CN101655759B - Touch display panel - Google Patents

Abstract

The invention provides a touch display panel which comprises a display panel and a touch circuit, wherein the touch circuit is configured on the display panel and comprises a plurality of first sensing serials, a plurality of second sensing serials and a plurality of sensing signal transmission lines. Each first sensing serial comprises a plurality of first sensing sub-serials and a plurality of first branch leads connected between the first sensing sub-serials. Each second sensing serial comprises a plurality of second sensing sub-serials and a plurality of second branch leads connected between the sensing sub-serials, and the first sensing serials and the second sensing serials are mutually staggered. Each first sensing serial and each second sensing serial are respectively connected with a sensing signal transmission circuit.

Description

Touch-control display panel

Technical field

The invention relates to a kind of touch-control display panel (touch-sensing display panel), and particularly relevant for a kind of capacitance type touch control display panel.

Background technology

Contact panel is divided into electric resistance touch-control panel, capacitance type touch-control panel, optical touch control panel, sound wave type contact panel and electromagnetic touch-control panel haply according to the difference of its sensing mode.Since capacitance type touch-control panel have the reaction time fast, fiduciary level is good and the durability advantages of higher, therefore, capacitance type touch-control panel is widely used in electronic product.According to the difference of structure and manufacture, capacitance type touch-control panel can be divided into two kinds of external labeling type and integrated/in-building types (on-cell/in-cell) again haply.The capacitance type touch-control panel of external labeling type normally is made in sensing serials earlier on one assisting base plate earlier, this assisting base plate that has been manufactured with sensing serials is attached on the outside surface of display again, and clearly, the external labeling type contact panel can have certain thickness.Compare with the external labeling type contact panel, integrated/in-building type contact panel then very helps the thinning and the lightweight of display.

No matter integrated/the in-building type contact panel, external labeling type contact panel on making, all faced yield rate deficiency in the manufacture process, or the yield rate that static discharge caused reduce problem.For example; Present integrated/in-building type contact panel is to go up prior to a wherein surface of substrate to make touch control line mostly; Go up in another surface of substrate more afterwards and make colored filter film; When making colored filter film, touch control line regular meeting breaks because of yield rate in the manufacture process is not enough, or static discharge and be subjected to destroy.In addition; No matter integrated/the in-building type contact panel, external labeling type contact panel; When the user with finger touches integrated/when in-building type contact panel and external labeling type contact panel, the static discharge phenomenon also might produce, and then causes touch control line to be destroyed.

Figure 1A and Figure 1B are the synoptic diagram of known touch control line.Please with reference to Figure 1A and Figure 1B, known touch control line 100 comprises a plurality of first sensing serials 110 and a plurality of second sensing serials 120.Each first sensing serials 110 is extended along a first direction D1, and each first sensing serials 110 is electrically insulated each other.Can know that by Figure 1A and Figure 1B each first sensing serials 110 comprises a plurality of first sensor pads 112 and a plurality of first bridge part 114, and each first bridge part 114 is electrically connected on respectively between two adjacent first sensor pads 112.Each second sensing serials 120 is extended along a second direction D2, and each second sensing serials 120 is electrically insulated each other.Each second sensing serials 120 comprises a plurality of second sensor pads 122 and a plurality of second bridge part 124, and each second bridge part 124 is electrically connected on respectively between two adjacent second sensor pads 122.In addition, be electrically insulated each other between first sensing serials 110 and second sensing serials 120.

When yield rate deficiency in the manufacture process or static discharge phenomenon generation destruction, the situation of broken string appears in first sensing serials 110 and second sensing serials, 120 regular meetings, illustrates like the regional A among Figure 1B.Because the static discharge phenomenon can't avoid in technology and in the use fully, the electro-static discharge protective ability that therefore how to promote touch control line 100 is one of important issue of facing of deviser.

When the broken string place occurs in the viewing area, owing to be difficult for repairing, often cause useless sheet and waste, therefore how reducing the repairing demand becomes an important topic.

Summary of the invention

The present invention provides a kind of touch-control display panel, and it can reduce the demand of repairing (repairing) effectively.

The present invention provides a kind of touch-control display panel, and it comprises a display panel and a touch control line.Touch control line is disposed on the display panel, and touch control line comprises a plurality of first sensing serials, a plurality of second sensing serials and many sensing signal transmission circuits.Each first sensing serials comprises a plurality of first sensing substring row and a plurality of first offset that is connected between the first sensing substring row.First sensing substring row comprise a plurality of first sensor pads and many first bridging conductors, and wherein each first bridging conductor is connected between two adjacent first sensor pads.These first offsets are connected between the different first sensing substring row.

