CN206877300U

CN206877300U - Touch control display apparatus

Info

Publication number: CN206877300U
Application number: CN201720382623.9U
Authority: CN
Inventors: 曲孔宁; 石卫; 杨毓俊
Original assignee: Chipone Technology Beijing Co Ltd
Current assignee: Chipone Technology Beijing Co Ltd
Priority date: 2017-04-12
Filing date: 2017-04-12
Publication date: 2018-01-12
Anticipated expiration: 2027-04-12

Abstract

A kind of touch control display apparatus is disclosed, including：Touch-control display panel, including a plurality of gate line, a plurality of data lines, the pixel cell of multiple pixel regions, the Organic Light Emitting Diode of multiple pixel regions and the multiple cathode electrodes set corresponding to multiple pixel regions；Power module, it is connected with touch-control display panel, for providing first voltage and second voltage to touch-control display panel；Wherein, pixel is connected to gate line, data wire, first voltage and second voltage；Driver module, scanning signal and data-signal are provided to drive touch-control display panel to show for controlling sense channel to be connected with second voltage under dispaly state, and to touch-control display panel；Touch control detection module, for detecting the inductance capacitance of touch-control display panel by sense channel under touch-control state.OLED cathode electrode is connected by the utility model with sense channel, and sense channel is multiplexed under dispaly state and realizes display, makes touch control display apparatus more frivolous, while cost-effective.

Description

Touch control display apparatus

Technical field

It the utility model is related to and be used for capacitive sensing identification technology field, more particularly, to a kind of touch control display apparatus.

Background technology

In Display Technique, organic light emitting diode display (Organic Light Emitting Diode, OLED) With many merits such as its frivolous, active is luminous, fast-response speed, wide viewing angle, rich in color and high brightness, high-low temperature resistants by industry Boundary is known as being the third generation Display Technique after liquid crystal display (Liquid Crystal Display, LCD).Wherein, Active matrix organic light-emitting (Active Matrix OLED, AMOLED) can realize the large scale of panel, high-resolution design, As the focus of current research.

Touch module is arranged on the glass substrate upper surface of display module by present AMOLED display device mostly, and touches Control chip and display driver chip use two different chips.Due to touch module and display module separation and adopt respectively Touch-control and display are controlled with different chips, the space-consuming that result in AMOLED display device is big, thickness is larger, Yi Jicheng This height.

Utility model content

Therefore, embodiment of the present utility model provides a kind of touch control display apparatus.

According to one side of the present utility model, there is provided a kind of touch control display apparatus, including：Touch-control display panel, including A plurality of gate line, a plurality of data lines, the pixel cell of multiple pixel regions, multiple pixel regions Organic Light Emitting Diode, with And corresponding to multiple cathode electrodes that multiple pixel regions are set；Power module, be connected with the touch-control display panel, for The touch-control display panel provides first voltage and second voltage；Wherein, the pixel region is connected to the gate line, described Data wire, the first voltage and the second voltage；The multiple cathode electrode is connected with multiple sense channels；Display driving Module, for controlling the sense channel to be connected with the second voltage under dispaly state, and to the touch-control display panel Scanning signal and data-signal are provided to drive touch-control display panel to show；Touch control detection module, under touch-control state The inductance capacitance of the touch-control display panel is detected by the sense channel, the touch control display apparatus timesharing switching is described aobvious Show state and the touch-control state.

Preferably, wherein, each pixel cell includes the first transistor, second transistor and storage capacitance, wherein, it is described The gate electrode of the first transistor is connected with a gate line in the gate line, the first electrode of the first transistor and institute The a data line stated in data wire is connected, the second electrode of the first transistor and the gate electrode phase of the second transistor Even；The gate electrode of the second transistor is connected with the second electrode of the first transistor, and the first of the second transistor Electrode is connected with the first voltage, the second electrode of the second transistor and the anode phase of the Organic Light Emitting Diode Even；The storage capacitance is connected between the second electrode of the first transistor and the first voltage.

Preferably, the driver module includes：Gate drivers, for being shown under dispaly state to the touch-control Panel provides grid voltage；Source electrode driver, for providing gray scale voltage to the touch-control display panel under dispaly state.

