CN102426503B - Sensor, dual-mode touch module and dual-mode touch electronic device - Google Patents

Abstract

The invention relates to a sensor, a dual-mode touch module and a dual-mode touch electronic device, wherein the sensor comprises: an electromagnetic induction array, the electromagnetic induction array comprising: a plurality of first direction wires arranged in combination and a plurality of second direction wires arranged in combination, any of the first direction wires and the second direction wires including: a first conductive line, a second conductive line and a connecting line; wherein, any connecting line is provided with a mode control switch for disconnecting the connecting line, and the control end of the mode control switch is connected with an external control component; when the external control component controls the mode control switch to disconnect the connecting line, the first lead and the second lead which correspond to the first direction lead group and the second direction lead group respectively form a capacitive coupling touch array, so that the sensor works in a capacitive coupling touch mode. The sensor adopts the same array to realize the recognition of signals of finger touch and electromagnetic pen touch, so that the structure of the sensor is simplified, and the manufacturing cost is reduced.

Description

Sensor, double mode touch module and double mode screen touch electronic device

Technical field

The present invention relates to touch technology, relate in particular to a kind of the have sensor of condenser type and inductive touch control ability, double mode touch module and double mode screen touch electronic device.

Background technology

Capacitive touch control techniques is mainly used in direct with on the product of finger touch, such as: mobile phone, computer, video playing terminal etc.Inductive touch control technology is for example mainly used in, on the product of writing with the pen of transmission of electromagnetic signals: electronic whiteboard, children learning machine etc.

Capacitance touching control sensor mainly adopts densely arranged array structure, when finger touches array structure, utilizes the high speed electric current or the voltage scanning signal that detect by means of finger conduction, realizes the location to touch point.The advantage of capacitance touching control sensor is: sensitivity is higher with respect to resistance-type film touch-control product, can directly utilize finger to control, easy to use.Its defect point is: can not write with pen.

Inductive touch sensor mainly utilizes electromagnetic induction array, detects time writer in the positional information of electromagnetic induction array, to realize the location of time writer touch point.Its advantage is: be applicable to the input mode that people write with pen; Its shortcoming is: electromagnetic induction array can only receive the signal that time writer sends, and the signal that finger touches cannot be detected.

For this reason, touch-control product producer is superimposed to realize the sensor with double mode touch controllable function by capacitance touching control sensor and inductive touch sensor mostly; That is to say: need on the same equipment that needs touch-control, the separate array structure of two covers be set, and make it mutual stack, to can realize the identification to the signal of finger touch and time writer touch-control.Yet, the complex structure of the touch-control product of simple superposition, bulky, manufacturing cost is high.And in the use procedure of touch-control product, also there will be the phase mutual interference of capacitive coupling control mode touch mode and electromagnetic induction pattern.Therefore, above-mentioned arbitrary touch-control product all cannot meet user's demand preferably.

Summary of the invention

One aspect of the present invention provides a kind of sensor, and this sensor adopts the signal that can realize identification finger touch and time writer touch-control with an array, has simplified the structure of sensor, has reduced manufacturing cost.

The present invention also provides a kind of double mode touch module on the other hand, and this double mode touch module adopts the signal that can realize identification finger touch and time writer touch-control with an array, has simplified the structure of this double mode touch module, has reduced manufacturing cost.

The present invention provides again a kind of double mode screen touch electronic device on the other hand, this double mode screen touch electronic device adopts the signal that can realize identification finger touch and time writer touch-control with an array, the structure of having simplified double mode screen touch electronic device, has reduced manufacturing cost.