Each second sensing serials comprises a plurality of second sensing substring row and a plurality of second offset that is connected between the second sensing substring row; Second sensing substring row comprise a plurality of second sensor pads and many second bridging conductors, and wherein each second bridging conductor is connected between two adjacent second sensor pads.These second offsets are connected between the different second sensing substring row.

And first sensing serials and second sensing serials are interlaced with each other.Each sensing signal transmission circuit respectively with one first sensing serials wherein or wherein one second sensing serials be connected.

In one embodiment of this invention, aforesaid display panel comprises one first substrate, one second substrate and a display dielectric layer, and wherein second substrate is disposed at first substrate top, and display dielectric layer then is disposed between first substrate and second substrate.

In one embodiment of this invention, aforesaid display dielectric layer comprises a liquid crystal layer, an electrophoretic display medium layer or an organic electric-excitation luminescent display dielectric layer.

In one embodiment of this invention, aforesaid touch control line is disposed on the outside surface of display panel.

In one embodiment of this invention, be built in the display panel in the aforesaid touch control line.

In one embodiment of this invention, aforesaid first offset is connected between first sensor pad of position in different first sensing substring row.

In one embodiment of this invention, aforesaid second offset is connected between second sensor pad of position in different second sensing substring row.

In one embodiment of this invention; First sensor pad, first bridging conductor and first offset in aforesaid each first sensing serials are arranged in one first reticulate texture; And first reticulate texture has a plurality of first mesh, and the position of each first mesh is corresponding to the position of one of them second sensor pad.

In one embodiment of this invention; Second sensor pad, second bridging conductor and second offset in aforesaid each second sensing serials are arranged in one second reticulate texture; And second reticulate texture has a plurality of second mesh, and the position of each second mesh is corresponding to the position of one of them first sensor pad.

In one embodiment of this invention, aforesaid touch-control display panel can further comprise a sensing signal sensing circuit, and wherein the sensing signal sensing circuit is electrically connected with first sensing serials and second sensing serials through the sensing signal transmission circuit.

In one embodiment of this invention, aforesaid first sensor pad comprises the electrically conducting transparent sensor pad, and the material of electrically conducting transparent sensor pad comprises indium tin oxide, indium-zinc oxide or aluminium zinc oxide.

In one embodiment of this invention, aforesaid first sensor pad comprises metal net shaped sensor pad, and the material of metal net shaped sensor pad comprises aluminium, copper, molybdenum, tungsten or gold.In addition, the live width of metal net shaped sensor pad for example is between 0.1 micron to 10 microns.

Based on above-mentioned, because the row of the sensing substring in the sensing serials of the present invention are to be connected to each other through many offsets, therefore sensing serials of the present invention is not prone to the problem that can't transmit sensing signal because of broken string, and then reduces the demand of repairing.In addition, the offset in the sensing serials can further reduce static discharge (Electro-Static Discharge is ESD) to the infringement of sensing serials.

Description of drawings

Figure 1A and Figure 1B are the synoptic diagram of known touch control line.

Fig. 2 A to Fig. 2 F is the diagrammatic cross-section of different touch-control display panels of the present invention.

Fig. 3 A, Fig. 3 B to Fig. 3 C and Fig. 4 A to Fig. 4 B are the synoptic diagram of the touch control line of first embodiment of the invention.

Fig. 5 A, Fig. 5 B to Fig. 5 C and Fig. 6 A to Fig. 6 B are the synoptic diagram of the touch control line of second embodiment of the invention.

Drawing reference numeral

100: touch control line

110: the first sensing serials

120: the second sensing serials

200: touch-control display panel

210: display panel

212: the first substrates

214: the second substrates

216: display dielectric layer

220: touch control line

222: the first sensing serials

222a: first sensing substring row

P1: first sensor pad

C1: first bridging conductor

222b: first offset

224: the second sensing serials

224a: second sensing substring row

P2: second sensor pad

C2: second bridging conductor

224b: second offset

226: the sensing signal transmission circuit

M1: first mesh

M2: second mesh

A, A1, A2, A3, A4: zone

S: assisting base plate

R: alternative route

Embodiment

For letting the above-mentioned feature and advantage of the present invention can be more obviously understandable, hereinafter is special lifts embodiment, and cooperates appended accompanying drawing to elaborate as follows.

