CN106055149A - Touch screen, method and device for controlling touch screen, and electronic device - Google Patents

Abstract

The application provides a touch screen, a method and a device of controlling the touch screen and an electronic device. The touch screen comprises a first conductive film layer, a second conductive film layer, a first integrated circuit electrically connected with the first conductive film layer, and a second integrated circuit electrically connected with the second conductive film layer. The first integrated circuit is used for controlling induction channels between the first integrated circuit and the first conductive film layer to open when the electronic device where the touch screen is located is in the dormant state. The second integrated circuit is used for controlling induction channels between the second integrated circuit and the second conductive film layer to open in the dormant state. The number of the induction channels between the second integrated circuit and the second conductive film layer is less than first pre-set threshold value. The technical scheme of the application helps prevent all the induction channels between the first integrated circuit and the first conductive film layer from being in the working state when the electronic device is in the dormant state. Power consumption of the electronic device is lowered and endurance time of the electronic device is prolonged.

Description

Touch screen, the control method of touch screen, device and electronic equipment

Technical field

The application relates to wearable device technical field, particularly relates to a kind of touch screen, controls the method for touch screen, device And electronic equipment.

Background technology

In prior art, the system of the wearable device such as intelligent watch with touch screen in a dormant state time, can wear The touch screen wearing equipment is in the monitoring state, and when the touch action of user being detected by touch screen, touch screen can wake up up can be worn Wear the system of equipment, so that wearable device performs corresponding function according to the touch action of user.When touch screen is in monitoring During state, the overall power of wearable device is higher, for continuation of the journey duration requires higher intelligent watch, and duration meeting of continuing a journey Shorten owing to power consumption is higher.

Summary of the invention

In view of this, the application provides a kind of new technical scheme, can reduce the power consumption of touch screen, extends wearable setting Standby continuation of the journey duration.

For achieving the above object, the application provides technical scheme as follows:

First aspect according to the application, it is proposed that a kind of touch screen, including: the first conductive film layer, the second conductive film layer, The second integrated electricity that the first integrated circuit electrically connected with described first conductive film layer electrically connects with described second conductive film layer Road；

Wherein, described first integrated circuit, the state being presently in for the electronic equipment at described touch screen place is During resting state, control the induction channels between described first integrated circuit and described first conductive film layer and close；

Described second integrated circuit, for when described resting state, controls described second integrated circuit and described second Induction channels between conductive film layer is opened, the induction channels between described second integrated circuit and described second conductive film layer Number is less than the first predetermined threshold value.

Second aspect according to the application, it is proposed that a kind of method controlling touch screen, including:

The state that the electronic equipment at detection touch screen place is presently in；

When the state that described electronic equipment is presently in is resting state, control the first integrated circuit by described first collection The induction channels between circuit and described first conductive film layer is become to close；

When described resting state, control the second integrated circuit by described second integrated circuit and described second conductive film layer Between induction channels open, the number of the induction channels between described second integrated circuit and described second conductive film layer is less than First predetermined threshold value.

The third aspect according to the application, it is proposed that a kind of device controlling touch screen, including:

Detection module, for detecting the state that the electronic equipment at touch screen place is presently in；

When described detection module, first control module, for detecting that the state that described electronic equipment is presently in is dormancy During state, control the first integrated circuit and the induction channels between described first integrated circuit and described first conductive film layer is closed Close；

Second control module, for when described detection module detects described resting state, controls the second integrated circuit Induction channels between described second integrated circuit and described second conductive film layer being opened, described second integrated circuit is with described The number of the induction channels between the second conductive film layer is less than the first predetermined threshold value.

Fourth aspect according to the application, it is proposed that a kind of electronic equipment, described electronic equipment includes:

Processor；For storing the memorizer of described processor executable；

Wherein, described processor is configured to perform the method controlling touch screen that above-mentioned second aspect provides.

From above technical scheme, the application is by controlling being less than between the second integrated circuit and the second conductive film layer The induction channels of the first predetermined threshold value is in running order, it is to avoid whole between the first integrated circuit and the first conductive film layer Induction channels is in running order, owing to the number of the induction channels between the second integrated circuit and the second conductive film layer is less than the One predetermined threshold value, therefore can reduce the power consumption of electronic equipment, extends the continuation of the journey duration of electronic equipment.

