal end, the first pole of second switch pipe are connected with pull-up node, and second Second pole of switching tube is connected with second source；

The control pole of 4th switching tube is connected with pull-down node, the first pole and pull-up control module, the output end of the 4th switching tube With put the connection of hot-tempered module, the second pole of the 4th switching tube and the 3rd power supply and put module of making an uproar and be connected；

The control pole of 7th switching tube is connected with pull-up node, the first pole of the 7th switching tube and the control pole of the 8th switching tube and The second pole connection of 9th switching tube, the second pole of the 7th switching tube is connected with the 3rd power supply；

The control pole of 8th switching tube is connected with the second pole of the 9th switching tube, the first pole of the 8th switching tube and the 4th power supply and The control pole connection of 9th switching tube, the second pole of the 8th switching tube is connected with pull-down node；

The control pole of 9th switching tube is connected with the first pole of the 9th switching tube and the 4th power supply；

The control pole of tenth switching tube is connected with pull-down node, and the first pole of the tenth switching tube is connected with pull-up node, and the tenth opens The second pole for closing pipe is connected with the 3rd power supply.

5. shift register according to claim 1, it is characterised in that in reverse scan, the pre-charge module bag Include second switch pipe；

The control pole of second switch pipe and the connection of reset signal end；

First pole of second switch pipe and pull-up node connection；

Second pole of second switch pipe and second source connection.

6. shift register according to claim 1, it is characterised in that in reverse scan, the reseting module includes： First switch pipe, the 4th switching tube, the 7th switching tube, the 8th switching tube, the 9th switching tube and the tenth switching tube；

Control pole and the signal input part connection of first switch pipe, the first pole of first switch pipe are connected with the first power supply, and first Second pole of switching tube is connected with pull-up node；

The control pole of 4th switching tube is connected with pull-down node, the first pole and pull-up control module, the output end of the 4th switching tube With put the connection of hot-tempered module, the second pole of the 4th switching tube and the 3rd power supply and put module of making an uproar and be connected；

The control pole of 7th switching tube is connected with pull-up node, the first pole of the 7th switching tube and the control pole of the 8th switching tube and The second pole connection of 9th switching tube, the second pole of the 7th switching tube is connected with the 3rd power supply；

The control pole of 8th switching tube is connected with the second pole of the 9th switching tube, the first pole of the 8th switching tube and the 4th power supply and The control pole connection of 9th switching tube, the second pole of the 8th switching tube is connected with pull-down node；

The control pole of 9th switching tube is connected with the first pole of the 9th switching tube and the 4th power supply；

The control pole of tenth switching tube is connected with pull-down node, and the first pole of the tenth switching tube is connected with pull-up node, and the tenth opens The second pole for closing pipe is connected with the 3rd power supply.

7. shift register according to claim 1, it is characterised in that the pull-up control module includes：3rd switch Pipe and electric capacity；

The control pole of 3rd switching tube is connected with pull-up node, and the first pole of the 3rd switching tube is connected with clock signal terminal, and the 3rd Second pole of switching tube and the second end of electric capacity, output end and putting is made an uproar module connection；

The first end of electric capacity is connected with pull-up node, the second end of electric capacity and output end, reseting module and is put module of making an uproar and is connected.

8. shift register according to claim 1, it is characterised in that the module of making an uproar of putting includes：5th switching tube；

The control pole of 5th switching tube is connected with Switching Power Supply, the first pole of the 5th switching tube and reseting module, output end and on Control module connection is drawn, the second pole of the 5th switching tube is connected with reseting module and the 3rd power supply.

9. shift register according to claim 2, it is characterised in that the drop-down control module includes：6th switch Pipe；

The control pole of 6th switching tube is connected with pull-up node, and the first pole of the 6th switching tube is connected with pull-down node, and the 6th opens The second pole for closing pipe is connected with the 3rd power supply.

10. a kind of gate driving circuit, including：Any described shift register of claim 1 to 9 of multiple cascades.

11. a kind of display device, it is characterised in that including：Gate driving circuit described in claim 10.

12. a kind of driving method of shift register, it is characterised in that the shift register is using described in claim 1 Shift register；The driving method includes：

In pre-charging stage：Pre-charge module charges for pull-up node；

In the touch-control stage：Put module of making an uproar output end put to make an uproar, compensating module charges for pull-up node；

In the output stage：The current potential of pull-up node is pulled up and passes through output end output drive signal by pull-up control module；

In reseting stage：Reseting module resets to pull-up node and output end, and put the stage of making an uproar to pull-up node and Output end put making an uproar.