CN206058156U - Integrated touch-control display panel and display device - Google Patents
Integrated touch-control display panel and display device Download PDFInfo
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- CN206058156U CN206058156U CN201620819373.6U CN201620819373U CN206058156U CN 206058156 U CN206058156 U CN 206058156U CN 201620819373 U CN201620819373 U CN 201620819373U CN 206058156 U CN206058156 U CN 206058156U
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Abstract
This application discloses a kind of integrated touch-control display panel and display device.Wherein, integrated touch-control display panel includes:Touch-control emission electrode array, including the touch-control emission electrode of the multiple strips for arranging in the first direction;Touch-control sensing electrod-array, including the touch-control sensing electrode of the multiple strips for arranging in a second direction;Any one touch-control sensing electrode is overlap at least in part with any one touch-control emission electrode to the orthographic projection of touch-control emission electrode array;Touch-control sensing electrode is wire mesh electrode, and each wire mesh electrode includes a plurality of metal curve.According to the scheme of the application, the resistance of touch-control sensing electrode is reduced so that integrated touch-control display panel and display device have more sensitive touch-control sensing effect.
Description
Technical field
The disclosure relates generally to display technology field, more particularly to a kind of integrated touch-control display panel and display device.
Background technology
Touch control display apparatus can detect finger in the display screen plane of touch control display apparatus by touch control electrode
Coordinate position, and according to the coordinate position being shown accordingly.
In prior art, generally using transparent conducting glass, such as ITO (tin indium oxide) is making touch control electrode.However,
Transparent conducting glass has larger resistance, causes its insufficient sensitivity in touch control detection.
Make to solve using transparent conducting glass during touch control electrode, the larger problem of resistance, a kind of existing employing
Wire mesh electrode is used as the technology of touch control electrode.
It is shown in Figure 1, it is a kind of schematic diagram of existing wire mesh electrode.Touch control electrode 110 in Fig. 1
It is made up of the metal wire for interweaving.Due to constitute touch control electrode 110 metal wire be broken line, exist in causing touch control electrode 110 compared with
More sharp keen wedge angle, and the metal wire cabling of horizontal direction is longer, so as to cause the lateral resistance of touch control electrode 110 larger.
Utility model content
In view of drawbacks described above of the prior art or deficiency, expect to provide a kind of integrated touch-control display panel and show dress
Put, to solving technical problem present in prior art.
In a first aspect, the embodiment of the present application provides a kind of integrated touch-control display panel, including touch-control emission electrode array,
Including the touch-control emission electrode of the multiple strips for arranging in the first direction;Touch-control sensing electrod-array, including arranging in a second direction
The touch-control sensing electrode of multiple strips of row;Orthographic projection from any one touch-control sensing electrode to touch-control emission electrode array with it is any
One touch-control emission electrode is overlapped at least in part;Touch-control sensing electrode is wire mesh electrode, and each wire mesh electrode includes many
Bar metal curve.
Second aspect, the embodiment of the present application additionally provide a kind of integrated touch control display apparatus, including integrated touch-control as above
Display floater.
According to the scheme of the embodiment of the present application, by as touch-control sensing electrode and metal net shaped using wire mesh electrode
Metal wire in electrode is curve, further reduces the resistance of touch-control sensing electrode so that using this kind of touch-control sensing electrode
Integrated touch-control display panel and display device there is more sensitive touch-control sensing effect.
Description of the drawings
By reading the detailed description made to non-limiting example made with reference to the following drawings, the application other
Feature, objects and advantages will become more apparent upon:
During Fig. 1 shows integrated touch-control display panel of the prior art, the schematic knot of metal net shaped touch control electrode
Composition;
During Fig. 2 shows the integrated touch-control display panel of the application, touch-control emission electrode array and touch-control sensing electrode array
The schematic diagram of the relative position relation of row;
During Fig. 3 shows the integrated touch-control display panel of the application, one embodiment of touch-control sensing electrode it is schematic
Structure chart;
Fig. 4 is the schematic diagram of a metal curve in Fig. 3;
During Fig. 5 shows the integrated touch-control display panel of the application, the signal of another embodiment of touch-control sensing electrode
Property structure chart;
During Fig. 6 shows the integrated touch-control display panel of the application, the signal of another embodiment of touch-control sensing electrode
Property structure chart;
During Fig. 7 shows the integrated touch-control display panel of the application, the signal of the further embodiment of touch-control sensing electrode
Property structure chart;
Fig. 8 shows the schematic diagram of one embodiment of the integrated touch-control display panel of the application;
Fig. 9 shows the schematic diagram of one embodiment of the integrated touch control display apparatus of the application.