For realizing the object of above-mentioned first aspect, a kind of sensor is provided, it comprises: electromagnetic induction array, described electromagnetic induction array comprises: first direction wire group and second direction wire group, between the direction of the direction of described first direction wire group and described second direction wire group, there is an angle that is greater than 0 °, and described first direction wire group and second direction wire group mutually insulated;

Described first direction wire group consists of two first direction wires that are parallel to each other above, and second direction wire group consists of two second direction wires that are parallel to each other above;

Arbitrary described first direction wire and described second direction wire include: the first wire, the second wire and connecting line; Wherein, described the first wire is parallel with described the second wire, and described the first wire is connected in one end of described connecting line, and described the second wire is connected in the other end of described connecting line;

The direction of aforesaid first direction wire group is the direction that the first wire of first direction wire extends, and the direction of described second direction wire group is the direction that the first wire of second direction wire extends;

The first wire of the arbitrary position of first direction wire of first direction wire group and the second wire and adjacent last wire or the combination of a rear wire and the combination of other adjacent two wires in any position do not repeat to combine unique;

The first wire of the arbitrary position of second direction wire of second direction wire group and the second wire and adjacent last wire or the combination of a rear wire and the combination of other adjacent two wires in any position do not repeat to combine unique;

In addition, be provided with for disconnecting the mode control switch of this connecting line on arbitrary connecting line, the control end of described mode control switch connects external control component;

When described external control component is controlled described mode control switch and is disconnected described connecting line, in described first direction wire group and described second direction wire group, each self-corresponding first wire, the second wire form capacitive coupling touch-control array, make described working sensor in capacitive coupling control mode touch mode.

Technical scheme from the sensor, on the connecting line of all directions wire of sensor of the present invention in electromagnetic induction array, mode control switch is set, when mode control switch is closed, this array is realized the signal of identification time writer touch-control, when mode control switch disconnects, this array is realized the signal of identification finger touch, and then the sensor is when possessing the function of double mode touch-control, the structure of having simplified sensor, has reduced cost.

Especially, can effectively overcome the problem of capacitive coupling control mode touch mode and the mutual interference of electromagnetic induction pattern phase in prior art.Obviously, employing is little with the sensor wiring processing procedure distributed resistance simple and wiring of an array, output signal strong and the I/O interface of this array is few, and then can effectively simplify the structure complexity of the peripheral circuit of sensor.

For realizing the object of above-mentioned second aspect, a kind of double mode touch module is provided, it comprises: the sensor described in first substrate and the present invention arbitrarily, the electromagnetic induction array of described sensor is arranged on described first substrate.

Above-mentioned double mode touch module adopts the signal that can realize identification finger touch and time writer touch-control with an array, has simplified the structure of this double mode touch module, has reduced manufacturing cost.In addition, can effectively overcome the problem of capacitive coupling control mode touch mode and the mutual interference of electromagnetic induction pattern phase in prior art, can meet preferably user's demand, and can promote the scope of application of this double mode touch module.

For realizing the object of above-mentioned the 3rd aspect, a kind of double mode screen touch electronic device is provided, it comprises: the double mode touch module described in electronics and the present invention arbitrarily, in described electronics, be provided with display screen, described double mode touch module is arranged on the surface of electronic installation display screen.

Further, electromagnetic induction coil is around the display screen peripheral that is laid in.

Above-mentioned double mode screen touch electronic device adopts the signal that can realize identification finger touch and time writer touch-control with an array, has simplified the structure of double mode screen touch electronic device, has reduced manufacturing cost.In addition, double mode screen touch electronic device gentlier, thinner, effectively meet user's demand.

Accompanying drawing explanation

The structural representation of the sensor that Fig. 1 provides for one embodiment of the invention;

The structural representation of first direction wire in the sensor that Fig. 2 provides for another embodiment of the present invention;

The structural representation of second direction wire in the sensor that Fig. 3 A provides for another embodiment of the present invention;

The structural representation of second direction wire in the sensor that Fig. 3 B provides for another embodiment of the present invention;

The structural representation of second direction wire in the sensor that Fig. 3 C provides for another embodiment of the present invention;

The structural representation of the sensor that Fig. 4 provides for another embodiment of the present invention;

The structural representation of the sensor that Fig. 5 provides for another embodiment of the present invention;

The structural representation of the sensor that Fig. 6 provides for another embodiment of the present invention.

