CN107704143A - A kind of substrate and display device - Google Patents

Abstract

The present invention provides a kind of substrate and display device, is related to display technology field, can improve because resistance has differences on cabling, causes to show inhomogenous problem.The substrate, including substrate, multiple transparency electrode groups over the substrate and multiple cabling groups are set, the transparency electrode group includes the multiple transparency electrodes being distributed on same row, and the cabling group includes more cablings being electrically connected with each transparency electrode in the same transparency electrode group；At least two cabling areas in the cabling group are identical or approximately the same and signal input part from the cabling is identical or approximately the same with the resistance of the tie point of the transparency electrode to the cabling.

Description

A kind of substrate and display device

Technical field

The present invention relates to display technology field, more particularly to a kind of substrate and display device.

Background technology

With the rapid development of Display Technique, the birth of touch screen (Touch Panel, abbreviation TP) makes the life of people more It is convenient to add.Nowadays, embedded capacitor type touch technology has been widely used in display field.

Wherein, embedded capacitor type touch technology can be divided into embedded self-induction capacitance touching control technology and embedded Inductance and Capacitance formula again Touch technology.Compared to embedded Inductance and Capacitance formula touch-control, embedded self-induction capacitance touching control has the advantages of high s/n ratio, inexpensive.

At present, embedding self-induction capacitance touching control can be by the way that by transparency electrode, (transparency electrode is time sharing shared, makees in the display stage For public electrode, in the touch-control stage as touch control electrode) it is arranged on array base palte or color membrane substrates and realizes.It is as shown in figure 1, every Individual transparency electrode is to transmit signal by cabling, in order to ensure to transmit the electric capacity on the cabling of signal to each transparency electrode It is identical, cabling is arranged to structure as shown in Figure 1.However, it is used for calculating the portion of resistance for every cabling, on cabling It is divided into the signal input part of cabling to the part of cabling and the tie point of transparency electrode (thickened portion in Fig. 1), in display process In, for different transparency electrodes, because the distance of signal input part to tie point is different, the resistance on cabling can be caused to exist Difference, so as to cause the voltage signal being carried in each transparency electrode to have differences, cause to show heterogeneity, so as to influence Product quality.

The content of the invention

Embodiments of the invention provide a kind of substrate and display device, can improve because resistance has differences on cabling, cause Show inhomogenous problem.

To reach above-mentioned purpose, embodiments of the invention adopt the following technical scheme that：

On the one hand, there is provided a kind of substrate, including substrate, multiple transparency electrode groups over the substrate and multiple are set Cabling group, the transparency electrode group include the multiple transparency electrodes being distributed on same row, and the cabling group includes and same institute State the more cablings that each transparency electrode in transparency electrode group is electrically connected；At least two cabling areas in the cabling group Identical or approximately the same and signal input part from the cabling is to the cabling and the resistance of the tie point of the transparency electrode It is identical or approximately the same.

Preferably, every cabling area in the cabling group is identical or approximately the same and from the signal input part to institute The resistance for stating tie point is identical or approximately the same.

Preferably, the number phase for the transparency electrode that each transparency electrode group set on the substrate includes Together.

Preferably, the cabling includes be arrangeding in parallel and the first sub- cabling of width identical and the second sub- cabling, it is described walk Line is electrically connected by the first sub- cabling or the second sub- cabling with the transparency electrode.

Optionally, transparency electrode group include first transparency electrode, second transparency electrode, the 3rd transparency electrode, 4th transparency electrode, cabling group include the first cabling, the second cabling, the 3rd cabling, the 4th cabling, every cabling First sub- cabling extends to the second side of the 4th transparency electrode from the signal input part.

Second sub- cabling of first cabling includes the Part I and Part II disconnected；The of the Part I One end is located at the first side of the first transparency electrode, and the second end is located at a quarter opening position of the second transparency electrode, Second end electrically connects with the described first sub- cabling；The first end of the Part II be located at the second transparency electrode four/ One opening position, the second end are located at the second side of the 4th transparency electrode, and the second end electrically connects with the described first sub- cabling；Described first Part electrically connects with the first transparency electrode.

Second sub- cabling of second cabling includes Part I, Part II and the Part III disconnected；Described The first end of a part is located at the first side of the first transparency electrode, and the second end is located at the second of the first transparency electrode Side, first end and the second end electrically connect with the described first sub- cabling respectively；The first end of the Part II is located at described second First side of transparency electrode, the second end are located at the second side of the second transparency electrode, the second end and the described first sub- cabling electricity Connection；The first end of the Part III is located at the first side of the 3rd transparency electrode, and the second end is located at the 4th transparency electrode The second side, the second end electrically connects with the described first sub- cabling；The Part II electrically connects with the second transparency electrode.

Second sub- cabling of the 3rd cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the first transparency electrode, first end and second End electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the first of the second transparency electrode Side, the second end are located at the second side of the 4th transparency electrode, and the second end electrically connects with the described first sub- cabling；First son Cabling electrically connects with the 3rd transparency electrode.

Second sub- cabling of the 4th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the 3rd transparency electrode, first end and second End electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the first of the 4th transparency electrode Side, the second end are located at the second side of the 4th transparency electrode, and the second end electrically connects with the described first sub- cabling；First son Cabling electrically connects with the 4th transparency electrode.

Wherein, the transparency electrode is the first side close to the side of the signal input part, and the second side is relative with the first side.

Optionally, transparency electrode group include first transparency electrode, second transparency electrode, the 3rd transparency electrode, 4th transparency electrode, the 5th transparency electrode, a cabling group are walked including the first cabling, the second cabling, the 3rd cabling, the 4th Line, the 5th cabling, the first sub- cabling of every cabling extend to the second of the 5th transparency electrode from the signal input part Side.

Second sub- cabling of first cabling includes the Part I and Part II disconnected；The of the Part I One end is located at the first side of the first transparency electrode, and the second end is located at the second transparency electrode half opening position, the Two ends electrically connect with the described first sub- cabling；The first end of the Part II is located at the second transparency electrode half position Place is put, the second end is located at the second side of the 5th transparency electrode, and the second end electrically connects with the described first sub- cabling；The Part I Electrically connected with the first transparency electrode.

Second sub- cabling of second cabling includes Part I, Part II and the Part III disconnected；Described The first end of a part is located at the first side of the first transparency electrode, and the second end is located at the second of the first transparency electrode Side, first end electrically connect with the described first sub- cabling；The first end of the Part II is located at the of the second transparency electrode Side, the second end are located at the second side of the second transparency electrode, and the second end electrically connects with the described first sub- cabling；Described 3rd Partial first end is located at the first side of the 3rd transparency electrode, and the second end is located at the second side of the 5th transparency electrode, and second End electrically connects with the described first sub- cabling；The Part II electrically connects with the second transparency electrode.

Second sub- cabling of the 3rd cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the 3rd transparency electrode, first end with it is described First sub- cabling electrical connection；The first end of the Part II is located at the first side of the 4th transparency electrode, and the second end is positioned at described Second side of the 5th transparency electrode, the second end electrically connect with the described first sub- cabling；The Part I and the described 3rd transparent Electrode electrically connects.

Second sub- cabling of the 4th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the second transparency electrode, first end and second End electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the first of the 3rd transparency electrode Side, the second end are located at the second side of the 5th transparency electrode, and the second end electrically connects with the described first sub- cabling；First son Cabling electrically connects with the 4th transparency electrode.

Second sub- cabling of the 5th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the 4th transparency electrode, first end and second End electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the first of the 5th transparency electrode Side, the second end are located at the second side of the 5th transparency electrode, and the second end electrically connects with the described first sub- cabling；First son Cabling electrically connects with the 5th transparency electrode.

Wherein, the transparency electrode is the first side close to the side of the signal input part, and the second side is relative with the first side.

Optionally, transparency electrode group include first transparency electrode, second transparency electrode, the 3rd transparency electrode, 4th transparency electrode, the 5th transparency electrode, the 6th transparency electrode, cabling group include the first cabling, the second cabling, the Three cablings, the 4th cabling, the 5th cabling, the 6th cabling, the first sub- cabling of every cabling extend to from the signal input part Second side of the 6th transparency electrode.

Second sub- cabling of first cabling includes the Part I and Part II disconnected；The of the Part I One end is located at the first side of the first transparency electrode, and the second end is located at the opening position of second transparency electrode 3/4ths, the Two ends electrically connect with the described first sub- cabling；The first end of the Part II is located at the second transparency electrode 3/4ths Place is put, the second end is located at the second side of the 6th transparency electrode, and the second end electrically connects with the described first sub- cabling；The Part I Electrically connected with the first transparency electrode.

Second sub- cabling of second cabling includes Part I, Part II and the Part III disconnected；Described The first end of a part is located at the first side of the first transparency electrode, and the second end is located at the second of the first transparency electrode Side, first end and the second end electrically connect with the described first sub- cabling respectively；The first end of the Part II is located at described second First side of transparency electrode, the second end are located at the half opening position of the 3rd transparency electrode, and the second end is walked with first son Line electrically connects；The first end of the Part III is located at the half opening position of the 3rd transparency electrode, and the second end is located at Second side of the 6th transparency electrode, the second end electrically connect with the described first sub- cabling；The Part II and described second Transparency electrode electrically connects.

Second sub- cabling of the 3rd cabling includes Part I, Part II and the Part III disconnected；Described first The first end divided is located at the first side of the first transparency electrode, and the second end is located at the second side of the first transparency electrode, the One end and the second end electrically connect with the described first sub- cabling respectively；The first end of the Part II is located at the described second transparent electricity First side of pole, the second end are located at the second side of the 3rd transparency electrode, and the second end electrically connects with the described first sub- cabling；Institute The first end for stating Part III is located at the first side of the 4th transparency electrode, and the second end is located at the second of the 6th transparency electrode Side, the second end electrically connect with the described first sub- cabling；The Part II electrically connects with the 3rd transparency electrode.

Second sub- cabling of the 4th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the first transparency electrode, first end and second End electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the first of the second transparency electrode Side, the second end are located at the second side of the 6th transparency electrode, and the second end electrically connects with the described first sub- cabling；First son Cabling electrically connects with the 4th transparency electrode.

Second sub- cabling of the 5th cabling includes the Part I and Part II disconnected；The of the Part I One end is located at the first side of the first transparency electrode, and the second end is located at the second side of the 3rd transparency electrode, first end and Second end electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the of the 4th transparency electrode Side, the second end are located at the second side of the 6th transparency electrode, and the second end electrically connects with the described first sub- cabling；Described first Sub- cabling electrically connects with the 5th transparency electrode.

