CN107015701A

CN107015701A - Display panel integrating touch control

Info

Publication number: CN107015701A
Application number: CN201710116704.9A
Authority: CN
Inventors: 陈志成; 郭怡辰; 刘贵文; 陈政德
Original assignee: AU Optronics Corp
Current assignee: AU Optronics Corp
Priority date: 2016-12-20
Filing date: 2017-03-01
Publication date: 2017-08-04
Anticipated expiration: 2037-03-01
Also published as: TW201823944A; CN107015701B; TWI601048B

Abstract

The invention provides a touch-control integrated display panel which is provided with a plurality of sub-pixel units, a first touch-control unit, a second touch-control unit, at least two first touch-control wires, at least two second touch-control wires, at least two third touch-control wires and at least two fourth touch-control wires. Each sub-pixel unit has at least a pixel electrode. The first touch unit is provided with a first transmission electrode and a first induction electrode. The first transmission electrode at least comprises a first sub-electrode and a plurality of second sub-electrodes which are staggered with the first sub-electrode. The first sensing electrode at least comprises a plurality of third sub-electrodes arranged in the first accommodating area. The second touch unit comprises a second transmission electrode and a second induction electrode. The second transmitting electrode at least comprises a fourth sub-electrode and a plurality of fifth sub-electrodes which are staggered with the fourth sub-electrode.

Description

Integrate the display panel of touch-control

Technical field

The present invention is on a kind of display panel, particularly a kind of display panel for integrating touch-control.

Background technology

The user interface that capacitance touch control screen collocation gesture motion differentiates, leads electronic product to import Touch Screen work( The trend of energy.The operating principle of general projected capacitive touch panel, mainly uses the touch control electrode on contact panel and people Because of capacitive sensing formed by contact between body finger or conductive body, by rear end computing, switch to be available for operating system interpretation Coordinate data.

In order to realize coordinate interpretation, in the structure of Projected capacitive touch panel, typically have individual layer or bilayer touch Electrode is controlled, is arranged in the way of axially different (such as being defined as X-axis and Y-axis) interlocks.These touch control electrodes are again via wire electricity Touch-control IC front-end circuit is connected to, using the transmission as touching signals.When not any conductive body contact, each touch-control Can all there is a fixed coupled capacitor between electrode, now the Electric Field Distribution between electrode and electrode is fixed.

Relatively conventional at present has from appearance and two kinds of judgment modes of mutual tolerance.In the online judgment mode held certainly, ideally, when User is singly to refer to or during single-point contact contact panel, while having the touch-control of the touch control electrode and a Y-axis of an X axis Electrode produces capacitance variation.Therefore, via the common factor of X-axis and Y-axis, you can obtain the coordinate position of single-point touch.But, when When referring to touching Touch Screen with two, for taking from the touch-control IC of appearance technology judgment mode, front-end circuit can have been perceived The touch control electrode of the touch control electrode of two X axis and two Y-axis produces the signal reaction of inductance capacitance change, and occurs simultaneously and produce Four touch points.Therefore, in the case of finger or multi-point touch more, front-end circuit can produce the terrible point (Ghost Points) of wrong report Situation, and the coordinate points of practical touch can not be judged.Therefore, for current technology, the sensing mode of self-tolerant is simultaneously It is not suitable for the functional requirement of true multi-point touch.

The content of the invention

The invention reside in a kind of display panel for integrating touch-control is provided, in the case where avoiding reporting ghost point by mistake, can also enter Shorten to one step the time of touch control detection.

Disclosed herein a kind of display panel for integrating touch-control, the display panel of described integration touch-control has many height Pixel cell, the first touch control unit, the second touch control unit, at least two the first touch-control cablings, at least two the second touch-control cablings, At least two article the 3rd touch-control cabling and at least two article the 4th touch-control cabling.Each sub-pixel unit at least has pixel electrode.The One touch control unit has the first carry electrode and the first induction electrode.First carry electrode comprises at least the first sub-electrode and many Individual the second sub-electrode interlocked with the first sub-electrode, to define multiple first housing regions.First induction electrode is comprised at least Multiple 3rd sub-electrodes, are arranged in the first housing region.Second touch control unit, includes the second carry electrode and the second induced electricity Pole.Second carry electrode comprises at least the 4th sub-electrode and multiple the 5th sub-electrodes interlocked with the 4th sub-electrode, to define Go out multiple second housing regions.Wherein, first area is accommodated with the second receiving area respectively with a row (column) and row (row) direction Line up a matrix.Second induction electrode comprises at least multiple 6th sub-electrodes, is arranged in the second housing region.Wherein, first Sub-electrode, the second sub-electrode at least a portion, the 3rd sub-electrode at least a portion, the 4th sub-electrode, the 5th sub-electrode at least one Part and overlapping at least one the corresponding pixel electrode of the 6th sub-electrode at least a portion difference.At least two the first touch-controls are walked Line is arranged in a column direction, to connect respectively positioned at the first odd column for accommodating area and the 3rd sub-electrode of an odd-numbered line and position In the second odd column for accommodating area and the 6th sub-electrode of odd-numbered line.At least two the second touch-control cablings are arranged in a column direction, To connect the 3rd sub-electrode positioned at the first even column for accommodating area and even number line and the even column positioned at the second receiving area respectively And the 6th sub-electrode of even number line.At least two article the 3rd touch-control cabling arranges in the row direction, to connect respectively positioned at first to hold Na Qu even column and the 3rd sub-electrode one of which of odd-numbered line and the positioned at the second even column for accommodating area and odd-numbered line Six sub-electrode one of which.At least two article the 4th touch-control cabling, is arranged in line direction, and area is accommodated positioned at first to connect respectively Odd column and the 3rd sub-electrode one of which of even number line and odd column and the 6th son electricity of even number line positioned at the second receiving area Pole one of which.

In another embodiment, the Display Panel of touch-control is integrated with more the 3rd touch control unit, the 4th touch control unit, at least Two article of the 5th touch-control cabling and at least two article the 6th touch-control cabling.3rd touch control unit is located at the first touch control unit and the second touch-control Between unit.And the 3rd touch control unit have the 3rd carry electrode and the 3rd induction electrode.3rd carry electrode at least has the Seven sub-electrodes and multiple the 8th sub-electrodes interlocked with the 7th sub-electrode, to define multiple 3rd housing regions.3rd sense Answer electrode to comprise at least multiple 9th sub-electrodes, be arranged in the 3rd housing region.4th touch control unit is located at the second touch-control list Outside member.4th touch control unit has the 4th carry electrode and the 4th induction electrode.4th carry electrode comprises at least the tenth son Electrode and multiple the 11st sub-electrodes interlocked with the tenth sub-electrode, to define multiple 4th housing regions.4th sensing Electrode comprises at least multiple 12nd sub-electrodes, is arranged in the 4th housing region.At least two article the 5th touch-control cabling, is arranged in On line direction, to connect the 9th sub-electrode one of which positioned at the 3rd even column for accommodating area and odd-numbered line respectively and positioned at the Four accommodate the 12nd sub-electrode one of which of the even column in area and odd-numbered line.At least two article the 6th touch-control cabling, arranges to be expert at Direction, to connect respectively positioned at the odd column in the 3rd receiving area and the 3rd sub-electrode one of which of even number line and positioned at the 4th appearance Na Qu odd column and the 12nd sub-electrode one of which of even number line.Moreover, the display panel for integrating touch-control can be with more extremely Few two article of the 7th touch-control cabling and at least two article the 8th touch-control cabling.At least two article the 7th touch-control cabling is arranged in a column direction, With connect respectively positioned at the 3rd accommodate area odd column and odd-numbered line the 9th sub-electrode and positioned at four accommodate areas odd columns and 12nd sub-electrode of odd-numbered line.At least two article the 8th touch-control cabling is arranged in a column direction, to connect respectively positioned at the 3rd appearance Na Qu even column and the 9th sub-electrode of even number line and even column and the 12nd son electricity of even number line positioned at the 4th receiving area Pole.

Disclosed herein the display panel of another integration touch-control, the display panel of described another integration touch-control has There are multiple sub-pixel units, the first touch control unit, the second touch control unit and the 3rd touch control unit.Each sub-pixel unit is at least wrapped Containing pixel electrode.First touch control unit comprises at least two the first subelements, and the first subelement is arranged on the inclination side of column direction To on the incline direction with line direction.And each first subelement comprises at least the first carry electrode, the first induction electrode and first Connection electrode.First carry electrode comprises at least the first sub-electrode and the second sub-electrode interlocked with the first sub-electrode, with fixed Justice goes out multiple first housing regions.First induction electrode comprises at least multiple 3rd sub-electrodes, is arranged in the first housing region. One end of first connection electrode connects the first sub-electrode, and the other end connects the second sub-electrode.Second touch control unit comprises at least the Two subelements, and the second subelement comprises at least the second carry electrode, the second induction electrode and the second connection electrode.Second transmission Electrode comprises at least the 4th sub-electrode and the 5th sub-electrode interlocked with the 4th sub-electrode, and area is accommodated to define multiple second Domain.Second induction electrode comprises at least multiple 6th sub-electrodes, is arranged in the second housing region.One end of second connection electrode The 4th sub-electrode is connected, the other end connects the 5th sub-electrode.3rd touch control unit comprises at least the 3rd subelement.And the 3rd son it is single Member comprises at least the 3rd carry electrode, the 3rd induction electrode and the 3rd connection electrode.3rd carry electrode comprises at least the 7th son Electrode and the 8th sub-electrode interlocked with the 7th sub-electrode, to define multiple 3rd housing regions.Wherein, first accommodate Area, the second receiving area line up matrix with a row (column) with row (row) direction respectively with the 3rd receiving area.3rd induction electrode Including at least multiple 9th sub-electrodes, it is arranged in the 3rd housing region.One end of 3rd connection electrode connects the 7th sub-electrode, The other end connects the 8th sub-electrode.Wherein, the first sub-electrode, the second sub-electrode, the 3rd sub-electrode at least a portion, the first connection Electrode at least a portion, the 4th sub-electrode, the 5th sub-electrode, a little 6th sub-electrodes at least a portion, the second connection electrode, the 7th Sub-electrode, the 8th sub-electrode, the 8th sub-electrode at least a portion and overlapping corresponding at least one of the 3rd connection electrode difference Pixel electrode.

In another embodiment, integrate the display panel of touch-control with more at least two the first touch-control cablings, at least two Second touch-control cabling, at least two article the 3rd touch-control cabling and at least two article the 4th touch-control cabling.At least two the first touch-control cablings, Arrange in a column direction.The wherein one article connection of first touch-control cabling is located at the first odd column for accommodating area and the 3rd son of odd-numbered line Electrode one of which and the odd column and the 6th sub-electrode one of which of odd-numbered line and the first touch-control positioned at the second receiving area Another article of connection of cabling is located at the 3rd odd column and the 9th sub-electrode one of which of odd-numbered line for accommodating area and held positioned at first Na Qu odd column and the 3rd sub-electrode one of which of odd-numbered line.At least two the second touch-control cablings, are arranged in a column direction. The connection of wherein one article of second touch-control cabling be located at the first even column and the 3rd sub-electrode one of which of even number line for accommodating area and Positioned at the second even column for accommodating area and the 6th sub-electrode one of which of even number line.Second another of touch-control cabling connection is located at 3rd accommodates the even column and the 9th sub-electrode one of which of even number line in area and positioned at the first even column and even number for accommodating area The 3rd capable sub-electrode one of which.At least two article the 3rd touch-control cabling, is arranged in the row direction.3rd touch-control cabling wherein one Article connection be located at first accommodate area even column and the 3rd sub-electrode one of which of odd-numbered line and positioned at the 3rd accommodate area idol 9th sub-electrode one of which of ordered series of numbers and odd-numbered line.The connection of 3rd another article of touch-control cabling is located at the second even column for accommodating area And the 6th sub-electrode one of which of odd-numbered line and positioned at first accommodate area even column and odd-numbered line the 3rd sub-electrode wherein One.At least two article the 4th touch-control cabling is arranged in the row direction.The wherein one article connection of 4th touch-control cabling is located at first and accommodated The even column in area and the 3rd sub-electrode one of which of even number line and the odd column and the 9th of even number line the positioned at the 3rd receiving area Sub-electrode one of which.The connection of 4th another article of touch-control cabling is located at the second odd column for accommodating area and the 6th son electricity of even number line Pole one of which and odd column and the 3rd sub-electrode one of which of even number line positioned at the first receiving area.

In summary described, there are the display panel provided by the present invention for integrating touch-control multiple touch control units to be touched with a plurality of Control cabling.Touch control unit has carry electrode and induction electrode, and touch-control cabling connects the first induction electrode or the second sense respectively Answer electrode.By above-mentioned structure, the display panel for integrating touch-control is able to while being detected to all induction electrodes, therefore It is able to, in the case where panel size increase causes touch-control port number to increase, be effectively reduced the time of touch control detection.The opposing party Face, via follow-up judgement, can more detect multiple touch points on display panel, it is to avoid the situation of wrong report ghost point.

More than on the explanation of present invention and the explanation of following embodiment demonstrated with explaining this hair Bright spirit and principle, and claims of the present invention is provided further explained.

Brief description of the drawings

Fig. 1 is the schematic layout pattern of each touch control unit according to depicted in one embodiment of the invention.

Fig. 2 is the close-up schematic view according to depicted in Fig. 1 of the present invention.

Fig. 3 is the schematic layout pattern of each touch control unit according to depicted in another embodiment of the present invention.

Fig. 4 is the schematic layout pattern of each touch control unit according to depicted in a more embodiment of the invention.

Fig. 5 is the schematic layout pattern of each touch control unit according to depicted in further embodiment of this invention.

Fig. 6 is the close-up schematic view according to depicted in Fig. 5 of the present invention.

Fig. 7 is the schematic layout pattern of each touch control unit according to depicted in yet another embodiment of the invention.

Fig. 8 is the close-up schematic view according to depicted in Fig. 7 of the present invention.

Fig. 9 is the schematic layout pattern of each touch control unit according to depicted in present invention another embodiment again.

Figure 10 is implemented for the part touch control unit according to depicted in Fig. 9 of the present invention with other elements in display panel in one kind Relative position schematic layout pattern in aspect.

Figure 11 A are the 11A-11A diagrammatic cross-sections according to depicted in Figure 10 of the present invention.

Figure 11 B are the 11B-11B diagrammatic cross-sections according to depicted in Figure 10 of the present invention.

Figure 11 C are the 11C-11C diagrammatic cross-sections according to depicted in Figure 10 of the present invention.