Embodiment

Understand for convenience the principle of the positional information of the electromagnetic induction array detection time writer touch-control in the present invention, the present invention is CN102163112A by Chinese patent application publication number, denomination of invention is sensor, in the patent application document of double mode touch module and double mode screen touch electronic device, instructions the 6th page [0054] section description and other related content to [0058] section, corresponding Fig. 2 A to Fig. 2 C is introduced in instructions of the present invention to merge the mode of introducing, so that user is arrangement mode and the use principle that electromagnetic induction array in the application is understood in description in CN102163112A patent application document according to above-mentioned Chinese patent application publication number.

Fig. 1 shows the structural representation of the sensor that one embodiment of the invention provides, and as shown in Figure 1,sensor 10 comprises: electromagnetic induction array (as shown in Fig. 1 dotted line frame); Electromagnetic induction array comprises: first direction wire group 11 (as shown in Figure 3A) and second direction wire group 12 (as shown in Figure 2), between the direction of the direction of firstdirection wire group 11 and second direction wire group 12, there is an angle that is greater than 0 °, and first direction wire group and second direction wire group mutually insulated;

Normally 90 ° of the angles forming between the second direction wire of the first direction wire of first direction wire group and second direction wire group, as shown in Figure 1, this is to adopt Cartesian coordinates to locate the needs of touch point in order to be applicable to great majority.Sometimes in order to adapt to the situation of some special location, for example: adopt polar coordinates to locate touch point, also the first direction wire in can firstdirection wire group 11 and the second direction wire of second direction wire group 12 mutually intersect formed angle and are set to be greater than 0 °, but are less than 90 °.

Aforesaid firstdirection wire group 11 is parallel to each other above by two and thefirst direction wire 110 arranging that insulate forms, and aforesaid second direction wire group 12 is parallel to each other above by two and thesecond direction wire 120 arranging that insulate forms;

In Fig. 1, arbitraryfirst direction wire 110 andsecond direction wire 120 include: the first wire a, the second wire b and connecting line c;

In concrete application, the first wire a is parallel with described the second wire b, and the first wire a is connected in one end of connecting line c, and the second wire b is connected in the other end of connecting line c.Conventionally,first direction wire 110 andsecond direction wire 120 are U-shaped wire, and the bottom of U-shaped wire can be above-mentioned connecting line c, as shown in Fig. 2 and Fig. 3 A.

Especially, in electromagnetic induction array, the first wire a offirst direction wire 110 optional positions of firstdirection wire group 11 and the second wire b do not repeat/do not overlap to combine unique with adjacent last wire or the combination of a rear wire with the combination of other adjacent two wires in any position;

The first wire a ofsecond direction wire 120 optional positions of second direction wire group 12 and the second wire b do not repeat/do not overlap to combine unique with adjacent last wire or the combination of a rear wire with the combination of other adjacent two wires in any position;

The direction of aforesaid first direction wire group is the direction that the first wire of first direction wire extends, and the direction of second direction wire group is the direction that the first wire of second direction wire extends.

In the present embodiment, will on aforesaid arbitrary connecting line c, all be provided for disconnecting themode control switch 13 of this connecting line c, the control end ofmode control switch 13 connectsexternal control component 20; Conventionally, the control end of themode control switch 13 of all connecting line c is connected toexternal control component 20 bypattern control line 130.

When externally allmode control switch 13 ofcontrol assembly 20 controls disconnect all connecting line c, in firstdirection wire group 11 and second direction wire group 12, each self-corresponding first wire a, the second wire b form capacitive coupling touch-control array, now, working sensor receives the touching signals of touch point at capacitive coupling control mode touch mode.Be understandable that, in first direction wire group, the connecting line of all first direction wires all disconnects, and now the first wire of all first direction wires, the second wire are parallel mutually, forms the wire group of a direction of capacitive coupling array; Correspondingly, in second direction wire group, the connecting line of all second direction wires all disconnects, and now the first wire of all second direction wires, the second wire are parallel to each other, and forms the other direction wire group of capacitive coupling array.In practice, processor/external control component can be in arbitrary wire of a direction wire group of capacitive coupling array input pulse signal, if there is this capacitive coupling array of finger touch, processor/external control component is by the be coupled pulse signal of the one or more wires outputs in the other direction wire group of touch-control array of Detection capacitance, the treated positional information of knowing touch point in capacitive coupling touch-control array.