Second sub- cabling of the 6th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the 5th transparency electrode, first end and second End electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the first of the 6th transparency electrode Side, the second end are located at the second side of the 6th transparency electrode, and the second end electrically connects with the described first sub- cabling；First son Cabling electrically connects with the 6th transparency electrode.

Wherein, the transparency electrode is the first side close to the side of the signal input part, and the second side is relative with the first side.

Optionally, transparency electrode group include first transparency electrode, second transparency electrode, the 3rd transparency electrode, 4th transparency electrode, the 5th transparency electrode, the 6th transparency electrode, the 7th transparency electrode, a cabling group are walked including first Line, the second cabling, the 3rd cabling, the 4th cabling, the 5th cabling, the 6th cabling, the 7th cabling, the first sub- cabling of every cabling The second side of the 7th transparency electrode is extended to from the signal input part.

Second sub- cabling of first cabling includes the Part I and Part II disconnected；The of the Part I One end is located at the first side of the first transparency electrode, and the second end is located at the second side of the second transparency electrode, the second end with The first sub- cabling electrical connection；The first end of the Part II is located at the first side of the 3rd transparency electrode, and the second end is located at Second side of the 7th transparency electrode, the second end electrically connect with the described first sub- cabling；The Part I and described first transparent Electrode electrically connects.

Second sub- cabling of second cabling includes the Part I and Part II disconnected；The of the Part I One end is located at the first side of the first transparency electrode, and the second end is located at the 3rd transparency electrode half opening position, the Two ends electrically connect with the described first sub- cabling；The first end of the Part II is located at the 3rd transparency electrode half position Place is put, the second end is located at the second side of the 7th transparency electrode, and the second end electrically connects with the described first sub- cabling；Described first Part electrically connects with the second transparency electrode.

Second sub- cabling of the 3rd cabling includes Part I, Part II and the Part III disconnected；Described first The first end divided is located at the first side of the first transparency electrode, and the second end is located at the second side of the second transparency electrode, the One end electrically connects with the described first sub- cabling；The first end of the Part II is located at the first side of the 3rd transparency electrode, Second end is located at the second side of the 3rd transparency electrode, and the second end electrically connects with the described first sub- cabling；The Part III First end be located at the first side of the 4th transparency electrode, the second end is located at the second side of the 7th transparency electrode, the second end with The first sub- cabling electrical connection；The Part II electrically connects with the 3rd transparency electrode.

Second sub- cabling of the 4th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the 4th transparency electrode, first end with it is described First sub- cabling electrical connection；The first end of the Part II is located at the first side of the 5th transparency electrode, and the second end is positioned at described Second side of the 7th transparency electrode, the second end electrically connect with the described first sub- cabling；The Part I and the described 4th transparent Electrode electrically connects.

Second sub- cabling of the 5th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the second transparency electrode, first end and second End electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the first of the 3rd transparency electrode Side, the second end are located at the second side of the 7th transparency electrode, and the second end electrically connects with the described first sub- cabling；First son Cabling electrically connects with the 5th transparency electrode.

Second sub- cabling of the 6th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the 4th transparency electrode, first end and second End electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the first of the 5th transparency electrode Side, the second end are located at the second side of the 7th transparency electrode, and the second end electrically connects with the described first sub- cabling；First son Cabling electrically connects with the 6th transparency electrode.

Second sub- cabling of the 7th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the 6th transparency electrode, first end and second End electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the first of the 7th transparency electrode Side, the second end are located at the second side of the 7th transparency electrode, and the second end electrically connects with the described first sub- cabling；First son Cabling electrically connects with the 7th transparency electrode.

Wherein, the transparency electrode is the first side close to the side of the signal input part, and the second side is relative with the first side.

Optionally, transparency electrode group include first transparency electrode, second transparency electrode, the 3rd transparency electrode, 4th transparency electrode, the 5th transparency electrode, the 6th transparency electrode, the 7th transparency electrode, the 8th transparency electrode, a cabling Group includes the first cabling, the second cabling, the 3rd cabling, the 4th cabling, the 5th cabling, the 6th cabling, the 7th cabling, the 8th walked Line, the first sub- cabling of every cabling extend to the second side of the 8th transparency electrode from the signal input part.

Second sub- cabling of first cabling includes the Part I and Part II disconnected；The of the Part I One end is located at the first side of the first transparency electrode, and the second end is located at the 3rd transparency electrode a quarter opening position, the second end Electrically connected with the described first sub- cabling；The first end of the Part II is located at the 3rd transparency electrode a quarter position Place, the second end are located at the second side of the 8th transparency electrode, and the second end electrically connects with the described first sub- cabling；The Part I with The first transparency electrode electrical connection.

Second sub- cabling of second cabling includes Part I, Part II and the Part III disconnected；Described The first end of a part is located at the first side of the first transparency electrode, and the second end is located at the second of the first transparency electrode Side, first end and the second end electrically connect with the described first sub- cabling；The first end of the Part II is saturating positioned at described second First side of prescribed electrode, the second end are located at the second side of the 3rd transparency electrode, and the second end is electrically connected with the described first sub- cabling Connect；The first end of the Part III is located at the first side of the 4th transparency electrode, and the second end is located at the 8th transparency electrode Second side, the second end electrically connect with the described first sub- cabling；The Part II electrically connects with the second transparency electrode.

Second sub- cabling of the 3rd cabling includes Part I, Part II and the Part III disconnected；Described first The first end divided is located at the first side of the first transparency electrode, and the second end is located at the second side of the first transparency electrode, the One end and the second end electrically connect with the described first sub- cabling；The first end of the Part II is located at the second transparency electrode The first side, the second end is located at the 4th transparency electrode half opening position, and the second end is electrically connected with the described first sub- cabling Connect；The first end of the Part III is located at the 4th transparency electrode half opening position, and the second end is located at the described 8th Second side of transparency electrode, the second end electrically connect with the described first sub- cabling；The Part II and the 3rd transparency electrode Electrical connection.

Second sub- cabling of the 4th cabling includes Part I, Part II and the Part III disconnected；Described first The first end divided is located at the first side of the first transparency electrode, and the second end is located at the second side of the first transparency electrode, the One end and the second end electrically connect with the described first sub- cabling；The first end of the Part II is located at the second transparency electrode The first side, the second end is located at the second side of the 4th transparency electrode, and the second end electrically connects with the described first sub- cabling；It is described The first end of Part III is located at the first side of the 5th transparency electrode, and the second end is located at the second side of the 8th transparency electrode, Second end electrically connects with the described first sub- cabling；The Part II electrically connects with the 4th transparency electrode.

Second sub- cabling of the 5th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the first transparency electrode, first end with it is described First sub- cabling electrical connection；The first end of the Part II is located at the first side of the second transparency electrode, and the second end is located at Second side of the 8th transparency electrode, the second end electrically connect with the described first sub- cabling；The first sub- cabling and described the Five transparency electrodes electrically connect.

Second sub- cabling of the 6th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the 3rd transparency electrode, first end and second End electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the first of the 4th transparency electrode Side, the second end are located at the second side of the 8th transparency electrode, and the second end electrically connects with the described first sub- cabling；First son Cabling electrically connects with the 6th transparency electrode.

Second sub- cabling of the 7th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the 5th transparency electrode, first end and second End electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the first of the 6th transparency electrode Side, the second end are located at the second side of the 8th transparency electrode, and the second end electrically connects with the described first sub- cabling；First son Cabling electrically connects with the 7th transparency electrode.

Second sub- cabling of the 8th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the 7th transparency electrode, first end and the second end point Do not electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the 8th transparency electrode, the Two ends are located at the second side of the 8th transparency electrode, and the second end electrically connects with the described first sub- cabling；The first sub- cabling Electrically connected with the 8th transparency electrode.

Wherein, the transparency electrode is the first side close to the side of the signal input part, and the second side is relative with the first side.

On the other hand, there is provided a kind of display device, including above-mentioned substrate.

The embodiment of the present invention provides a kind of substrate and display device, can be with by rightly selecting the path of different cablings On the premise of not increasing and walking linear load, the load capacitance for the cabling for making to electrically connect with transparency electrode on substrate and signal can be subtracted The resistance of weak part uniforms as far as possible, so as to realize when substrate is applied to display device, Sensor (touch sensings Unit) between load (R*C) homogenization, greatly improve display and the touch-control performance of substrate.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is the required accompanying drawing used in technology description to be briefly described, it should be apparent that, drawings in the following description are only this Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 is a kind of structural representation for substrate that prior art provides；

Fig. 2 is a kind of structural representation one of substrate provided in an embodiment of the present invention；

Fig. 3 is a kind of structural representation two of substrate provided in an embodiment of the present invention；

Fig. 4 is the equivalent circuit diagram of the first cabling on the substrate that Fig. 3 is provided；

Fig. 5 is the equivalent circuit diagram of the second cabling on the substrate that Fig. 3 is provided；

Fig. 6 is the equivalent circuit diagram of the 3rd cabling on the substrate that Fig. 3 is provided；

Fig. 7 is the equivalent circuit diagram of the 4th cabling on the substrate that Fig. 3 is provided；

Fig. 8 is the trace resistances value on the substrate that the cabling on substrate provided in an embodiment of the present invention provides with prior art Comparison diagram；

Fig. 9 is a kind of structural representation three of substrate provided in an embodiment of the present invention；

Figure 10 is a kind of structural representation four of substrate provided in an embodiment of the present invention；

Figure 11 is a kind of structural representation five of substrate provided in an embodiment of the present invention；

Figure 12 is a kind of structural representation six of substrate provided in an embodiment of the present invention；

Figure 13 is the equivalent circuit diagram of the line on a kind of substrate provided in an embodiment of the present invention；

Figure 14 is a kind of sectional view one of substrate provided in an embodiment of the present invention；

Figure 15 is a kind of sectional view two of substrate provided in an embodiment of the present invention.