Preferably, the touch control detection module includes：Multiplexing Unit, for controlling the sense channel under dispaly state It is connected with the second voltage；Touch control detection unit, for detecting the touch-control by the sense channel under touch-control state The inductance capacitance of display panel.

Preferably, the touch control detection unit includes amplifier, feedback capacity, feedback resistance and analog-digital converter, its In, the amplifier includes first input end, the second input and output end, first input end and is connected with drive signal, and second Input is connected with Multiplexing Unit, and output end is connected with the analog-digital converter；The feedback capacity and the feedback resistance are simultaneously Connection is connected between the second input of the amplifier and output end.

Preferably, the first input end is negative input end, and second input is positive input terminal.

Preferably, the first input end is positive input terminal, and second input is negative input end.

Preferably, the Multiplexing Unit includes first switch and second switch, wherein, the first switch is connected to described Between the second input and sense channel of amplifier；The second switch is connected to the sense channel and the second voltage Between.

Preferably, when the touch control display apparatus is in dispaly state, first switch is off state, second switch It is in the conduction state；When the touch control display apparatus is in touch-control state, first switch is in the conduction state, at second switch In off state.

Preferably, the gate drivers include：Drive element of the grid, for receiving grid malleation and grid negative pressure, and It is supplied to the touch-control display panel；First electric capacity and the second electric capacity, are connected in series in the grid malleation and the grid is born Between pressure, wherein, the node between first electric capacity and second electric capacity is connected with earth terminal.

Preferably, the gate drivers include：Drive element of the grid, for receiving grid malleation and grid negative pressure, and It is supplied to the touch-control display panel；First electric capacity and the second electric capacity, are connected in series in the grid malleation and the grid is born Between pressure, the 3rd switch, between the node and the drive signal that are connected between first electric capacity and second electric capacity； 4th switch, is connected between the node and earth terminal between first electric capacity and second electric capacity.

Preferably, when the touch control display apparatus is in dispaly state, the 3rd switch is off state, the 4th switch It is in the conduction state；When the touch control display apparatus is in touch-control state, the 3rd switch is in the conduction state, at the 4th switch In off state.

Preferably, the source electrode driver includes：Source drive unit, for generating GTG electricity corresponding with display data Pressure.

Preferably, the source electrode driver also includes：5th switch, is connected to the drive signal and the touch-control is shown Between panel；6th switch, is connected between the source drive unit and the touch-control display panel.

Preferably, when the touch control display apparatus is in dispaly state, the 5th switch is off state, the 6th switch It is in the conduction state；When the touch control display apparatus is in touch-control state, the 5th switch is in the conduction state, at the 6th switch In off state.

Preferably, the touch control display apparatus also includes：Time schedule controller, for the driver module and described Touch control detection module provides the first control signal and the second control signal respectively, wherein, first control signal is used to control The touch control display apparatus is in dispaly state；Second control signal is used to control the touch control display apparatus to be in touch-control State.

Preferably, the touch control display apparatus also includes：Signal source, for providing driving letter to the touch control detection module Number.

Preferably, the signal source is additionally operable to provide drive signal to the driver module.

Preferably, each pixel cell includes the first transistor, second transistor, third transistor and storage capacitance, its In, the gate electrode of the first transistor is connected with a gate line in the gate line, and the first of the first transistor Electrode is connected with a data line in the data wire, the second electrode of the first transistor and the second transistor Gate electrode is connected；The gate electrode of the second transistor is connected with the second electrode of the first transistor, the second transistor First electrode is connected with the second electrode of the third transistor, the second electrode of the second transistor and the organic light emission The anode of diode is connected；The gate electrode of the third transistor is connected with the 3rd control signal, and the of the third transistor One electrode is connected with the first voltage, the second electrode of the third transistor and the first electrode phase of the second transistor Even；Storage capacitance is connected between second electrode and the earth terminal of the first transistor.

Preferably, under touch-control state, pulse signal is applied at least one gate line and data wire.

Preferably, the pulse signal includes AC signal or unipolar signal.

Preferably, the AC signal includes sine wave signal or bipolar square wave signal.

Preferably, the unipolar signal includes unipolarity square-wave signal.