Figure 12 is for the part touch control unit according to depicted in Fig. 9 of the present invention with other elements in display panel in another reality Apply the relative position schematic layout pattern in aspect.

Figure 13 A are the 13A-13A diagrammatic cross-sections according to depicted in Figure 12 of the present invention.

Figure 13 B are the 13B-13B diagrammatic cross-sections according to depicted in Figure 12 of the present invention.

Figure 14 is the step flow chart of the display panel control mode according to depicted in one embodiment of the invention.

Reference

1~6 display panel

111~116,111 '~116 ' carry electrodes

113~118,113 '~118 ' induction electrodes

1111~1188,6111~6132 sub-electrodes

A1~A4, A1 '~A3 ' housing regions

D1, D2 direction

N1, N2 point

RX11~RX84, RX11 '~RX44 ' touch-control cablings

TX1~TX6, TX11 '~TX42 ' transmission cablings

U1~U4, U1 '~U3 ' touch control units

U11 '~U42 ' subelements

W11~W24 cablings

AS semiconductor layers

COM common electrode layers

The part of COM1~COM3 common electrode layers

G substrates

GI, BP1~BP3, PL insulating barrier

M1~M3 conductor layers

M11, M12, M21~M23 conductor sublayers

P sub-pixel units

PX pixel electrode layers

PXe pixel electrodes

O1~O6 is open

Z regions

Embodiment

Describe the detailed features and advantage of the present invention in detail in embodiments below, its content is enough to make this area skill The technology contents that art personnel understand the present invention are simultaneously implemented according to this, and content according to disclosed by this specification, claims and Schema, skilled person readily understands that the present invention related purpose and advantage.Following embodiment is further detailed Describe bright viewpoint of the invention in detail, but it is non-anyways to limit scope of the invention.

Fig. 1 is refer to, Fig. 1 is the schematic layout pattern of each touch control unit according to depicted in one embodiment of the invention.Integrate The display panel 1 (being subsequently briefly referred to as with display panel 1) of touch-control has multiple sub-pixel units (not being illustrated in Fig. 1), first Touch control unit U1, the touch-control cablings of the second touch control unit U2, at least two first, at least two the second touch-control cablings, at least two 3rd touch-control cabling and at least two article the 4th touch-control cabling.In this embodiment, be lift the first touch-control cabling RX11, RX12, RX13, RX14, the second touch-control cabling RX21, RX22, RX23, RX24, the 3rd touch-control cabling RX31, RX32, RX33, RX34 and Four touch-control cabling RX41, RX42, RX43, RX44 are illustrated.In addition, in the embodiment shown in fig. 1, display panel 1 has more There are transmission cabling TX1, TX2, TX3, TX4.

Each sub-pixel unit at least has pixel electrode (not being illustrated in Fig. 1).The phase of sub-pixel unit and pixel electrode Closing details please be detailed later.It is described in detail please with reference to Fig. 2 with the relativeness to each element in display panel 1, Fig. 2 is root According to the close-up schematic view depicted in Fig. 1 of the present invention.In this embodiment, the first touch control unit U1 is adjacent to the second touch-control list First U2.Specifically, display panel 1 can have multiple first touch control unit U1 and multiple second touch control unit U2.Each first Touch control unit U1 and each second touch control unit U2 are along x-axis cycle arrangement with as shown in Figure 1 put in order.Wherein, first Touch control unit U1 has the first carry electrode 111 and the first induction electrode 113.Second touch control unit U2 has the second carry electrode 115 and second induction electrode 117.

First carry electrode 111 comprise at least the first sub-electrode 1111 and it is multiple interlock with the first sub-electrode 1111 the Two sub-electrodes 1112~1115.In this embodiment, the first sub-electrode 1111 is to set along the y-axis direction, the second sub-electrode 1112 ~1115 be to set along the x-axis direction respectively.In detail, in Fig. 2 embodiment, the bearing of trend of the first sub-electrode 1111 is y Direction of principal axis, and the bearing of trend of the second sub-electrode 1112~1115 is then x-axis direction, and the second sub-electrode 1112~1115 is distinguished Spread configuration along the y-axis direction.Therefore, the first sub-electrode 1111 and the second sub-electrode 1112~1115 are staggeredly defined many Individual first housing region A1.In this embodiment, the first sub-electrode 1111 is one of the forming with the second sub-electrode 1112~1115, But in practice the first sub-electrode 1111 and the second sub-electrode 1112~1115 can also be formed respectively by the technique of not people having a common goal, Make it be connected to each other with other techniques again, be not any limitation as herein.

First induction electrode 113 comprise at least multiple 3rd sub-electrodes, herein be lift the 3rd sub-electrode 1131~1138 with Explain.3rd sub-electrode 1131~1138 is respectively arranged in each first housing region A1, and the 3rd sub-electrode 1131~ 1138 do not contact the first carry electrode 111.In this embodiment, the 3rd sub-electrode 1131~1138 is rectangle, in order to be laid out Each electrode.Only the shape of the 3rd sub-electrode 1131~1138 is that skilled artisan must adjust according to actually required, It is not any limitation as herein.

In another embodiment, the first touch control unit U1 can further include carry electrode 111 ' and induction electrode as shown in Figure 1 113’.Carry electrode 111 ' has the similar structure in carry electrode 111, and induction electrode 113 ' has similar in induction electrode 113 structure.That is, the first touch control unit U1 scope and limited without being bound by the dashed box in Fig. 1, and can be more toward y-axis Extend to the end of viewing area.

In the second touch control unit U2, the second carry electrode 115 comprises at least the 4th sub-electrode 1151 and multiple with the The 5th sub-electrode 1152~1155 that four sub-electrodes 1151 interlock, to define multiple second housing region A2.In this embodiment In, the 4th sub-electrode 1151 is to set along the y-axis direction, and the 5th sub-electrode 1152~1155 is to set along the x-axis direction respectively.Specifically It, in Fig. 2 embodiment, the bearing of trend of the 4th sub-electrode 1151 is y-axis direction, and the 5th sub-electrode 1152~1155 Bearing of trend then be x-axis direction, and the 5th sub-electrode 1152~1155 respectively along y-axis direction spread configuration.Therefore, the 4th The sub-electrode 1152~1155 of sub-electrode 1151 and the 5th staggeredly defines multiple second housing region A2.In this embodiment, 4th sub-electrode 1151 is one of the forming with the 5th sub-electrode 1152~1155, but is not limited.

Second induction electrode 117 comprises at least multiple 6th sub-electrodes, and is illustrated with the 6th sub-electrode 1171~1178 Explanation.6th sub-electrode 1171~1178 is respectively arranged in each second housing region A2, and the 6th sub-electrode 1171~ 1178 do not contact the second carry electrode 115.In this embodiment, the 6th sub-electrode 1171~1178 is rectangle, in order to be laid out Each electrode.Only the shape of the 6th sub-electrode 1171~1178 is that skilled artisan must adjust according to actually required, It is not any limitation as herein.

In another embodiment, the second touch control unit U2 can further include carry electrode 115 ' and induction electrode as shown in Figure 1 117’.Carry electrode 115 ' has the similar structure in carry electrode 115, and induction electrode 117 ' has similar in induction electrode 117 structure.That is, the second touch control unit U2 scope and limited without being bound by the dashed box in Fig. 1, and can be more toward y-axis Extend to the end of viewing area.

First sub-electrode 1111, at least a portion of the second sub-electrode 1112~1115, the 3rd sub-electrode 1131~1138 At least a portion, the 4th sub-electrode 1151, at least a portion of the 5th sub-electrode 1152~1155 and the 6th sub-electrode 1171 ~1174 overlapping at least one corresponding pixel electrode of at least a portion difference.Correlative detail please be detailed later.

First touch-control cabling RX11~RX14 is arranged on the y-axis direction as shown in drawing.With the first touch-control cabling RX11, For RX12, the first touch-control cabling RX11 connects the sub-electrode of part the 3rd positioned at each first housing region A1 respectively, and first Touch-control cabling RX12 connects the sub-electrode of part the 6th positioned at each second housing region A2 respectively.With Fig. 2 specifically, first The sub-electrode 1131 of touch-control cabling RX11 connections the 3rd and the 3rd sub-electrode 1133, and the son electricity of the first touch-control cabling RX12 connections the 6th The sub-electrode 1173 of pole 1171 and the 6th.For another angle, the first housing region A1 in the first touch control unit U1 (or Say each 3rd sub-electrode 1131~1138) be arranged in the first array, the second touch control unit U2 the second housing region A2 (or Say each 6th sub-electrode 1171~1178) be arranged in the second array.Counting starting point is used as in the upper left side of drawing using each array It is located at odd column in words, first touch-control cabling RX11 the first arrays of connection and positioned at least one the 3rd sub-electrode of odd-numbered line, It is located at odd column in first touch-control cabling RX12 the second arrays of connection and positioned at least one the 6th sub-electrode of odd-numbered line.Herein In embodiment, described row are, for example, to extend along the y-axis direction in drawing, and described row is, for example, along the x-axis in drawing Direction extends.In one embodiment, wherein one of the first touch-control cabling is not connected to corresponding to another the first touch-control cabling 3rd sub-electrode and the 6th sub-electrode.In other words, one of them corresponding the 3rd sub-electrode or it is corresponding one of them the 6th Sub-electrode is connected solely to wherein one the first touch-control cabling.

Second touch-control cabling RX21~RX24 is arranged on the y-axis direction as shown in drawing.With the second touch-control cabling RX21, For RX22, the second touch-control cabling RX21 connects the sub-electrode of part the 3rd positioned at the first housing region A1 respectively, and second touches Control cabling RX22 connects the second housing region A2 sub-electrode of part the 6th respectively.With Fig. 2 specifically, the second touch-control cabling The sub-electrode 1136 of RX21 connections the 3rd and the 3rd sub-electrode 1138, and the sub-electrode 1176 of the second touch-control cabling RX22 connections the 6th with 6th sub-electrode 1178.For another angle, the first housing region A1 in the first touch control unit U1 the (in other words each 3rd The the second housing region A2 the (in other words each 6th of sub-electrode 1131~1138) be arranged in the first array, the second touch control unit U2 Sub-electrode 1171~1178) be arranged in the second array.Using each array in the upper left side of drawing as counting starting point, second touches Control and be located at even column in cabling RX21 the first arrays of connection and positioned at least one the 3rd sub-electrode of even number line, the second touch-control is walked It is located at even column in line RX22 the second arrays of connection and positioned at least one the 6th sub-electrode of even number line.In one embodiment, Wherein one article of second touch-control cabling is not connected to the 3rd sub-electrode and the 6th sub-electrode corresponding to another article of the second touch-control cabling. In other words, one of them corresponding the 3rd sub-electrode or one of them corresponding the 6th sub-electrode are connected solely to wherein one article Two touch-control cablings.

3rd touch-control cabling RX31~RX34 is arranged on the x-axis direction as shown in drawing.With the 3rd touch-control cabling RX31, For RX32, the 3rd touch-control cabling RX31 is connected positioned at the first housing region A1 part respectively with the 3rd touch-control cabling RX32 Three sub-electrodes, and the 3rd touch-control cabling RX31 is connected the second housing region A2 part the 6th with the 3rd touch-control cabling RX32 respectively Sub-electrode.With Fig. 2 specifically, the sub-electrode 1135 of the 3rd touch-control cabling RX31 connections the 3rd and the 6th sub-electrode 1175, and The sub-electrode 1137 of 3rd touch-control cabling RX32 connections the 3rd and the 6th sub-electrode 1177.For another angle, the first touch-control The first housing region A1 (each 3rd sub-electrode 1131~1138 in other words) in unit U1 is arranged in the first array, the second touch-control The second housing region A2 (each 6th sub-electrode 1171~1178 in other words) in unit U2 is arranged in the second array.With each array In the upper left side of drawing as starting point is counted, the 3rd touch-control cabling RX31 is with the 3rd touch-control cabling RX32 to be connected respectively It is located at even column in first array and is located at least one the 3rd sub-electrode of odd-numbered line, and the 3rd touch-control cabling RX31 and the 3rd Touch-control cabling RX32 is located at even column and positioned at least one the 6th sub-electrode of odd-numbered line to connect respectively in the second array. In the present embodiment, the 3rd touch-control cabling can connect the idol in the first touch control unit U1 and the second touch control unit U2 respectively Ordered series of numbers and the 3rd sub-electrode of odd-numbered line and the 6th sub-electrode., then can be by first such as by taking Fig. 2 the 3rd touch-control cabling RX31 as an example 6th sub-electrode 1175 of touch control unit U1 the 3rd sub-electrode 1135 and the second touch control unit U2 is connected with each other, and can pass through Three touch-control cabling RX31 transmit the data or signal of the 3rd sub-electrode 1135 and the 6th electrode 1175.In one embodiment, the 3rd The 3rd sub-electrode and the 6th sub-electrode that wherein one article of touch-control cabling is not connected to corresponding to another article of the 3rd touch-control cabling.Change sentence Talk about, corresponding one of them the 3rd sub-electrode or one of them corresponding the 6th sub-electrode are connected solely to wherein one article the 3rd and touched Control cabling.

4th touch-control cabling RX41~RX44 is arranged on the x-axis direction as shown in drawing.With the 4th touch-control cabling RX41, For RX42, the 4th touch-control cabling RX41 is with the 4th touch-control cabling RX42 to be connected respectively positioned at the first housing region A1 portion Point the 3rd sub-electrode, and the 4th touch-control cabling RX41 with the 4th touch-control cabling RX42 to be connected the second housing region A2's respectively The sub-electrode of part the 6th.With Fig. 2 specifically, the sub-electrode 1132 of the 4th touch-control cabling RX41 connections the 3rd and the 6th sub-electrode 1172, and the sub-electrode 1134 of the 4th touch-control cabling RX42 connections the 3rd and the 6th sub-electrode 1174.For another angle, the The first housing region A1 (each 3rd sub-electrode 1131~1138 in other words) in one touch control unit U1 is arranged in the first array, the The second housing region A2 (each 6th sub-electrode 1171~1178 in other words) in two touch control unit U2 is arranged in the second array.With Each array is in the upper left side of drawing as starting point is counted, and the 4th touch-control cabling RX41 and the 4th touch-control cabling RX42 are to divide At least one the 3rd sub-electrode for being located at odd column in the first array and being located at even number line, and the 4th touch-control cabling RX41 are not connected With the 4th touch-control cabling RX42 to be connected respectively in the second array be located at odd column and positioned at even number line at least one the 6th Sub-electrode.In the present embodiment, the 4th touch-control cabling can be connected positioned at the first touch control unit U1 and the second touch control unit respectively The 3rd sub-electrode and the 6th sub-electrode of odd column and even number line in U2.Such as by taking Fig. 2 the 4th touch-control cabling RX41 as an example, then 6th sub-electrode 1172 of the first touch control unit U1 the 3rd sub-electrode 1132 and the second touch control unit U2 can be connected with each other, and The data or signal of the 3rd sub-electrode 1132 and the 6th electrode 1172 can be transmitted by the 4th touch-control cabling RX41.Fig. 2 is with One touch control unit U1 and the second touch control unit U2 is respectively the induction electrode of 2 row x4 row arrays to illustrate, but the present invention is not with this It is limited, the first touch control unit U1 and the second touch control unit U2 can also be set for the induction electrode of 4 row x4 row arrays.Implement one In example, wherein one article of the 4th touch-control cabling the 3rd sub-electrode that is not connected to corresponding to another article of the 4th touch-control cabling and the 6th sub Electrode.In other words, corresponding one of them the 3rd sub-electrode or one of them corresponding the 6th sub-electrode are connected solely to wherein One article of the 4th touch-control cabling.