Reference

10- substrates；20- transparency electrodes；21- first transparency electrodes；22- second transparency electrodes；The transparency electrodes of 23- the 3rd； The transparency electrodes of 24- the 4th；The transparency electrodes of 25- the 5th；The transparency electrodes of 26- the 6th；The transparency electrodes of 27- the 7th；The 8th transparent electricity of 28- Pole；30- cablings；The cablings of 31- first；First sub- cabling of the cablings of 311- first；Second sub- cabling of the cablings of 312- first； The Part I of second sub- cabling of the cablings of 3121- first；The Part II of second sub- cabling of the cablings of 3122- first；32- Two cablings；First sub- cabling of the cablings of 321- second；Second sub- cabling of the cablings of 322- second；The second of the cablings of 3221- second The Part I of sub- cabling；The Part II of second sub- cabling of the cablings of 3222- second；Second son of the cablings of 3223- second is walked The Part III of line；The cablings of 33- the 3rd；First sub- cabling of the cablings of 331- the 3rd；Second sub- cabling of the cablings of 332- the 3rd； The Part I of second sub- cabling of the cablings of 3321- the 3rd；The Part II of second sub- cabling of the cablings of 3322- the 3rd；3323- The Part III of second sub- cabling of the 3rd cabling；The cablings of 34- the 4th；First sub- cabling of the cablings of 341- the 4th；342- the 4th Second sub- cabling of cabling；The Part I of second sub- cabling of the cablings of 3421- the 4th；Second son of the cablings of 3422- the 4th is walked The Part II of line；The Part III of second sub- cabling of the cablings of 3423- the 4th；The cablings of 35- the 5th；The of the cablings of 351- the 5th One sub- cabling；Second sub- cabling of the cablings of 352- the 5th；The Part I of second sub- cabling of the cablings of 3521- the 5th；3522- The Part II of second sub- cabling of five cablings；The cablings of 36- the 6th；First sub- cabling of the cablings of 361- the 6th；362- the 6th is walked Second sub- cabling of line；The Part I of second sub- cabling of the cablings of 3621- the 6th；Second sub- cabling of the cablings of 3622- the 6th Part II；The cablings of 37- the 7th；First sub- cabling of the cablings of 371- the 7th；Second sub- cabling of the cablings of 372- the 7th； The Part I of second sub- cabling of the cablings of 3721- the 7th；The Part II of second sub- cabling of the cablings of 3722- the 7th；38- Eight cablings；First sub- cabling of the cablings of 381- the 8th；Second sub- cabling of the cablings of 382- the 8th；The second of the cablings of 3821- the 8th The Part I of sub- cabling；The Part II of second sub- cabling of the cablings of 3822- the 8th.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other under the premise of creative work is not made Embodiment, belong to the scope of protection of the invention.

The embodiment of the present invention provides a kind of substrate, as shown in Fig. 2 including substrate 10, setting over the substrate 10 multiple Prescribed electrode group and multiple cabling groups (being illustrated in Fig. 2 with being provided with 3 transparency electrode groups and 3 cabling groups on substrate), Transparency electrode group includes being distributed in multiple transparency electrodes 20 on same row, cabling group include with it is each in same transparency electrode group The more cablings 30 that transparency electrode 20 is electrically connected；At least two areas of cabling 30 in cabling group it is identical or approximately the same and It is identical or approximately the same with the resistance of the tie point of transparency electrode 20 from the signal input part of cabling 30 to cabling 30.

It should be noted that first, the number for the transparency electrode 20 that each transparency electrode group includes can be with identical, can also Different (as shown in Figure 2).The radical of the cabling 30 included in cabling group corresponding with a transparency electrode group and transparency electrode group Comprising transparency electrode 20 number it is identical, a cabling 30 electrically connects with a transparency electrode 20.

Second, the area of at least two cablings 30 is identical or approximately the same in a cabling group, i.e. at least two cablings 30 Load capacitance it is identical or approximately the same, wherein, the area of cabling 30 is multiplied by width for the length of cabling 30.

Resistance of at least two cablings 30 from the signal input part of cabling 30 to cabling 30 with the tie point of transparency electrode 20 Identical or approximately the same, this part of the tie point of signal input part to cabling 30 and transparency electrode 20, as signal are from signal After input input, part that the resistance on cabling 30 can have an impact to signal and (weaken signal) (the i.e. portion of overstriking in Fig. 2 Point), the resistance for having at least two this part of cabling 30 is identical.Subtract signal in Fig. 2 with the cabling 30 in each cabling group The resistance all same of weak part, but it is different between cabling group and cabling group.

Wherein, two cablings 30 make signal weaken part resistance it is identical, then the load capacitance of this two cablings 30 must It is so identical, opposite, the load capacitance of two cablings 30 is identical, and this two cablings 30 make the resistance of the part of signal decrease differ It is fixed identical.Example, a cabling group has the load capacitance all same of 5 cablings, 30,5 cablings 30, but only 3 cablings 30 Make the resistance of the part of signal decrease identical, belong to the scope of protection of the invention.

Herein, it is approximately the same, refer in a cabling 30, because of the particularity of the structure of cabling 30, other cabling faces can be compared Product is more or a little less, but this part whole cabling 30 relatively for having more or minusing is negligible, to the shadow of display effect Sound can also ignore.Therefore, the area approximation of two cablings is identical, make signal weaken part resistance it is approximately the same, Still fall within the scope of protection of the invention.

3rd, transparency electrode 20 can be touch control electrode, and the substrate can be described as touch base plate；Changing transparency electrode 20 can also It is public electrode (transparency electrode 20 is time sharing shared, in the display stage as public electrode, in the touch-control stage as touch control electrode), The substrate can be array base palte, or color membrane substrates, it is contemplated that array base palte includes some metal wires and for example counted in itself According to line etc., when the substrate is array base palte simultaneously, it is contemplated that cabling 30 and the metal wire of itself on array base palte are made Formed, can so reduce the number of patterning processes, therefore, the preferably described substrate of the embodiment of the present invention is array base palte.

The embodiment of the present invention provides a kind of substrate, by rightly selecting the path of different cablings 30, can not increase On the premise of cabling 30 loads, the load capacitance for the cabling 30 for making to electrically connect with transparency electrode 20 on substrate and signal can be weakened The resistance of part uniform as far as possible, so as to realize when substrate is applied to display device, Sensor (touch sensing lists Member) between load (R*C) homogenization, greatly improve display and the touch-control performance of substrate.

Preferably, the area of every cabling 30 in cabling group is identical or approximately the same and from signal input part to tie point Resistance is identical or approximately the same.

That is, realize that the signal received in the transparency electrode 30 in same transparency electrode group is identical.

For the ease of preparing, it is preferred that the transparency electrode 30 that each transparency electrode group set on substrate 10 includes Number is identical.

That is, the transparency electrode 30 on substrate 20 is arranged in matrix.

It is further preferred that the number phase for the transparency electrode 30 that each transparency electrode group set on substrate 10 includes Together, the area of the every cabling 30 set on substrate 10 is identical or approximately the same and resistance phase from signal input part to tie point It is same or approximately the same.

That is, realize that the signal that each transparency electrode 30 on substrate 10 receives is identical, whole substrate is realized homogenization.

Preferably, as shown in Fig. 2 cabling 30 includes be arrangeding in parallel and the first sub- cabling of width identical and the second son are walked Line, cabling 30 are electrically connected by the first sub- cabling or the second sub- cabling with transparency electrode 30.

That is, electrically connected without two root cablings with transparency electrode 30.

Optionally, as shown in figure 3, a transparency electrode group includes first transparency electrode 21, second transparency electrode the 22, the 3rd Transparency electrode 23, the 4th transparency electrode 24, a cabling group include the first cabling 31, the second cabling 32, the 3rd cabling the 33, the 4th Cabling 34, the first sub- cabling of every cabling extend to the second side of the 4th transparency electrode 24 from signal input part A；I.e. first walks First sub- cabling 311 of line 31 extends to the second side of the 4th transparency electrode 24, the second cabling 32 from the first signal input part A1 The first sub- cabling 321 from secondary signal input A2 extend to the second side of the 4th transparency electrode 24, the 3rd cabling 33 One sub- cabling 331 from the 3rd signal input part A3 extend to the second side of the 4th transparency electrode 24, the 4th cabling 34 first son Cabling 341 extends to the second side of the 4th transparency electrode 24 from the 4th signal input part A4.

Second sub- cabling 312 of the first cabling 31 includes the Part I 3121 and Part II 3122 disconnected；First Points 3121 first end is located at the first side of first transparency electrode 21, and the second end is located at a quarter position of second transparency electrode 22 Place is put, the second end electrically connects with the first sub- cabling 311；The first end of Part II is located at a quarter of second transparency electrode 22 Opening position, the second end are located at the second side of the 4th transparency electrode 24, and the second end electrically connects with the first sub- cabling 311；Part I Electrically connected with first transparency electrode 21.

Part I 3221 of the second sub- cabling 322 of the second cabling 32 including disconnection, Part II 3222 and the 3rd Divide 3223；The first end of Part I 3221 is located at the first side of first transparency electrode 21, and the second end is located at first transparency electrode 21 the second side, first end and the second end electrically connect with the first sub- cabling 321 respectively；The first end of Part II 3222 is positioned at the First side of two transparency electrodes 22, the second end are located at the second side of second transparency electrode 22, the second end and the first sub- electricity of cabling 321 Connection；The first end of Part III 3223 is located at the first side of the 3rd transparency electrode 23, and the second end is located at the 4th transparency electrode 24 The second side, the second end electrically connects with the first sub- cabling 321；Part II 3222 electrically connects with second transparency electrode 22.

Second sub- cabling 332 of the 3rd cabling 33 includes the Part I 3321 and Part II 3322 disconnected；First Points 3321 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of first transparency electrode 21, the One end and the second end electrically connect with the first sub- cabling 331 respectively；The first end of Part II 3322 is located at second transparency electrode 22 The first side, the second end is located at the second side of the 4th transparency electrode 24, and the second end electrically connects with the first sub- cabling 331；First son Cabling 331 electrically connects with the 3rd transparency electrode 23.

Second sub- cabling 342 of the 4th cabling 34 includes the Part I 3421 and Part II 3422 disconnected；First Points 3421 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of the 3rd transparency electrode 23, the One end and the second end electrically connect with the first sub- cabling 341 respectively；The first end of Part II 3422 is located at the 4th transparency electrode 24 The first side, the second end is located at the second side of the 4th transparency electrode 24, and the second end electrically connects with the first sub- cabling 341；First son Cabling 341 electrically connects with the 4th transparency electrode 24.

Wherein, transparency electrode 30 is the first side close to signal input part A side, and the second side is relative with the first side, i.e. from As viewed from the perspective of Fig. 3, for each piece of transparency electrode 30, downside is the first side, and upside is the second side.