Touch control display apparatus and its driving method provided by the utility model, OLED cathode electrode and sense channel are connected Connect, sense channel is multiplexed under dispaly state and realizes display, make touch-control and display module be integrated together to form touch-control display mould Group, make touch control display apparatus more frivolous, at the same it is cost-effective, realize display and touch controllable function by the way of timesharing driving. Further, under touch-control state, to gate drivers and source electrode driver provide a pulse signal be applied to gate line and Data wire, with the parasitic capacitance between compensated cathode electrode and gate line, cathode electrode and data wire, improve the essence of touch control detection Degree.

Brief description of the drawings

In order to illustrate more clearly of the technical scheme of the utility model embodiment, the accompanying drawing of embodiment will be made below simple Introduce, it should be apparent that, the accompanying drawing in description below only relates to some embodiments of the utility model, rather than new to this practicality The limitation of type.

Fig. 1 shows the structural representation of the touch control display apparatus provided according to the utility model first embodiment.

Fig. 2 shows the structural representation of the touch control display apparatus provided according to the utility model second embodiment.

Fig. 3 shows the equivalent circuit diagram of the touch-control display panel provided according to the utility model embodiment.

Fig. 4 shows the circuit diagram of the touch control detection module provided according to the utility model embodiment.

Fig. 5 a and Fig. 5 b respectively illustrate the gate drivers that the utility model first embodiment and second embodiment provide Circuit diagram.

Fig. 6 a and Fig. 6 b respectively illustrate the source electrode driver that the utility model first embodiment and second embodiment provide Circuit diagram.

Fig. 7 shows the equivalent circuit diagram of another touch-control display panel provided according to the utility model embodiment；

Fig. 8 shows the signal timing diagram of the touch control display apparatus provided according to the utility model first embodiment；

Fig. 9 shows the signal timing diagram of the touch control display apparatus provided according to the utility model second embodiment；

Figure 10 shows the flow of the driving method of the touch control display apparatus provided according to the utility model 3rd embodiment Figure.

Embodiment

It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer The accompanying drawing of type embodiment, clear, complete description is carried out to the technical scheme of the utility model embodiment.Obviously described reality It is part of the embodiment of the present utility model to apply example, rather than whole embodiments.Based on described reality of the present utility model Example is applied, the every other embodiment that those of ordinary skill in the art are obtained on the premise of without creative work, is belonged to The scope of the utility model protection.

Fig. 1 shows the structure chart of the touch control display apparatus provided according to the utility model first embodiment.Fig. 3 is shown The equivalent circuit diagram of the touch-control display panel provided according to the utility model embodiment.As shown in figure 1, the touch control display apparatus Including touch-control display panel 10, driver module 20, touch control detection module 30 and power module 40.

Wherein, the touch-control display panel 10 includes a plurality of gate lines G 1-Gm, a plurality of data lines S1-Sn, multiple pixel regions The pixel cell 2 in domain 4, the Organic Light Emitting Diode OLED of multiple pixel regions 4 and is set corresponding to multiple pixel regions 4 Multiple cathode electrode (not shown)s, wherein, m, n are positive integer.Power module 40 and the touch-control display panel 10 Connection, for providing first voltage ELVDD and second voltage ELVSS to the touch-control display panel 10.Wherein, the pixel region Domain 4 is connected to the gate lines G m, the data wire Sn, the first voltage ELVDD and the second voltage ELVSS.

In the present embodiment, as shown in figure 3, the pixel region 4 of the touch-control display panel 10 includes organic light-emitting diodes Manage (OLED), and be connected to gate lines G m and data wire Sn to control OLED pixel cell 2.OLED anode is connected to picture Plain unit 2, and OLED negative electrode is connected to ground power supply ELVSS.

This OLED is in response to the light for the electric current generation predetermined luminance supplied from pixel cell 2.Pixel cell 2 is in response to sweeping Retouch and data wire Sn data-signal is supplied to when signal is supplied to gate lines G m and controls the amount for the electric current for being supplied to OLED.For This, pixel cell 2 includes being connected to second transistor T2 between first voltage ELVDD and OLED, is connected to second transistor The first transistor T1 among T2, data wire Sn and gate lines G m, and it is connected to second transistor T2 gate electrode and first Storage capacitance Cst between voltage ELVDD.