Specific embodiment
With reference to the accompanying drawings and examples the application is described in further detail.It is understood that this place is retouched
The specific embodiment stated is used only for explaining relevant utility model, rather than the restriction to the utility model.Further need exist for explanation
, for the ease of description, in accompanying drawing, illustrate only the part related to utility model.
It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the application can phase
Mutually combine.Below with reference to the accompanying drawings and in conjunction with the embodiments describing the application in detail.
It is shown in Figure 2, be the application integrated touch-control display panel in, touch-control emission electrode array and touch-control sensing electricity
The schematic diagram of the relative position relation of pole array.
The integrated touch-control display panel of the application includes touch-control emission electrode array 210 and touch-control sensing electrod-array 220.
Wherein, touch-control emission electrode array 210 includes the touch-control emission electrode of the multiple strips for arranging in the first direction
211.Touch-control sensing electrod-array 220 includes the touch-control sensing electrode 221 of the multiple strips for arranging in a second direction.It is any one to touch
Control induction electrode 221 is weighed to the orthographic projection of touch-control emission electrode array 210 at least in part with any one touch-control emission electrode 211
It is folded.So, each touch-control emission electrode 211 can be overlapping with each touch-control sensing electrode 221, and in overlapping part
Form electric capacity.When the integrated touch-control display panel of the touch that finger touches the present embodiment, by detecting the electric capacity institute for changing
The position at place, can correspondingly determine touch location.
Additionally, in the integrated touch-control display panel of the application, touch-control sensing electrode 221 is wire mesh electrode, each metal
Mesh electrode includes a plurality of metal curve 2211.
The integrated touch-control display panel of the application, due to using wire mesh electrode as touch-control sensing electrode 221, it is and existing
The touch-control sensing electrode made using electro-conductive glass such as ITO in having technology is compared, and with less resistance, can improve touch-control sense
The sensitivity answered.
Further, since the touch-control sensing electrode 221 of the application includes a plurality of metal curve 2211, and 2211 phase of metal curve
For compared with metal broken line, there is no sharp keen turning, so as to can further reduce the resistance of touch-control sensing electrode.
It is shown in Figure 3, be the application integrated touch-control display panel in, the touch-control sensing electrode of one embodiment shows
Meaning property structure chart, schematic diagrams of the Fig. 4 for a wherein metal curve in the touch-control sensing electrode of Fig. 3.
Below, the touch-control sensing electrode of the present embodiment is described with reference to Fig. 3 and Fig. 4.
Touch-control sensing electrode 300 includes a plurality of metal curve 310.
Each bar metal curve 310 includes being alternately arranged and the first end to end metal circular arc 311 and the second metal circular arc
312。
As shown in figure 3, in same touch-control sensing electrode 300, adjacent two metal curves 310 can pass through directly contact
Mode realize electrical connection.
Each first metal circular arc 311 has first end 311a and the second end 311b, and each second metal circular arc 312 has the 3rd
End 312a and the 4th end 312b.