In the embodiment shown in fig. 1, the first carry electrode 111 and the first induction electrode 113, which are spaced from each other, comes, and second passes The induction electrode 117 of sending electrode 115 and second is separated from each other next.In other words, the first carry electrode 111 and the first induction electrode 113 are not in contact each other, and the second carry electrode 115 is not in contact each other with the second induction electrode 117.In a kind of practice, on State each sub-electrode and be with along with mask be formed at relational pattern chemical industry skill in a certain layer of display panel, but not as Limit.

In one embodiment, above-mentioned display panel is located in the display between described substrate comprising two substrates and one Dielectric layer, wherein, described substrate is defined in described sub-pixel unit, and above-mentioned each first touch control unit with it is above-mentioned Each second touch control unit is located between described substrate.

Please referring next to Figure 14 to illustrate the flowing mode of making of display panel provided by the present invention, Figure 14 is according to the present invention The step flow chart of display panel control mode depicted in one embodiment.In one embodiment, display panel has control mould Block (is not illustrated), each transmission cabling of control module electrical connection, each first touch-control cabling, each second touch-control cabling, each 3rd touch-control Cabling and each 4th touch-control cabling, and each transmission cabling is connected to each carry electrode.Control module is first via sending away Line TX provides the first test signal to each carry electrode (step S101) simultaneously.Then, letter of the control module according to touch-control cabling Number variable quantity judges that current display panel whether there is touch points (step S102).Specifically, control module is according to each One touch-control cabling and the change amount signal on each second touch-control cabling or on each 3rd touch-control cabling and each 4th touch-control cabling, sentence With the presence or absence of there is an at least touch points on disconnected current display panel, for example, when having change amount signal on touch-control cabling, then An at least touch points can be considered as, that is, have the start of touch-control；Conversely, being then considered as no touch points.

More specifically, display panel 1, which is for example defined, a plane coordinate system, the first touch-control cabling RX11~RX14 with Second touch-control cabling RX21~RX24 corresponds respectively to the coordinate points in plane coordinate system on a wherein axial direction, the 3rd touch-control cabling RX31~RX34 and the 4th touch-control cabling RX41~RX44 correspond respectively to the coordinate in plane coordinate system on wherein another axial direction Point.It can be judged by each touch-control cabling with opposing high voltage potentials level or each touch-control cabling with relative low voltage level Touch points are the relative positions being located on display panel 1.Subsequently citing is described in detail respectively.

Judge the quantity of its touch points when display panel has touch points, then according to the voltage quasi position of each touch-control cabling Whether it is multiple (step S103).For example, as detection the first touch-control cabling RX11~RX14 and the second touch-control cabling RX21 In~RX24, there is the voltage quasi position of a plurality of touch-control cabling for relative high voltage level or relative low voltage level, or, when Detect in the 3rd touch-control cabling RX31~RX34 and the 4th touch-control cabling RX41~RX44 there is the voltage quasi position of a plurality of touch-control cabling For relative high voltage level or relative low voltage level, then judge the quantity of touch points to be multiple.Work as detection conversely speaking, In first touch-control cabling RX11~RX14 and the second touch-control cabling RX21~RX24, the voltage quasi position of only one touch-control cabling is Relative high voltage level or relative low voltage level, moreover, detection the 3rd touch-control cabling RX31~RX34 and the 4th touch-control In cabling RX41~RX44, the voltage quasi position of only one touch-control cabling is that relative high voltage level or relative low-voltage are accurate Position, then judge the quantity of touch points for one.For another angle, step S103 can be used to judge by user whether Contact panel is touched with refer to more.Described touch points are, for example, that user is produced with finger either Pointer contacts display panel Raw contact point.Control module is, for example, that display driver integrates chip (Touch with Display Driver, TDDI), But it is not limited thereto.

When the quantity of touch points is one, then the coordinate of touch points is judged according to the change amount signal on touch-control cabling (step S107)., can be according to the voltage quasi position of the first touch-control cabling and the second touch-control cabling or according to the 3rd in the present embodiment Change amount signal on touch-control cabling and the 4th touch-control cabling finds out the coordinate of touch points.For example, when detect first touch The voltage quasi position for controlling cabling RX11 is relative high voltage level or relative low voltage level, and detects to obtain the 4th touch-control cabling When RX41 voltage quasi position is relative high voltage level or relative low voltage level, judge in the first touch-control cabling RX11 and There are a touch points near 4th touch-control cabling RX41 cross-point.

Confirm whether to be associated with touch points the first touch-control cabling and the second touch-control cabling it is one of central or One of among 3rd touch-control cabling and the 4th touch-control cabling (step S104).For example, when judging that the first touch-control walks Line RX12 voltage quasi position is relative high voltage level, and the 3rd touch-control cabling RX32, the 3rd touch-control cabling RX33 and the 3rd Touch-control cabling RX34 is relative high voltage level, then can determine whether multiple touch points while being associated with the first touch-control cabling RX12.Or, in another situation, when judging the 4th touch-control cabling RX42 voltage quasi position for relative high voltage level, And the first touch-control cabling RX12, the first touch-control cabling RX13 and the first touch-control cabling RX14 are relative high voltage level, then may be used Judgement has multiple touch points while being associated with the 4th touch-control cabling RX42.

The change amount signal or threeth touch-control one of central according to the first touch-control cabling and the second touch-control cabling is walked Change amount signal one of among line and the 4th touch-control cabling, to find out the coordinate (step S108) of touch points.Continue Institute's illustrated example in step S104, judges touch points to be multiple, and multiple touch points be associated with the first touch-control cabling RX11~ When one of RX14 and the second touch-control cabling RX21~RX24, more according to the 3rd touch-control cabling RX31~RX34 and the 4th touch-control In cabling RX41~RX44 there is relative high voltage level or relative low voltage level person to judge described multiple touchings The position of point.It is to judge that touch points are associated with the cross-point of which touch-control cabling for more precisely.For example, when One touch-control cabling RX22 voltage quasi position is relative high voltage level or low voltage level, and the 3rd touch-control cabling R32, R33 Voltage quasi position be relative high voltage level or low voltage level when, touching may determine that by the first touch-control cabling RX22 Point makes coordinate of the touch points wherein on an axial direction positioned at the vicinity of the first touch-control cabling.And by the 3rd touch-control cabling R32, R33 may determine that two touch points in described axial direction, the coordinate of this two touch points wherein on an axial direction System is associated with the first touch-control cabling RX22, and this coordinate system of two touch points on another axial direction is respectively associated in the 3rd touch-control Cabling R32, R33.Thereby, the relative coordinate of multiple touch points is defined in the case of above-mentioned.For another angle, step Whether rapid S108 can be used to judge by user with the same axial directions for referring to touching contact panel more.

It is sequentially provided at least carry electrode associated by the second test signal to touch points.(step S105).Offer is provided During the second test signal to a wherein carry electrode, according to the change amount signal of the first touch-control cabling and the second touch-control cabling or the Change amount signal on three touch-control cablings and the 4th touch-control cabling judges the coordinate (step S106) of touch points.

For an actual example, when there is two touch points, and one of touch points are associated with the first touch-control cabling RX12 and the 4th touch-control cabling RX41, other in which touch points are associated with the first touch-control cabling RX14 and the 4th touch-control cabling During RX42, i.e. the first touch-control cabling RX12, the first touch-control cabling RX14, the 4th touch-control cabling RX41 and the 4th touch-control cabling RX42 It is all relative high voltage level or low voltage level.If directly by the first touch-control cabling RX12, the first touch-control cabling RX14, the Four touch-control cabling RX41 are judged with the 4th touch-control cabling RX42, then can obtain four cross-points.Two of which cross-point pair Should be in actual touch points, and two other cross-point is then terrible point.And in method set forth above, then can avoid wrong report ghost The problem of point.

If being illustrated with Fig. 1, in step S105, be sequentially provided the second test signal to transmit cabling TX1~ TX4.In other words, in this step, in the same time, its of the second test signal extremely transmission cabling TX1~TX4 is only provided One of.It is to provide the second test signal in what sequence to give transmission cabling X1~TX4 to be not intended to limit herein, and the second survey is not also limited The aspect of trial signal.In one embodiment, the second test signal can be same as the first test signal.The following is to be sequentially provided Two test signals are illustrated exemplified by extremely transmitting cabling TX1, transmission cabling TX2, transmission cabling TX3 so that transmitting cabling TX4.

Transmission cabling TX1 corresponds to the first touch-control cabling RX11 and the 3rd touch-control cabling RX31~RX34 and the 4th touch-control Cabling RX41~RX44 intersection point, and touched corresponding to the second touch-control cabling RX21 and the 3rd touch-control cabling RX31~RX34 and the 4th Control cabling RX41~RX44 intersection point.When providing the second test signal to transmission cabling TX1, the first touch-control cabling RX11, the Two touch-control cabling RX21, the 3rd touch-control cabling RX31~RX34 and the 4th touch-control cabling RX41~RX44 all do not have relative height Voltage quasi position or relative low voltage level.Therefore, judge that no touch point is associated with the first touch-control cabling RX11 and the 3rd touch-control Cabling RX31~RX34 and the 4th touch-control cabling RX41~RX44 intersection point, and it is associated with the second touch-control cabling RX21 without touch point With the 3rd touch-control cabling RX31~RX34 and the 4th touch-control cabling RX41~RX44 intersection point.

Transmission cabling TX2 corresponds to the first touch-control cabling RX12 and the 3rd touch-control cabling RX31~RX34 and the 4th touch-control Cabling RX41~RX44 intersection point, and touched corresponding to the second touch-control cabling RX22 and the 3rd touch-control cabling RX31~RX34 and the 4th Control cabling RX41~RX44 intersection point.When providing the second test signal to transmission cabling TX2, the first touch-control cabling RX12 and the Four touch-control cabling RX41 all have relative high voltage level or relative low voltage level.Therefore, judge there is a touch point the Near one touch-control cabling RX12 and the 4th touch-control cabling RX41 cross-point.

Transmission cabling TX3 corresponds to the first touch-control cabling RX13 and the 3rd touch-control cabling RX31~RX34 and the 4th touch-control Cabling RX41~RX44 intersection point, and touched corresponding to the second touch-control cabling RX23 and the 3rd touch-control cabling RX31~RX34 and the 4th Control cabling RX41~RX44 intersection point.When providing the second test signal to transmission cabling TX3, the first touch-control cabling RX13, the Two touch-control cabling RX23, the 3rd touch-control cabling RX31~RX34 and the 4th touch-control cabling RX41~RX44 all do not have relative height Voltage quasi position or relative low voltage level.Therefore, judge that no touch point is associated with the first touch-control cabling RX13 and the 3rd touch-control Cabling RX31~RX34 and the 4th touch-control cabling RX41~RX44 intersection point, and it is associated with the second touch-control cabling RX23 without touch point With the 3rd touch-control cabling RX31~RX34 and the 4th touch-control cabling RX41~RX44 intersection point.

Transmission cabling TX4 corresponds to the first touch-control cabling RX14 and the 3rd touch-control cabling RX31~RX34 and the 4th touch-control Cabling RX41~RX44 intersection point, and touched corresponding to the second touch-control cabling RX24 and the 3rd touch-control cabling RX31~RX34 and the 4th Control cabling RX41~RX44 intersection point.When providing the second test signal to transmission cabling TX4, the first touch-control cabling RX14 and the Four touch-control cabling RX42 all have relative high voltage level or relative low voltage level.Therefore, judge there is another touch point Near the first touch-control cabling RX14 and the 4th touch-control cabling RX42 cross-point.For another angle, step S105 Whether it can be used to judge by user with the multiple axial directions for referring to touching contact panel more.

In Fig. 1 and embodiment shown in Fig. 2, the 3rd touch-control cabling RX31~RX34 and the 4th touch-control cabling RX41~ RX44 direction of routing is consistent, so in other embodiment, the 3rd touch-control cabling RX31~RX34 and the 4th touch-control cabling RX41~RX44 direction of routing can also be different.Please schemed referring next to Fig. 3 with illustrating other implementation aspects of display panel 3 be the schematic layout pattern of each touch control unit according to depicted in another embodiment of the present invention.It is succinct in order to describe, it is briefly fixed herein Justice is positive x-axis direction from the left side of drawing toward the direction on the right, is negative x-axis direction from the right of drawing toward the left side, by drawing Under up be positive y-axis direction, by drawing it is upper down be negative y-axis direction.

In Fig. 1 and embodiment described in Fig. 2, the 3rd touch-control cabling RX31~RX34 and the 4th touch-control cabling RX41~ RX44 direction of routing be all along positive x-axis direction, that is, the 3rd touch-control cabling RX31~RX34 and the 4th touch-control cabling RX41~ RX44 is to be stretched via induction electrode (viewing area) toward non-display area edge, and its bearing of trend is all positive x-axis direction.In this implementation In example, it is intended to receive the touch-control circuit or crystalline substance of the 3rd touch-control cabling RX31~RX34 and the 4th touch-control cabling RX41~RX44 signal Piece, then may be disposed at the homonymy of induction electrode.But the invention is not restricted to this, in the embodiment shown in fig. 3, the 3rd touch-control cabling RX31~RX34 is, along positive x-axis direction cabling, and to connect in positive x-axis direction corresponding 3rd sub-electrode or the 6th sub-electrode. Specifically, for the 3rd touch-control cabling RX31, the 3rd touch-control cabling RX31 is originated by point N1, toward positive x-axis direction extension And go out, and connect in positive x-axis direction corresponding 3rd sub-electrode or the 6th sub-electrode.In other words, the 3rd touch-control cabling RX31 ~RX34 is to be stretched via induction electrode (viewing area) toward non-display area edge, and its bearing of trend is all positive x-axis direction.4th touch-control Cabling RX41~RX44 direction of routing is then, along negative x-axis direction cabling, and to connect up in negative x-axis side corresponding 3rd son electricity Pole or the 6th sub-electrode.In detail, for the 4th touch-control cabling RX41, the 4th touch-control cabling RX41 is originated by point N2, past Negative x-axis direction is extended, and connects up in negative x-axis side corresponding 3rd sub-electrode or the 6th sub-electrode.