Certainly, when externallycontrol assembly 20 is controlled allmode control switch 13 closure, in firstdirection wire group 11 and second direction wire group 12, form electromagnetic induction array, so that working sensor is in electromagnetic induction pattern.That is to say, when in first direction wire group, allmode control switch 13 is closed, first direction wire can be equivalent to the first direction wire of electromagnetic induction array of the prior art, for example U-shaped wire; Correspondingly, when in second direction wire group, allmode control switch 13 is closed, second direction wire can be equivalent to the second direction wire of electromagnetic induction array of the prior art, as U-shaped wire, therefore, first direction wire group and second direction wire group form electromagnetic induction array, sensor now can receive the touch-control of time writer, so that processor/external control component detects the alternating electromagnetism signal of first direction wire and the output of second direction wire, with the positional information of touch point in processing and identification electromagnetic induction array.

Be understandable that, in the present embodiment, when in electromagnetic induction array, all connecting line c all disconnect, capacitive coupling touch-control array can be equivalent to aerial array of the prior art, in the present invention by mode control switch being set on the connecting line at existing electromagnetic induction array, can make sensor adopt and both realize electromagnetic induction pattern with an array, can also realize capacitive coupling control mode touch mode simultaneously.

From upper embodiment, aforesaid sensor possesses the function of double mode touch-control, adopts same an array can simplify preferably the structure of sensor simultaneously, has reduced manufacturing cost.In addition, the problem of capacitive coupling control mode touch mode and the mutual interference of electromagnetic induction pattern phase in prior art can also be overcome, user's demand can be met preferably.

Preferably, in preparation during aforesaid sensor, can first direction wire group in the spacing of twofirst direction wires 110 of arbitrary neighborhood be set to equidistant from distance.If the first wire of first direction wire and/or the second wire are provided with the first capacitive coupling touch-control parts, also can this spacing with any two first direction wires of the first capacitive coupling touch-control parts be set to equidistant from distance; Correspondingly, and/or in second direction wire group 12, the spacing of twosecond direction wires 120 of arbitrary neighborhood is set to equidistant from distance.

Further, whenfirst direction wire 110 andsecond direction wire 120 are U-shaped wire, also can be set to equidistant from distance with the spacing of the U-shaped peristome ofsecond direction wire 120 by first direction wire 110.The U-shaped peristome spacing that is any two first direction wires equates; The U-shaped peristome spacing of any two second direction wires equates; And/or arbitrary first direction wire equates with the U-shaped peristome spacing of a second direction wire.

Especially, the first wire a separately and the not repeated arrangement array mode of the second wire b in aforesaid firstdirection wire group 11 and second direction wire group 12, may guarantee that sensor realizes multi-point touch pattern when capacitive coupling touch-control array.

In addition, capacitive coupling touch-control array is in concrete application, increase as much as possible the live width of each wire, electric capacity during with increase finger touch, and then to improve the reaction sensitivity of capacitive coupling touch-control array, for this reason, in the present invention, in aforesaid firstdirection wire group 11, at least onefirst direction wire 110, be electrically connected with the first capacitive coupling touch-control parts 111, as shown in Figure 3A; In second direction wire group 12, at least onesecond direction wire 120, be electrically connected with the second capacitive coupling touch-control parts 121, as shown in Figure 2.

The first capacitive coupling touch-control parts 111 shown in Fig. 3 A can be more than two, and preferably the shape of any two the first capacitive coupling touch-control parts 111 is set to identical shaped; And/or the second capacitive coupling touch-control parts 121 can be more than two, the shape of any two the second capacitive coupling touch-control parts 121 is also identical, as shown in Figure 2.