It should be noted that first, said by taking the Part II 3322 of the second of the 3rd cabling 33 the sub- cabling 332 as an example Bright, the first end of Part II 3322 is located at the first side of second transparency electrode 22, and now, first end can position as shown in Figure 3 , can also be positioned at the gap of second transparency electrode 22 and first transparency electrode 21 in the edge of the side of second transparency electrode 22 first It is interior, as long as the first end of Part II 3322 is not connected with the second end of Part I 3321.

For the second sub- cabling 312 of the first cabling 31, the second end of Part I 3121 is located at second transparency electrode 22 A quarter opening position, the first end of Part II 3122 also is located at a quarter opening position of second transparency electrode 22, but Part I 3121 and Part II 3122 need to be off, and therefore, two end points are unlimited close to second transparency electrode 22 a quarter opening position, but both are not connected to.During preparation, two end points can also be made to depart slightly from four points One of opening position so that Part I 3121 and Part II 3122 disconnect.

Second, after cabling is arranged into said structure, the first cabling 31, the second cabling 32, the 3rd cabling 33, the 4th cabling The part for weakening signal on 34 is the part of lines overstriking in figure.

1. shown in its equivalent circuit diagram such as Fig. 4 for the first cabling 31, the circle in figure represents the first cabling 31 positions electrically connected with first transparency electrode 21, the capacitor equivalent circuit diagram for 2. representing the first cabling 31 in Fig. 4, corresponding etc. Effect load capacitance is 8C, the resistance equivalent circuit figure for 3. representing to make on the first cabling 31 part that signal weakens in Fig. 4, corresponding Equivalent resistance is 3/2*R=R+1/4*R+1/4*R.(the dotted line in Fig. 3 of corresponding with transparency electrode part on per root cabling The part outlined) resistance be R, electric capacity C.

1. shown in its equivalent circuit diagram such as Fig. 5 for the second cabling 32, the circle in figure represents the second cabling 32 positions electrically connected with second transparency electrode 22, the capacitor equivalent circuit diagram for 2. representing the second cabling 32 in Fig. 5, corresponding etc. Effect load capacitance is 8C, the resistance equivalent circuit figure for 3. representing to make on the second cabling 32 part that signal weakens in Fig. 5, corresponding Equivalent resistance is 3/2*R=1/ (1/R+1/R)+R.

1. shown in its equivalent circuit diagram such as Fig. 6 for the 3rd cabling 33, the circle in figure represents the 3rd cabling 33 positions electrically connected with the 3rd transparency electrode 23, the capacitor equivalent circuit diagram for 2. representing the 3rd cabling 33 in Fig. 6, corresponding etc. Effect load capacitance is 8C, the resistance equivalent circuit figure of the part for 3. representing to weaken signal on the 3rd cabling 33 in Fig. 6, corresponding Equivalent resistance is 3/2*R=1/ (1/R+1/R)+R.

1. shown in its equivalent circuit diagram such as Fig. 7 for the 4th cabling 34, the circle in figure represents the 4th cabling 34 positions electrically connected with the 4th transparency electrode 24, the capacitor equivalent circuit diagram for 2. representing the 4th cabling 34 in Fig. 7, corresponding etc. Effect load capacitance is 8C, the resistance equivalent circuit figure of the part for 3. representing to weaken signal on the 4th cabling 34 in Fig. 7, corresponding Equivalent resistance is 3/2*R=1/ [1/ (R+R+R)+1/ (R+R+R)].

So, the first cabling 31 on substrate provided in an embodiment of the present invention, the second cabling 32, the 3rd cabling 33, The resistance of part that signal weakens and the first cabling 31 on the substrate of prior art offer, the second cabling are provided on the 4th cabling 34 32nd, the 3rd cabling 33, make on the 4th cabling 34 part that signal weakens resistance contrast it is as shown in Figure 8.

Cabling thickened portion is only that will make the part that signal weakens (defeated i.e. from signal input part A on cabling in 3rd, Fig. 3 When the signal entered is to transparency electrode, the track of approach on cabling), the width of the part cabling is not offered as compared with other parts Greatly, the width for each cabling electrically connected with transparency electrode 30 in same cabling group being located on substrate is identical.

4th, the first cabling 31, the second cabling 32, the 3rd cabling 33, the 4th cabling 34 are saturating with first by via respectively Prescribed electrode 21, second transparency electrode 22, the 3rd transparency electrode 23, the 4th transparency electrode 24 electrically connect, and herein, via can be such as figure 3 show one, or multiple, the embodiment of the present invention is preferable, and via is multiple.

5th, the second end of the Part I 3121 of the second sub- cabling 312 is located at a quarter of second transparency electrode 22 Opening position, one of four parts opening positions herein i.e., as shown in figure 8, using the first side of second transparency electrode 22 as starting point, along Side to the direction of the second side, a quarter of second transparency electrode 22 is stretched into the second side.

By making to make on each cabling the resistance of part that signal weakens identical in the present invention so that on substrate one it is transparent The signal received in electrode group in each transparency electrode 20 is identical.

Optionally, as shown in figure 9, a transparency electrode group includes first transparency electrode 21, second transparency electrode the 22, the 3rd Transparency electrode 23, the 4th transparency electrode 24, the 5th transparency electrode 25, cabling group include the first cabling 31, the second cabling 32, 3rd cabling 33, the 4th cabling 34, the 5th cabling 35, the first sub- cabling of every cabling extend to the 5th from signal input part A Second side of transparency electrode 25；That is it is saturating that the first sub- cabling 311 of the first cabling 31 from the first signal input part A1 extends to the 5th Second side of prescribed electrode 25, the first of the second cabling 32 the sub- cabling 321 extend to the 5th transparent electricity from secondary signal input A2 Second side of pole 25, the first of the 3rd cabling 33 the sub- cabling 331 extend to the 5th transparency electrode 25 from the 3rd signal input part A3 The second side, the first of the 4th cabling 34 the sub- cabling 341 the of the 5th transparency electrode 25 is extended to from the 4th signal input part A4 Two sides, the first of the 5th cabling 35 the sub- cabling 361 extend to the second side of the 5th transparency electrode 25 from the 5th signal input part A5.

Second sub- cabling 312 of the first cabling 31 includes the Part I 3121 and Part II 3122 disconnected；First Points 3121 first end is located at the first side of first transparency electrode 21, and the second end is located at the half position of second transparency electrode 22 Place, the second end electrically connects with the first sub- cabling 311；The first end of Part II 3121 is located at the half of second transparency electrode 22 Opening position, the second end are located at the second side of the 5th transparency electrode 25, and the second end electrically connects with the first sub- cabling 311；Part I 3121 electrically connect with first transparency electrode 21.

Part I 3221 of the second sub- cabling 322 of the second cabling 32 including disconnection, Part II 3222 and the 3rd Divide 3223；The first end of Part I 3221 is located at the first side of first transparency electrode 21, and the second end is located at first transparency electrode 21 the second side, first end electrically connect with the first sub- cabling 321；The first end of Part II 3222 is located at second transparency electrode 22 The first side, the second end is located at the second side of second transparency electrode 22, and the second end electrically connects with the first sub- cabling 321；3rd Points 3223 first end is located at the first side of the 3rd transparency electrode 23, and the second end is located at the second side of the 5th transparency electrode 25, the Two ends electrically connect with the first sub- cabling 321；Part II 3222 electrically connects with second transparency electrode 22.

Second sub- cabling 332 of the 3rd cabling 33 includes the Part I 3321 and Part II 3322 disconnected；First Points 3321 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of the 3rd transparency electrode 23, the One end electrically connects with the first sub- cabling 331；The first end of Part II 3322 is located at the first side of the 4th transparency electrode 24, and second Positioned at the second side of the 5th transparency electrode 25, the second end electrically connects with the first sub- cabling 331 at end；Part I 3321 and the 3rd saturating Prescribed electrode 23 electrically connects.

Second sub- cabling 342 of the 4th cabling 34 includes the Part I 3421 and Part II 3422 disconnected；First Points 3421 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of second transparency electrode 22, the One end and the second end electrically connect (i.e. Part I 3421 is in parallel with the first sub- cabling 341) with the first sub- cabling 341 respectively；Second The first end of part 3422 is located at the first side of the 3rd transparency electrode 23, and the second end is located at the second side of the 5th transparency electrode 25, Second end electrically connects with the first sub- cabling 341；First sub- cabling 341 electrically connects with the 4th transparency electrode 24.

Second sub- cabling 352 of the 5th cabling 35 includes the Part I 3521 and Part II 3522 disconnected；First Points 3521 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of the 4th transparency electrode 24, the One end and the second end electrically connect with the first sub- cabling 351 respectively；The first end of Part II 3522 is located at the 5th transparency electrode 25 The first side, the second end is located at the second side of the 5th transparency electrode 25, and the second end electrically connects with the first sub- cabling 351；First son Cabling 351 electrically connects with the 5th transparency electrode 25.

Wherein, transparency electrode is the first side close to signal input part A side, and the second side is relative with the first side.

Herein, after cabling being arranged into said structure, the first cabling 31, the second cabling 32, the 3rd cabling 33, the 4th cabling 34th, the part for weakening on the 5th cabling 35 signal is the part of lines overstriking in figure.

For the first cabling 31, equivalent load capacitance corresponding to the first cabling 31 is 10C, makes letter on the first cabling 31 Number weaken part corresponding to equivalent resistance be 2R=R+1/2*R+1/2*R.

For the second cabling 32, equivalent load capacitance corresponding to the second cabling 32 is 10C, makes letter on the second cabling 32 Number weaken part corresponding to equivalent resistance be 2R=R+R.

For the 3rd cabling 33, equivalent load capacitance corresponding to the 3rd cabling 33 is 10C, makes letter on the 3rd cabling 33 Number weaken part corresponding to equivalent resistance be 2R=R+R.

For the 4th cabling 34, equivalent load capacitance corresponding to the 4th cabling 34 is 10C, makes letter on the 4th cabling 34 Number weaken part corresponding to equivalent resistance be 2R=1/ [1/ (R+R)+1/ (R+R)]+R.

For the 5th cabling 35, equivalent load capacitance corresponding to the 5th cabling 35 is 10C, makes letter on the 5th cabling 35 Number weaken part corresponding to equivalent resistance be 2R=1/ [1/ (R+R+R+R)+1/ (R+R+R+R)].

