CN109871144A - Touch control device and its method - Google Patents

Abstract

System of the present invention discloses a kind of touching control device and its method, is the electrod-array applied to touch-control display panel.Electrod-array includes plurality of electrodes group, and each electrode group has an induction mutual capacitance and a base line capacitance value.When an object is close to electrod-array, the induced electricity capacitance of induction mutual capacitance is captured, and transformation induction capacitance is an induced voltage, and obtains the absolute value of the difference of induced voltage and baseline voltage.Then, the baseline voltage for comparing induced voltage with corresponding base line capacitance value, using judgment object as non-conductor or conductor.Finally, recording the position of non-conductor or conductor counter electrode array according to induced voltage when absolute value is greater than the first threshold value or the second threshold value, to promote the touch-control sensitivity of non-conductor or conductor, and reducing suspension phenomenon.

Description

Touch control device and its method

Technical field

The present disclosure generally relates to a kind of control technologies, and especially in regard to a kind of touching control device and its method.

Background technique

With the development of touch panel technology in recent years, portable electronic devices having a display function, such as intelligence now Type mobile phone, tablet computer and MP5 etc. all change using touch panel the mechanical botton for replacing tradition to take up space.In previous skill In art, touch-control display panel has an electrod-array.When conductor or non-conductor are close to electrod-array, the mutual capacitance of electrod-array Capacitance can change, and drive touch-control display panel whereby.However, the capacitance of mutual capacitance corresponding to non-conductor Variation is less than the variation of the capacitance of the corresponding mutual capacitance of conductor.In order to ensure idioelectric touch-control sensitivity, it is necessary to by door Threshold value is turned down, but will so will cause serious suspension (Hover) phenomenon.

Therefore, the present invention is tied up to for above-mentioned puzzlement, proposes a kind of touching control device and its method, known to solve The problem that.

Summary of the invention

The main object of the present invention is to provide a kind of touching control device and its method, is the first threshold value of setting With the second threshold value to promote the touch-control sensitivity of non-conductor or conductor, and reduce suspension (Hover) phenomenon.

In order to achieve the above object, the present invention provides a kind of touching control device, it is to be controlled comprising an integrator and a touching Device.Integrator is electrically connected a touch-control display panel, and touch-control display panel has an electrod-array, and electrod-array includes a plurality of Electrode group, each electrode group include one of to be separated by the first touch control electrode, at least a second touch control electrode and a third Touch control electrode, second touch control electrode between the first touch control electrode and third touch control electrode, touch by the first touch control electrode and third It controls electrode and forms an induction mutual capacitance, each electrode group has one of a baseline (baseline) capacitance, induction mutual capacitance End receives a driving alternating voltage, and the other end is electrically connected integrator.When an object is close to electrod-array, integrator cooperation is driven Dynamic alternating voltage captures the induced electricity capacitance of induction mutual capacitance, and transformation induction capacitance is an induced voltage.Touch controller It is electrically connected integrator, touching controller has one of corresponding base line capacitance value baseline voltage, one first threshold value and is greater than the The second threshold value of one of one threshold value, touching controller receives induced voltage, and obtains the difference of induced voltage Yu baseline voltage Absolute value.Touching controller judge induced voltage be less than baseline voltage, and absolute value be greater than the first threshold value when, touching control Device judgment object processed is non-conductor, and the position of non-conductor counter electrode array is recorded according to induced voltage.In touching controller Judge induced voltage be greater than or equal to baseline voltage, and absolute value be greater than the second threshold value when, touching controller judgment object be Conductor, and according to the position of induced voltage record conductor counter electrode array.

In one of present invention embodiment, touching control device further includes an analog digital converter, is to be electrically connected Integrator and touching controller, and induced voltage is received, using transformation induction voltage as digit value, and absolute value, difference, baseline electricity Pressure, the first threshold value and the second threshold value are all digit value.

In one of present invention embodiment, touching control device further includes a booster type power adapter, is electrically to connect Touch-control display panel and touching controller are connect, touching controller is utilized according to the position of conductor or non-conductor counter electrode array Booster type power adapter drives touch-control display panel.

In one of present invention embodiment, touching controller judges that absolute value continues one first preset period of time greater than first When threshold value, touching controller records the position of non-conductor counter electrode array according to induced voltage, exhausted in touching controller judgement When continuing one second preset period of time greater than the second threshold value to value, touching controller records conductor counter electrode according to induced voltage The position of array.