The first transistor T1 gate electrode is connected to gate lines G m, and the first transistor T1 first electrode is connected to number According to line Sn.The first transistor T1 second electrode is connected to storage capacitance Cst first terminal.The first of the first transistor T1 Electrode can be one of source electrode and drain electrode, and second electrode is the other of source electrode and drain electrode.For example, If first electrode is source electrode, second electrode is drain electrode.When supplying scanning signal from gate lines G m, grid is connected to Line Gm and data wire Sn the first transistor T1 conductings, with the data-signal to storage capacitance Cst supplies from data wire Sn supplies. Storage capacitance Cst charge to data-signal relative to voltage.

Second transistor T2 gate electrode is connected to a storage capacitance Cst terminal, and second transistor T2's The memory Cst of first electrode connection another terminal and first voltage ELVDD.Second transistor T2 second electrode is connected to OLED anode.Second transistor T2 is controlled in response to the value of the voltage stored in storage capacitance Cst and is flowed to ground via OLED The amount of face power supply ELVSS electric current.In Fig. 3 pixel region 4, OLED is produced with the electricity supplied with second transistor T2 The light of the corresponding brightness of the amount of stream.

In the present embodiment, the first transistor T1 can be PMOS transistor, or nmos pass transistor.When the first crystalline substance When body pipe T1 is PMOS transistor, when the first transistor T1 gate electrode voltage is low level, the first transistor T1 is on State, when the first transistor T1 gate electrode voltage is high level, the first transistor T1 is off state.Work as the first transistor When T1 is nmos pass transistor, when the first transistor T1 gate electrode voltage is high level, the first transistor T1 is in the conduction state, When the first transistor T1 gate electrode voltage is low level, the first transistor T1 is off state.

Second transistor T2 can be PMOS transistor, or nmos pass transistor.When second transistor T2 is PMOS During transistor, when second transistor T2 gate electrode voltage is low level, second transistor T2 is in the conduction state, the second crystal When pipe T2 gate electrode voltage is high level, second transistor T2 is off state.When second transistor T2 is NMOS crystal When Guan Shi, second transistor T2 gate electrode voltage are high level, second transistor T2 is in the conduction state, second transistor T2 Gate electrode voltage when being low level, second transistor T2 is off state.

Driver module 20 is used to provide scanning signal and data to the touch-control display panel under dispaly state Signal is to drive touch-control display panel to show.

In the present embodiment, the driver module 20 includes gate drivers 21 and source electrode driver 22.The grid Driver 21 is used to provide grid voltage to the touch-control display panel under dispaly state；The source electrode driver 22 is used for Under dispaly state gray scale voltage is provided to the touch-control display panel.

In the present embodiment, as shown in Figure 5 a, the gate drivers 21 include drive element of the grid 211, the first electric capacity C1 and the second electric capacity C2.Wherein, the drive element of the grid 211 is used to receive grid malleation and grid negative pressure, and is supplied to institute State touch-control display panel；First electric capacity C1 and the second electric capacity C2 are connected in series in the grid malleation VGH and the grid negative pressure Between VGL, wherein, the node between the first electric capacity C1 and the second electric capacity C2 is connected with earth terminal GND.

As shown in Figure 6 a, the source electrode driver 22 includes source drive unit 221, corresponding with display data for generating Gray scale voltage.

Touch control detection module 30 is used to control the cathode electrode to be multiplexed with cathode electrode under touch-control state, and detects institute State the inductance capacitance of touch-control display panel.

In the present embodiment, the touch control detection module includes touch control detection unit 31 and Multiplexing Unit 32.Wherein, it is described Multiplexing Unit 32 is used to control the cathode electrode to be multiplexed with cathode electrode；The touch control detection unit 31 is used to detect described touch Control the inductance capacitance Cs of display panel 10.

Under touch-control state, inductance capacitances of the Cs between cathode electrode and ground, Cd be cathode electrode and data wire Sn it Between parasitic capacitance, parasitic capacitances of the Cg between cathode electrode and gate lines G m.

As shown in figure 4, the touch control detection unit 31 include amplifier A1, feedback capacity Cfb, feedback resistance Rfb and Analog-digital converter ADC.Wherein, the amplifier A1 includes first input end, the second input and output end.For example, amplifier A1 can be common difference amplifier, and its first input end can be negative input end, and the second input can be positive input terminal, Vice versa.