Optionally, as shown in Figure 10, transparency electrode group includes first transparency electrode 21, second transparency electrode 22, the Three transparency electrodes 23, the 4th transparency electrode 24, the 5th transparency electrode 25, the 6th transparency electrode 26, a cabling group include first Cabling 31, the second cabling 32, the 3rd cabling 33, the 4th cabling 34, the 5th cabling 35, the 6th cabling 36, the first of every cabling Sub- cabling extends to the second side of the 6th transparency electrode 26 from signal input part A；That is the first sub- cabling 311 of the first cabling 31 from First signal input part A1 extends to the second side of the 6th transparency electrode 26, the first of the second cabling 32 the sub- cabling 321 from second Signal input part A2 extends to the second side of the 6th transparency electrode 26, the first of the 3rd cabling 33 the sub- cabling 331 from the 3rd signal Input A3 extends to the second side of the 6th transparency electrode 26, the first of the 4th cabling 34 the sub- cabling 341 inputs from the 4th signal End A4 extends to the second side of the 6th transparency electrode 26, the first of the 5th cabling 35 the sub- cabling 351 from the 5th signal input part A5 Extend to the second side of the 6th transparency electrode 26, the first of the 6th cabling 36 the sub- cabling 361 extends from the 6th signal input part A6 To the second side of the 6th transparency electrode 26.

Second sub- cabling 312 of the first cabling 31 includes the Part I and Part II disconnected；The first of Part I End be located at the opening position of second transparency electrode 3/22nds 4 positioned at the first side of first transparency electrode 21, the second end, the second end and First sub- cabling electrical connection；The first end of Part II is located at the opening position of second transparency electrode 3/22nds 4, and the second end is located at Second side of the 6th transparency electrode 26, the second end electrically connect with the first sub- cabling；Part I is electrically connected with first transparency electrode 21 Connect.

Part I 3221 of the second sub- cabling 322 of the second cabling 32 including disconnection, Part II 3222 and the 3rd Divide 3223；The first end of Part I 3221 is located at the first side of first transparency electrode 21, and the second end is located at first transparency electrode 21 the second side, first end and the second end electrically connect (3221 and first sub- cabling of Part I with the first sub- cabling 321 respectively 321 is in parallel)；The first end of Part II 3222 is located at the first side of second transparency electrode 22, and the second end is located at the 3rd transparent electricity The half opening position of pole 23, the second end electrically connect with the first sub- cabling 321；The first end of Part III 3223 is located at the 3rd The half opening position of transparency electrode 23, the second end are located at the second side of the 6th transparency electrode 26, and the second end is walked with the first son Line 321 electrically connects；Part II electrically connects with second transparency electrode 22.

Part I 3321 of the second sub- cabling 332 of the 3rd cabling 33 including disconnection, Part II 3322 and the 3rd Divide 3323；The first end of Part I 3321 is located at the first side of first transparency electrode 21, and the second end is located at first transparency electrode 21 the second side, first end and the second end electrically connect (3321 and first sub- cabling of Part I with the first sub- cabling 331 respectively 331 is in parallel)；The first end of Part II 3322 is located at the first side of second transparency electrode 22, and the second end is located at the 3rd transparent electricity Second side of pole 23, the second end electrically connect with the first sub- cabling 331；The first end of Part III 3323 is located at the 4th transparency electrode 24 the first side, the second end are located at the second side of the 6th transparency electrode 26, and the second end electrically connects with the first sub- cabling 331；Second Part 3322 electrically connects with the 3rd transparency electrode 23.

Second sub- cabling 342 of the 4th cabling 34 includes the Part I 3421 and Part II 3422 disconnected；First Points 3421 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of first transparency electrode 21, the One end and the second end electrically connect (Part I 3421 is in parallel with the first sub- cabling 341) with the first sub- cabling 341 respectively；Second Points 3422 first end is located at the first side of second transparency electrode 22, and the second end is located at the second side of the 6th transparency electrode 26, the Two ends electrically connect with the first sub- cabling 341；First sub- cabling 341 electrically connects with the 4th transparency electrode 24.

Second sub- cabling 352 of the 5th cabling 35 includes the Part I 3521 and Part II 3522 disconnected；First Points 3521 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of the 3rd transparency electrode 23, the One end and the second end electrically connect (Part I 3521 is in parallel with the first sub- cabling 351) with the first sub- cabling 351 respectively；Second Points 3522 first end is located at the first side of the 4th transparency electrode 24, and the second end is located at the second side of the 6th transparency electrode 26, the Two ends electrically connect with the first sub- cabling 351；First sub- cabling 351 electrically connects with the 5th transparency electrode 25.

Second sub- cabling 362 of the 6th cabling 36 includes the Part I 3621 and Part II 3622 disconnected；First Points 3621 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of the 5th transparency electrode 25, the One end and the second end electrically connect (Part I 3621 is in parallel with the first sub- cabling 361) with the first sub- cabling 361 respectively；Second Points 3622 first end is located at the first side of the 6th transparency electrode 26, and the second end is located at the second side of the 6th transparency electrode 26, the Two ends electrically connect with the first sub- cabling 361；First sub- cabling 361 electrically connects with the 6th transparency electrode 26.

Wherein, transparency electrode is the first side close to signal input part A side, and the second side is relative with the first side.

It should be noted that first, after cabling is arranged into said structure, the first cabling 31, the second cabling the 32, the 3rd are walked Line 33, the 4th cabling 34, the 5th cabling 35, the part that the part that weakens signal on the 6th cabling 36 is lines overstriking in figure.

For the first cabling 31, equivalent load capacitance corresponding to the first cabling 31 is 12C, makes letter on the first cabling 31 Number weaken part corresponding to equivalent resistance be 5/2R=R+3/4*R+3/4*R.

For the second cabling 32, equivalent load capacitance corresponding to the second cabling 32 is 12C, makes letter on the second cabling 32 Number weaken part corresponding to equivalent resistance be 5/2*R=1/ (1/R+1/R)+R+1/2*R+1/2*R.

For the 3rd cabling 33, equivalent load capacitance corresponding to the 3rd cabling 33 is 12C, makes letter on the 3rd cabling 33 To correspond to equivalent resistance be 5/2*R=1/ (1/R+1/R)+R+R for number part weakened.

For the 4th cabling 34, equivalent load capacitance corresponding to the 4th cabling 34 is 12C, makes letter on the 4th cabling 34 Number weaken part corresponding to equivalent resistance be 5/2*R=1/ (1/R+1/R)+R+R.

For the 5th cabling 35, equivalent load capacitance corresponding to the 5th cabling 35 is 12C, makes letter on the 5th cabling 35 Number weaken part corresponding to equivalent resistance be 5/2*R=1/ [1/ (R+R+R)+1/ (R+R+R)]+R.

For the 6th cabling 36, equivalent load capacitance corresponding to the 6th cabling 36 is 12C, makes letter on the 6th cabling 36 Number weaken part corresponding to equivalent resistance be 5/2*R=1/ [1/ (R+R+R+R+R)+1/ (R+R+R+R+R)].

Second end of the Part I 3121 of the second, the second sub- cabling 312 be located at second transparency electrode 2222 four/ Three opening positions, four parts of three opening positions herein i.e., as shown in Figure 10, using the first side of second transparency electrode 22 as starting point, edge The first side to the direction of the second side, 3/4ths of second transparency electrode 22 are stretched into the second side.

Optionally, as shown in figure 11, transparency electrode group includes first transparency electrode 21, second transparency electrode 22, the Three transparency electrodes 23, the 4th transparency electrode 24, the 5th transparency electrode 25, the 6th transparency electrode 26, the 7th transparency electrode 27, one Cabling group include the first cabling 31, the second cabling 32, the 3rd cabling 33, the 4th cabling 34, the 5th cabling 35, the 6th cabling 36, 7th cabling 37, the first sub- cabling of every cabling extend to the second side of the 7th transparency electrode 27 from signal input part A；I.e. First sub- cabling 311 of one cabling 31 extends to the second side of the 7th transparency electrode 27 from the first signal input part A1, second walked First sub- cabling 321 of line 32 extends to the second side of the 7th transparency electrode 27, the 3rd cabling 33 from secondary signal input A2 The first sub- cabling 331 from the 3rd signal input part A3 extend to the second side of the 7th transparency electrode 27, the 4th cabling 34 One sub- cabling 341 from the 4th signal input part A4 extend to the second side of the 7th transparency electrode 27, the 5th cabling 35 first son Cabling 351 from the 5th signal input part A5 extend to the second side of the 7th transparency electrode 27, the 6th cabling 36 the first sub- cabling 361 from the 6th signal input part A6 extend to the second side of the 7th transparency electrode 27, the 7th cabling 37 the first sub- cabling 371 from 7th signal input part A7 extends to the second side of the 7th transparency electrode 27.

Second sub- cabling 312 of the first cabling 31 includes the Part I 3121 and Part II 3122 disconnected；First Points 3121 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of second transparency electrode 22, the Two ends electrically connect with the first sub- cabling 311；The first end of Part II 3122 is located at the first side of the 3rd transparency electrode 23, and second Positioned at the second side of the 7th transparency electrode 27, the second end electrically connects with the first sub- cabling 311 at end；Part I and the first transparent electricity Pole 21 electrically connects.

Second sub- cabling 322 of the second cabling 32 includes the Part I 3221 and Part II 3222 disconnected；First Points 3221 first end is located at the first side of first transparency electrode 21, and the second end is located at the half position of the 3rd transparency electrode 23 Place, the second end electrically connects with the first sub- cabling 321；The first end of Part II 3222 is located at the half of the 3rd transparency electrode 23 Opening position, the second end are located at the second side of the 7th transparency electrode 27, and the second end electrically connects with the first sub- cabling 321；Part I 3221 electrically connect with second transparency electrode 22.

Part I 3321 of the second sub- cabling 332 of the 3rd cabling 33 including disconnection, Part II 3322 and the 3rd Divide 3323；The first end of Part I 3321 is located at the first side of first transparency electrode 21, and the second end is located at second transparency electrode 22 the second side, first end electrically connect with the first sub- cabling 331；The first end of Part II 3322 is located at the 3rd transparency electrode 23 The first side, the second end is located at the second side of the 3rd transparency electrode 23, and the second end electrically connects with the first sub- cabling 331；3rd Points 3323 first end is located at the first side of the 4th transparency electrode 24, and the second end is located at the second side of the 7th transparency electrode 27, the Two ends electrically connect with the first sub- cabling 331；Part II 3322 electrically connects with the 3rd transparency electrode 23.

Second sub- cabling 342 of the 4th cabling 34 includes the Part I 3421 and Part II 3422 disconnected；First Points 3421 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of the 4th transparency electrode 24, the One end electrically connects with the first sub- cabling 341；The first end of Part II 3422 is located at the first side of the 5th transparency electrode 25, and second Positioned at the second side of the 7th transparency electrode 27, the second end electrically connects with the first sub- cabling 341 at end；Part I 3421 and the 4th saturating Prescribed electrode 24 electrically connects.