In the present embodiment, display panel 2 with more at least two the first cabling W11~W14 and the second cabling W21~ W24.At least two article first cabling W11~W14 is connected respectively described at least two the 3rd touch-control cabling RX31~RX34, and First cabling W11~W14 extends along the y-axis direction.At least two the second cabling W21~W24 connect described at least two respectively 4th touch-control cabling RX41~RX44, and the second cabling W21~W24 direction extends along column direction.With shown in Fig. 3, specifically For ground, the first cabling W11~W14 one end is to connect the 3rd touch-control cabling RX31~RX34 respectively, and the first cabling W11~ The W14 other end is then for example connected to the control circuit of correlation, to transmit signal.Second cabling W21~W24 one end is difference The 4th touch-control cabling RX41~RX44 is connected, and the second cabling W21~W24 other end is then for example connected to the control electricity of correlation Road, to transmit signal.By the first cabling W11~W14 and the second cabling W21~W24 setting, it can be intended to receive the 3rd touch-control The touch-control circuit or chip of cabling RX31~RX34 and the 4th touch-control cabling RX41~RX44 signal, then may be disposed at induced electricity The homonymy of pole.In detail, in the present embodiment, no matter being intended to the touch-control electricity of signal for receiving induction electrode or sending carry electrode Road, chip or touch pad all may be disposed at the homonymy (i.e. the lower section of sensing) of induction electrode.

Please with reference to Fig. 4, Fig. 4 is the layout signal of each touch control unit according to depicted in a more embodiment of the invention Figure.First cabling W11~W14 and the 3rd touch-control cabling RX31~RX34 contact and the second cabling W21~W24 and the 4th is touched Controlling cabling RX41~RX44 contact can all be located in the viewing area of display panel or outside viewing area.Implementation corresponding to Fig. 3 Example is contact and the second cabling W21~W24 by the first cabling W11~W14 and the 3rd touch-control cabling RX31~RX34 and the Four touch-control cabling RX41~RX44 contact is all arranged at outside viewing area.Embodiment corresponding to Fig. 4 be by the first cabling W11~ W14 and the 3rd touch-control cabling RX31~RX34 contact and the second cabling W21~W24 and the 4th touch-control cabling RX41~RX44 Contact be all arranged in viewing area so that display panel 3 is able to have narrower frame, or levels off to Rimless.

First cabling W11~W14 and the second cabling W21~W24 material can be that printing opacity is either light tight.It is real one Apply in example, the first cabling W11 and the 3rd touch-control cabling RX31 is made of the first cabling W12 and the 3rd in integrally formed mode Touch-control cabling RX32, the first cabling W13 and the 3rd touch-control cabling RX33, the first cabling W14 and the 3rd touch-control cabling RX34, second Cabling W21 and the 4th touch-control cabling RX41, the second cabling W22 and the 4th touch-control cabling RX42, the second cabling W23 and the 4th touch-control Cabling RX43, the second cabling W24 and the 4th touch-control cabling RX44 are made of in integrally formed mode respectively.In an embodiment In, the 3rd touch-control cabling RX31~RX34, the 4th touch-control cabling RX41~RX44, the first cabling W11~W14 and the second cabling W21~W24 be with along with mask be arranged to related Patternized technique in display panel.

Please referring next to Fig. 5 and Fig. 6, Fig. 5 is the layout of each touch control unit according to depicted in further embodiment of this invention Schematic diagram, Fig. 6 is the close-up schematic view according to depicted in Fig. 5 of the present invention.Relative to Fig. 1, in the embodiment shown in Fig. 5 In, display panel 4 has more the 3rd touch control unit U3 and the 4th touch control unit U4, and the 3rd touch control unit U3 is located at the first touch-control Between unit U1 and the second touch control unit U2, and the 4th touch control unit U4 is located at the first touch control unit U1 or the second touch control unit U2 Outside.Display panel 4 have multiple first touch control unit U1, multiple second touch control unit U2, multiple 3rd touch control unit U3 with Multiple 4th touch control unit U4, and each touch control unit is to be put in order with as shown in Figure 5 along x-axis cycle arrangement.Come in detail Say, each touch control unit is sequentially with the 4th touch control unit U4, the first touch control unit U1, the 3rd touch control unit U3 and the second touch control unit U2 is to carry out repeated arrangement in the cycle.

In the present embodiment, the 3rd touch control unit U3 has the 3rd carry electrode 112 and the 3rd induction electrode 114, and the Four touch control unit U4 have the 4th carry electrode 116 and the 4th induction electrode 118.Please refer to Fig. 5 and Fig. 6, the 3rd transmission Electrode 112 comprise at least the 7th sub-electrode 1121 and it is multiple interlock with the 7th sub-electrode 1121 the 8th sub-electrode 1122~ 1125, and the 7th sub-electrode 1121 is to set along the y-axis direction, the 8th sub-electrode 1122~1125 is to set along the x-axis direction respectively. In Fig. 6 embodiment, the bearing of trend of the 7th sub-electrode 1121 is y-axis direction, and the 8th sub-electrode 1122~1125 prolongs Stretch direction Ze WeixZhou directions, and the 8th sub-electrode 1122~1125 respectively along y-axis direction spread configuration.Therefore, the 7th son The sub-electrode 1122~1125 of electrode 1121 and the 8th staggeredly defines multiple 3rd housing region A3.In this embodiment, Seven sub-electrodes 1121 are one of the forming with the 8th sub-electrode 1122~1125, but in can also be by the technique of not people having a common goal in practice The 7th sub-electrode 1121 and the 8th sub-electrode 1122~1125 are formed respectively.

3rd induction electrode 114 comprises at least multiple 9th sub-electrodes, and is said with the 9th sub-electrode 1141~1148 It is bright.9th sub-electrode 1141~1148 is respectively arranged in each 3rd housing region A3, and the 9th sub-electrode 1141~1148 is not Contact the 3rd carry electrode 112.In this embodiment, the 9th sub-electrode 1141~1148 is rectangle, in order to be laid out each electrode, But it can adjust, not be any limitation as herein according to actually required.

In another embodiment, the 3rd touch control unit U3 can further include carry electrode 112 ' and induction electrode as shown in Figure 5 114’.Carry electrode 112 ' has the similar structure in carry electrode 112, and induction electrode 114 ' has similar in induction electrode 114 structure.That is, the 3rd touch control unit U3 scope and limited without being bound by the dashed box in Fig. 1, and can be more toward y-axis Extend to the end of viewing area.

In the present embodiment, the 4th touch control unit U4 has the 4th carry electrode 116 and the 4th induction electrode 118.Please be same When refer to Fig. 5 and Fig. 6, the 4th carry electrode 116 comprises at least the tenth sub-electrode 1161 and multiple with the tenth sub-electrode 1161 The 11st sub-electrode 1162~1165 staggeredly, to define multiple 4th housing region A4.In this embodiment, the tenth son electricity Pole 1161 is to set along the y-axis direction, and the 11st sub-electrode 1162~1165 is to set along the x-axis direction respectively.In detail, in Fig. 6 Embodiment in, the bearing of trend of the tenth sub-electrode 1161 is y-axis direction, and the extension side of the 11st sub-electrode 1162~1165 To then be x-axis direction, and the 11st sub-electrode 1162~1165 respectively along y-axis direction spread configuration.Therefore, the tenth son electricity The sub-electrode 1162~1165 of pole 1161 and the 11st staggeredly defines multiple 4th housing region A4.In addition, in this embodiment In, the tenth sub-electrode 1161 is one of the forming with the 11st sub-electrode 1162~1165, but is not limited.

4th induction electrode 118 comprises at least multiple 12nd sub-electrodes, be herein with the 12nd sub-electrode 1181~ 1188 illustrate it.12nd sub-electrode 1181~1188 is respectively arranged in each 4th housing region A4, and the tenth Two sub-electrodes 1181~1188 do not contact the 4th carry electrode 116.In this embodiment, the 12nd sub-electrode 1181~1188 is Rectangle, but can be adjusted according to actually required, it is not any limitation as herein.

In another embodiment, the 4th touch control unit U4 can further include carry electrode 116 ' and induction electrode as shown in Figure 5 118’.Carry electrode 116 ' has the similar structure in carry electrode 116, and induction electrode 118 ' has similar in induction electrode 118 structure.That is, the 4th touch control unit U4 scope and limited without being bound by the dashed box in Fig. 1, and can be more along y-axis Extend to the end of viewing area.

7th sub-electrode 1121, at least a portion of the 8th sub-electrode 1122~1125, the 9th sub-electrode 1141~1148 At least a portion, the tenth sub-electrode 1161, at least a portion of the 11st sub-electrode 1162~1165 and the 12nd sub-electrode 1181~1184 overlapping at least one corresponding pixel electrode of at least a portion difference.Correlative detail please be detailed later.

Compared to the embodiment shown in Fig. 1, in the embodiment shown in fig. 5, display panel 4 has more at least two article the 5th Touch-control cabling, at least two article the 6th touch-control cabling, at least two article the 7th touch-control cabling and at least two article the 8th touch-control cabling.Herein It is to lift the 5th touch-control cabling RX51, RX52, the 6th touch-control cabling RX61, RX62, the 7th touch-control cabling RX71~RX74 and the 8th Illustrated exemplified by touch-control cabling RX81~RX84.

In the present embodiment, the 5th touch-control cabling RX51, RX52 is arranged on the y-axis direction as shown in drawing, and the 5th Touch-control cabling RX51 connects the sub-electrode of part the 9th positioned at the 3rd housing region A3 respectively, and the 5th touch-control cabling RX52 then distinguishes Connect the 4th housing region A4 sub-electrode of part the 12nd.With shown in Fig. 6, the sub-electrode of the 5th touch-control cabling RX51 connections the 9th 1141 and the 9th sub-electrode 1143, and the sub-electrode 1181 of the 5th touch-control cabling RX52 connections the 12nd and the 12nd sub-electrode 1183.For another angle, (each 9th is sub in other words for the 3rd housing region A3 housing regions in the 3rd touch control unit U3 The 4th housing region A4 housing regions of electrode 1141~1148) be arranged in the 3rd array, the 4th touch control unit U4 are (in other words Each 12nd sub-electrode 1181~1188) be arranged in the 4th array.Counting starting point is used as in the upper left side of drawing using each array It is located at odd column in words, the array of the 5th touch-control cabling RX51 connections the 3rd and positioned at least one the 9th sub-electrode of odd-numbered line, It is located at odd column in the array of 5th touch-control cabling RX52 connections the 4th and positioned at least one the 12nd sub-electrode of odd-numbered line. In one embodiment, wherein one article of the 5th touch-control cabling the 3rd sub-electrode that is not connected to corresponding to another article of the 5th touch-control cabling with 6th sub-electrode.In other words, corresponding one of them the 3rd sub-electrode or one of them corresponding the 6th sub-electrode are only connected To wherein one article the 5th touch-control cabling.

6th touch-control cabling RX61, RX62 is arranged on the y-axis direction as shown in drawing.Further illustrate, the 6th touches Control cabling RX61 connects the sub-electrode of part the 9th positioned at the 3rd housing region A3 respectively, and the 6th touch-control cabling RX62 connects respectively Connect the 4th housing region A4 sub-electrode of part the 12nd.With shown in Fig. 6, the sub-electrode of the 6th touch-control cabling RX61 connections the 9th 1146 and the 9th sub-electrode 1148, and the sub-electrode 1186 of the 6th touch-control cabling RX62 connections the 12nd and the 12nd sub-electrode 1188.For another angle, the 3rd housing region A3 in the 3rd touch control unit U3 (each 9th sub-electrode 1141 in other words ~the 4th housing region A4 (each 12nd sub-electrodes in other words 1148) being arranged in the 3rd array, the 4th touch control unit U4 1181~1188) it is arranged in the 4th array.Using each array in the upper left side of drawing as counting starting point, the 6th touch-control cabling It is located at even column in the array of RX61 connections the 3rd and positioned at least one the 9th sub-electrode of even number line, the 6th touch-control cabling RX62 Connect and be located at even column in the 4th array and positioned at least one the 12nd sub-electrode of even number line.In one embodiment, the 6th The 9th sub-electrode and the 12nd sub-electrode that wherein one article of touch-control cabling is not connected to corresponding to another article of the 6th touch-control cabling.Change Sentence is talked about, and one of them corresponding the 9th sub-electrode or one of them corresponding the 12nd sub-electrode are connected solely to wherein one article the Six touch-control cablings.