In the present embodiment, amplifier A1 first input end is connected with drive signal VSTIM, the second input and multiplexing Unit 32 is connected, and output end is connected with the analog-digital converter ADC.The feedback capacity Cfb and feedback resistance Rfb is in parallel It is connected between the second input and the output end of the amplifier A1.

The Multiplexing Unit 32 includes first switch S1 and second switch S2.Wherein, the first switch S1 is connected to institute State between amplifier A1 the second input and sense channel Rx；The second switch S2 is connected to the sense channel Rx and institute Between stating second voltage ELVSS, wherein, the sense channel Rx is connected with the cathode electrode.

In the present embodiment, when the touch control display apparatus is in dispaly state, first switch S1 is off state, Second switch S2 is in the conduction state；When the touch control display apparatus is in touch-control state, first switch S1 is on shape State, second switch S2 are off state, are now multiplexed with cathode electrode with the sense channel Rx cathode electrodes being connected.

In a preferred embodiment, the touch control display apparatus also includes time schedule controller 50, for showing to described Show that drive module 20 and the touch control detection module 30 provide the first control signal and the second control signal.Wherein, described first Control signal is used to control the touch control display apparatus to be in dispaly state；Second control signal is used to control the touch-control Display device is in touch-control state.That is, under the first control signal, first switch S1 is off state, at second switch S2 In conducting state；Under the second control signal, first switch S1 is in the conduction state, and second switch S2 is off state.

In a preferred embodiment, the touch control display apparatus also includes signal source 60, for being examined to the touch-control Survey module 30 and drive signal VSTIM is provided.

Fig. 8 shows the signal timing diagram of the touch control display apparatus provided according to the utility model first embodiment.Such as Fig. 8 Shown, under the first control signal, the touch control display apparatus is under dispaly state, and first switch S1 is off state, Second switch S2 is in the conduction state, and now, cathode electrode is connected to second voltage ELVSS by sense channel Rx.

Under the second control signal, the touch control display apparatus is under touch-control state, and first switch S1 is on shape State, second switch S2 are off state, and now, cathode electrode is multiplexed with cathode electrode, the first input end input of amplifier Drive signal VSTIM, the electric capacity of the cathode electrode over the ground, the i.e. inductance capacitance of touch-control display panel are detected by amplifier.

It is 60Hz in this example it is shown that the refreshing frequency of state is fixed, the refreshing frequency of touch-control state can be with For 60Hz~120Hz.

The touch control display apparatus that the utility model first embodiment provides, OLED cathode electrode is answered under touch-control state With for cathode electrode, make touch-control and display module be integrated together to form touch-control display module, make touch control display apparatus lighter It is thin while cost-effective, realize display and touch controllable function by the way of timesharing driving.

Further, in order to eliminate influence of the electric leakage to touch control detection, the precision of touch control detection is improved, the second crystalline substance need to be made Body pipe T2 under touch-control state in complete switching off state, can by under touch-control state, controlling all gate lines to open, That is the first transistor T1 is turned on, and data wire S1-Sn, which connects high level or low level, turns off second transistor T2, or anode is electric Position ELVDD is reduced to realize with sense channel Rx level identical.Wherein, when second transistor T2 is PMOS transistor, Data wire S1-Sn connects high level, and when second transistor T2 is nmos pass transistor, data wire S1-Sn connects low level.It can also lead to Cross increase third transistor T3 and realize (as shown in Figure 7), wherein, the 3rd control signal TPS controls third transistor T3 in touch-control Turn off under state, turned under dispaly state.

Fig. 7 shows the equivalent circuit diagram of another touch-control display panel provided according to the utility model embodiment.Such as Fig. 7 Shown, each pixel region 4 of touch-control display panel 10 includes the first transistor T1, second transistor T2, third transistor T3 With storage capacitance Cst.The gate electrode of the first transistor T1 is connected with a gate line in the gate line, and described first Transistor T1 first electrode is connected with a data line in the data wire, the second electrode of the first transistor T1 with The gate electrode of the second transistor T2 is connected；The gate electrode of the second transistor T2 and the first transistor T1 second electrode It is connected, the first electrode of the second transistor T2 is connected with the second electrode of the third transistor T3, second crystal Pipe T2 second electrode is connected with the anode of the Organic Light Emitting Diode；The gate electrode of the third transistor T3 and the 3rd control Signal TPS processed is connected, and the first electrode of the third transistor T3 is connected with the first voltage ELVDD, the 3rd crystal Pipe T3 second electrode is connected with the first electrode of the second transistor T2；Storage capacitance Cst is connected to the first crystal Between pipe T1 second electrode and earth terminal.