Second sub- cabling 352 of the 5th cabling 35 includes the Part I 3521 and Part II 3522 disconnected；First Points 3521 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of second transparency electrode 22, the One end and the second end electrically connect (Part I 3521 is in parallel with the first sub- cabling 351) with the first sub- cabling 351 respectively；Second Points 3522 first end is located at the first side of the 3rd transparency electrode 23, and the second end is located at the second side of the 7th transparency electrode 27, the Two ends electrically connect with the first sub- cabling 351；First sub- cabling 351 electrically connects with the 5th transparency electrode 25.

Second sub- cabling 362 of the 6th cabling 36 includes the Part I 3621 and Part II 3622 disconnected；First Points 3621 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of the 4th transparency electrode 24, the One end and the second end electrically connect (Part I 3621 is in parallel with the first sub- cabling 361) with the first sub- cabling 361 respectively；Second Points 3622 first end is located at the first side of the 5th transparency electrode 25, and the second end is located at the second side of the 7th transparency electrode 27, the Two ends electrically connect with the first sub- cabling 361；First sub- cabling 361 electrically connects with the 6th transparency electrode 26.

Second sub- cabling 372 of the 7th cabling 37 includes the Part I 3721 and Part II 3722 disconnected；First Points 3721 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of the 6th transparency electrode 26, the One end and the second end electrically connect (Part I 3721 is in parallel with the first sub- cabling 371) with the first sub- cabling 371 respectively；Second Points 3722 first end is located at the first side of the 7th transparency electrode 27, and the second end is located at the second side of the 7th transparency electrode 27, the Two ends electrically connect with the first sub- cabling 371；First sub- cabling 371 electrically connects with the 7th transparency electrode 27.

Wherein, transparency electrode is the first side close to signal input part A side, and the second side is relative with the first side.

It should be noted that after cabling is arranged into said structure, the first cabling 31, the second cabling 32, the 3rd cabling 33, 4th cabling 34, the 5th cabling 35, the 6th cabling 36, the part that weakens signal on the 7th cabling 37 are lines overstriking in figure Part.

For the first cabling 31, equivalent load capacitance corresponding to the first cabling 31 is 14C, makes letter on the first cabling 31 Number weaken part corresponding to equivalent resistance be 3R=R+R+R.

For the second cabling 32, equivalent load capacitance corresponding to the second cabling 32 is 14C, makes letter on the second cabling 32 Number weaken part corresponding to equivalent resistance be 3R=R+R+1/2*R+1/2*R.

For the 3rd cabling 33, equivalent load capacitance corresponding to the 3rd cabling 33 is 14C, makes letter on the 3rd cabling 33 Number weaken part corresponding to equivalent resistance be 3R=R+R+R.

For the 4th cabling 34, equivalent load capacitance corresponding to the 4th cabling 34 is 14C, makes letter on the 4th cabling 34 Number weaken part corresponding to equivalent resistance be 3R=R+R+R.

For the 5th cabling 35, equivalent load capacitance corresponding to the 5th cabling 35 is 14C, makes letter on the 5th cabling 35 Number weaken part corresponding to equivalent resistance be 3R=1/ [1/ (R+R)+1/ (R+R)]+R+R.

For the 6th cabling 36, equivalent load capacitance corresponding to the 6th cabling 36 is 14C, makes letter on the 6th cabling 36 Number weaken part corresponding to equivalent resistance be 3R=1/ [1/ (R+R+R+R)+1/ (R+R+R+R)]+R.

For the 7th cabling 37, equivalent load capacitance corresponding to the 7th cabling 37 is 14C, makes letter on the 7th cabling 37 Number weaken part corresponding to equivalent resistance be 3R=1/ [1/ (R+R+R+R+R+R)+1/ (R+R+R+R+R+R)].

Optionally, as shown in figure 12, transparency electrode group includes first transparency electrode 21, second transparency electrode 22, the Three transparency electrodes 23, the 4th transparency electrode 24, the 5th transparency electrode 25, the 6th transparency electrode 26, the 7th transparency electrode the 27, the 8th Transparency electrode 28, a cabling group include the first cabling 31, the second cabling 32, the 3rd cabling 33, the 4th cabling 34, the 5th cabling 35th, the 6th cabling 36, the 7th cabling 37, the 8th cabling 38, the first sub- cabling of every cabling extend to from signal input part A Second side of eight transparency electrodes 28；That is the first sub- cabling 311 of the first cabling 31 extends to the 8th from the first signal input part A1 It is transparent that second side of transparency electrode 28, the first of the second cabling 32 the sub- cabling 321 from secondary signal input A2 extend to the 8th Second side of electrode 28, the first of the 3rd cabling 33 the sub- cabling 331 extend to the 8th transparency electrode from the 3rd signal input part A3 28 the second side, the first of the 4th cabling 34 the sub- cabling 341 extend to the 8th transparency electrode 28 from the 4th signal input part A4 Second side, the first of the 5th cabling 35 the sub- cabling 351 extend to the second of the 8th transparency electrode 28 from the 5th signal input part A5 Side, the first of the 6th cabling 36 the sub- cabling 361 from the 6th signal input part A6 extend to the 8th transparency electrode 28 the second side, First sub- cabling 371 of seven cablings 37 extends to the second side of the 8th transparency electrode 28 from the 7th signal input part A7, the 8th walked First sub- cabling 381 of line 38 extends to the second side of the 8th transparency electrode 28 from the 8th signal input part A8.

Second sub- cabling 312 of the first cabling 31 includes the Part I 3121 and Part II 3122 disconnected；First Points 3121 first end is located at the first side of first transparency electrode 21, and the second end is located at a quarter position of the 3rd transparency electrode 23 Place, the second end electrically connects with the first sub- cabling 311；The first end of Part II 3122 is located at a quarter of the 3rd transparency electrode 23 Opening position, the second end are located at the second side of the 8th transparency electrode 28, and the second end electrically connects with the first sub- cabling 311；Part I 3121 electrically connect with first transparency electrode 21.

Part I 3221 of the second sub- cabling 322 of the second cabling 32 including disconnection, Part II 3222 and the 3rd Divide 3223；The first end of Part I 3221 is located at the first side of first transparency electrode 21, and the second end is located at first transparency electrode 21 the second side, first end and the second end electrically connect (3221 and first sub- cabling 321 of Part I with the first sub- cabling 321 It is in parallel)；The first end of Part II 3222 is located at the first side of second transparency electrode 22, and the second end is located at the 3rd transparency electrode 23 The second side, the second end electrically connects with the first sub- cabling 321；The first end of Part III 3223 is located at the 4th transparency electrode 24 First side, the second end are located at the second side of the 8th transparency electrode 28, and the second end electrically connects with the first sub- cabling 321；Part II 3222 electrically connect with second transparency electrode 22.

Part I 3321 of the second sub- cabling 332 of the 3rd cabling 33 including disconnection, Part II 3322 and the 3rd Divide 3323；The first end of Part I 3321 is located at the first side of first transparency electrode 21, and the second end is located at first transparency electrode 21 the second side, first end and the second end electrically connect (3321 and first sub- cabling 331 of Part I with the first sub- cabling 331 It is in parallel)；The first end of Part II 3322 is located at the first side of second transparency electrode 22, and the second end is located at the 4th transparency electrode 24 Half opening position, the second end electrically connect with the first sub- cabling 331；The first end of Part III 3323 is located at the 4th transparent electricity The half opening position of pole 24, the second end are located at the second side of the 8th transparency electrode 28, and the second end is electrically connected with the first sub- cabling 331 Connect；Part II 3322 electrically connects with the 3rd transparency electrode 23.

Part I 3421 of the second sub- cabling 342 of the 4th cabling 34 including disconnection, Part II 3422 and the 3rd Divide 3423；The first end of Part I 3421 is located at the first side of first transparency electrode 21, and the second end is located at first transparency electrode 21 the second side, first end and the second end electrically connect (3421 and first sub- cabling 341 of Part I with the first sub- cabling 341 It is in parallel)；The first end of Part II 3422 is located at the first side of second transparency electrode 22, and the second end is located at the 4th transparency electrode 24 The second side, the second end electrically connects with the first sub- cabling 341；The first end of Part III 3423 is located at the 5th transparency electrode 25 First side, the second end are located at the second side of the 8th transparency electrode 28, and the second end electrically connects with the first sub- cabling 341；Part II 3422 electrically connect with the 4th transparency electrode 24.

Second sub- cabling 352 of the 5th cabling 35 includes the Part I 3521 and Part II 3522 disconnected；First Points 3521 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of first transparency electrode 21, the One end electrically connects with the first sub- cabling 351；The first end of Part II 3522 is located at the first side of second transparency electrode 22, and second Positioned at the second side of the 8th transparency electrode 28, the second end electrically connects with the first sub- cabling 351 at end；First sub- cabling 351 and the 5th Transparency electrode 25 electrically connects.

Second sub- cabling 362 of the 6th cabling 36 includes the Part I 3621 and Part II 3622 disconnected；First Points 3621 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of the 3rd transparency electrode 23, the One end and the second end electrically connect (Part I 3621 is in parallel with the first sub- cabling 361) with the first sub- cabling 361 respectively；Second Points 3622 first end is located at the first side of the 4th transparency electrode 24, and the second end is located at the second side of the 8th transparency electrode 28, the Two ends electrically connect with the first sub- cabling 361；First sub- cabling 361 electrically connects with the 6th transparency electrode 26.

Second sub- cabling 372 of the 7th cabling 37 includes the Part I 3721 and Part II 3722 disconnected；First Points 3721 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of the 5th transparency electrode 25, the One end and the second end electrically connect (Part I 3721 is in parallel with the first sub- cabling 371) with the first sub- cabling 371 respectively；Second Points 3722 first end is located at the first side of the 6th transparency electrode 26, and the second end is located at the second side of the 8th transparency electrode 28, the Two ends electrically connect with the first sub- cabling 371；First sub- cabling 371 electrically connects with the 7th transparency electrode 27.

Second sub- cabling 382 of the 8th cabling 38 includes the Part I 3821 and Part II 3822 disconnected；First Points 3821 first end is located at the first side of first transparency electrode 21, and the second end is located at the second side of the 7th transparency electrode 27, the One end and the second end electrically connect (Part I 3821 is in parallel with the first sub- cabling 381) with the first sub- cabling 381 respectively；Second Points 3822 first end is located at the first side of the 8th transparency electrode 28, and the second end is located at the second side of the 8th transparency electrode 28, the Two ends electrically connect with the first sub- cabling 381；First sub- cabling 381 electrically connects with the 8th transparency electrode 28.