The line of first end 311a and the second end 311b of each first metal circular arc 311 on same metal curve 310 is put down
The 3rd end 312a's and the 4th end 312b of each second metal circular arc 312 of the row in first direction and on same metal curve 310
Line is parallel to first direction.As shown in figure 4, dotted line AA ' is the first end for connecting each first circular arc 311 in metal curve 310
311a, the 3rd end 312a of the second end 311b and each second circular arc 312, the line of the 4th end 312b.Due to the first circular arc 311
It is alternately arranged and joins end to end with the second circular arc 312, and first end 311a and the second end 311b of each first metal circular arc 311
3rd end 312a of each second metal circular arc 312 of the line parallel to first direction and on same metal curve 310 and the 4th end
The line of 312b is parallel to first direction, it is clear that the first end of each first metal circular arc 311 in same metal curve 310
The line of the 3rd end 312a and the 4th end 312b of the line of 311a and the second end 311b and each second metal circular arc 312 is located at
On same straight line (i.e. AA ' in Fig. 4).
Additionally, in the touch-control sensing electrode of the present embodiment, the circle of the first metal circular arc 311 on same metal curve 310
The center of circle O2 of heart O1 and the second metal circular arc 312 is located at the different both sides of the metal curve 310.
As shown in figure 4, the center of circle O1 of the first metal circular arc 311 is located at the downside of the first metal curve 310, and the second gold medal
The center of circle O2 of category circular arc 312 is located at the upside of the first metal curve 310.So, the first metal circular arc 311 can be caused
With the intersection of the second metal circular arc 312, metal curve transition more smooths, and further avoids metal curve from forming sharp keen turning
Angle, so as to further reduce the resistance of touch-control sensing electrode 310.
In some optional implementations, in same metal curve, circle that adjacent the first metal circular arc is located and
The circle that second metal circular arc is located is tangent.In these optional implementations, due to the first metal circular arc in metal curve
It is alternately arranged and end to end with the second metal circular arc, the circle and the second metal circular arc that the first adjacent metal circular arc is located is located
The point of contact of circle be the first adjacent metal circular arc and the second metal circular arc connects part.
It is shown in Figure 5, be the application integrated touch-control display panel in, another embodiment of touch-control sensing electrode
Schematic diagram.
Similar to the embodiment shown in Fig. 3, the touch-control sensing electrode of the present embodiment is similarly wire mesh electrode, and equally
Including a plurality of metal curve 510.Each bar metal curve 510 is equally included and is alternately arranged and the first end to end metal circular arc
511 and the second metal circular arc 512.
From unlike embodiment illustrated in fig. 3, in the touch-control sensing electrode of the present embodiment, in same touch-control sensing electrode
Each metal curve has the 5th end 515 and the 6th end 516, each 5th end 515 being sequentially connected in same touch-control sensing electrode
First connecting line BB ' is straightway and the second connecting line CC ' at each 6th end 516 being sequentially connected in same touch-control sensing electrode
For straightway.In other words, in the present embodiment, rising on the first direction of each metal curve in same touch-control sensing electrode
Beginning position is identical with final position.
Here, the 5th end of metal curve 510 and one of them the first metal circular arc 511 in the metal curve 510
First end overlaps.For example, it is assumed that the 5th end of metal curve 510 is the high order end of the metal curve, then, the metal curve
The circular arc of 510 leftmost sides is the first metal circular arc.Likewise, it is assumed that the 5th end of metal curve 510 be the metal curve most
Right-hand member, then, the circular arc of 510 rightmost side of metal curve is the first metal circular arc.
Additionally, in the touch-control sensing electrode of the present embodiment, the first connecting line BB ' and the second connecting line CC ' are in a second direction
Extend.So, each bar metal curve 510 in same touch-control sensing electrode can have identical length.
Additionally, as shown in figure 5, in the present embodiment, two metal curves of the arbitrary neighborhood in same touch-control sensing electrode
It is mirrored into symmetrically with regard to first direction.
In same touch-control sensing electrode, each first gold medal of the wherein metal curve in two metal curves of arbitrary neighborhood
Each first metal circular arc of another metal curve in category two metal curves of circular arc and arbitrary neighborhood is tangent.Or, it is same
In touch-control sensing electrode, each second metal circular arc of the wherein metal curve in two metal curves of arbitrary neighborhood with it is any
Each second metal circular arc of another metal curve in adjacent two metal curves is tangent.