In concrete sensor construction, the first capacitive coupling touch-control parts 111 are identical with the shape of the second capacitive coupling touch-control parts 121.Certainly, in some cases, the first capacitive coupling touch-control parts 111 can be not identical with the shape of the second capacitive coupling touch-control parts 121 yet.The first above-mentioned capacitive coupling touch-control parts 111, the shape of the second capacitive coupling touch-control parts 121 can be rhombus, rectangle, triangle or the shape of combination in any between them.

Especially, the second capacitive coupling touch-control parts 121 shown in Fig. 2 are structure as a whole withsecond direction wire 120, i.e. integrated structure; Correspondingly, to be also structure as a whole withfirst direction wire 110 be integrated structure to the first capacitive coupling touch-control parts 111 shown in Fig. 3 A, Fig. 3 B and Fig. 3 C.

As shown in Figure 4, those the first capacitive coupling touch-control parts 111 and the second capacitive coupling touch-control parts 121 are staggered folded the establishing offirst direction wire 110 and the cross one another region ofsecond direction wire 120, that is to say, place, point of crossing atfirst direction wire 110 andsecond direction wire 120, capacitive coupling touch-control parts are separately set separately, and make the capacitive coupling touch-control parts insulation of corresponding point.By the setting of above-mentioned touch-control parts, can make working sensor under capacitive coupling control mode touch mode, can improve preferably its reaction sensitivity, and at working sensor under electromagnetic induction pattern, do not reduce the reaction sensitivity of former electromagnetic induction array.

In addition, in first direction wire and the cross one another region of second direction wire, the first capacitive coupling touch-control parts equate with the spacing between the second capacitive coupling touch-control parts, be uniformly distributed, to make the touch point of finger arbitrarily can comprise two or more the first capacitive coupling touch-control parts and/or two or more the second capacitive coupling touch-control parts, and then the alternating voltage information that can intercouple between the capacitive coupling touch-control parts that make to comprise at touch point in the wire group of both direction, the information combination of the alternating voltage that the capacitive coupling touch-control parts that comprise are coupled to can identify preferably alternation information the position of corresponding touch point.

Consider the use of different occasions, the first capacitive coupling touch-control parts also can be configured such that the distribution that the equivalent electromagnetism of first direction wire is overlapping or parallel with first direction wire direction; And second capacitive coupling touch-control parts also can be configured such that the equivalent electromagnetism distribution overlapping or parallel with second direction wire direction of second direction wire, the present invention does not limit at this.

In actual sensor construction, the first wire and the second wire are all set to straight line, and the shape that arbitrary the first capacitive coupling touch-control parts on first direction wire distribute in first direction wire both sides is symmetrical, or have consistent proportionate relationship; And, shape that arbitrary the second capacitive coupling touch-control parts on second direction wire distribute in second direction wire both sides symmetrical (along the first wire/the second wire symmetrical up and down), or there is consistent proportionate relationship, so that the equivalent electromagnetism of first direction wire and the distribution overlapping or parallel with first direction wire direction in this embodiment, the equivalent electromagnetism of second direction wire and the distribution overlapping or parallel with second direction wire direction.

In addition, consider different application scenarios,first direction wire 110,second direction wire 120 can adopt the formations such as metal forming, conductive silver paste, carbon slurry, ITO conducting film, nano-silver thread, CNT, organic conductive line, conductive rubber or enameled wire.For example: in the sensor on being applied to display screen, can use ITO class nesa coating as the material offirst direction wire 110,second direction wire 120 and all capacitive coupling touch-control parts; And on electronic whiteboard, can adopt enameled wire.Certainly, the present invention does not limit the scheme that above-mentioned various material is combined with yet.

Sensor construction in above-mentioned arbitrary class embodiment is very simple, is easy to a large amount of manufacturings, can be generalized on various touch-control products.

Fig. 5 shows the structural representation of the sensor that another embodiment of the present invention provides, and as shown in Figure 5, sensor comprises firstdirection wire group 11 and the second direction wire group 12 that mutually insulated arranges.Wherein, the angle of first direction wire group and second direction wire group is 90 °.