7th touch-control cabling RX71, RX72 is arranged on the x-axis direction as shown in drawing.7th touch-control cabling RX71 and Seven touch-control cabling RX72 connect the sub-electrode of part the 9th positioned at the 3rd housing region A3 respectively, and the 7th touch-control cabling RX71 with 7th touch-control cabling RX72 connects the 4th housing region A4 sub-electrode of part the 12nd respectively.With Fig. 6 specifically, the 7th Touch-control cabling RX71 connects the 9th sub-electrode 1145 and the 12nd sub-electrode 1185 respectively, and the 7th touch-control cabling RX72 connections Nine sub-electrodes 1147 and the 12nd sub-electrode 1187.For another angle, the in the 3rd touch control unit U3 the 3rd accommodates area Domain A3 (each 9th sub-electrode 1141~1148 in other words) is arranged in the 4th receiving area in the 3rd array, the 4th touch control unit U4 Domain A4 (each 12nd sub-electrode 1181~1188 in other words) is arranged in the 4th array.Using each array in the upper left side of drawing as If counting starting point, the 7th touch-control cabling RX71, which is connected with the 7th touch-control cabling RX72 in the 3rd array, to be located at even column and is located at At least one the 9th sub-electrode of odd-numbered line, and the 7th touch-control cabling RX71 is connected in the 4th array with the 7th touch-control cabling RX72 Positioned at even column and positioned at least one the 12nd sub-electrode of odd-numbered line.In the present embodiment, the 7th touch-control cabling can divide The 3rd touch control unit U3 and the even column in the 4th touch control unit U4 and the 9th sub-electrode of odd-numbered line and the tenth Lian Jie be located at Two sub-electrodes.Such as by taking Fig. 6 the 7th touch-control cabling RX71 as an example, then can by the 3rd touch control unit U3 the 9th sub-electrode 1145 with 4th touch control unit U4 the 12nd sub-electrode 1185 is connected with each other, and can pass through the son electricity of the 7th touch-control cabling RX71 transmission the 9th The data or signal of the electrode 1185 of pole 1145 and the 12nd.In other embodiment, when display panel 4 has periodic arrangement When the first touch control unit U1, the 3rd touch control unit U3, the second touch control unit U2 and the 4th touch control unit U4, then the 7th touch-control cabling Can then connect it is multiple be located at even column and the 9th sub-electrode of odd-numbered line (being started at above-mentioned 3rd matrix and the 4th matrix) and 12nd sub-electrode.In one embodiment, to be not connected to another article of the 7th touch-control cabling institute right for wherein one article of the 7th touch-control cabling The 9th sub-electrode answered and the 12nd sub-electrode.In other words, one of them corresponding the 9th sub-electrode or corresponding wherein one Individual 12nd sub-electrode is connected solely to wherein one article the 7th touch-control cabling.

8th touch-control cabling RX81, RX82 is arranged on the x-axis direction as shown in drawing.8th touch-control cabling RX81 and Eight touch-control cabling RX82 connect the sub-electrode of part the 9th positioned at the 3rd housing region A3 respectively, and the 8th touch-control cabling RX81 with 8th touch-control cabling RX82 connects the 4th housing region A4 sub-electrode of part the 12nd respectively.With Fig. 6 specifically, the 8th The sub-electrode 1142 of touch-control cabling RX81 connections the 9th and the 12nd sub-electrode 1182, and of the 8th touch-control cabling RX82 connections the 9th The sub-electrode 1184 of electrode 1144 and the 12nd.For another angle, the 3rd housing region A3 in the 3rd touch control unit U3 (each 9th sub-electrode 1141~1148 in other words) is arranged in the 4th housing region A4 in the 3rd array, the 4th touch control unit U4 (each 12nd sub-electrode 1181~1188 in other words) is arranged in the 4th array.Counting is used as in the upper left side of drawing using each array If starting point, the 8th touch-control cabling RX81, which is connected with the 8th touch-control cabling RX82 in the 3rd array, is located at odd column and positioned at even number The sub-electrode of at least one capable 9th, and the 8th touch-control cabling RX81 is connected in the 4th array with the 8th touch-control cabling RX82 and is located at Odd column and at least one the 12nd sub-electrode for being located at even number line.In the present embodiment, the 8th touch-control cabling can connect respectively Connect the odd column and the 9th sub-electrode of even number line and the 12nd son positioned at the 3rd touch control unit U3 and in the 4th touch control unit U4 Electrode., then can be by the 3rd touch control unit U3 the 9th sub-electrode 1142 and the 4th such as by taking Fig. 6 the 8th touch-control cabling RX81 as an example Touch control unit U4 the 12nd sub-electrode 1182 is connected with each other, and can transmit the 9th sub-electrode by the 8th touch-control cabling RX81 The data or signal of 1142 and the 12nd electrode 1182.In other embodiment, when display panel 4 has the of periodic arrangement When one touch control unit U1, the 3rd touch control unit U3, the second touch control unit U2 and the 4th touch control unit U4, then the 8th touch-control cabling is then It can connect and multiple be located at odd column and the 9th sub-electrode of even number line (being started at above-mentioned 3rd matrix and the 4th matrix) and the 12 sub-electrodes.In one embodiment, wherein one article of the 8th touch-control cabling is not connected to corresponding to another article of the 8th touch-control cabling The 9th sub-electrode and the 12nd sub-electrode.In other words, one of them corresponding the 9th sub-electrode or it is corresponding one of them 12nd sub-electrode is connected solely to wherein one article the 8th touch-control cabling.

In this embodiment, the 3rd touch-control cabling RX31~RX34 direction of routing be different from the 5th touch-control cabling RX51~ RX54 direction of routing and the 4th touch-control cabling RX41~RX44 direction of routing be different from the 6th touch-control cabling RX61~ RX64 direction of routing.

In the embodiment shown in fig. 6, except as earlier mentioned, the first carry electrode 111 and the first induction electrode 113 are mutual Separate and, the second carry electrode 115 and the second induction electrode 117 are spaced from each other and, in embodiment, the 3rd carry electrode 112 It is spaced from each other to come with the 3rd induction electrode 114, and the 4th carry electrode 116 and the 4th induction electrode 118 are spaced from each other and.Change sentence Talk about, the 3rd carry electrode 112 is not in contact each other with the 3rd induction electrode 114, and the 4th carry electrode 116 and the 4th sensing Electrode 118 is not in contact each other.Each induction electrode and each carry electrode are located between identical structure layer.It is each to feel in practice It is, for example, to be formed at the mask with along with and relational pattern chemical industry skill in a certain layer of display panel with each carry electrode to answer electrode, But it is not limited.

Please followed by the cloth of reference picture 7 and Fig. 8, Fig. 7 for each touch control unit according to depicted in yet another embodiment of the invention Office's schematic diagram.Fig. 8 is the close-up schematic view according to depicted in Fig. 7 of the present invention.Display panel 5 has multiple sub-pixel lists Member, the first touch control unit U1 ', the second touch control unit U2 ' and the 3rd touch control unit U3 '.Each sub-pixel unit comprises at least one Pixel electrode.The correlative detail of sub-pixel unit and pixel electrode please hold subsequent detailed.First touch control unit U1 ' at least has two Individual first subelement, the second touch control unit U2 ' comprises at least one second subelement, and the 3rd touch control unit U3 ' comprises at least one the Three subelements.It is to lift the first subelement U11 ', the first subelement U12 ', the second subelement U21 ' and the 3rd subelement U31 ' herein Exemplified by illustrate.On the other hand, in Fig. 7 and Fig. 8, to avoid schema disorderly, subelement is that collocation net bottom is presented, with suitable Each element of locality difference, therefore net bottom is herein only to illustrate to separate, and be not used to indicate its material or cutting plane.

In the present embodiment, the first touch control unit U1 ' at least has two the first subelements, such as the first subelement U11 ' with U12 ', and the first subelement U11 ' and the first subelement U12 ' is separately positioned on an incline direction and a line direction for a column direction An incline direction on.For Fig. 7, the first subelement U11 ' and the first subelement U12 ' is set along direction D1, and side To D1 be not parallel to x-axis to or y-axis to.For another angle, the first subelement U11 ' and the first subelement U12 ' institutes The attachment structure of formation be not parallel to x-axis in drawing to or y-axis to.For the first subelement U11 ', the first subelement U11 ' has the first carry electrode 511, the first induction electrode 512 and the first connection electrode 513.In this embodiment, direction D1 Substantially positive x-axis direction turns clockwise 45 degree of direction, and direction D2 substantially 45 degree of positive x-axis direction rotate counterclockwises Direction.

First carry electrode 511 comprises at least one first sub-electrode and second son interlocked with the first sub-electrode is electric Pole, is to lift to illustrate it exemplified by the first sub-electrode 5111 and the second sub-electrode 5112 herein.In this embodiment, the first sub-electrode 5111 be along y-axis to and set, the second sub-electrode 5112 be along x-axis to and set.First sub-electrode 5111 and the second sub-electrode 5112 staggeredly define multiple first housing region A1 '.

First induction electrode 512 comprises at least multiple 3rd sub-electrodes.It is to lift the 3rd sub-electrode 5121~5124 to be herein Example explanation.3rd sub-electrode 5121~5124 is respectively arranged in the first housing region A1 ', and the 3rd sub-electrode 5121~ 5124 do not contact the first carry electrode 511.In this embodiment, the 3rd sub-electrode 5121~5124 is rectangle, in order to be laid out Each electrode.Only the shape of the 3rd sub-electrode 5121~5124 is that skilled artisan must adjust according to actually required, It is not any limitation as herein.

First connection electrode 513 has around portion 5131 and an at least connecting portion 5132.Around portion 5131 around at least portion The first carry electrode 511 divided and at least part of induction electrode 512.The connection of circular portion 5,131 the of first connection electrode 513 First sub-electrode 5111 of one carry electrode 511 and the second sub-electrode 5112 of the first carry electrode 511.First connection electrode 513 connecting portion 5132 is attached around portion 5131.In this embodiment, each circular portion is generally into square shape, and according to surrounding Position where portion, can be complete square shape or incomplete square shape around portion.With the circular portion 5131 in Fig. 8 Say, be complete square shape around portion 5131, i.e., it is closed, and circular portion two-by-two can be connected by each connecting portion.It is more detailed For carefully, whether according to being complete square shape around the position where portion, or according to the portion of surrounding, the first connection electrode has One or two connecting portion, and described connecting portion is at least one angle for being connected to the square shape around portion, but the present invention is not As limit, connecting portion may also be at surrounding at least one side in portion.

In addition, the first connection electrode of adjacent different subelements is connected to each other via its connection.For example, first Subelement U12 ' the first connection electrode is the first connection electrode 513 that the first subelement U11 ' is connected via its connecting portion. In one embodiment, the first carry electrode 511, the first induction electrode 512 are one of the forming with the first connection electrode 513.In practice On, the first subelement U11 ' can be formed at the Patternized technique of the mask with along with and correlation with the first subelement U12 ' In display panel.

In the present embodiment, the second touch control unit U2 ' comprises at least the second subelement U21 ', and the second subelement U21 ' has There are the second carry electrode 514, the second induction electrode 515 and the second connection electrode 516.Individually below with regard to the second carry electrode 514, Second induction electrode 515 is illustrated with the second connection electrode 516.

Second carry electrode 514 comprises at least the 5th son electricity that one the 4th sub-electrode and the one and the 4th sub-electrode interlock Pole, is to lift to illustrate it exemplified by the 4th sub-electrode 5141 and the 5th sub-electrode 5142 herein.In this embodiment, the 4th sub-electrode 5141 be along y-axis to and set, the second sub-electrode 5142 be along x-axis to and set.4th sub-electrode 5141 and the second sub-electrode 5142 staggeredly define multiple second housing region A2 '.

Second induction electrode 515 comprises at least multiple 6th sub-electrodes, is to lift the 6th sub-electrode 5151~5154 to be herein Example explanation.6th sub-electrode 5151~5154 is respectively arranged in the second housing region A2 ', and the 3rd sub-electrode 5151~ 5154 do not contact the second carry electrode 514.In this embodiment, the 6th sub-electrode 5151~5154 is rectangle, in order to be laid out Each electrode.Only the shape of the 6th sub-electrode 5151~5154 is that skilled artisan must adjust according to actually required, It is not any limitation as herein.

Second connection electrode 516 connects the second carry electrode 514 and the second induction electrode 515.Second connection electrode 516 has There are circular portion 5161 and an at least connecting portion 5162.Around portion 5161 around at least part of first carry electrode 514 and at least Partial induction electrode 515.The circular portion 5161 of second connection electrode 516 connects the first sub-electrode of the first carry electrode 514 5141 and first carry electrode 514 the second sub-electrode 5142.The connecting portion 5162 of second connection electrode 516 is attached around portion 5161.In this embodiment, each circular portion can be around portion generally into square shape, and according to around the position where portion Complete square shape or incomplete square shape.It is incomplete mouth word around portion 5161 for the circular portion 5161 in Fig. 8 Shape, i.e., it is non-enclosed, and circular portion two-by-two can be connected to by connecting portion.More specifically, according to where portion Position, or whether according to being complete square shape around portion, the second connection electrode has one or two connecting portion, and described Connecting portion be at least one angle for being connected to the square shape around portion, but the present invention is not limited, and connecting portion may also be at On at least one side in portion.In addition, the second subelement U21 ' the second connection electrode 516 more connects another second subelement U22 ' connection electrode.In one embodiment, the second carry electrode 514, the second induction electrode 515 and the second connection electrode 516 It is one of the forming.In in practice, the second subelement U21 ' can be with the mask with along with and phase with other second subelements The Patternized technique of pass is formed in display panel.

In the present embodiment, the 3rd touch control unit U3 ' comprises at least the 3rd subelement U31 ', and the 3rd subelement U31 ' has There are the 3rd carry electrode 517, the 3rd induction electrode 518 and the 3rd connection electrode 519.Individually below with regard to the 3rd carry electrode 517, 3rd induction electrode 518 is illustrated with the 3rd connection electrode 519.

3rd carry electrode 517 comprises at least the 8th son electricity that one the 7th sub-electrode and the one and the 7th sub-electrode interlock Pole.It is to lift to illustrate it exemplified by the 7th sub-electrode 5171 and the 8th sub-electrode 5172 herein.In this embodiment, the 7th sub-electrode 5171 be along y-axis to and set, the 8th sub-electrode 5172 be along x-axis to and set.7th sub-electrode 5171 and the 8th sub-electrode 5172 staggeredly define multiple 3rd housing region A3 '.

3rd induction electrode 518 comprises at least multiple 9th sub-electrodes.It is to lift the 9th sub-electrode 5181~5184 to be herein Example explanation.9th sub-electrode 5181~5184 is respectively arranged in the 3rd housing region A3 '.9th sub-electrode 5181~5184 The 3rd carry electrode 517 is not contacted.In this embodiment, the 9th sub-electrode 5181~5184 is rectangle, in order to be laid out each electricity Pole.Only the shape of the 9th sub-electrode 5181~5184 is that skilled artisan must adjust according to actually required, herein It is not any limitation as.

3rd connection electrode 519 connects the 3rd carry electrode 517 and the 3rd induction electrode 518.3rd connection electrode 519 has There are circular portion 5191 and an at least connecting portion 5192.Around portion 5191 around at least part of first carry electrode 517 and at least Partial induction electrode 518.The circular portion 5191 of 3rd connection electrode 519 connects the first sub-electrode of the first carry electrode 517 5171 and first carry electrode 517 the second sub-electrode 5172.The connecting portion 5192 of 3rd connection electrode 519 is attached around portion 5191.In this embodiment, each circular portion can be around portion generally into square shape, and according to around the position where portion Complete square shape or incomplete square shape.It is complete mouth word around portion 5191 for the circular portion 5191 in Fig. 8 Shape, i.e., it is closed, and circular portion two-by-two can be connected by connecting portion.More specifically, according to around the position where portion Put, or whether according to being complete square shape around portion, the 3rd connection electrode has one or two connecting portion, and described company Socket part is to be connected at least one angle of the square shape around portion, but the present invention is not limited, and connecting portion may also be at surrounding On at least one side in portion.In addition, the 3rd subelement U31 ' the 3rd connection electrode 519 more connects the connection of another 3rd subelement Electrode.In one embodiment, the 3rd carry electrode 517, the 3rd induction electrode 518 are one of the forming with the 3rd connection electrode 519. In in practice, the 3rd subelement U31 ' and other 3rd subelements can be with the mask with along with and related pattern chemical industry Skill is formed in display panel.