In other words, in same touch-control sensing electrode, two metal curves of arbitrary neighborhood can pass through this two metal songs
In line, each the first metal circular arc is tangent realizing being electrically connected to each other, or, it is also possible to by this two metal curves each
Second metal circular arc is tangent realizing being electrically connected to each other.
For example, in Fig. 5, adjacent two metal curves 510,520 are in specular, and the two by the second circular arc 512,
Realize electrical connection in 522 point of contacts for contacting with each other.
Here, although it should be noted that in Fig. 5, it is right that two adjacent in a second direction metal curves 510 are mirrored into
Claim, but this is only schematic.
It is as shown in fig. 6, in the touch-control sensing electrode of another embodiment of the application, adjacent a plurality of in a second direction
Metal curve 610 can be of similar shape.In other words, in same touch-control sensing electrode, each bar metal curve 610
Translated by wherein any one metal curve 610 in a second direction and formed.In these optional implementations, adjacent two
Can be electrically connected by a plurality of connecting line 620 between metal curve 610.
It is shown in Figure 7, be the application integrated touch-control display panel in, the further embodiment of touch-control sensing electrode
Schematic diagram.
Similar to the embodiment shown in Fig. 3, the touch-control sensing electrode of the present embodiment is similarly wire mesh electrode, and equally
Including a plurality of metal curve 710.Each bar metal curve 710 is equally included and is alternately arranged and the first end to end metal circular arc
711 and the second metal circular arc 712.
From each metal curve unlike the embodiment shown in Fig. 3, in the present embodiment, in same touch-control sensing electrode
710 have the 7th end 717 and the 8th end 718.
The 3rd connecting line DD ' at each 7th end 717 being sequentially connected in same touch-control sensing electrode is for broken line and successively
The 4th connecting line EE ' for connecting each 8th end 718 in same touch-control sensing electrode is broken line.
Additionally, in the present embodiment, the 7th end 717 and this of each metal curve 710 in same touch-control sensing electrode are touched
In each metal curve 710 of control induction electrode, the first end of one of them the first metal circular arc 711 overlaps.For example, it is assumed that metal
5th end of curve 710 is the high order end of the metal curve, then, the circular arc of 710 leftmost side of metal curve is the first gold medal
Category circular arc.Likewise, it is assumed that the 5th end of metal curve 710 is the low order end of the metal curve, then, the metal curve
The circular arc of 710 rightmost sides is the first metal circular arc.
Additionally, in the touch-control sensing electrode of the present embodiment, adjacent two articles of metal curves 710 can be by a plurality of 5th connection
Line 715 is electrically connected.
In some optional implementations, the 5th connecting line 715 can be straightway.Or, it is optional at other
In implementation, the 5th connecting line can also be curve.
When the 5th connecting line is straightway, the 5th connecting line can be met with the angle α of first direction:90 ° of α <.
I other words, the 5th connecting line 715 is not perpendicular with first direction.So, can avoid the 5th connecting line 715 and therewith electricity
Two metal curves 710 of connection form excessive angle so that the 5th connecting line 715 does not excessively increase whole touch-control sensing electricity
The resistance of pole.
It should be noted that in the touch-control sensing electrode of each embodiment of the application, the first metal circular arc and the second round metal
Magnitude relationship between the radius of arc is simultaneously not limited, and in other words, the radius r1 of the first metal circular arc can be equal to the second metal
The radius r2 of circular arc;Or, the radius r1 of the first metal circular arc can be less than the radius r2 of the second metal circular arc;Or, first
The radius r1 of metal circular arc can be more than the radius r2 of the second metal circular arc.
Additionally, the touch-control sensing electrode of each embodiment of the application can be using such as nano-silver thread etc. with compared with high permeability
Metal make.
It is shown in Figure 8, it is the schematic diagram of one embodiment of the integrated touch-control display panel of the application.
In Fig. 8, integrated touch-control display panel includes the color membrane substrates 820 that array base palte 810, array base palte is oppositely arranged.