The difference of the sensor shown in the sensor in the present embodiment and earlier figures 1 is,sensor 10 in the present embodiment also comprises the electromagnetic detectingunit 14 of a connection external control component, electromagnetic detectingunit 14 is for detection of the alternating electromagnetism signal of the induction region of electromagnetic induction array and offer external control component, so that external control component when alternating electromagnetism signal is more than or equal to predetermined threshold value, is controlled described mode control switch closure

That is to say, when the alternating electromagnetism signal detecting in electromagnetic detectingunit 14 is more than or equal to predetermined threshold value,external control component 20, bypattern control bus 130 control model gauge tap 13 closures of control model gauge tap, makessensor 10 work in electromagnetic induction pattern.

It should be noted that the induction region of sensor in the present embodiment comprises the Touch Zone of sensor.

In actual applications, electromagnetic detectingunit 14 comprises that ring is located at theelectromagnetic induction coil 140 of periphery of induction region, can multi-turn setting, to increase induction, improve induction sensitivity;Electromagnetic induction coil 140 and electromagnetic induction array electric insulation.In addition, the Touch Zone of sensor not only can arrange in the region that electromagnetic induction coil surrounds, can also be arranged at electromagnetic induction coil above or below.In actual applications, the edge of the Touch Zone of sensor can be less than or equal to the edge of electromagnetic induction coil, makes the signal of any time writer in Touch Zone all can by electromagnetic induction coil, be responded to or identify.

Certainly, electromagnetic detectingunit 14 also can comprise the logic control units such as amplification shaping device, comparer, this amplification shaping device is for receiving the signal ofelectromagnetic induction coil 140, by after its amplification filtering shaping, be sent in comparer, to compare preferably the alternating electromagnetism signal of electromagnetic induction coil induction, thereby avoid the interference of various electromagnetic signals.Above-mentioned logic control unit can independently arrange or be integrated in external control component.

With reference to figure 6, the difference of the sensor shown in the sensor shown in Fig. 6 and Fig. 5 is, the position of electromagnetic detectingunit 14 is different, and the electromagnetic detecting unit shown in Fig. 6 comprises and is arranged on a lateral edges of induction region or theelectromagnetic induction coil 140 of many lateral edges.Certainly the particular location of this place's electromagnetic induction coil is set according to actual product demand.

Above-mentionedelectromagnetic induction coil 140 and electromagnetic induction array electric insulation.Certainly, the electromagnetic detecting unit in the present embodiment also can comprise the logic control units such as amplification shaping device, comparer.

According to a further aspect in the invention, the present invention also provides a kind of double mode touch module, this double mode touch module comprises first substrate and sensor, and the sensor at this place is the sensor described in any embodiment of the present invention, and the electromagnetic induction array of sensor is arranged on first substrate.

In the present embodiment, sensor also comprises: one connects the electromagnetic detecting unit of external control component, and electromagnetic detecting unit is for detection of the alternating electromagnetism signal of the induction region of electromagnetic induction array;

When the alternating electromagnetism signal detecting in electromagnetic detecting unit is more than or equal to predetermined threshold value, it is closed that external control component is controlled described mode control switch, makes described working sensor in electromagnetic induction pattern.

In actual applications, electromagnetic detecting unit comprises that ring is located at the electromagnetic induction coil of the periphery of induction region; Or electromagnetic detecting unit comprises the electromagnetic induction coil at an edge that is arranged on described induction region; Described electromagnetic induction coil and described electromagnetic induction array electric insulation.

Aforesaid electromagnetic induction coil is arranged on described first substrate.Or aforesaid electromagnetic induction coil is arranged on second substrate, second substrate covers or frame is located at first substrate upper surface and/or lower surface.The second substrate at this place can with first substrate composing base group.

Will be appreciated that, the mode control switch of aforesaid sensor is arranged on first substrate, or the mode control switch of sensor is arranged on the 3rd substrate, and the 3rd substrate frame is located at first substrate upper surface and/or lower surface.The 3rd substrate at this place and first substrate composing base group.In other embodiments, mode control switch can be arranged in the peripheral circuit of sensor, to realize the control of external control component to double mode control assembly, facilitate the preparation of sensor simultaneously, and then can simplify the preparation technology of double mode touch module.