Fig. 2 A to Fig. 2 F is the diagrammatic cross-section of different touch-control display panels of the present invention.Please with reference to Fig. 2 A to Fig. 2 F, the touch-control display panel 200 of present embodiment comprises that a display panel 210 and is disposed at the touch control line 220 on the display panel 210.In the present embodiment; Display panel 210 comprises one first substrate 212, one second substrate 214 and a display dielectric layer 216; Wherein second substrate 214 is disposed at first substrate, 212 tops, display dielectric layer 216 then be disposed at first substrate 212 and second substrate 214 between.For example; First substrate 212 can be one have a pel array 212a thin-film transistor array base-plate (TFT array substrate); Second substrate 214 can be a colored optical filtering substrates (Color filter substrate), and display dielectric layer 216 can be liquid crystal layer.Yet; In other feasible embodiment; First substrate 212 can be one be integrated with chromatic filter layer thin-film transistor array base-plate (Color filter on Array, COA), and second substrate 214 can be one have common electrode (a common electrode) the subtend substrate.In addition, the employed display dielectric layer 216 of present embodiment can be electrophoretic display medium layer, organic electric-excitation luminescent display dielectric layer or other display mediums.

In the present embodiment; Touch control line 220 can be disposed on the outside surface of display panel 210; In other words, touch control line 220 can be to be configured on first substrate 212 or on second substrate 214 (like Fig. 2 A, Fig. 2 D), is built in (like Fig. 2 B, Fig. 2 E) in the display panel 210 in can also being.In addition, touch control line 220 can also be configured in earlier on the assisting base plate S, is attached to assisting base plate S on first substrate 212 outward again or (like Fig. 2 C, Fig. 2 F) on second substrate 214.When touch control line 220 is disposed on the outside surface of display panel 210; Touch-control display panel 200 is so-called integrated (on-cell) touch-control display panel (like Fig. 2 A, Fig. 2 D); When touch control line 220 is affixed on outside through assisting base plate S on the outside surface of display panel 210; Touch-control display panel 200 is so-called external labeling type touch-control display panel (like Fig. 2 C, Fig. 2 F); When being built in the display panel 210 in the touch control line 220, touch-control display panel 200 is so-called in-building type (in-cell) touch-control display panel (Fig. 2 B, Fig. 2 E).

In detail, touch control line 220 can directly be formed on the outside surface of second substrate 214 of display panel 210, shown in Fig. 2 A.In addition, touch control line 220 also can be formed at earlier on the assisting base plate S, this substrate S that has been formed with touch control line 220 is pasted on the outside surface of second substrate 214 of display panel 210, shown in Fig. 2 C again.Similar ground, touch control line 220 can directly be formed on the outside surface of first substrate 212 of display panel 210, shown in Fig. 2 D.In addition, touch control line 220 also can be formed at earlier on the substrate S, this substrate S that has been formed with touch control line 220 is pasted on the outside surface of first substrate 212 of display panel 210, shown in Fig. 2 F again.

Hold above-mentionedly, touch control line 220 can directly be formed on the inside surface of second substrate 214 of display panel 210, shown in Fig. 2 B, or directly is formed on the inside surface of first substrate 212 of display panel 210, shown in Fig. 2 E.

Below will arrange in pairs or groups Fig. 3 A, Fig. 3 B to Fig. 3 C and Fig. 4 A to Fig. 4 B carries out detailed description to touch control line 220.

First embodiment:

Fig. 3 A, Fig. 3 B to Fig. 3 C and Fig. 4 A to Fig. 4 B are the synoptic diagram of the touch control line of first embodiment of the invention.Please with reference to 3A, Fig. 3 B to Fig. 3 C, the touch control line 220 of present embodiment comprises a plurality of first sensing serials 222, a plurality of second sensing serials 224 and many sensing signal transmission circuits 226.Each first sensing serials 222 comprises a plurality of first sensing substring row 222a and a plurality of first offset 222b that is connected between the first sensing substring row 222a.Each second sensing serials 224 comprises a plurality of second sensing substring row 224a and a plurality of second offset 224b that is connected between the second sensing substring row 224a, and first sensing serials 222 and second sensing serials 224 are interlaced with each other.Each sensing signal transmission circuit 226 respectively with one first sensing serials 222 wherein or wherein one second sensing serials 224 be connected.