Third transistor T3 can be PMOS transistor, or nmos pass transistor.When third transistor T3 is PMOS During transistor, when third transistor T3 gate electrode voltage is low level, third transistor T3 is in the conduction state, the 3rd crystal When pipe T3 gate electrode voltage is high level, third transistor T3 is off state.When third transistor T3 is NMOS crystal When Guan Shi, third transistor T3 gate electrode voltage are high level, third transistor T3 is in the conduction state, third transistor T3 Gate electrode voltage when being low level, third transistor T3 is off state.

Under dispaly state, the T3 conductings of control third transistor；Under touch-control state, the T3 shut-offs of control third transistor, Influence of the electric leakage to touch control detection can be eliminated, improves the precision of touch control detection.

Fig. 2 shows the structural representation of the touch control display apparatus provided according to the utility model second embodiment.With One embodiment is compared, and the gate drivers 21 and source electrode driver 22 of the utility model second embodiment add capacitance compensation work( Energy.Other as the utility model first embodiment, will not be repeated here.

As shown in Figure 5 b, gate drivers 21 include drive element of the grid 211, the first electric capacity C1, the second electric capacity C2, the 3rd Switch the switches of S3 and the 4th S4.Wherein, the drive element of the grid 211 is used to receive grid malleation and grid negative pressure, and provides To the touch-control display panel；First electric capacity C1 and the second electric capacity C2 are connected in series in the grid malleation VGH and the grid Between negative pressure VGL, the 3rd switch S3 is connected to node and the driving letter between first electric capacity and second electric capacity Between number；4th switch S4 is connected between the node and earth terminal between first electric capacity and second electric capacity.

In the present embodiment, when the touch control display apparatus is in dispaly state, the 3rd switch S3 is off state, 4th switch S4 is in the conduction state；When the touch control display apparatus is in touch-control state, the 3rd switch S3 is on shape State, the 4th switch S4 are off state.

As shown in Figure 6 b, the source electrode driver 22 also includes the 5th switch S5 and the 6th switch S6, the 5th switch S5 companies It is connected between the drive signal VSTIM and the touch-control display panel 10；6th switch S6 is connected to the source electrode and driven Between moving cell 221 and the touch-control display panel 10.

In the present embodiment, when the touch control display apparatus is in dispaly state, the 5th switch S5 is off state, 6th switch S6 is in the conduction state；When the touch control display apparatus is in touch-control state, the 5th switch S5 is on shape State, the 6th switch S6 are off state.

In a preferred embodiment, the signal source 60 is additionally operable to provide driving letter to the driver module 20 Number VSTIM.

In a preferred embodiment, under touch-control state, apply pulse at least one gate line and data wire Signal.

In the present embodiment, the pulse signal includes AC signal or unipolar signal.The AC signal is included just String ripple signal or bipolar square wave signal.The unipolar signal includes unipolarity square-wave signal.

Fig. 9 shows the signal timing diagram of the touch control display apparatus provided according to the utility model second embodiment.Such as Fig. 9 Shown, under the first control signal, the touch control display apparatus is under dispaly state, and first switch S1 is off state, Second switch S2 is in the conduction state, and now, cathode electrode is connected to second voltage ELVSS by sense channel Rx.

It is 60Hz in this example it is shown that the refreshing frequency of state is fixed, the refreshing frequency of touch-control state can be with For 60Hz~120Hz.Compared with the utility model first embodiment, the utility model second embodiment under touch-control state, to Gate drivers and source electrode driver provide a pulse signal and are applied to gate line and data wire, with compensated cathode electrode and grid Parasitic capacitance between line, cathode electrode and data wire, improve the precision of touch control detection.