Application scenario based on different, the material of substrate can adopt glass, plastics, flexible PCB, tygon or insulation film; For example: in the occasion of the flexible touch-control array of needs, conventionally adopt plastics or insulation film as the material that forms substrate.To this, those skilled in the art can adopt relevant material according to concrete application scenario needs, and the present invention is not restricted this.In addition, conventionally use transparent material as substrate.

In addition, the material of aforesaid electromagnetic induction coil can be enameled wire, metal forming, conductive silver paste, carbon slurry or ITO conducting film etc., and it can select according to the actual requirements in the structure of concrete double mode touch module.

According to another aspect of the invention, the present invention also provides a kind of double mode screen touch electronic device, and this double mode screen touch electronic device comprises: the double mode touch module described in electronics and any embodiment of the present invention; Wherein, be provided with display screen in electronics, double mode touch module is arranged on the surface of display screen.

Certainly, the above-mentioned electromagnetic induction coil that is arranged in sensor can be around being arranged on display screen peripheral.

For instance, above-mentioned double mode screen touch electronic device can be panel computer, touch-control mobile phone etc., its double mode screen touch electronic device that adopts above-mentioned double mode touch module gentlier, thinner.

Finally it should be noted that: above embodiment only, in order to technical scheme of the present invention to be described, is not intended to limit; Although the present invention is had been described in detail with reference to previous embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or part technical characterictic is wherein equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (23)

1. a sensor, comprise: electromagnetic induction array, described electromagnetic induction array comprises: first direction wire group and second direction wire group, between the direction of the direction of described first direction wire group and described second direction wire group, there is an angle that is greater than 0 °, and described first direction wire group and second direction wire group mutually insulated;

Described first direction wire group consists of two first direction wires that are parallel to each other above, and second direction wire group consists of two second direction wires that are parallel to each other above;

It is characterized in that:

Arbitrary described first direction wire and described second direction wire include: the first wire, the second wire and connecting line; Wherein, described the first wire is parallel with described the second wire, and described the first wire is connected in one end of described connecting line, and described the second wire is connected in the other end of described connecting line;

On arbitrary connecting line, be provided with for disconnecting the mode control switch of this connecting line, the control end of described mode control switch connects external control component;

When described external control component is controlled described mode control switch and is disconnected described connecting line, in described first direction wire group and described second direction wire group, each self-corresponding first wire, the second wire form capacitive coupling touch-control array, make described working sensor in capacitive coupling control mode touch mode.

2. sensor according to claim 1, is characterized in that, the angle between described first direction wire group and described second direction wire group is 90 °.

3. sensor according to claim 1 and 2, is characterized in that, in described first direction wire group, the spacing of two first direction wires of arbitrary neighborhood equates; And/or

In described second direction wire group, the spacing of two second direction wires of arbitrary neighborhood equates.

4. sensor according to claim 3, is characterized in that, described first direction wire and second direction wire are U-shaped wire, and the U-shaped peristome spacing of any two first direction wires equates; The U-shaped peristome spacing of any two second direction wires equates; And/or

Arbitrary first direction wire equates with the U-shaped peristome spacing of a second direction wire.

5. sensor according to claim 1 and 2, is characterized in that, is electrically connected with the first capacitive coupling touch-control parts in described first direction wire group at least one first direction wire;

In described second direction wire group, at least one second direction wire, be electrically connected with the second capacitive coupling touch-control parts.

6. sensor according to claim 5, is characterized in that, described the first capacitive coupling touch-control parts and the second capacitive coupling touch-control parts are staggered folded the establishing of described first direction wire and the cross one another region of described second direction wire.

7. sensor according to claim 5, is characterized in that, described the first capacitive coupling touch-control parts are more than two, and the shape of any two the first capacitive coupling touch-control parts is identical; And/or

Described the second capacitive coupling touch-control parts are more than two, and the shape of any two the second capacitive coupling touch-control parts is identical, and/or

Described the first capacitive coupling touch-control parts are identical with described the second capacitive coupling touch-control component shape.