The present invention also provides a kind of touch control method, is applied to a touch-control display panel, touch-control display panel tool There is an electrod-array, electrod-array includes plurality of electrodes group, and each electrode group includes one of to be separated by the first touch-control Electrode, at least a second touch control electrode and a third touch control electrode, second touch control electrode is located at the first touch control electrode and third is touched It controls between electrode, the first touch control electrode and third touch control electrode form an induction mutual capacitance, and each electrode group has a baseline (baseline) capacitance.Firstly, capturing the induced electricity capacitance of induction mutual capacitance, and turn when an object is close to electrod-array Changing induced electricity capacitance is an induced voltage, and obtains the absolute value of the difference of induced voltage and baseline voltage.Next, it is determined that induction Whether voltage is less than the baseline voltage of corresponding base line capacitance value: if so, judgment object is non-conductor, and judging whether absolute value is big In the first threshold value: if so, recording the position of non-conductor counter electrode array according to induced voltage；And if it is not, it is back to acquisition Induced electricity capacitance, and transformation induction capacitance is induced voltage, and obtains the step of absolute value；And if it is not, judgment object is Conductor, and judge whether absolute value is greater than the second threshold value: if so, recording the position of conductor counter electrode array according to induced voltage It sets；And induced electricity capacitance is captured if it is not, being back to, and transformation induction capacitance is induced voltage, and obtains the step of absolute value.

In one of present invention embodiment, induced voltage, absolute value, difference, baseline voltage, the first threshold value and second Threshold value is all digit value.

In one of present invention embodiment, in the position for recording conductor or non-conductor counter electrode array according to induced voltage Step after, according to the position of conductor or non-conductor counter electrode array, drive touch-control display panel.

In one of present invention embodiment, judging whether absolute value is greater than in the step of the first threshold value, judgement is absolute Whether value continues one first preset period of time greater than the first threshold value, is judging whether absolute value is greater than the step of the second threshold value In, judge whether absolute value continues one second preset period of time greater than the second threshold value.

Hereby to make, your juror to structure feature of the invention and it is reached the effect of more have further understanding and recognize Know, careful assistant is illustrated as after with preferred embodiment figure and cooperation detailed description.

Detailed description of the invention

Fig. 1 is the schematic diagram of the first embodiment of the touching control device of the present invention.

Fig. 2 is the schematic diagram of the electrod-array of touch-control display panel.

Fig. 3 is the structure sectional view along b-b ' line of Fig. 2.

The curve graph of the induced electricity capacitance of shortest distance comparative electrode group of the Fig. 4 between object and electrod-array.

Fig. 5 is the schematic diagram of one of the integrator of present invention embodiment.

Fig. 6 is the driving alternating voltage of the present invention, the first switching voltage, the second switching voltage, reset voltage and induced electricity The waveform diagram of pressure.

Fig. 7 is the flow chart of the first embodiment of the touch control method of the present invention.

Fig. 8 is another schematic diagram of the electrod-array of touch-control display panel.

Fig. 9 is the structure sectional view along c-c ' line of Fig. 8.

Figure 10 is the schematic diagram of the second embodiment of the touching control device of the present invention.

Figure 11 is the flow chart of the second embodiment of the touch control method of the present invention.

Figure 12 is the schematic diagram of the 3rd embodiment of the touching control device of the present invention.

Figure 13 is the flow chart of the 3rd embodiment of the touch control method of the present invention.

Appended drawing reference:

26 touching control devices

28 integrators

32 touching controllers

36 touch-control display panels

38 sensing substrates

40 electrode groups

42 first touch control electrodes

44 second touch control electrodes

46 third touch control electrodes

47 touching mutual capacitance

48 induction mutual capacitance

50 objects

52 first electronic switches

54 second electronic switches

56 electronics Resetting Switchings

58 resetting capacitors

60 amplifiers

62 booster type power adapters

64 analog digital converter

Specific embodiment

Embodiments of the present invention will further be explained by hereafter cooperation relevant drawings.As far as possible, in attached drawing with In specification, identical label system represents same or similar component.In attached drawing, based on simplification and facilitate mark, shape and thickness It may be by exaggerating expression.It is understood that it is not expressly shown in attached drawing or the element that is described in specification, it is affiliated With the form that usual operator is known in technical field.The usual operator of this field can content according to the present invention and carry out A variety of changes and modification.

When an element be referred to as " ... on " when, it can refer to the element directly in other elements, be also possible to have Other elements are present among the two.On the contrary, it is that cannot have other when an element is referred to as " directly existing " another element It is intermediate that element is present in the two.As used herein, vocabulary " and/or " contain one or more of the associated item listed Any combination.

Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5 and Fig. 6 are please referred to, below to introduce the first of the touching control device 26 of the present invention Embodiment is comprising an integrator 28 and a touching controller 32.Integrator 28 is electrically connected a touch-control display panel 36, touching Controlling display panel 36 has an electrod-array, as shown in Figure 1.Electrod-array includes a sensing substrate 38 and plurality of electrodes group 40, each electrode group 40 includes one of to be separated by the first touch control electrode 42, at least a second touch control electrode 44 and a third Touch control electrode 46, in this electrod-array, the quantity of second touch control electrode 44 is two, one of second touch control electrode 44 Between the first touch control electrode 42 and third touch control electrode 46, third touch control electrode 46 be located at two second touch control electrodes 44 it Between.Two second touch control electrodes 44 and the first touch control electrode 42 form a touching mutual capacitance 47, third touch control electrode 46 and first Touch control electrode 42 forms an induction mutual capacitance 48, and each electrode group 40 has a baseline (baseline) capacitance C0, baseline When capacitance C0 is that electrode group 40 is not touched, the summation capacitance of all self-capacitances and mutual capacitance.In the first touch-control electricity The confluce and the first touch control electrode 42 of pole 42 and second touch control electrode 44 and the confluce of third touch control electrode 46 have one absolutely Edge layer, this insulating layer is between the first touch control electrode 42 and second touch control electrode 44 and the first touch control electrode 42 and third touch-control It is in electrical contact to avoid the first touch control electrode 42 and second touch control electrode 44 between electrode 46, while avoiding the first touch control electrode 42 is in electrical contact with third touch control electrode 46.

When object 50 is non-conductor and touching electrode group 40, object 50 will not take away electric field, and only will affect electric field Distribution.In addition, touching capacitance CA and the induction mutual capacitance 48 of mutual capacitance 47 because the dielectric coefficient of non-conductor is greater than 1 Capacitance CM to compare object 50 be the higher of conductor time-varying.Between existing between first touch control electrode 42 and second touch control electrode 44 Gap, when the surface of non-conductor touching electrode array, there are still more electric field in gap, this electric field is greater than non-conductor induction Electric field change makes the capacitance CA for touching mutual capacitance 47 be less than base line capacitance value C0.In addition, since second touch control electrode 44 shields Third touch control electrode 46, and third touch control electrode 46 compares second touch control electrode 44 far from the first touch control electrode 42, therefore electric field is big It is distributed in non-conductor more, the capacitance CM for incuding mutual capacitance 48 is made to be greater than base line capacitance value C0.In Fig. 4, object is worked as in L1 representative When body 50 is non-conductor, capacitance CA and CM start the object 50 changed at a distance of the shortest distance of electrod-array, and object is worked as in L2 representative When body 50 is conductor, capacitance CA and CM start the object 50 changed at a distance of the shortest distance of electrod-array.When object 50 is non- Conductor, and object 50 at a distance of the shortest distance of electrod-array be L2 when, capacitance CA and CM are all equal to base line capacitance value C0.Work as object Body 50 be non-conductor, and object 50 at a distance of electrod-array the shortest distance be less than or equal to L1 when, capacitance CA be less than baseline electricity Capacitance C0, capacitance CM are greater than base line capacitance value C0.When object 50 be conductor, and object 50 at a distance of electrod-array the shortest distance When less than L2, capacitance CA and CM are all much smaller than base line capacitance value C0.It follows that the capacitor of mutual capacitance corresponding to non-conductor The variation of value is less than the variation of the capacitance of the corresponding mutual capacitance of conductor.