Wherein, transparency electrode is the first side close to signal input part A side, and the second side is relative with the first side.

It should be noted that after cabling is arranged into said structure, the first cabling 31, the second cabling 32, the 3rd cabling 33, 4th cabling 34, the 5th cabling 35, the 6th cabling 36, the 7th cabling 37, make the part that signal weakens for figure on the 8th cabling 38 The part of middle lines overstriking.

For the first cabling 31, equivalent load capacitance corresponding to the first cabling 31 is 16C, makes letter on the first cabling 31 Number weaken part corresponding to equivalent resistance be 7/2*R=R+R+1/4*R+1/4*R+R.

For the second cabling 32, equivalent load capacitance corresponding to the second cabling 32 is 16C, makes letter on the second cabling 32 Number weaken part corresponding to equivalent resistance be 7/2*R=1/ [1/R+1/R]+R+R+R.

For the 3rd cabling 33, equivalent load capacitance corresponding to the 3rd cabling 33 is 16C, makes letter on the 3rd cabling 33 Number weaken part corresponding to equivalent resistance be 7/2*R=1/ [1/R+1/R]+R+R+1/2*R+1/2*R.

For the 4th cabling 34, equivalent load capacitance corresponding to the 4th cabling 34 is 16C, makes letter on the 4th cabling 34 Number weaken part corresponding to equivalent resistance be 7/2*R=1/ [1/R+1/R]+R+R+R.

For the 5th cabling 35, equivalent load capacitance corresponding to the 5th cabling 35 is 16C, makes letter on the 5th cabling 35 Number weaken part corresponding to equivalent resistance be 7/2*R=1/ [1/R+1/R]+R+R+R.

For the 6th cabling 36, equivalent load capacitance corresponding to the 6th cabling 36 is 16C, makes letter on the 6th cabling 36 Number weaken part corresponding to equivalent resistance be 7/2*R=1/ [1/ (R+R+R)+1/ (R+R+R)]+R+R.

For the 7th cabling 37, equivalent load capacitance corresponding to the 7th cabling 37 is 16C, makes letter on the 7th cabling 37 Number weaken part corresponding to equivalent resistance be 7/2*R=1/ [1/ (R+R+R+R+R)+1/ (R+R+R+R+R)]+R.

For the 8th cabling 38, equivalent load capacitance corresponding to the 8th cabling 38 is 16C, makes letter on the 8th cabling 38 Number weaken part corresponding to equivalent resistance be 7/2*R=1/ [1/ (R+R+R+R+R+R+R)+1/ (R+R+R+R+R+R+R)].

Understood based on above-mentioned, as shown in figure 13, when a transparency electrode group includes n transparency electrode 20, cabling etc. 1. shown in circuit diagram such as Figure 13, the capacitor equivalent circuit diagram for 2. representing cabling 30 in Figure 13 is imitated, corresponding equivalent capacity is The resistance equivalent circuit figure of the part for 3. representing to weaken signal on cabling 30 in 2n*C, Figure 13, corresponding equivalent resistance is (n- 1)/2*R.Wherein, the maximum occurrences of the resistance of the part of signal decrease are allow to select to keep same with existing scheme on cabling 30 One numerical value.

Wherein, cabling 30 is not connected to opening position, cabling 30 and the position relationship such as figure of transparency electrode 20 with transparency electrode 20 Shown in 14, at cabling 30 and the link position of transparency electrode 20, cabling 30 and the position relationship of transparency electrode 20 are as shown in figure 15.Walk Dielectric layer is provided between line 30 and transparency electrode 20.

It is as shown in figure 12, excellent herein it should be noted that when the second sub- cabling on substrate electrically connects with the first sub- cabling Choosing, both connecting lines are vertical with both of which.

In this scheme cabling not only using etc. capacitor design again use etc. resistive arrangement.Also, cabling load capacitance and existing Scheme keeps same numerical value, and cabling maximum resistance and existing scheme also keep same numerical value.Thus, linear load (R*C) is walked most Big value and existing scheme also keep same numerical value.For this scheme on the premise of not increasing and walking linear load, realize cabling waits electricity Hold and wait resistive arrangement, so as to realize the homogenization that (R*C) is loaded between Sensor, greatly improve display and the touch-control of substrate Energy.

The embodiment of the present invention also provides a kind of display device, including aforesaid substrate.

The display device of the embodiment of the present invention can be that notebook computer, tablet personal computer, smart mobile phone etc. have any show Show the product or part of touch controllable function.

Display device provided in an embodiment of the present invention includes aforesaid substrate, and its advantage is identical with aforesaid substrate, herein Repeat no more.

The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any Those familiar with the art the invention discloses technical scope in, change or replacement can be readily occurred in, should all be contained Cover within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.

Claims (10)

1. a kind of substrate, including substrate, multiple transparency electrode groups and multiple cabling groups over the substrate are set, it is described Prescribed electrode group includes being distributed in multiple transparency electrodes on same row, the cabling group include with the same transparency electrode group More cablings being electrically connected of each transparency electrode；Characterized in that, at least two cabling area phases in the cabling group Resistance phase of the same or approximately the same and signal input part from the cabling to the cabling and the tie point of the transparency electrode It is same or approximately the same.

2. substrate according to claim 1, it is characterised in that every cabling area in the cabling group is identical or approximate It is identical and identical or approximately the same to the resistance of the tie point from the signal input part.

3. substrate according to claim 1, it is characterised in that in each transparency electrode group set on the substrate Including the transparency electrode number it is identical.

4. substrate according to claim 1, it is characterised in that the cabling includes be arrangeding in parallel and width identical first Sub- cabling and the second sub- cabling, the cabling are electrically connected by the first sub- cabling or the second sub- cabling with the transparency electrode.

5. substrate according to claim 4, it is characterised in that transparency electrode group include first transparency electrode, Second transparency electrode, the 3rd transparency electrode, the 4th transparency electrode, cabling group include the first cabling, the second cabling, the Three cablings, the 4th cabling, the first sub- cabling of every cabling extend to the 4th transparency electrode from the signal input part Second side；

Second sub- cabling of first cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at a quarter opening position of the second transparency electrode, and second End electrically connects with the described first sub- cabling；The first end of the Part II is located at a quarter position of the second transparency electrode Place is put, the second end is located at the second side of the 4th transparency electrode, and the second end electrically connects with the described first sub- cabling；The Part I Electrically connected with the first transparency electrode；

Second sub- cabling of second cabling includes Part I, Part II and the Part III disconnected；Described first The first end divided is located at the first side of the first transparency electrode, and the second end is located at the second side of the first transparency electrode, the One end and the second end electrically connect with the described first sub- cabling respectively；The first end of the Part II is located at the described second transparent electricity First side of pole, the second end are located at the second side of the second transparency electrode, and the second end electrically connects with the described first sub- cabling；Institute The first end for stating Part III is located at the first side of the 3rd transparency electrode, and the second end is located at the second of the 4th transparency electrode Side, the second end electrically connect with the described first sub- cabling；The Part II electrically connects with the second transparency electrode；

Second sub- cabling of the 3rd cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the first transparency electrode, first end and the second end point Do not electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the second transparency electrode, the Two ends are located at the second side of the 4th transparency electrode, and the second end electrically connects with the described first sub- cabling；The first sub- cabling Electrically connected with the 3rd transparency electrode；

Second sub- cabling of the 4th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the 3rd transparency electrode, first end and the second end point Do not electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the 4th transparency electrode, the Two ends are located at the second side of the 4th transparency electrode, and the second end electrically connects with the described first sub- cabling；The first sub- cabling Electrically connected with the 4th transparency electrode；

Wherein, the transparency electrode is the first side close to the side of the signal input part, and the second side is relative with the first side.

6. substrate according to claim 4, it is characterised in that transparency electrode group include first transparency electrode, Second transparency electrode, the 3rd transparency electrode, the 4th transparency electrode, the 5th transparency electrode, a cabling group are walked including first Line, the second cabling, the 3rd cabling, the 4th cabling, the 5th cabling, the first sub- cabling of every cabling prolong from the signal input part Extend the second side of the 5th transparency electrode；

Second sub- cabling of first cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second transparency electrode half opening position, the second end Electrically connected with the described first sub- cabling；The first end of the Part II is located at the second transparency electrode half position Place, the second end are located at the second side of the 5th transparency electrode, and the second end electrically connects with the described first sub- cabling；The Part I with The first transparency electrode electrical connection；

Second sub- cabling of second cabling includes Part I, Part II and the Part III disconnected；Described first The first end divided is located at the first side of the first transparency electrode, and the second end is located at the second side of the first transparency electrode, the One end electrically connects with the described first sub- cabling；The first end of the Part II is located at the first side of the second transparency electrode, Second end is located at the second side of the second transparency electrode, and the second end electrically connects with the described first sub- cabling；The Part III First end be located at the first side of the 3rd transparency electrode, the second end is located at the second side of the 5th transparency electrode, the second end with The first sub- cabling electrical connection；The Part II electrically connects with the second transparency electrode；

Second sub- cabling of the 3rd cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the 3rd transparency electrode, first end and described first Sub- cabling electrical connection；The first end of the Part II is located at the first side of the 4th transparency electrode, and the second end is located at the described 5th Second side of transparency electrode, the second end electrically connect with the described first sub- cabling；The Part I and the 3rd transparency electrode Electrical connection；

Second sub- cabling of the 4th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the second transparency electrode, first end and the second end point Do not electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the 3rd transparency electrode, the Two ends are located at the second side of the 5th transparency electrode, and the second end electrically connects with the described first sub- cabling；The first sub- cabling Electrically connected with the 4th transparency electrode；

Second sub- cabling of the 5th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the 4th transparency electrode, first end and the second end point Do not electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the 5th transparency electrode, the Two ends are located at the second side of the 5th transparency electrode, and the second end electrically connects with the described first sub- cabling；The first sub- cabling Electrically connected with the 5th transparency electrode；

Wherein, the transparency electrode is the first side close to the side of the signal input part, and the second side is relative with the first side.