Touch-control emission electrode array comprising multiple touch-control emission electrodes 811 can be arranged on array base palte 810, and is wrapped
Touch-control sensing electrod-array containing multiple touch-control sensing electrodes 821 can be arranged on color membrane substrates 820.
In some optional implementations, touch-control sensing electrod-array may be provided at color membrane substrates 820 away from array base
The side (as shown in figure 8, touch-control sensing electrod-array is arranged on the upper surface of color membrane substrates 820) of plate 810, and touch-control transmitting electricity
Pole array can be arranged on array base palte 810 towards the side of color membrane substrates 820.
Additionally, in some optional implementations, being also formed with multi-strip scanning line on array base palte 810 and (not showing in figure
Go out) and the data wire (not shown) intersected with each scan line.Scan line and data wire have intersected to form pel array.Respectively
Scan line can be extended in a first direction, and each data wire can extend in a second direction.In other words, in these optional realization sides
In formula, the bearing of trend of touch-control emission electrode 811 is identical with the bearing of trend of data wire, and the extension of touch-control sensing electrode 821
Direction is identical with the bearing of trend of scan line.
The integrated touch-control display panel of the application also includes integrated circuit 812, a plurality of touch scanning signals line 813 and a plurality of
Touch-control sensing holding wire 822.
The connection corresponding with each touch-control emission electrode 811 of the first end of each touch scanning signals line 813, each touch scanning signals
Second end of line 813 is connected with integrated circuit 812.Similarly, the first end of each touch-control sensing holding wire 822 and each touch-control sensing
The correspondence of electrode 821 connects, and the second end of each touch-control sensing holding wire 822 is connected with integrated circuit 812.As touch-control sensing is believed
Number line 822 is arranged on color membrane substrates 820, and integrated circuit 812 is arranged on array base palte 810.In order to realize touch-control sensing
The electrical connection of holding wire 822 and integrated circuit 812, for example can be by being connected to touch-control sensing holding wire 822 and integrated circuit
FPC (flexible circuit board) 823 between 812 is forming conductive path.
Integrated circuit 812 can be used to provide touch scanning signals to each touch-control emission electrode 811 during touch-control and receive
The touch-control sensing signal of each touch-control sensing electrode 821.For example, during touch-control, integrated circuit is successively to each touch-control transmitting electricity
Pole 811 provides touch scanning signals, and while receives the touch-control sensing signal of whole touch-control sensing electrodes 821.According to tactile
The difference of the touch-control sensing signal that control induction electrode 821 is sent to integrated circuit 812, it may be determined that go out touch location.
In some optional implementations, in the integrated touch-control display panel of the application, touch-control sensing holding wire 822 can
To be arranged on same conductor layer with touch-control sensing electrode 821.Or, in other optional implementations, touch-control sensing letter
Number line can also be arranged on different conductor layers from touch-control sensing electrode.Now, each touch-control sensing holding wire can be by direct
The mode of contact is realized electrically connecting with each touch-control sensing electrode, or, it is also possible to by being opened in touch-control sensing holding wire place
Through hole on insulating barrier between conductor layer and touch-control sensing electrode place conductor layer realizes electrical connection.
In some optional implementations, in the integrated touch-control display panel of the application, each touch-control emission electrode 811 exists
Public electrode can be multiplexed with during display.In these optional implementations, integrated circuit 812 can be further used for
Public voltage signal is provided to each touch-control emission electrode 811 during display so that be formed in array base palte 810 and color membrane substrates
The electric field that the liquid crystal molecule in liquid crystal layer (not shown) between 820 can be formed in public electrode and each pixel electrode is made
Lower deflection is used, so as to realize the display of predetermined picture.
As shown in figure 9, disclosed herein as well is a kind of integrated touch control display apparatus, which may include as above integrated tactile
Control display floater.It will be appreciated by those skilled in the art that integrated touch control display apparatus are except including integrated touch-control as above
Outside display floater, some other known structures, such as back light unit can also be included.Back light unit can include light source
910 and light guide plate 920.Light source 910 can for example be arranged on the side of light guide plate 920, and light guide plate 920 receives the light of light source 910
Line is simultaneously sent to display floater.For the emphasis for not obscuring the application, no longer structure known to these further will be retouched
State.