Incude one of mutual capacitance 48 end and receive a driving alternating voltage AD, the other end is electrically connected integrator 28.In object 50 close to electrod-array when, such as object 50 is at a distance of one millimeter of electrod-array, but the present invention is not limited thereto numerical value, integrator 28 Cooperation driving alternating voltage AD captures the induced electricity capacitance CM of induction mutual capacitance 48, and transformation induction capacitance CM is an induced electricity Press VM.It touches controller 32 and is electrically connected integrator 28, touching controller 32 has one of corresponding base line capacitance value C0 baseline (baseline) voltage, one first threshold value and it is greater than the second threshold value of one of the first threshold value.It touches controller 32 and receives sense Voltage VM is answered, and obtains the absolute value of the difference of induced voltage VM and baseline voltage.Induced voltage is judged in touching controller 32 VM be less than baseline voltage, and absolute value be greater than the first threshold value when, touching 32 judgment object 50 of controller be non-conductor, and according to The position of induced voltage VM record non-conductor counter electrode array.Judge that induced voltage VM is greater than or equal in touching controller 32 Baseline voltage, and when absolute value is greater than the second threshold value, touching 32 judgment object 50 of controller is conductor, and according to induced voltage The position of VM record conductor counter electrode array.In some embodiments of the present invention, when touching controller 32 judges absolute value When continuing one first preset period of time greater than the first threshold value, touching controller 32 records the corresponding electricity of non-conductor according to induced voltage VM The position of pole array.In some embodiments of the present invention, when touch controller 32 judge absolute value continue one second it is default when When section is greater than the second threshold value, touching controller 32 records the position of conductor counter electrode array according to induced voltage VM.First Preset period of time can be adjusted according to demand with the second preset period of time, set the use of the first preset period of time and the second preset period of time Meaning is the situation for receiving instantaneous noise in order to avoid touching controller 32 and causing erroneous judgement.

As can be seen from Figure 4, when object 50 is conductor, as the shortest distance between object 50 and electrod-array is shorter, sense It answers capacitance CM lower, and is far below base line capacitance value C0.When object 50 is non-conductor, with object 50 and electrod-array it Between the shortest distance it is shorter, induced electricity capacitance CM is higher, and slightly above base line capacitance value C0.In induction, mutual capacitance 48 is corresponding fills Under the premise of electric current and charging time are all fixed, induced electricity capacitance CM is inversely proportional with induced voltage VM.Therefore, the present invention judges Induced voltage VM be less than baseline voltage when, object 50 be non-conductor, and judge induced voltage VM be greater than or equal to baseline voltage when, Object 50 is conductor.In addition, because induced electricity capacitance CM's changes greatly when object 50 is conductor, when object 50 is non-leads When body, the variation of induced electricity capacitance CM is smaller, so the second threshold value need to be greater than the first threshold value, the present invention utilizes two differences Threshold value go the touching behavior for judging conductor and non-conductor whether effective, to promote the touch-control sensitivity of non-conductor or conductor, And reduce suspension (Hover) phenomenon.

In some embodiments of the present invention, integrator 28 further includes one first electronic switch 52, one second electronic switch 54, an electronics Resetting Switching 56, one resetting capacitor 58 and an amplifier 60.First electronic switch 52 and the second electronic switch 54 it One end is electrically connected one end of induction mutual capacitance 48, and the other end of the first electronic switch 52 is grounded, and the second electronic switch 54 is another One end is electrically connected the negative input end of amplifier 60, the positive input terminal ground connection of amplifier 60, the two ends difference electricity of resetting capacitor 58 Property connection amplifier 60 negative input end and output end, the resetting capacitor 58 electrically in parallel of Resetting Switching 56, the output of amplifier 60 End is electrically connected analog digital converter 30.First electronic switch 52, the second electronic switch 54 are distinguished with electronics Resetting Switching 56 Receiving the first switching voltage S1, the second switching voltage S2 and reset voltage RST makes the defeated of amplifier 60 to carry out switching Outlet exports induced voltage VM.

The operation workflow of the first embodiment of the touch control method of the present invention introduced below, please refer to Fig. 1, Fig. 3, Fig. 4, Fig. 5 and Fig. 7.Firstly, as shown in step S10, when object 50 is close to electrod-array, the cooperation driving of integrator 28 alternating voltage AD The induced electricity capacitance CM of induction mutual capacitance 48 is captured, and transformation induction capacitance CM is induced voltage VM, and touches controller 32 Induced voltage VM is received, and obtains the absolute value of the difference of induced voltage VM and baseline voltage.Then, as shown in step S12, touching It touches controller 32 and judges whether induced voltage VM is less than the baseline voltage of corresponding base line capacitance value C0, if so, step S14 is carried out, If it is not, carrying out step S16.In step S14, touching 32 judgment object 50 of controller is non-conductor, and whether judges absolute value Greater than the first threshold value, if so, step S18 is carried out, if it is not, being back to step S10.Some embodiments according to the present invention, in step In rapid S14, touching 32 judgment object 50 of controller is non-conductor, and judges whether absolute value continued for the first period greater than first Threshold value, if so, step S18 is carried out, if it is not, being back to step S10.In step S18, controller 32 is touched according to induced voltage VM Record the position of non-conductor counter electrode array.In step s 16, touching 32 judgment object 50 of controller is conductor, and is judged Whether absolute value is greater than the second threshold value, if so, step S20 is carried out, if it is not, being back to step S10.Certain realities according to the present invention Apply example, in step s 16, touching 32 judgment object 50 of controller be conductor, and judge absolute value whether continue second it is default when Section is greater than the second threshold value, if so, step S20 is carried out, if it is not, being back to step S10.In step S20, controller 32 are touched According to the position of induced voltage VM record conductor counter electrode array.