In the present embodiment, aforesaid each first sensing substring row 222a comprises a plurality of first sensor pad P1 and many first bridging conductor C1, and wherein each first bridging conductor C1 is connected between the two adjacent first sensor pad P1.Can know that from Fig. 3 A, Fig. 3 B Fig. 3 C the first offset 222b is connected between the first sensor pad P1 of position in the different first sensing substring row 222a.In addition, aforesaid each second sensing substring row 224a comprises a plurality of second sensor pad P2 and many second bridging conductor C2, and wherein each second bridging conductor C2 is connected between the two adjacent second sensor pad P2.Can know that from Fig. 3 B and Fig. 3 C the second offset 224b is connected between the second sensor pad P2 of position in the different second sensing substring row 224a.Shown in Fig. 3 A, Fig. 3 B to 3C; In this embodiment; Use two to be example respectively with the first sensing substring row 224a and the second sensing substring row 224b; Four first adjacent sensor pad P1 constitute one first sensing cell along first direction (for example being the D1 direction), and four second adjacent sensor pad P2 constitute one second sensing cell along second direction (for example being the D2 direction).The first sensing substring row 224a of the present invention and the second sensing substring row 224b also use many respectively, such as being three or four, to increase the effect of sensing.

In the design, the length of side L of each first sensor pad P1 and each second sensor pad P2 and is preferably between between the 1mm to 6mm between 0.5 millimeter (mm) to 8 millimeters (mm), for example is 4mm.The spacing g of the first sensor pad P1 and the second sensor pad P2 is between between the 0.01mm to 1mm, and is preferably between between the 0.1mm to 0.8mm, for example is 0.5mm.The length of side L of the first sensor pad P1 and the second sensor pad P2 and spacing g can revise according to the practical design demand.

In an embodiment of the present invention, the first sensor pad P1 or the second sensor pad P2 comprise the electrically conducting transparent sensor pad, and the material of electrically conducting transparent sensor pad comprises indium tin oxide, indium-zinc oxide or aluminium zinc oxide.And in other embodiments of the invention, the first sensor pad P1 or the second sensor pad P2 comprise metal net shaped sensor pad, and the material of metal net shaped sensor pad comprises aluminium, copper, molybdenum, tungsten or gold.In addition, the live width of metal net shaped sensor pad for example is between 0.1 micron to 10 microns.The net-like pattern of metal net shaped sensor pad can be triangle, rectangle, rhombus, sexangle, polygon and circle etc., and the metal net shaped sensor pad that constitutes with rectangular patterns is an example, and the length of side of rectangular patterns for example is between 10 microns to 600 microns.

Please with reference to Fig. 3 A, Fig. 3 B to Fig. 3 C; The first sensor pad P1 in each first sensing serials 222, the first bridging conductor C1 and the first offset 222b are arranged in one first reticulate texture (meshed structures); And first reticulate texture has a plurality of first mesh M1, and the position of each first mesh M1 is corresponding to the position of one of them second sensor pad P2.In addition; The second sensor pad P2 in each second sensing serials 224, the second bridging conductor C2 and the second offset 224b are arranged in one second reticulate texture; And second reticulate texture has a plurality of second mesh M2, and the position of each second mesh M2 is corresponding to the position of one of them first sensor pad P1.Because the first sensor pad P1 crisscrosses in second sensing cell; The second sensor pad P2 crisscrosses in first sensing cell; Therefore the easier touch-control simultaneously of user's finger so this design reaches the purpose of position probing more easily, can be avoided the mistake start to the first sensor pad P1 and the second sensor pad P2.

It should be noted that; Because the first bridging conductor C1 can be staggered with the second offset 224b; Therefore the first bridging conductor C1 and the second offset 224b need adopt the patterned film of different layers to make, to avoid the first bridging conductor C1 and second offset 224b short circuit in the staggered place.In a preferred embodiment, a configurable insulation course between the first bridging conductor C1 and the second offset 224b is to avoid the first bridging conductor C1 and second offset 224b short circuit in the staggered place.Likewise; Because the second bridging conductor C2 can be staggered with the first offset 222b; Therefore the second bridging conductor C2 and the first offset 222b need adopt the patterned film (patterned thin films) of different layers to make, to avoid the second bridging conductor C2 and first offset 222b short circuit in the staggered place.In a preferred embodiment, a configurable insulation course between the second bridging conductor C2 and the first offset 222b is to avoid the second bridging conductor C2 and first offset 222b short circuit in the staggered place.In alternate embodiment; And insulation course can substitute by a plurality of patterning insulation blocks; Patterning insulation block only is arranged on the staggered place, can avoid the short circuit in the staggered place, the first sensor pad P1 and the second sensor pad P2 is used make with one deck; Not only penetrability can be increased, also the sensing uniformity coefficient can be promoted.