7. substrate according to claim 4, it is characterised in that transparency electrode group include first transparency electrode, Second transparency electrode, the 3rd transparency electrode, the 4th transparency electrode, the 5th transparency electrode, the 6th transparency electrode, a cabling Group includes the first cabling, the second cabling, the 3rd cabling, the 4th cabling, the 5th cabling, the 6th cabling, the first son of every cabling Cabling extends to the second side of the 6th transparency electrode from the signal input part；

Second sub- cabling of first cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the opening position of second transparency electrode 3/4ths, the second end Electrically connected with the described first sub- cabling；The first end of the Part II is located at the position of second transparency electrode 3/4ths Place, the second end are located at the second side of the 6th transparency electrode, and the second end electrically connects with the described first sub- cabling；The Part I with The first transparency electrode electrical connection；

Second sub- cabling of second cabling includes Part I, Part II and the Part III disconnected；Described first The first end divided is located at the first side of the first transparency electrode, and the second end is located at the second side of the first transparency electrode, the One end and the second end electrically connect with the described first sub- cabling respectively；The first end of the Part II is located at the described second transparent electricity First side of pole, the second end are located at the half opening position of the 3rd transparency electrode, and the second end is electrically connected with the described first sub- cabling Connect；The first end of the Part III is located at the half opening position of the 3rd transparency electrode, and the second end is positioned at described the Second side of six transparency electrodes, the second end electrically connect with the described first sub- cabling；The Part II and the described second transparent electricity Pole electrically connects；

Second sub- cabling of the 3rd cabling includes Part I, Part II and the Part III disconnected；The Part I First end is located at the first side of the first transparency electrode, and the second end is located at the second side of the first transparency electrode, first end Electrically connected respectively with the described first sub- cabling with the second end；The first end of the Part II is located at the second transparency electrode First side, the second end are located at the second side of the 3rd transparency electrode, and the second end electrically connects with the described first sub- cabling；Described The first end of three parts is located at the first side of the 4th transparency electrode, and the second end is located at the second side of the 6th transparency electrode, the Two ends electrically connect with the described first sub- cabling；The Part II electrically connects with the 3rd transparency electrode；

Second sub- cabling of the 4th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the first transparency electrode, first end and the second end point Do not electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the second transparency electrode, the Two ends are located at the second side of the 6th transparency electrode, and the second end electrically connects with the described first sub- cabling；The first sub- cabling Electrically connected with the 4th transparency electrode；

Second sub- cabling of the 5th cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the 3rd transparency electrode, first end and second End electrically connects with the described first sub- cabling respectively；The first end of the Part II is located at the first of the 4th transparency electrode Side, the second end are located at the second side of the 6th transparency electrode, and the second end electrically connects with the described first sub- cabling；First son Cabling electrically connects with the 5th transparency electrode；

Second sub- cabling of the 6th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the 5th transparency electrode, first end and the second end point Do not electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the 6th transparency electrode, the Two ends are located at the second side of the 6th transparency electrode, and the second end electrically connects with the described first sub- cabling；The first sub- cabling Electrically connected with the 6th transparency electrode；

Wherein, the transparency electrode is the first side close to the side of the signal input part, and the second side is relative with the first side.

8. substrate according to claim 4, it is characterised in that transparency electrode group include first transparency electrode, Second transparency electrode, the 3rd transparency electrode, the 4th transparency electrode, the 5th transparency electrode, the 6th transparency electrode, the 7th transparent electricity Pole, cabling group include the first cabling, the second cabling, the 3rd cabling, the 4th cabling, the 5th cabling, the 6th cabling, the Seven cablings, the first sub- cabling of every cabling extend to the second side of the 7th transparency electrode from the signal input part；

Second sub- cabling of first cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the second side of the second transparency electrode, the second end with it is described First sub- cabling electrical connection；The first end of the Part II is located at the first side of the 3rd transparency electrode, and the second end is located at the 7th Second side of transparency electrode, the second end electrically connect with the described first sub- cabling；The Part I and the first transparency electrode Electrical connection；

Second sub- cabling of second cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the 3rd transparency electrode half opening position, the second end Electrically connected with the described first sub- cabling；The first end of the Part II is located at the 3rd transparency electrode half position Place, the second end are located at the second side of the 7th transparency electrode, and the second end electrically connects with the described first sub- cabling；Described first Divide and electrically connected with the second transparency electrode；

Second sub- cabling of the 3rd cabling includes Part I, Part II and the Part III disconnected；The Part I First end is located at the first side of the first transparency electrode, and the second end is located at the second side of the second transparency electrode, first end Electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the 3rd transparency electrode, and second Positioned at the second side of the 3rd transparency electrode, the second end electrically connects with the described first sub- cabling at end；The of the Part III One end is located at the first side of the 4th transparency electrode, and the second end is located at the second side of the 7th transparency electrode, the second end with it is described First sub- cabling electrical connection；The Part II electrically connects with the 3rd transparency electrode；

Second sub- cabling of the 4th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the 4th transparency electrode, first end and described first Sub- cabling electrical connection；The first end of the Part II is located at the first side of the 5th transparency electrode, and the second end is located at the described 7th Second side of transparency electrode, the second end electrically connect with the described first sub- cabling；The Part I and the 4th transparency electrode Electrical connection；

Second sub- cabling of the 5th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the second transparency electrode, first end and the second end point Do not electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the 3rd transparency electrode, the Two ends are located at the second side of the 7th transparency electrode, and the second end electrically connects with the described first sub- cabling；The first sub- cabling Electrically connected with the 5th transparency electrode；

Second sub- cabling of the 6th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the 4th transparency electrode, first end and the second end point Do not electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the 5th transparency electrode, the Two ends are located at the second side of the 7th transparency electrode, and the second end electrically connects with the described first sub- cabling；The first sub- cabling Electrically connected with the 6th transparency electrode；

Second sub- cabling of the 7th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the 6th transparency electrode, first end and the second end point Do not electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the 7th transparency electrode, the Two ends are located at the second side of the 7th transparency electrode, and the second end electrically connects with the described first sub- cabling；The first sub- cabling Electrically connected with the 7th transparency electrode；

Wherein, the transparency electrode is the first side close to the side of the signal input part, and the second side is relative with the first side.

9. substrate according to claim 4, it is characterised in that transparency electrode group include first transparency electrode, Second transparency electrode, the 3rd transparency electrode, the 4th transparency electrode, the 5th transparency electrode, the 6th transparency electrode, the 7th transparent electricity Pole, the 8th transparency electrode, a cabling group are walked including the first cabling, the second cabling, the 3rd cabling, the 4th cabling, the 5th Line, the 6th cabling, the 7th cabling, the 8th cabling, the first sub- cabling of every cabling extend to described from the signal input part Second side of the 8th transparency electrode；

Second sub- cabling of first cabling includes the Part I and Part II disconnected；The first end of the Part I Positioned at the first side of the first transparency electrode, the second end is located at the 3rd transparency electrode a quarter opening position, the second end and institute State the first sub- cabling electrical connection；The first end of the Part II is located at the 3rd transparency electrode a quarter opening position, the Two ends are located at the second side of the 8th transparency electrode, and the second end electrically connects with the described first sub- cabling；The Part I with it is described First transparency electrode electrically connects；

Second sub- cabling of second cabling includes Part I, Part II and the Part III disconnected；Described first The first end divided is located at the first side of the first transparency electrode, and the second end is located at the second side of the first transparency electrode, the One end and the second end electrically connect with the described first sub- cabling；The first end of the Part II is located at the second transparency electrode The first side, the second end is located at the second side of the 3rd transparency electrode, and the second end electrically connects with the described first sub- cabling；It is described The first end of Part III is located at the first side of the 4th transparency electrode, and the second end is located at the second side of the 8th transparency electrode, Second end electrically connects with the described first sub- cabling；The Part II electrically connects with the second transparency electrode；

Second sub- cabling of the 3rd cabling includes Part I, Part II and the Part III disconnected；The Part I First end is located at the first side of the first transparency electrode, and the second end is located at the second side of the first transparency electrode, first end Electrically connected with the second end with the described first sub- cabling；The first end of the Part II is located at the of the second transparency electrode Side, the second end are located at the 4th transparency electrode half opening position, and the second end electrically connects with the described first sub- cabling；Institute The first end for stating Part III is located at the 4th transparency electrode half opening position, and the second end is located at the 8th transparent electricity Second side of pole, the second end electrically connect with the described first sub- cabling；The Part II electrically connects with the 3rd transparency electrode；

Second sub- cabling of the 4th cabling includes Part I, Part II and the Part III disconnected；The Part I First end is located at the first side of the first transparency electrode, and the second end is located at the second side of the first transparency electrode, first end Electrically connected with the second end with the described first sub- cabling；The first end of the Part II is located at the of the second transparency electrode Side, the second end are located at the second side of the 4th transparency electrode, and the second end electrically connects with the described first sub- cabling；Described 3rd Partial first end is located at the first side of the 5th transparency electrode, and the second end is located at the second side of the 8th transparency electrode, and second End electrically connects with the described first sub- cabling；The Part II electrically connects with the 4th transparency electrode；

Second sub- cabling of the 5th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the first transparency electrode, first end and described first Sub- cabling electrical connection；The first end of the Part II is located at the first side of the second transparency electrode, and the second end is positioned at described Second side of the 8th transparency electrode, the second end electrically connect with the described first sub- cabling；The first sub- cabling and the described 5th saturating Prescribed electrode electrically connects；

Second sub- cabling of the 6th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the 3rd transparency electrode, first end and the second end point Do not electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the 4th transparency electrode, the Two ends are located at the second side of the 8th transparency electrode, and the second end electrically connects with the described first sub- cabling；The first sub- cabling Electrically connected with the 6th transparency electrode；

Second sub- cabling of the 7th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the 5th transparency electrode, first end and the second end point Do not electrically connected with the described first sub- cabling；The first end of the Part II is located at the first side of the 6th transparency electrode, the Two ends are located at the second side of the 8th transparency electrode, and the second end electrically connects with the described first sub- cabling；The first sub- cabling Electrically connected with the 7th transparency electrode；

Second sub- cabling of the 8th cabling includes the Part I and Part II disconnected；The first end of the Part I is located at First side of the first transparency electrode, the second end are located at the second side of the 7th transparency electrode, first end and the second end respectively with The first sub- cabling electrical connection；The first end of the Part II is located at the first side of the 8th transparency electrode, the second end Positioned at the second side of the 8th transparency electrode, the second end electrically connects with the described first sub- cabling；The first sub- cabling and institute State the electrical connection of the 8th transparency electrode；

Wherein, the transparency electrode is the first side close to the side of the signal input part, and the second side is relative with the first side.

10. a kind of display device, it is characterised in that including the substrate described in claim any one of 1-9.