Other than Fig. 2 and Fig. 3, the electrod-array of the present invention can also have other structures, please refer to Fig. 8 and Fig. 9.Electrod-array Comprising a sensing substrate 38 and plurality of electrodes group 40, each electrode group 40 includes one of to be separated by the first touch control electrode 42, an at least second touch control electrode 44 and a third touch control electrode 46, in this electrod-array, the quantity of second touch control electrode 44 It is one, is between the first touch control electrode 42 and third touch control electrode 46.Second touch control electrode 44 and the first touch-control electricity Pole 42 forms touching mutual capacitance 47, and third touch control electrode 46 and the first touch control electrode 42 form induction mutual capacitance 48, each electrode Group 40 has a baseline (baseline) capacitance C0.In order to facilitate explanation, the first touch control electrode 42, the second touch-control are only drawn The location layout of electrode 44 and a third touch control electrode 46, the first touch control electrode 42 actually in the x direction can be concatenated with one another, Second touch control electrode 44 on the direction y can be concatenated with one another, and the third touch control electrode 46 on the direction y also can be concatenated with one another.This electrode The capacitance CA of the touching mutual capacitance 47 of array and the variation of the capacitance CM of induction mutual capacitance 48 are also shown in FIG. 4, therefore answer When used in first embodiment, relevant connection relationship and function mode are all identical as above content, repeat no more in this.

Figure 10 and Figure 11 are please referred to, the second embodiment of the touching control device of the present invention introduced below is real with first Example is applied the difference is that second embodiment further includes a booster type power adapter 62, be electrically connected touch-control display panel 36 with Controller 32 is touched, touching controller 32 is turned according to the position of conductor or non-conductor counter electrode array using booster type power supply Parallel operation 62 drives touch-control display panel 36, and the connection relationship of remaining element is identical as function mode and first embodiment, not in this It repeats again.The operation workflow of second embodiment is as shown in figure 11, and step S10, S12, S14, S16, S18 and S20 are all real with first Each steps flow chart for applying example is identical.After step S18 or S20, step S22 is carried out.In step S22, controller 32 are touched According to the position of conductor or non-conductor counter electrode array, touch-control display panel 36 is driven using booster type power adapter 62, with Promote the touch-control sensitivity of non-conductor or conductor.

Please refer to Figure 12 and Figure 13.The 3rd embodiment of the touching control device of the present invention introduced below, it is real with second Example is applied the difference is that 3rd embodiment further includes an analog digital converter 64, integrator 28 is electrically connected and touching controls Device 32.In addition, in first embodiment and second embodiment, above-mentioned induced voltage VM, absolute value, difference, baseline voltage, first Threshold value and the second threshold value are all analogy numerical value, but in the third embodiment, above-mentioned induced voltage VM, absolute value, difference, base Line voltage, the first threshold value and the second threshold value are all digit value.Analog digital converter 64 receives induced voltage VM, with conversion Induced voltage VM is digit value, so that touching controller 32 receives.The operation workflow of 3rd embodiment is as shown in figure 13, step S12, S14, S16, S18, S20 and S22 are all identical as each steps flow chart of second embodiment.In step slo, it is leaned in object 50 When nearly electrod-array, the cooperation driving of integrator 28 alternating voltage AD captures the induced electricity capacitance CM of induction mutual capacitance 48, and converts Induced electricity capacitance CM is induced voltage VM, and analog digital converter 64 receives induced voltage VM, is number with transformation induction voltage VM Place value, and touch controller 32 and be received as the induced voltage VM of digit value, and obtain the difference of induced voltage VM Yu baseline voltage Absolute value.All voltage values are converted to digit value and handled by the 3rd embodiment of the present invention, and non-lead can more be substantially improved The touch-control sensitivity of body or conductor, and suspension phenomenon is effectively reduced.

In conclusion the present invention is set, the first threshold value promotes non-conductor with the second threshold value or the touch-control of conductor is sensitive Degree, and reduce suspension phenomenon.