For example, when the first bridging conductor C1, the first sensor pad P1 and the second sensor pad P2 when making in the lump, the second offset 224b can adopt another layer metallic film to make (alternate embodiment 1).Likewise, when the second offset 224b, the first sensor pad P1 and the second sensor pad P2 when making in the lump, the first bridging conductor C1 can adopt another layer metallic film to make (alternate embodiment 2).In addition, when the second bridging conductor C2, the first sensor pad P1 and the second sensor pad P2 when making in the lump, the first offset 222b can adopt another layer metallic film to make (alternate embodiment 3).Likewise, when the first offset 222b, the first sensor pad P1 and the second sensor pad P2 when making in the lump, the second bridging conductor C2 can adopt another layer metallic film to make (alternate embodiment 4).

Hold above-mentioned; The fabricator can select alternate embodiment 1 or alternate embodiment 2 to make the first bridging conductor C1 interlaced with each other and the second offset 224b; Certainly, the fabricator can select alternate embodiment 3 or alternate embodiment 4 to make the second bridging conductor C2 interlaced with each other and the first offset 222b.In addition, aforesaid alternate embodiment 1 can at random be arranged in pairs or groups with alternate embodiment 3 or alternate embodiment 4, and in like manner, aforesaid alternate embodiment 2 can also at random be arranged in pairs or groups with alternate embodiment 3 or alternate embodiment 4.

In the present embodiment, touch-control display panel 200 can further comprise a sensing signal sensing circuit 230, and wherein sensing signal sensing circuit 230 is electrically connected with first sensing serials 222 and second sensing serials 224 through sensing signal transmission circuit 226.

Please with reference to Fig. 4 A to Fig. 4 B; When broken string takes place in the first bridging conductor C1 among the regional A1; First sensing serials 222 still can be kept the electrical connection between the first sensor pad P1 through the first contiguous offset 222b, makes sensing signal still can transmit (like the alternative route R among the figure).Likewise; When broken string takes place in the second bridging conductor C2 among the regional A2; Second sensing serials 224 still can be kept the electrical connection between the second sensor pad P2 through the second offset 224b, makes sensing signal still can transmit (like the alternative route R among the figure).Because the design of the first offset 222b and the first bridging conductor C1, alternative route R is quite approaching with the resistance value of original bang path, therefore is difficult for the problem that causes sensing signal to postpone.Hold above-mentioned.First sensing serials 222 and second sensing serials in the present embodiment will not be prone to the problem that can't transmit sensing signal because of broken string, so can reduce the demand of repairing.

Second embodiment:

Fig. 5 A, Fig. 5 B to Fig. 5 C and Fig. 6 A to Fig. 6 B are the synoptic diagram of the touch control line of second embodiment of the invention.Please with reference to Fig. 5 A, Fig. 5 B to Fig. 5 C, the touch control line 200 of the touch control line 200 ' of present embodiment and first embodiment is similar, for main difference part is that the first touch pad P1 is different with the arrangement mode of the second touch pad P2.

Can know that from Fig. 5 A, Fig. 5 B to Fig. 5 C the first touch pad P1 of position in the same first sensing substring row 222a is tortuous (zigzag) to arrange, and the first touch pad P1 is that the first bridging conductor C1 through many inclinations is electrically connected to each other.

Please with reference to Fig. 6 A to Fig. 6 B, when broken string took place the first bridging conductor C1 among the regional A3, first sensing serials 222 still can be kept the electrical connection between the first sensor pad P1 through the first offset 222b.Likewise, when broken string took place the second bridging conductor C2 among the regional A4, second sensing serials 224 still can be kept the electrical connection between the second sensor pad P2 through the second offset 224b.Hold above-mentioned.First sensing serials 222 and second sensing serials in the present embodiment will not be prone to the problem that can't transmit sensing signal because of broken string, so can reduce the demand of repairing.

Hold above-mentionedly, because the sensing substring row in the sensing serials of the present invention are to be connected to each other through many offsets, therefore sensing serials of the present invention is not prone to the problem that can't transmit sensing signal because of broken string, and then reduces the demand of repairing.In addition, the offset in the sensing serials can further reduce the infringement of static discharge to sensing serials.