As shown in fig. 7, the first housing region A1 ', the second housing region A2 ' and the 3rd housing region A3 ' are respectively with along x-axis Matrix is lined up with y-axis direction in direction.And the first sub-electrode, the second sub-electrode in Fig. 7, the 3rd sub-electrode at least a portion, the One connection electrode at least a portion, the 4th sub-electrode, the 5th sub-electrode, the 6th sub-electrode at least a portion, the second connection electrode, 7th sub-electrode, the 8th sub-electrode, the 8th sub-electrode at least a portion and the 3rd connection electrode difference it is overlapping it is corresponding at least One pixel electrode.Correlative detail please be detailed later.

In the embodiment shown in fig. 7, display panel 5 with more at least two the first touch-control cablings, at least two second Touch-control cabling, at least two article the 3rd touch-control cabling and at least two article the 4th touch-control cabling.It is to lift the first touch-control cabling herein RX11 ', RX12 ', the second touch-control cabling RX21 ', RX22 ', the 3rd touch-control cabling RX31 ', RX32 ' and the 4th touch-control cabling RX41 ', RX42 ' are illustrated.

First touch-control cabling RX11 ', RX12 ' are arranged on the y-axis direction as shown in drawing.First touch-control cabling RX11 ' Respectively connection positioned at the first housing region A1 ' sub-electrode of part the 3rd, the second housing region A2 ' sub-electrode of part the 6th with The 3rd housing region A3 ' sub-electrode of part the 9th.And first touch-control cabling RX12 ' connect respectively positioned at the first housing region The part of the A1 ' sub-electrode of part the 3rd, the second housing region A2 ' sub-electrode of part the 6th and the 3rd housing region A3 ' Nine sub-electrodes.With Fig. 8 specifically, the first touch-control cabling RX11 ' connects the 3rd sub-electrode 5121, the 6th sub-electrode respectively 5151 with ' be connected the 9th sub-electrode 5181, and the first touch-control cabling RX12 ' connects the son electricity of the 3rd sub-electrode the 5221, the 6th respectively The sub-electrode 5281 of pole 5251 and the 9th.

For another angle, the first housing region A1 ' in the first touch control unit U1 ' the first subelement U11 ' (each first sub-electrode 5121~5124 in other words) is arranged in the 5th array, and the first touch control unit U1 ' the first subelement The first housing region A1 ' (each first sub-electrode 5221~5224 in other words) in U12 ' is arranged in the 6th array.Second touch-control In unit U2 ' the second subelement U21 ' the second housing region A2 ' housing regions (in other words each 6th sub-electrode 5151~ 5154) the 7th array is arranged in, then the second housing region A2 ' in the second touch control unit U2 ' the second subelement U22 ' is accommodated Region (each 6th sub-electrode 5251~5254 in other words) is arranged in the 8th array.3rd touch control unit U3 ' the 3rd subelement The 3rd housing region A3 ' housing regions (each 9th sub-electrode 5181~5184 in other words) in U31 ' are arranged in the 9th array, And (each 9th sub-electrode in other words of the 3rd housing region A3 ' housing regions in the 3rd touch control unit U3 ' the 3rd subelement U32 ' 5281~5284) it is arranged in the tenth array.

Continue foregoing, using each array in the upper left side of drawing as counting starting point, the first touch-control cabling RX11 ' is used to Connect and be located at odd column in the 5th array and positioned at least one the 3rd sub-electrode of odd-numbered line, the first touch-control cabling RX11 ' is used To connect at least one the 6th sub-electrode for being located at odd column in the 7th array and being located at odd-numbered line, and the first touch-control cabling RX11 ' is located at odd column and positioned at least one the 3rd sub-electrode of odd-numbered line to connect in the 9th array.First touch-control is walked Line RX12 ' is located at odd column and positioned at least one the 3rd sub-electrode of odd-numbered line, the first touch-control to connect in the 6th array Cabling RX12 ' is to connect at least one the 6th sub-electrode for being located at odd column in the 8th array and being located at odd-numbered line, and first Touch-control cabling RX12 ' is located at odd column and positioned at least one the 3rd sub-electrode of odd-numbered line to connect in the tenth array.In In the present embodiment, the first touch-control cabling can connect the first subelement, the second touch control unit positioned at the first touch control unit respectively The second subelement and the 3rd touch control unit the first subelement in odd column and the 3rd sub-electrode of odd-numbered line, the 6th son electricity Pole and the 9th sub-electrode., then can be single by the first touch control unit U1 ' the first son such as by taking Fig. 8 the first touch-control cabling RX11 ' as an example 6th sub-electrode 5151 and the 3rd of first U11 ' the 3rd sub-electrode 5121, the second touch control unit U2 ' the second subelement U21 ' Touch control unit U3 ' the 3rd subelement U31 ' the 9th sub-electrode 5181 is connected with each other, and can pass through the first touch-control cabling RX11 ' Transmit the data or signal of the 3rd sub-electrode 5121, the 6th sub-electrode 5151 and the 9th sub-electrode 5181.

Second touch-control cabling RX21 ', RX22 ' are arranged on the y-axis direction as shown in drawing.Second touch-control cabling RX21 ' Respectively connection positioned at the first housing region A1 ' sub-electrode of part the 3rd, the second housing region A2 ' sub-electrode of part the 6th with The 3rd housing region A3 ' sub-electrode of part the 9th.And second touch-control cabling RX22 ' connect respectively positioned at the first housing region The part of the A1 ' sub-electrode of part the 3rd, the second housing region A2 ' sub-electrode of part the 6th and the 3rd housing region A3 ' Nine sub-electrodes.With Fig. 8 specifically, the sub-electrode 5124 of the second touch-control cabling RX21 ' connections the 3rd, the second touch-control cabling The sub-electrode 5154 of RX21 ' connections the 6th, the sub-electrode 5184 of the second touch-control cabling RX21 ' connections the 9th.Second touch-control cabling RX22 ' Connect the 3rd sub-electrode 5224.The sub-electrode 5254 of second touch-control cabling RX22 ' connections the 6th.Second touch-control cabling RX22 ' connections 9th sub-electrode 5284.

For another angle, the first housing region A1 ' in the first touch control unit U1 ' the first subelement U11 ' (each first sub-electrode 5121~5124 in other words) is arranged in the 5th array, the first touch control unit U1 ' the first subelement U12 ' In the first housing region A1 ' (each first sub-electrode 5221~5224 in other words) be arranged in the 6th array.Second touch control unit The second housing region A2 ' housing regions (each 6th sub-electrode 5151~5154 in other words) in U2 ' the second subelement U21 ' Be arranged in the 7th array, the second touch control unit U2 ' the second subelement U21 ' the second housing region A2 ' housing regions (or Person says each 6th sub-electrode 5251~5254) be arranged in the 8th array.In 3rd touch control unit U3 ' the 3rd subelement U31 ' 3rd housing region A3 ' housing regions (each 9th sub-electrode 5181~5184 in other words) are arranged in the 9th array.3rd touch-control 3rd housing region A3 ' housing regions in unit U3 ' the 3rd subelement U32 ' (in other words each 9th sub-electrode 5281~ 5284) it is arranged in the tenth array.

Continue foregoing, using each array in the upper left side of drawing as counting starting point, the second touch-control cabling RX21 ' is used to Connect and be located at even column in the 5th array and positioned at least one the 3rd sub-electrode of even number line, the second touch-control cabling RX21 ' is used To connect at least one the 6th sub-electrode for being located at even column in the 7th array and being located at even number line, and the second touch-control cabling RX21 ' is located at even column and positioned at least one the 3rd sub-electrode of even number line to connect in the 9th array.Second touch-control is walked Line RX22 ' is located at even column and positioned at least one the 3rd sub-electrode of even number line, the second touch-control to connect in the 6th array Cabling RX22 ' is to connect at least one the 6th sub-electrode for being located at odd column in the 8th array and being located at odd-numbered line, and second Touch-control cabling RX22 ' is located at even column and positioned at least one the 3rd sub-electrode of even number line to connect in the tenth array.In In the present embodiment, the second touch-control cabling can connect the first subelement, the second touch control unit positioned at the first touch control unit respectively The second subelement and the 3rd touch control unit the first subelement in even column and the 3rd sub-electrode of even number line, the 6th son electricity Pole and the 9th sub-electrode., then can be single by the first touch control unit U1 ' the first son such as by taking Fig. 8 the first touch-control cabling RX21 ' as an example 6th sub-electrode 5154 and the 3rd of first U11 ' the 3rd sub-electrode 5124, the second touch control unit U2 ' the second subelement U21 ' Touch control unit U3 ' the 3rd subelement U31 ' the 9th sub-electrode 5184 is connected with each other, and can pass through the first touch-control cabling RX21 ' Transmit the data or signal of the 3rd sub-electrode 5124, the 6th sub-electrode 5154 and the 9th sub-electrode 5184.

3rd touch-control cabling RX31 ', RX32 ' are arranged on the y-axis direction as shown in drawing.3rd touch-control cabling RX31 ' Respectively connection positioned at the first housing region A1 ' sub-electrode of part the 3rd, the second housing region A2 ' sub-electrode of part the 6th with The 3rd housing region A3 ' sub-electrode of part the 9th.And the 3rd touch-control cabling RX32 ' connect respectively positioned at the first housing region The part of the A1 ' sub-electrode of part the 3rd, the second housing region A2 ' sub-electrode of part the 6th and the 3rd housing region A3 ' Nine sub-electrodes.With Fig. 8 specifically, the sub-electrode 5223 of the 3rd touch-control cabling RX31 ' connections the 3rd, the 3rd touch-control cabling The sub-electrode 5183 of RX31 ' connections the 9th.The sub-electrode 5123 of 3rd touch-control cabling RX32 ' connections the 3rd.3rd touch-control cabling RX32 ' Connect the 6th sub-electrode 5253.

Continue foregoing, using each array in the upper left side of drawing as counting starting point, the 3rd touch-control cabling RX31 ' is used to Connect and be located at even column in the 6th array and positioned at least one the 3rd sub-electrode of even number line, the 3rd touch-control cabling RX31 ' is used It is located at even column in the 9th array and positioned at least one the 9th sub-electrode of even number line to connect.3rd touch-control cabling RX32 ' It is located at even column in the 5th array and positioned at least one the 3rd sub-electrode of even number line, the 3rd touch-control cabling to connect RX32 ' is located at odd column and positioned at least one the 6th sub-electrode of odd-numbered line to connect in the 8th array.In the present embodiment In, the 3rd touch-control cabling can connect the first subelement, the second son of the second touch control unit positioned at the first touch control unit respectively The 3rd sub-electrode, the 6th sub-electrode and the 9th of even column and odd-numbered line in first subelement of unit and the 3rd touch control unit Sub-electrode., then can be by the first touch control unit U1 ' the first subelement U12's ' such as by taking Fig. 8 the first touch-control cabling RX31 ' as an example 9th sub-electrode 5183 of the 3rd sub-electrode 5223 and the 3rd touch control unit U3 ' the 3rd subelement U32 ' is connected with each other, and can The data or signal of the sub-electrode 5183 of the 3rd sub-electrode 5223 the 9th are transmitted by the 3rd touch-control cabling RX32 '.Due to schema It is limited, do not show the 3rd touch-control cabling RX32 ' and other sub-electrodes annexation, right art technology people Member is worked as the annexation that can determine whether out the 3rd touch-control cabling RX32 ' and other sub-electrodes by above-mentioned content, and can determine whether out it The annexation of the touch-control cablings of Ta get tri- and other sub-electrodes, is repeated no more in this.

4th touch-control cabling RX41 ', RX42 ' are arranged on the y-axis direction as shown in drawing.4th touch-control cabling RX41 ' Respectively connection positioned at the first housing region A1 ' sub-electrode of part the 3rd, the second housing region A2 ' sub-electrode of part the 6th with The 3rd housing region A3 ' sub-electrode of part the 9th.And the 4th touch-control cabling RX42 ' connect respectively positioned at the first housing region The part of the A1 ' sub-electrode of part the 3rd, the second housing region A2 ' sub-electrode of part the 6th and the 3rd housing region A3 ' Nine sub-electrodes.With Fig. 8 specifically, the sub-electrode 5222 of the 4th touch-control cabling RX41 ' connections the 3rd, the 4th touch-control cabling The sub-electrode 5182 of RX41 ' connections the 9th.The sub-electrode 5122 of 4th touch-control cabling RX42 ' connections the 3rd.4th touch-control cabling RX42 ' Connect the 6th sub-electrode 5252.