Further, touch-control is examined in order to eliminate the parasitic capacitance between cathode electrode and anode and gate line, data wire The influence of survey, can be by the way of driving entirely.Under touch-control state, first voltage ELVDD, gate lines G 1-Gm and data wire Same pulse signal, such as square wave, sine wave are driven on S1-Sn.

Figure 10 shows the flow of the driving method of the touch control display apparatus provided according to the utility model 3rd embodiment Figure.As shown in Figure 10, the driving method comprises the following steps.

In step S01, timesharing switching dispaly state and touch-control state；

In step S02, under dispaly state, the sense channel is controlled to be connected with the second voltage, and to described Touch-control display panel provides scanning signal and data-signal to drive the touch-control display panel to show.

In step S03, under touch-control state, the induced electricity of the touch-control display panel is detected by the sense channel Hold.

In the present embodiment, by providing the first control respectively to the driver module and the touch control detection module Signal and the second control signal make touch control display apparatus be in dispaly state or touch-control state.Wherein, first control signal For controlling the touch control display apparatus to be in dispaly state；Second control signal is used to control the touch control display apparatus In touch-control state.

In the present embodiment, when the touch control display apparatus is under touch-control state, provided to the touch control detection module Drive signal is to realize touch control detection.When the touch control display apparatus is under dispaly state, carried to the driver module Shown for drive signal with realizing.The refreshing frequency of the dispaly state is 60Hz, and the refreshing frequency of the touch-control state is 60Hz~120Hz.

When the touch control display apparatus is under touch-control state, apply pulse letter at least one gate line and data wire Number, with the parasitic capacitance between compensated cathode electrode and gate line, cathode electrode and data wire.

The driving method for the touch control display apparatus that the utility model 3rd embodiment provides, by OLED cathode electrode and sense Survey passage connection, sense channel be multiplexed under dispaly state and realizes display, make touch-control and display module be integrated together to be formed it is tactile Display module is controlled, makes touch control display apparatus more frivolous, at the same it is cost-effective, display is realized by the way of timesharing driving and is touched Control function.Further, under touch-control state, provide a pulse signal to gate drivers and source electrode driver and be applied to grid Polar curve and data wire, with the parasitic capacitance between compensated cathode electrode and gate line, cathode electrode and data wire, improve touch-control inspection The precision of survey.

Described above is only exemplary embodiment of the present utility model, not for limitation protection model of the present utility model Enclose, the scope of protection of the utility model is determined by appended claim.

Claims

1. a kind of touch control display apparatus, including：

Touch-control display panel, including the pixel cell of a plurality of gate line, a plurality of data lines, multiple pixel regions, multiple pixel regions The Organic Light Emitting Diode in domain and the multiple cathode electrodes set corresponding to multiple pixel regions；

Power module, it is connected with the touch-control display panel, for providing first voltage and second to the touch-control display panel Voltage；

Wherein, the pixel region is connected to the gate line, the data wire, the first voltage and the second voltage；

The multiple cathode electrode is connected with multiple sense channels；

Driver module, for controlling the sense channel to be connected with the second voltage under dispaly state, and to described Touch-control display panel provides scanning signal and data-signal to drive touch-control display panel to show；

Touch control detection module, for detecting the induced electricity of the touch-control display panel by the sense channel under touch-control state Hold,

The touch control display apparatus timesharing switches the dispaly state and the touch-control state.

2. touch control display apparatus according to claim 1, wherein, each pixel cell includes the first transistor, the second crystalline substance Body pipe and storage capacitance, wherein,

The gate electrode of the first transistor is connected with a gate line in the gate line, and the first of the first transistor Electrode is connected with a data line in the data wire, the second electrode of the first transistor and the second transistor Gate electrode is connected；

The gate electrode of the second transistor is connected with the second electrode of the first transistor, and the first of the second transistor Electrode is connected with the first voltage, the second electrode of the second transistor and the anode phase of the Organic Light Emitting Diode Even；

The storage capacitance is connected between the second electrode of the first transistor and the first voltage.

3. touch control display apparatus according to claim 2, wherein, the driver module includes：

Gate drivers, for providing grid voltage to the touch-control display panel under dispaly state；

Source electrode driver, for providing gray scale voltage to the touch-control display panel under dispaly state.