It will be appreciated by those skilled in the art that utility model scope involved in the application, however it is not limited to above-mentioned technology
The technical scheme of the particular combination of feature, at the same should also cover without departing from the utility model conceive in the case of, by
Other technical schemes that above-mentioned technical characteristic or its equivalent feature carry out combination in any and formed.Such as features described above and the application
Disclosed in (but not limited to) there is the technical scheme that the technical characteristic of similar functions replaced mutually and formed.
Claims (19)
1. a kind of integrated touch-control display panel, it is characterised in that include:
Touch-control emission electrode array, including the touch-control emission electrode of the multiple strips for arranging in the first direction;
Touch-control sensing electrod-array, including the touch-control sensing electrode of the multiple strips for arranging in a second direction;
Any one touch-control sensing electrode is launched to the orthographic projection of the touch-control emission electrode array with any one touch-control
Electrode is overlapped at least in part;
The touch-control sensing electrode is wire mesh electrode, and each wire mesh electrode includes a plurality of metal curve.
2. integrated touch-control display panel according to claim 1, it is characterised in that:
The metal curve includes being alternately arranged and the first end to end metal circular arc and the second metal circular arc;
Each first metal circular arc has first end and the second end, and each second metal circular arc has the 3rd end and the 4th
End;
The first end of each described first metal circular arc on same metal curve and the line at the second end are parallel to the first party
To and same metal curve on each described second metal circular arc the 3rd end and the 4th end line parallel to the first party
To;
The center of circle of the first metal circular arc on same metal curve and the center of circle of the second metal circular arc are located at the metal
The different both sides of curve.
3. integrated touch-control display panel according to claim 2, it is characterised in that:
In metal curve described in same, the circle and the second metal circular arc that adjacent the first metal circular arc is located is located
Circle it is tangent.
4. integrated touch-control display panel according to claim 2, it is characterised in that:
Each described metal curve in same touch-control sensing electrode has the 5th end and the 6th end;
First connecting line at each described 5th end being sequentially connected in same touch-control sensing electrode is straightway and is sequentially connected same
Second connecting line at each described 6th end in one touch-control sensing electrode is straightway.
5. integrated touch-control display panel according to claim 4, it is characterised in that:
In the 5th end of each described metal curve and each metal curve of the touch-control sensing electrode in same touch-control sensing electrode
The first end of one of them the first metal circular arc overlaps.
6. integrated touch-control display panel according to claim 5, it is characterised in that:
First connecting line and second connecting line extend along the second direction.
7. integrated touch-control display panel according to claim 4, it is characterised in that:
In same touch-control sensing electrode, two metal curves of arbitrary neighborhood are mirrored into symmetrically with regard to the first direction.
8. integrated touch-control display panel according to claim 7, it is characterised in that:
In same touch-control sensing electrode, each first gold medal of the wherein metal curve in two metal curves of the arbitrary neighborhood
Each first metal circular arc of another metal curve in category two metal curves of circular arc and the arbitrary neighborhood is tangent;Or
In same touch-control sensing electrode, each second gold medal of the wherein metal curve in two metal curves of the arbitrary neighborhood
Each second metal circular arc of another metal curve in category two metal curves of circular arc and the arbitrary neighborhood is tangent.
9. integrated touch-control display panel according to claim 2, it is characterised in that:
Each described metal curve in same touch-control sensing electrode has the 7th end and the 8th end;
3rd connecting line at each described 7th end being sequentially connected in same touch-control sensing electrode is broken line and is sequentially connected same
4th connecting line at each described 8th end in one touch-control sensing electrode is broken line;
In the 7th end of each described metal curve and each metal curve of the touch-control sensing electrode in same touch-control sensing electrode
The first end of one of them the first metal circular arc overlaps.
10. the integrated touch-control display panel according to claim 5 or 9, it is characterised in that each touch-control sensing electrode is also
Including a plurality of 5th connecting line;
5th connecting line is straightway, bent for connecting the metal that any two adjacent in same touch-control sensing electrode
Line.