As described above, only a preferred embodiment of the present invention is not used to limit the range of implementation of the invention, therefore Such as it according to shape, construction described in scope of the present invention patent, feature and spirit institute equivalent changes and modifications for it, should all wrap It includes in the claim of the present invention.

Claims (10)

1. a kind of touching control device, characterized by comprising:

One integrator, is electrically connected a touch-control display panel, which has an electrod-array, the electrod-array packet Group containing plurality of electrodes, each electrode group include one of to be separated by the first touch control electrode, at least one second touch-control electricity Pole and a third touch control electrode, an at least second touch control electrode be located at first touch control electrode and the third touch control electrode it Between, first touch control electrode and the third touch control electrode form an induction mutual capacitance, and each electrode group has baseline electricity Capacitance, one of induction mutual capacitance end receive a driving alternating voltage, and the other end is electrically connected the integrator, close in an object When the electrod-array, which cooperates the driving alternating voltage to capture the induced electricity capacitance of the induction mutual capacitance, and converting should Induced electricity capacitance is an induced voltage；And

One touching controller, is electrically connected the integrator, which has one of corresponding base line capacitance value baseline electricity Pressure, one first threshold value receive the induced voltage with one of first threshold value the second threshold value, the touching controller is greater than, and The absolute value for obtaining the induced voltage and the difference of the baseline voltage judges that the induced voltage is less than the base in the touching controller Line voltage, and when the absolute value is greater than first threshold value, which judges the object for non-conductor, and according to the sense It answers voltage to record the position that the non-conductor corresponds to the electrod-array, judges that the induced voltage is greater than or equal in the touching controller The baseline voltage, and when the absolute value is greater than second threshold value, which judges the object for conductor, and according to this Induced voltage records the position that the conductor corresponds to the electrod-array.

It is to be electrically connected the integral 2. touching control device as described in claim 1, further includes an analog digital converter Device and the touching controller, and receive the induced voltage, to convert the induced voltage as digit value, and the absolute value, the difference, The baseline voltage, first threshold value and second threshold value are all digit value.

It is to be electrically connected the touching 3. touching control device as described in claim 1, further includes a booster type power adapter Display panel and the touching controller are controlled, which corresponds to the position of the electrod-array according to the conductor or the non-conductor It sets, drives the touch-control display panel using the booster type power adapter.

4. touching control device as described in claim 1, wherein it is pre- to judge that the absolute value continues one first for the touching controller If the period is greater than first threshold value, which records the non-conductor according to the induced voltage and corresponds to the electrod-array The position.

5. touching control device as described in claim 1, wherein it is pre- to judge that the absolute value continues one second for the touching controller If the period be greater than second threshold value, the touching controller according to the induced voltage record the conductor correspond to the electrod-array it The position.

6. one kind is applied to touch control method described in claim 1, include:

When the object is close to the electrod-array, the induced electricity capacitance of the induction mutual capacitance is captured, and converts the inductance capacitance Value is the induced voltage, and obtains the absolute value of the induced voltage and the difference of the baseline voltage；And

Judge whether the induced voltage is less than the baseline voltage:

If so, judging that the object for the non-conductor, and judges whether the absolute value is greater than first threshold value:

If so, recording the position that the non-conductor corresponds to the electrod-array according to the induced voltage；And

If it is not, be back to capture the induced electricity capacitance, and convert the induced electricity capacitance be the induced voltage, and obtain the absolute value it Step；And

If it is not, judging that the object for the conductor, and judges whether the absolute value is greater than second threshold value:

If so, recording the position that the conductor corresponds to the electrod-array according to the induced voltage；And

If it is not, be back to capture the induced electricity capacitance, and convert the induced electricity capacitance be the induced voltage, and obtain the absolute value it Step.

7. touch control method as claimed in claim 6, wherein the induced voltage, the absolute value, the difference, the baseline are electric Pressure, first threshold value and second threshold value are all digit value.

8. touch control method as claimed in claim 6, wherein recording the conductor or the non-conductor pair according to the absolute value Should electrod-array the position step after, the position of the electrod-array is corresponded to according to the conductor or the non-conductor, drive The touch-control display panel.

9. touch control method as claimed in claim 6, wherein judge the absolute value whether be greater than first threshold value it In step, judge whether the absolute value continues one first preset period of time greater than first threshold value.

10. touch control method as claimed in claim 6, wherein judge the absolute value whether be greater than second threshold value it In step, judge whether the absolute value continues one second preset period of time greater than second threshold value.