Continue foregoing, using each array in the upper left side of drawing as counting starting point, the 4th touch-control cabling RX41 ' is used to Connect and be located at even column in the 6th array and positioned at least one the 3rd sub-electrode of even number line, the 4th touch-control cabling RX41 ' is used It is located at even column in the 9th array and positioned at least one the 9th sub-electrode of even number line to connect.4th touch-control cabling RX42 ' It is located at even column in the 5th array and positioned at least one the 3rd sub-electrode of even number line, the 4th touch-control cabling to connect RX42 ' is located at odd column and positioned at least one the 6th sub-electrode of odd-numbered line to connect in the 8th array.In the present embodiment In, the 4th touch-control cabling can connect the first subelement, the second son of the second touch control unit positioned at the first touch control unit respectively The 3rd sub-electrode, the 6th sub-electrode and the 9th of odd column and even number line in first subelement of unit and the 3rd touch control unit Sub-electrode., then can be by the first touch control unit U1 ' the first subelement U11's ' such as by taking Fig. 8 the first touch-control cabling RX42 ' as an example 6th sub-electrode 5252 of the 3rd sub-electrode 5122 and the second touch control unit U2 ' the second subelement U22 ' is connected with each other, and can The data or signal of the 3rd sub-electrode 5122 and the 6th sub-electrode 5252 are transmitted by the 4th touch-control cabling RX42 '.Due to schema Length is limited, does not show the 4th touch-control cabling RX42 ' and other sub-electrodes annexation, right art technology Personnel are worked as the annexation that can determine whether out the 4th touch-control cabling RX42 ' and other sub-electrodes by above-mentioned content, and can determine whether out Other obtain the annexation of the 4th touch-control cabling and other sub-electrodes, are repeated no more in this

As shown in Fig. 1 to Fig. 7 embodiment, adjacent sub-electrode is not both to be connected to not Tongfang in each induction electrode To touch-control cabling.For Fig. 2, the 3rd sub-electrode 1131 connects the first touch-control cabling RX11, and the first touch-control cabling RX11 It is to extend along the y-axis direction.3rd sub-electrode 1131 is adjacent to the 3rd sub-electrode 1132 and the 3rd sub-electrode 1135.3rd son electricity Pole 1132 connects the 4th touch-control cabling RX41, and the 4th touch-control cabling RX41 is to extend along the x-axis direction.3rd sub-electrode 1135 connects The 3rd touch-control cabling RX31 is met, and the 3rd touch-control cabling RX31 is to extend along the x-axis direction.In other words, the 3rd sub-electrode 1131, 3rd sub-electrode 1132 with the 3rd sub-electrode 1135 it is adjacent both be to be connected to the touch-control extended in different directions to walk Line.Thereby so that touch points can always be associated with the two of which sub-electrode in induction electrode, and define touch points in x With the position in y-axis on axle, so as to define relative position of the touch points relative to display panel.

Please referring next to Fig. 9, Figure 10, Figure 11 A, Figure 11 B and Figure 11 C, Fig. 9 by according to the present invention, another embodiment is painted again The schematic layout pattern of each touch control unit shown, Figure 10 is the part touch control unit and display panel according to depicted in Fig. 9 of the present invention Middle other elements are in a kind of relative position schematic layout pattern implemented in aspect, and Figure 11 A are according to depicted in Figure 10 of the present invention 11A-11A diagrammatic cross-sections, Figure 11 B are the 11B-11B diagrammatic cross-sections according to depicted in Figure 10 of the present invention, and Figure 11 C are according to this 11C-11C diagrammatic cross-sections depicted in Invention figure 10.Component placement shown in Fig. 9 is similar in the component placement shown in Fig. 4, is Schema is concise, again with Fig. 9 label declarations.Briefly, it is to have illustrated display unit to put down in XY with other elements in Figure 10 Relative placement on face, Figure 11 A, Figure 11 B and Figure 11 C then show the layer that display unit and other elements are formed in YZ planes Stack structure.Correlative detail is see subsequent detailed.In Fig. 10, to avoid schema disorderly, subelement is that collocation net bottom is presented, because This net bottom is not used to indicate its material or cutting plane herein only to illustrate to separate.

It is similar in foregoing, display panel 6 has the first carry electrode 611 and the first induction electrode 613.First transmission electricity Pole 611 has more the first sub-electrode 6111 and the second sub-electrode 6112,6113, and the first induction electrode 613 is with more the 3rd son electricity Pole 6131,6132.Correlative detail is it has been observed that being repeated no more in this.It is subsequently to be illustrated by taking the region Z in Fig. 9 as an example.

Substrate G, conductor layer M1, M2, M3, semiconductor layer AS, insulating barrier are then shown in Figure 10, Figure 11 A~Figure 11 C The relativeness of GI, BP1, BP2, BP3, PL, pixel electrode layer PX and common electrode layer COM on X/Y plane or in YZ planes. As illustrated, the first carry electrode 611 and the first induction electrode 613 cover at least one sub-pixel unit P, Mei Yizi respectively Pixel cell P contains at least part at least one pixel electrode PXe and common electrode layer COM.Conductor layer M1, which has, to be led Body sublayer M11 and conductor sublayer M12.Conductor layer M2 has conductor sublayer M21 and conductor sublayer M22.

In this embodiment, common electrode layer COM is separated with pixel electrode layer PX.For another angle, Common electrode layer COM is not in contact each other with pixel electrode layer PX.As shown in Figure 10, common electrode layer COM has first Part COM1, Part II COM2 and Part III COM3.Part I COM1, Part II COM2 and Part III COM3 that This is not in contact.In a kind of definition mode, the first carry electrode 611 is common electrode layer COM Part I COM1, the 3rd sub-electrode 6131 of one induction electrode 613 is common electrode layer COM Part II COM2, and the first induction electrode 613 The 3rd sub-electrode 6132 be common electrode layer COM Part III COM3.It is common in this definition mode in practice Electrode layer COM is for example formed via Patternized technique, and common electrode layer COM has multiple parts not being in contact, and these are not The part being in contact is used to use as each electrode in each touch control unit in the time point of system specifications.

On the other hand, as shown in Figure 10, the first carry electrode 611 and the first induction electrode 613 difference overlaid pixel electrode At least one pixel electrode PXe in layer PX.Therefore, when foregoing each embodiment has the structure shown in Figure 10~Figure 11 C, Foregoing the first sub-electrode, the second sub-electrode at least a portion, the 3rd sub-electrode at least a portion, the 4th sub-electrode, the 5th son Electrode at least a portion is respectively by the common of corresponding at least one sub-pixel unit P with the 6th sub-electrode at least a portion Electrode is constituted.And the 3rd sub-electrode 6131 and the 3rd sub-electrode 6132 in the first induction electrode 613 are respectively via opening O2, O3 are connected to corresponding conductor layer.

Please referring next to Figure 11 A, Figure 11 B and Figure 11 C, to further illustrate substrate G, conductor layer M1, M2, M3, partly lead Body layer AS, insulating barrier GI, BP1, BP2, BP3, PL, pixel electrode layer PX and common electrode layer COM are in a kind of implementation aspect Layered relationship or annexation.

For relative position, conductor layer M1 is arranged on substrate G.Insulating barrier GI be arranged at substrate G and conductor layer M1 it On, and insulating barrier GI covers at least part of conductor layer M1.Semiconductor layer AS is arranged on insulating barrier GI, conductor sublayer M21, M22 is arranged on insulating barrier GI, and conductor layer M21, M22 contacts semiconductor layer AS respectively, and conductor sublayer M21 and conductor sublayer M22 is not in contact each other.Insulating barrier BP1 is arranged on semiconductor layer AS, conductor sublayer M21 and conductor sublayer M22, and insulation Layer BP1 covering semiconductor layer AS and conductor sublayer M21, and insulating barrier BP1 covers at least part of conductor sublayer M22.Insulating barrier PL is located on insulating barrier BP1 to form a flatness layer.Conductor layer M3 is located on insulating barrier PL.Insulating barrier BP2 is located at insulation On layer PL and cover at least part of conductor layer M3.Common electrode layer COM is located on insulating barrier BP2.Insulating barrier BP3 is located at On insulating barrier BP2 and common electrode layer COM, and insulating barrier BP3 covers at least part of common electrode layer COM.Pixel electrode On insulating barrier BP3.

For annexation, as shown in Figure 11 A and Figure 11 B, insulating barrier BP1, insulating barrier PL, insulating barrier BP2 and insulation Layer BP3 is etched to form opening O1 so that the conductor sublayer M22 of part is not covered at opening O1 by each insulating barrier.Therefore, Pixel electrode PXe can contact conductor sublayer M22 via opening O1.On the other hand, insulating barrier BP2 is etched to form opening O2, So that partial conductor layer M3 is not covered at opening O2 by insulating barrier BP2.Therefore, common electrode layer COM can be via opening Mouthful O2 and contact conductor layer M3.For example, in Figure 11 A, common electrode layer COM2 is contacted with conductor layer M3, in Figure 11 B, Common electrode layer COM1 is also contacted with conductor layer M3.And as shown in Figure 11 C, insulating barrier GI, insulating barrier BP1, insulating barrier PL with absolutely Edge layer BP2 is etched to form opening O3 so that the conductor layer M1 of part is not covered at opening O3 by each insulating barrier.Cause This, common electrode layer COM can contact conductor layer M1 via opening O3.In the present embodiment, conductor sublayer M11 is used as The grid of scan line or thin film transistor (TFT) (thin film transistor, TFT), conductor sublayer M21 is used as data One of source electrode or drain electrode of line or thin film transistor (TFT), conductor sublayer M22 are used as the source electrode of thin film transistor (TFT) Or drain wherein another.In addition, conductor sublayer M12 as the 3rd touch-control cabling as the aforementioned or the 4th touch-control then to walk Line, at least part of conductor layer M3 is used as the first touch-control cabling as the aforementioned or the second touch-control cabling.

Figure 10 is refer to, common electrode layer COM Part II COM2 is the 3rd son electricity as the first induction electrode 613 Pole 6131.Referring again to Figure 11 A, common electrode layer COM Part II COM2 is to be connected at least part of lead via opening O2 Body layer M3.Therefore, as shown in figure 9, at least part of conductor layer M3 is used as the touch-control cabling extended along the y-axis direction, such as Touch-control cabling RX11.In other words, common electrode layer COM Part II COM2 is to produce induced signal, and via at least Partial conductor layer M3 transmission.

Depicted common electrode layer COM Part I COM1 is the first carry electrode 611 as part in Figure 10. Figure 11 B are referred again to, common electrode layer COM Part I COM1 is to be connected at least part of conductor layer M3 via opening O2. Therefore, at least part of conductor layer M3 is used as the transmission cabling extended along the y-axis direction, such as touch-control cabling RX41.Change sentence Talk about, common electrode layer COM Part I COM1 via at least part of conductor layer M3 to receive to obtain the first test signal Or second test signal.In one embodiment, to transmit at least part of conductor layer M3 of induced signal with to transmit the At least part of conductor layer M3 of one test signal or the second test signal each other not in contact with.

Referring to Fig. 10, common electrode layer COM Part III COM3 is the 3rd son electricity as the first induction electrode 613 Pole 6132.Figure 11 C are referred again to, common electrode layer COM Part III COM3 is to be connected to via opening O2 in conductor layer M1 extremely Least a portion of conductor sublayer M12.Therefore, in conductor layer M1 at least part of conductor sublayer M12 as extending along the x-axis direction Touch-control cabling is used.In other words, common electrode layer COM Part III COM3 is to produce induced signal, and via conductor At least part of conductor sublayer M12 transmission in layer M1.

As described above, in this embodiment, at least part of conductor layer M1 be as the touch-control cabling extended along the x-axis direction, At least part of conductor layer M3 is that, as the touch-control cabling extended along the y-axis direction, and at least part of conductor layer M2 is as aobvious Show the data wire of panel.

Please referring next to Figure 12, Figure 13 A and Figure 13 B, Figure 12 for according to depicted in Fig. 9 of the present invention part touch control unit with Relative position schematic layout pattern of the other elements in another implementation aspect in display panel.Figure 13 A are according to present invention figure 13A-13A diagrammatic cross-sections depicted in 12.Figure 13 B are the 13B-13B diagrammatic cross-sections according to depicted in Figure 12 of the present invention.Briefly come Say, be to illustrate display unit and relative placement of the other elements on X/Y plane in Figure 12, Figure 13 A and Figure 13 B are then shown The stepped construction that display unit is formed with other elements in YZ planes.In fig. 12, to avoid schema disorderly, subelement is Net bottom of arranging in pairs or groups is presented, therefore net bottom is herein only to illustrate to separate, and is not used to indicate its material or cutting plane.

It is similar in foregoing, display panel 6 has the first touch control unit U1 ", and the first touch control unit has the first transmission electricity The induction electrode 613 of pole 611 and first.First carry electrode 611 with more the first sub-electrode 6111 and the second sub-electrode 6112, 6113, the first induction electrode 613 has more the 3rd sub-electrode 6131,6132.Then shown in Figure 12, Figure 13 A and Figure 13 B Substrate G, conductor layer M1, M2, M3, semiconductor layer AS, insulating barrier GI, BP1, BP2, BP3, PL, pixel electrode layer PX are powered together Relativenesses of the pole layer COM on X/Y plane or in YZ planes.As illustrated, the first carry electrode 611 and the first induction electrode 613 cover at least one sub-pixel unit P, each sub-pixel unit P respectively contains at least one pixel electrode PXe together At least part in logical electrode layer COM.Conductor layer M1 has conductor sublayer M11 and conductor sublayer M12.Conductor layer M2 has conductor Sublayer M21 and conductor sublayer M22.

In this embodiment, common electrode layer COM is separated with pixel electrode layer PX.For another angle, Common electrode layer COM is not in contact each other with pixel electrode layer PX.As shown in figure 12, common electrode layer COM has first Part COM1, Part II COM2 and Part III COM3.Part I COM1, Part II COM2 and Part III COM3 that This is not in contact.In a kind of definition mode, the first carry electrode 611 is common electrode layer COM Part I COM1, the 3rd sub-electrode 6131 of one induction electrode 613 is common electrode layer COM Part II COM2, and the first induction electrode 613 The 3rd sub-electrode 6132 be common electrode layer COM Part III COM3.It is common in this definition mode in practice Electrode layer COM is for example formed via Patternized technique, and common electrode layer COM has multiple parts not being in contact, and these are not The part being in contact is used to use as each electrode in each touch control unit in the time point of system specifications.

On the other hand, as shown in figure 12, the first carry electrode 611 and the first induction electrode 613 difference overlaid pixel electrode At least one pixel electrode PXe in layer PX.Therefore, when foregoing each embodiment has the structure shown in Figure 13 A and Figure 13 B When, foregoing the first sub-electrode, the second sub-electrode at least a portion, the 3rd sub-electrode at least a portion, the 4th sub-electrode, the 5th Sub-electrode at least a portion and the 6th sub-electrode at least a portion are being total to by corresponding at least one sub-pixel unit P respectively Energization pole is constituted.And the 3rd sub-electrode 6131 in the first induction electrode 613 and the 3rd sub-electrode 6132 are respectively via opening Mouth O2, O3 are connected to corresponding conductor layer.

Please referring next to Figure 13 A and Figure 13 B, with further illustrate substrate G, conductor layer M1, M2, M3, semiconductor layer AS, The stacking of insulating barrier GI, BP1, BP2, BP3, PL, pixel electrode layer PX and common electrode layer COM in another implementation aspect is closed System or annexation.Conductor layer M2 has conductor sublayer M21, conductor sublayer M22 and conductor sublayer M23.