In addition, because the sensing substring of both direction row are interlaced with each other, so the easier touch-control simultaneously of user's finger is to the first sensor pad P1 and the second sensor pad P2, so this design reaches the purpose of position probing more easily.

Though the present invention discloses as above with preferred embodiment; Right its is not that any those skilled in the art is not breaking away from the spirit and scope of the present invention in order to qualification the present invention; When can doing a little change and retouching, so protection scope of the present invention is when being as the criterion with claim institute confining spectrum.

Claims (16)

1. a touch-control display panel is characterized in that, said touch-control display panel comprises:

One display panel;

One touch control line is disposed on the said display panel, and wherein said touch control line comprises:

A plurality of first sensing serials, wherein each said first sensing serials comprises a plurality of first sensing substring row and a plurality of first offset that is connected between said these first sensing substring row;

Said first sensing substring row comprise:

A plurality of first sensor pads; And

Many first bridging conductors, wherein each said first bridging conductor is connected between two adjacent first sensor pads;

Said these first offsets are connected between the different first sensing substring row;

A plurality of second sensing serials, wherein each said second sensing serials comprises a plurality of second sensing substring row and a plurality of second offset that is connected between said these second sensing substring row;

Said second sensing substring row comprise:

A plurality of second sensor pads; And

Many second bridging conductors, wherein each said second bridging conductor is connected between two adjacent second sensor pads;

Said these second offsets are connected between the different second sensing substring row;

And said these first sensing serials and said these second sensing serials are staggered; And

Many sensing signal transmission circuits, wherein each said sensing signal transmission circuit respectively with one first sensing serials wherein or wherein one second sensing serials be connected.

2. touch-control display panel as claimed in claim 1 is characterized in that, said display panel comprises:

One first substrate;

One second substrate is disposed at said first substrate top; And

One display dielectric layer is disposed between said first substrate and said second substrate.

3. touch-control display panel as claimed in claim 2 is characterized in that, said display dielectric layer comprises a liquid crystal layer, an electrophoretic display medium layer or an organic electric-excitation luminescent display dielectric layer.

4. touch-control display panel as claimed in claim 2 is characterized in that, said touch control line is disposed on the outside surface of said display panel.

5. touch-control display panel as claimed in claim 4 is characterized in that said touch-control display panel more comprises an assisting base plate, is arranged between said touch control line and the said display panel.

6. touch-control display panel as claimed in claim 1 is characterized in that, is built in the said display panel in the said touch control line.

7. touch-control display panel as claimed in claim 1 is characterized in that, said these first offsets are connected between said these first sensor pads in different first sensing substring row of position.

8. touch-control display panel as claimed in claim 1 is characterized in that, said these second offsets are connected between said these second sensor pads in different second sensing substring row of position.

9. touch-control display panel as claimed in claim 1; It is characterized in that; Said these first sensor pads in each said first sensing serials, said these first bridging conductors and said these first offsets are arranged in one first reticulate texture; And said first reticulate texture has a plurality of first mesh, and the position of each said first mesh is corresponding to the position of one of them second sensor pad.

10. touch-control display panel as claimed in claim 1; It is characterized in that; Said these second sensor pads in each said second sensing serials, said these second bridging conductors and said these second offsets are arranged in one second reticulate texture; And said second reticulate texture has a plurality of second mesh, and the position of each said second mesh is corresponding to the position of one of them first sensor pad.

11. touch-control display panel as claimed in claim 1; It is characterized in that; Said touch-control display panel more comprises a sensing signal sensing circuit, and wherein said sensing signal sensing circuit is electrically connected with said these first sensing serials and said these second sensing serials through said these sensing signal transmission circuits.

12. touch-control display panel as claimed in claim 1 is characterized in that, said these first sensor pads comprise the electrically conducting transparent sensor pad.

13. touch-control display panel as claimed in claim 12 is characterized in that, the material of said these electrically conducting transparent sensor pads comprises indium tin oxide, indium-zinc oxide or aluminium zinc oxide.

14., it is characterized in that said these first sensor pads comprise metal net shaped sensor pad like claim 1 a described touch-control display panel.

15. touch-control display panel as claimed in claim 14 is characterized in that, the material of said these metal net shaped sensor pads comprises aluminium, copper, molybdenum, tungsten or gold.

16. touch-control display panel as claimed in claim 14 is characterized in that, the live width of said these metal net shaped sensor pads is between 0.1 micron to 10 microns.

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