4. touch control display apparatus according to claim 2, wherein, the touch control detection module includes：

Multiplexing Unit, for controlling the sense channel to be connected under dispaly state with the second voltage；

Touch control detection unit, for detecting the induced electricity of the touch-control display panel by the sense channel under touch-control state Hold.

5. touch control display apparatus according to claim 4, wherein, the touch control detection unit includes amplifier, feedback electricity Appearance, feedback resistance and analog-digital converter,

Wherein, the amplifier includes first input end, the second input and output end, and first input end connects with drive signal Connect, the second input is connected with Multiplexing Unit, and output end is connected with the analog-digital converter；

The feedback capacity and the feedback resistance are connected in parallel between the second input of the amplifier and output end.

6. touch control display apparatus according to claim 5, wherein, the first input end is negative input end, described second Input is positive input terminal.

7. touch control display apparatus according to claim 5, wherein, the first input end is positive input terminal, described second Input is negative input end.

8. touch control display apparatus according to claim 5, wherein, the Multiplexing Unit is opened including first switch and second Close,

Wherein, the first switch is connected between the second input of the amplifier and sense channel；

The second switch is connected between the sense channel and the second voltage.

9. touch control display apparatus according to claim 8, wherein, when the touch control display apparatus is in dispaly state, First switch is off state, and second switch is in the conduction state；

When the touch control display apparatus is in touch-control state, first switch is in the conduction state, and second switch is off shape State.

10. touch control display apparatus according to claim 3, wherein, the gate drivers include：

Drive element of the grid, for receiving grid malleation and grid negative pressure, and it is supplied to the touch-control display panel；

First electric capacity and the second electric capacity, it is connected in series between the grid malleation and the grid negative pressure,

Wherein, the node between first electric capacity and second electric capacity is connected with earth terminal.

11. touch control display apparatus according to claim 3, wherein, the gate drivers include：

3rd switch, between the node and the drive signal that are connected between first electric capacity and second electric capacity；

4th switch, is connected between the node and earth terminal between first electric capacity and second electric capacity.

12. touch control display apparatus according to claim 11, wherein, when the touch control display apparatus is in dispaly state When, the 3rd switch is off state, and the 4th switch is in the conduction state；

When the touch control display apparatus is in touch-control state, the 3rd switch is in the conduction state, and the 4th switch is off shape State.

13. touch control display apparatus according to claim 3, wherein, the source electrode driver includes：

Source drive unit, for generating gray scale voltage corresponding with display data.

14. touch control display apparatus according to claim 13, wherein, the source electrode driver also includes：

5th switch, is connected between the drive signal and the touch-control display panel；

6th switch, is connected between the source drive unit and the touch-control display panel.

15. touch control display apparatus according to claim 14, wherein, when the touch control display apparatus is in dispaly state When, the 5th switch is off state, and the 6th switch is in the conduction state；

When the touch control display apparatus is in touch-control state, the 5th switch is in the conduction state, and the 6th switch is off shape State.

16. touch control display apparatus according to claim 1, wherein, in addition to：

Time schedule controller, for the driver module and the touch control detection module provide respectively the first control signal and Second control signal, wherein, first control signal is used to control the touch control display apparatus to be in dispaly state；Described Two control signals are used to control the touch control display apparatus to be in touch-control state.

17. touch control display apparatus according to claim 2, wherein, in addition to：

Signal source, for providing drive signal to the touch control detection module.

18. touch control display apparatus according to claim 17, wherein, the signal source is additionally operable to the display driving mould Block provides drive signal.

19. touch control display apparatus according to claim 1, wherein, each pixel cell includes the first transistor, the second crystalline substance Body pipe, third transistor and storage capacitance, wherein,

The gate electrode of the second transistor is connected with the second electrode of the first transistor, the first electrode of the second transistor It is connected with the second electrode of the third transistor, the second electrode of the second transistor and the Organic Light Emitting Diode Anode is connected；

The gate electrode of the third transistor is connected with the 3rd control signal, the first electrode of the third transistor and described the One voltage is connected, and the second electrode of the third transistor is connected with the first electrode of the second transistor；

Storage capacitance is connected between second electrode and the earth terminal of the first transistor.