For relative position, conductor layer M1 is arranged on substrate G.Insulating barrier GI be arranged at substrate G and conductor layer M1 it On, and insulating barrier GI covers at least part of conductor layer M1.Semiconductor layer AS is arranged on insulating barrier GI, conductor sublayer M21, M22 is arranged on insulating barrier GI, and conductor sublayer M21, M22 contacts semiconductor layer AS respectively, and conductor sublayer M21 is sub with conductor Layer M22 is not in contact each other.Insulating barrier BP1 is arranged on semiconductor layer AS, conductor layer M21 and conductor layer M22, and insulating barrier BP1 covers semiconductor layer AS and conductor layer M21, and insulating barrier BP1 covers at least part of conductor sublayer M22.Insulating barrier PL To form a flatness layer on insulating barrier BP1.Conductor layer M3 is located on insulating barrier PL.Insulating barrier BP2 is located at insulating barrier PL On and cover at least part of conductor layer M3.Common electrode layer COM is located on insulating barrier BP2.Insulating barrier BP3 is located at insulation On layer BP2 and common electrode layer COM, and insulating barrier BP3 covers at least part of common electrode layer COM.Pixel electrode is located at On insulating barrier BP3.

For annexation, as shown in FIG. 13A, insulating barrier BP1, insulating barrier PL, insulating barrier BP2 and insulating barrier BP3 quilts Etch and form opening O4 so that at least part of conductor sublayer M22 is not covered at opening O4 by each insulating barrier.Therefore, as Plain electrode PXe can contact conductor sublayer M22 via opening O4.On the other hand, insulating barrier BP1, insulating barrier PL and insulating barrier BP2 quilts Etch and form opening O5 so that at least part of conductor sublayer M23 is not covered at opening O5 by each insulating barrier.Therefore, portion The common electrode layer COM divided contacts conductor sublayer M23 via opening O5.In addition, insulating barrier BP3 can also be contained in opening O5 and cover The common electric shock layer COM1 of lid.In Figure 13 B, insulating barrier BP2 is etched to form opening O6 so that at least part of conductor layer M3 Do not covered at opening O6 by insulating barrier BP2.Therefore, common electrode layer COM Part III COM3 can be contacted via opening O6 Conductor layer M3.

In the present embodiment, at least part of conductor layer M1 is used as scan line or thin film transistor (TFT) (thin film Transistor, TFT) grid, at least part of conductor sublayer M21 is used as the source of data wire or thin film transistor (TFT) One of pole or drain electrode, and at least part of conductor sublayer M22 is used as the source electrode of thin film transistor (TFT) or drains it In it is another.At least part of conductor sublayer M23 is used as the first touch-control cabling as the aforementioned or the second touch-control cabling, extremely Least a portion of conductor layer M3 is then used as the 3rd touch-control cabling as the aforementioned or the 4th touch-control cabling.

Referring again to Figure 12, common electrode layer COM Part II COM2 is the 3rd son as the first induction electrode 613 Electrode 6131.And with further reference to Figure 13 A, common electrode layer COM Part II COM2 is to be connected to conductor via opening O5 At least part of conductor sublayer M23 in layer M2.Therefore, refer again to such as Figure 13 A, at least part of conductor sublayer in conductor layer M2 M23 is used as the touch-control cabling extended along the y-axis direction, such as touch-control cabling RX11.In other words, common electrode layer COM Part II COM2 is transmitted to produce induced signal, and via at least part of conductor sublayer M23 in conductor layer M2.

Referring again to Figure 12, common electrode layer COM Part III COM3 is the 3rd son as the first induction electrode 613 Electrode 6132.And with further reference to Figure 13 B, common electrode layer COM Part III COM3 is connected at least via opening O6 Partial conductor layer M3.Therefore, refer again to such as Fig. 9, conductor layer M3 is used as the touch-control cabling extended along the x-axis direction, such as Touch-control cabling RX41.In other words, common electrode layer COM Part III COM3 is to produce induced signal, and via conductor Layer M3 transmission.

As described above, in this embodiment, at least part of conductor layer M3 be as the touch-control cabling extended along the x-axis direction, At least part of conductor layer M2 is that, as the touch-control cabling extended along the y-axis direction, and at least part of conductor layer M2 is as aobvious Show the data wire of panel.On the other hand, in the above embodiments, display panel is applied to common electrode layer The framework of boundary electric field switch type (Fringe Field Switching, FFS), but be not limited.

In summary described, the display panel provided by the present invention for integrating touch-control has example any embodiment as the aforementioned Described structure.In one embodiment, integrate touch-control display panel have the first touch control unit, the second touch control unit with it is a plurality of Touch-control cabling.First touch control unit has the first carry electrode and the first induction electrode, and the second touch control unit has the second transmission Electrode and the second induction electrode, touch-control cabling connect the first induction electrode or the second induction electrode respectively.Pass through above-mentioned knot Structure, integrate touch-control display panel control module be able to provide touch sense signals it is right to all carry electrodes, and simultaneously All induction electrodes carry out touch control detection.Therefore, in the case where panel size increase causes touch-control port number to increase, integrate The display panel of touch-control is able to be effectively reduced the time of touch control detection.On the other hand, via follow-up judgement, it can more detect Multiple touch points for going out on display panel, it is to avoid the situation of wrong report ghost point.

Although the present invention is disclosed above with foregoing embodiment, so it is not limited to the present invention.This hair is not being departed from In bright spirit and scope, carried out by change and retouching, belong to the present invention scope of patent protection.Defined on the present invention Protection domain refer to claims.

Claims

1. a kind of display panel for integrating touch-control, it is characterised in that described display panel is included：

Multiple sub-pixel units, each sub-pixel unit comprises at least a pixel electrode；

One first touch control unit, comprising：

One first carry electrode, including at least one first sub-electrode and multiple the second son electricity interlocked with first sub-electrode Pole, to define multiple first housing regions；And

One first induction electrode, including at least multiple 3rd sub-electrodes, is arranged in the multiple first housing region；

One second touch control unit, comprising：

One second carry electrode, including at least one the 4th sub-electrode and multiple the 5th son electricity interlocked with the 4th sub-electrode Pole, to define multiple second housing regions, wherein, the multiple first housing region and the multiple second housing region point A matrix is not lined up with a column direction and line direction；And

One second induction electrode, including at least multiple 6th sub-electrodes, is arranged in the multiple second housing region, wherein, First sub-electrode, the multiple second sub-electrode at least a portion, the multiple 3rd sub-electrode at least a portion, it is described 4th sub-electrode, the multiple 5th sub-electrode at least a portion and the multiple 6th sub-electrode at least a portion are overlapping respectively At least one corresponding pixel electrode；

At least two the first touch-control cablings, are arranged in the column direction, to connect respectively positioned at first housing region One odd column and the multiple 3rd sub-electrode of an odd-numbered line and the odd column positioned at second housing region and institute State the multiple 6th sub-electrode of odd-numbered line；

At least two the second touch-control cablings, are arranged in the column direction, to connect respectively positioned at first housing region One even column and the multiple 3rd sub-electrode of an even number line and the even column positioned at second housing region and institute State the multiple 6th sub-electrode of even number line；

At least two article the 3rd touch-control cabling, is arranged on the line direction, to connect respectively positioned at first housing region The even column and the multiple 3rd sub-electrode one of which of the odd-numbered line and the institute positioned at second housing region State the multiple 6th sub-electrode one of which of even column and the odd-numbered line；

At least two article the 4th touch-control cabling, is arranged on the line direction, to connect respectively positioned at first housing region The odd column and the multiple 3rd sub-electrode one of which of the even number line and the institute positioned at second housing region State the multiple 6th sub-electrode one of which of odd column and the even number line.

2. display panel as claimed in claim 1, it is characterised in that the multiple carry electrode and the multiple induction electrode All it is spaced from each other and.

3. display panel as claimed in claim 1, it is characterised in that the direction of routing of each 3rd touch-control cabling is mutually not Together, and each 4th touch-control cabling direction of routing it is mutually different.

4. display panel as claimed in claim 1, it is characterised in that wherein one article of the 3rd touch-control cabling is not connected to described The 3rd sub-electrode and the 6th sub-electrode corresponding to 3rd another article of touch-control cabling.

5. display panel as claimed in claim 1, it is characterised in that wherein one article of the 4th touch-control cabling is not connected to described The 3rd sub-electrode and the 6th sub-electrode corresponding to 4th another article of touch-control cabling.

6. display panel as claimed in claim 1, it is characterised in that described display panel is further included：

One the 3rd touch control unit, between first touch control unit and second touch control unit, and the 3rd touch-control Unit is included：

One the 3rd carry electrode, including at least one the 7th sub-electrode and multiple the 8th son electricity interlocked with the 7th sub-electrode Pole, to define multiple 3rd housing regions；And

One the 3rd induction electrode, including at least multiple 9th sub-electrodes, is arranged in the multiple 3rd housing region；

One the 4th touch control unit, outside second touch control unit, and the 4th touch control unit is included：

One the 4th carry electrode, including at least 1 the tenth sub-electrode and multiple the 11st sons interlocked with the tenth sub-electrode Electrode, to define multiple 4th housing regions；And

One the 4th induction electrode, including at least multiple 12nd sub-electrodes, is arranged in the multiple 4th housing region；

At least two article the 5th touch-control cabling, is arranged on the line direction, to connect respectively positioned at the 3rd housing region The even column and the multiple 9th sub-electrode one of which of the odd-numbered line and the institute positioned at the 4th housing region State the multiple 12nd sub-electrode one of which of even column and the odd-numbered line；

At least two article the 6th touch-control cabling, is arranged on the line direction, to connect respectively positioned at the 3rd housing region The odd column and the multiple 3rd sub-electrode one of which of the even number line and the institute positioned at the 4th housing region State the multiple 12nd sub-electrode one of which of odd column and the even number line.

7. display panel as claimed in claim 6, it is characterised in that described display panel is further included：

At least two article the 7th touch-control cabling, is arranged in the column direction, to connect respectively positioned at the 3rd housing region One odd column and the multiple 9th sub-electrode of an odd-numbered line and the odd column positioned at the 4th housing region and institute State the multiple 12nd sub-electrode of odd-numbered line；And

At least two article the 8th touch-control cabling, is arranged in the column direction, to connect respectively positioned at the 3rd housing region One even column and the multiple 9th sub-electrode of an even number line and the even column positioned at the 4th housing region and institute State the multiple 12nd sub-electrode of even number line.

8. a kind of display panel for integrating touch-control, it is characterised in that described display panel is included：

One first touch control unit, including at least two the first subelements, first subelement is arranged on the one of a column direction and inclined On one incline direction of tilted direction and a line direction, and each first subelement is comprised at least：

One first carry electrode, the second son electricity interlocked including at least one first sub-electrode and one with first sub-electrode Pole, to define multiple first housing regions；

One first induction electrode, including at least multiple 3rd sub-electrodes, is arranged in the multiple first housing region；And

One first connection electrode, is connected between two of first subelement wherein；

One second touch control unit, including at least one second subelement, and second subelement is comprised at least：

One second carry electrode, the 5th son electricity interlocked including at least one the 4th sub-electrode and one with the 4th sub-electrode Pole, to define multiple second housing regions；

One second induction electrode, including at least multiple 6th sub-electrodes, is arranged in the multiple second housing region；And

One second connection electrode, is connected between two of the multiple second subelement wherein；

One the 3rd touch control unit, including at least one the 3rd subelement, and the 3rd subelement is comprised at least：

One the 3rd carry electrode, the 8th son electricity interlocked including at least one the 7th sub-electrode and one with the 7th sub-electrode Pole, to define multiple 3rd housing regions, wherein, the multiple first housing region, the multiple second housing region with The multiple 3rd housing region lines up a matrix with a column direction and line direction respectively；

One the 3rd induction electrode, including at least multiple 9th sub-electrodes, is arranged in the multiple 3rd housing region；And

One the 3rd connection electrode, is connected between two of the 3rd subelement wherein, and the other end connects the 8th sub-electrode, Wherein, first sub-electrode, second sub-electrode, the multiple 3rd sub-electrode at least a portion, the multiple first Connection electrode at least a portion, the 4th sub-electrode, the 5th sub-electrode, the multiple 6th sub-electrode at least one Point, second connection electrode, the 7th sub-electrode, the 8th sub-electrode, the multiple 8th sub-electrode at least one Divide and the 3rd connection electrode distinguishes overlapping at least one corresponding pixel electrode.

9. display panel as claimed in claim 8, it is characterised in that described display panel is further included：

At least two the first touch-control cablings, are arranged in the column direction, described wherein one connection of first touch-control cabling is located at One odd column of first housing region and the multiple 3rd sub-electrode one of which of an odd-numbered line and positioned at described The odd column of two housing regions and the multiple 6th sub-electrode one of which of the odd-numbered line and it is described first touch Another article of connection of cabling is controlled positioned at the odd column of the 3rd housing region and the multiple 9th son of the odd-numbered line Electrode one of which and the odd column and the multiple 3rd son electricity of the odd-numbered line positioned at first housing region Pole one of which；And

At least two the second touch-control cablings, are arranged in the column direction, described wherein one connection of second touch-control cabling is located at One even column of first housing region and the multiple 3rd sub-electrode one of which of an even number line and positioned at described The even column of two housing regions and the multiple 6th sub-electrode one of which of the even number line and it is described second touch Another article of connection of cabling is controlled positioned at the even column of the 3rd housing region and the multiple 9th son of the even number line Electrode one of which and the even column and the multiple 3rd son electricity of the even number line positioned at first housing region Pole one of which.

10. display panel as claimed in claim 9, it is characterised in that described display panel is further included：

At least two article the 3rd touch-control cabling, is arranged on the line direction, and described wherein one article connection of 3rd touch-control cabling is located at The even column of first housing region and the multiple 3rd sub-electrode one of which of the odd-numbered line and positioned at institute State the even column of the 3rd housing region and the multiple 9th sub-electrode one of which of the odd-numbered line and described The connection of three another article of touch-control cablings positioned at second housing region the even column and the odd-numbered line the multiple the Six sub-electrode one of which and the even column and the multiple 3rd of the odd-numbered line the positioned at first housing region Sub-electrode one of which；And

At least two article the 4th touch-control cabling, is arranged on the line direction, and described wherein one article connection of 4th touch-control cabling is located at The even column of first housing region and the multiple 3rd sub-electrode one of which of the even number line and positioned at institute State the odd column of the 3rd housing region and the multiple 9th sub-electrode one of which of the even number line and described The connection of four another article of touch-control cablings positioned at second housing region the odd column and the even number line the multiple the Six sub-electrode one of which and the odd column and the multiple 3rd of the even number line the positioned at first housing region Sub-electrode one of which.