11. integrated touch-control display panels according to claim 10, it is characterised in that the connecting line and the first party
To angle α meet:
90 ° of α <.
The 12. integrated touch-control display panels according to claim 1-9 any one, it is characterised in that the integrated touch-control
Display floater also includes a plurality of touch-control sensing holding wire;
The first end of each touch-control sensing holding wire should be connected with each touch-control sensing electrode pair.
13. integrated touch-control display panels according to claim 12, it is characterised in that:
The touch-control sensing holding wire is arranged on same conductor layer with the touch-control sensing electrode.
14. integrated touch-control display panels according to claim 12, it is characterised in that include:
Array base palte, the touch-control emission electrode array are arranged on the array base palte;And
Color membrane substrates, the color membrane substrates are oppositely arranged with the array base palte, and the touch-control sensing electrod-array is arranged on
On the color membrane substrates.
15. integrated touch-control display panels according to claim 14, it is characterised in that:
The touch-control sensing electrod-array is arranged on side of the color membrane substrates away from the array base palte;
The touch-control emission electrode array is arranged on the array base palte towards the side of the color membrane substrates.
16. integrated touch-control display panels according to claim 14, it is characterised in that:
The data wire for multi-strip scanning line being also formed with the array base palte and being intersected with each scan line;
Each scan line extends along the first direction, and each data wire extends along the second direction.
17. integrated touch-control display panels according to claim 14, it is characterised in that the integrated touch-control display panel is also
Including integrated circuit and a plurality of touch scanning signals line;
The first end of each touch scanning signals line is corresponding with each touch-control emission electrode to be connected, each touch-control scanning letter
The second end connection corresponding with the integrated circuit of number line;
The second end connection corresponding with the integrated circuit of each touch-control sensing holding wire;
The integrated circuit is for each described to each touch-control emission electrode offer touch scanning signals, reception during touch-control
The touch-control sensing signal of touch-control sensing electrode.
18. integrated touch-control display panels according to claim 17, it is characterised in that:
Each touch-control emission electrode is multiplexed with public electrode during showing;
The integrated circuit is additionally operable to provide public voltage signal to each touch-control emission electrode during the display.
19. a kind of integrated touch control display apparatus, it is characterised in that include integrated tactile as described in claim 1-18 any one
Control display floater.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106293208A (en) * | 2016-07-29 | 2017-01-04 | 厦门天马微电子有限公司 | Integrated touch-control display panel and display device |
WO2018227470A1 (en) * | 2017-06-15 | 2018-12-20 | Boe Technology Group Co., Ltd. | Touch substrate, touch control display panel, and method of fabricating touch substrate |
TWI742697B (en) * | 2020-04-14 | 2021-10-11 | 大陸商宸美(廈門)光電有限公司 | Touch device, touch panel, and touch display of using the same |
-
2016
- 2016-07-29 CN CN201620819373.6U patent/CN206058156U/en active Active
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106293208A (en) * | 2016-07-29 | 2017-01-04 | 厦门天马微电子有限公司 | Integrated touch-control display panel and display device |
CN106293208B (en) * | 2016-07-29 | 2023-07-28 | 厦门天马微电子有限公司 | Integrated touch display panel and display device |
WO2018227470A1 (en) * | 2017-06-15 | 2018-12-20 | Boe Technology Group Co., Ltd. | Touch substrate, touch control display panel, and method of fabricating touch substrate |
US11385748B2 (en) | 2017-06-15 | 2022-07-12 | Boe Technology Group Co., Ltd. | Touch substrate, touch control display panel, and method of fabricating touch substrate |
TWI742697B (en) * | 2020-04-14 | 2021-10-11 | 大陸商宸美(廈門)光電有限公司 | Touch device, touch panel, and touch display of using the same |
US11226708B2 (en) | 2020-04-14 | 2022-01-18 | Tpk Advanced Solutions Inc. | Touch electrode, touch panel, and touch display of using the same |
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