8. sensor according to claim 5, is characterized in that, described capacitive coupling touch-control parts be shaped as rhombus, rectangle, triangle or the shape of combination in any between them.

9. sensor according to claim 5, is characterized in that, the first capacitive coupling touch-control parts and first direction wire are one-body molded; And/or

The second capacitive coupling touch-control parts and second direction wire are one-body molded.

10. sensor according to claim 1 and 2, it is characterized in that, described first direction wire and/or second direction wire are metal forming, conductive silver paste, carbon slurry, ITO conducting film, nano-silver thread, CNT, organic conductive line, conductive rubber or enameled wire.

11. sensors according to claim 1, it is characterized in that, also comprise: an electromagnetic detecting unit, described electromagnetic detecting unit is connected with described external control component, its alternating electromagnetism signal for detection of the induction region of described electromagnetic induction array also offers external control component, so that described external control component when alternating electromagnetism signal is more than or equal to predetermined threshold value, is controlled described mode control switch closure.

12. sensors according to claim 11, is characterized in that, described electromagnetic detecting unit comprises the electromagnetic induction coil of the periphery that encircles the induction region that is located at described electromagnetic induction array;

Described electromagnetic induction coil and described electromagnetic induction array electric insulation.

13. sensors according to claim 11, is characterized in that, described electromagnetic detecting unit comprises the electromagnetic induction coil at an edge of the induction region that is arranged on described electromagnetic induction array;

Described electromagnetic induction coil and described electromagnetic induction array electric insulation.

14. 1 kinds of double mode touch module, comprise first substrate and sensor, it is characterized in that, described sensor is the arbitrary described sensor of claim 1 to 10, and the electromagnetic induction array of described sensor is arranged on described first substrate.

15. double mode touch module according to claim 14, it is characterized in that, described sensor also comprises: an electromagnetic detecting unit, described electromagnetic detecting unit is connected with described external control component, its alternating electromagnetism signal for detection of the induction region of described electromagnetic induction array also offers external control component, so that described external control component when alternating electromagnetism signal is more than or equal to predetermined threshold value, is controlled described mode control switch closure.

16. double mode touch module according to claim 15, is characterized in that, described electromagnetic detecting unit comprises the electromagnetic induction coil of the periphery that encircles the induction region that is located at described electromagnetic induction array;

Described electromagnetic induction coil and described electromagnetic induction array electric insulation.

17. double mode touch module according to claim 15, is characterized in that, described electromagnetic detecting unit comprises the electromagnetic induction coil at an edge that is arranged on described induction region;

The electromagnetic induction array electric insulation of described electromagnetic induction coil and described electromagnetic induction array.

18. according to the double mode touch module described in claim 16 or 17, it is characterized in that, described electromagnetic induction coil is arranged on described first substrate.

19. according to the double mode touch module described in claim 16 or 17, it is characterized in that, also comprise a second substrate, described electromagnetic induction coil is arranged on second substrate, and described second substrate covers or frame is located at first substrate upper surface and/or lower surface.

20. double mode touch module according to claim 19, is characterized in that, described first substrate and/or second substrate are glass, plastics, flexible PCB, tygon or insulation film;

The electromagnetic induction coil of described sensor is enameled wire, metal forming, conductive silver paste, carbon slurry or ITO conducting film.

21. according to claim 14 to 17 arbitrary described double mode touch module, it is characterized in that, the mode control switch of described sensor is arranged on first substrate.

22. according to claim 14 to 17 arbitrary described double mode touch module, it is characterized in that, also comprise one the 3rd substrate, the mode control switch of described sensor is arranged on the 3rd substrate, and described the 3rd substrate frame is located at first substrate upper surface and/or lower surface.

23. 1 kinds of double mode screen touch electronic devices, comprising: electronics, in described electronics, be provided with display screen, and it is characterized in that, also comprise the double mode touch module described in the arbitrary claim of claim 12 to 22,

Described double mode touch module is arranged on the surface of display screen.

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