Accompanying drawing explanation

Figure 1A shows the layer structure schematic diagram of the touch screen of the exemplary embodiment one according to the present invention；

Figure 1B shows the first integrated circuit and first conduction of the touch screen of the exemplary embodiment one according to the present invention Annexation schematic diagram between film layer；

Fig. 1 C shows the second integrated circuit and second conduction of the touch screen of the exemplary embodiment one according to the present invention Annexation schematic diagram between film layer；

Fig. 2 shows the schematic flow sheet of the method controlling touch screen of the exemplary embodiment one according to the present invention；

Fig. 3 shows the schematic flow sheet of the method controlling touch screen of the exemplary embodiment two according to the present invention；

Fig. 4 shows the structural representation of the device controlling touch screen of the exemplary embodiment one according to the present invention；

Fig. 5 shows the structural representation of the device controlling touch screen of the exemplary embodiment two according to the present invention；

Fig. 6 shows the structural representation of the electronic equipment according to one example embodiment of the present invention.

Detailed description of the invention

Here will illustrate exemplary embodiment in detail, its example represents in the accompanying drawings.Explained below relates to During accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represents same or analogous key element.Following exemplary embodiment Described in embodiment do not represent all embodiments consistent with the application.On the contrary, they are only with the most appended The example of the apparatus and method that some aspects that described in detail in claims, the application are consistent.

It is only merely for describing the purpose of specific embodiment at term used in this application, and is not intended to be limiting the application. " a kind of ", " described " and " being somebody's turn to do " of singulative used in the application and appended claims is also intended to include majority Form, unless context clearly shows that other implications.It is also understood that term "and/or" used herein refers to and wraps Any or all containing one or more projects of listing being associated may combination.

Although should be appreciated that in the application possible employing term first, second, third, etc. to describe various information, but this A little information should not necessarily be limited by these terms.These terms are only used for same type of information is distinguished from each other out.Such as, without departing from In the case of the application scope, the first information can also be referred to as the second information, and similarly, the second information can also be referred to as One information.Depend on linguistic context, word as used in this " if " can be construed to " ... time " or " when ... Time " or " in response to determining ".

For the application is further described, it is provided that the following example:

Figure 1A shows the layer structure schematic diagram of the touch screen of the exemplary embodiment one according to the present invention, and Figure 1B illustrates Connection between first integrated circuit and first conductive film layer of the touch screen of the exemplary embodiment one according to the present invention is closed Being schematic diagram, Fig. 1 C shows the second integrated circuit and second conduction of the touch screen of the exemplary embodiment one according to the present invention Annexation schematic diagram between film layer；As shown in figures ia-c, touch screen comprises the steps that the first conductive film layer 11, second conducts electricity The second collection that the first integrated circuit 13 that film layer 12 electrically connects with the first conductive film layer 11 electrically connects with the second conductive film layer 12 Become circuit 14.

Wherein, the state that the first integrated circuit 13 is presently in for the electronic equipment at touch screen place is resting state Time, control the induction channels between the first integrated circuit 13 and the first conductive film layer 11 and close.Second integrated circuit 14 is used for Electronic equipment in a dormant state time, control induction channels between the second integrated circuit 14 and the second conductive film layer 11 and open, The number of the induction channels between the second integrated circuit 14 and the second conductive film layer 12 be less than the first predetermined threshold value, this first preset Threshold value can be a less integer, such as, 3,4 or 5, etc..

In one embodiment, the central processing unit of electronic equipment can detect the state that electronic equipment is presently in, when When the current state of electronic equipment is resting state, central processing unit sends to the first integrated circuit 13 and cuts out the first integrated circuit First control instruction of 13 and first induction channels between conductive film layer 11, sends to the second integrated circuit 14 and opens the second collection Become the second control instruction of induction channels between circuit 14 and the second conductive film layer 12, the first integrated circuit 13 according to this first Induction channels between first integrated circuit 13 and the first conductive film layer 11 is closed by control instruction, the second integrated circuit 14 basis Induction channels between second integrated circuit 14 and the second conductive film layer 12 is opened by this second control instruction, such that it is able at electricity Subset in a dormant state time, by between the second integrated circuit 14 and the second conductive film layer 12 induction channels sensing touch screen On touch action.

In one embodiment, first integrated circuit the 13, second integrated circuit 14 can be all the integrated electricity of touch-control of touch screen Road (Integrated Circuit, referred to as IC).In one embodiment, electronic equipment can be the intelligent hands with touch screen The wearable devices such as ring, intelligent watch, intelligent glasses.

It will be appreciated by persons skilled in the art that structure G+F based on the prior art knot of the touch screen shown in Figure 1A Structure and improve, the application is equally applicable on any touch-control screen structure, by increasing corresponding second on touch screen The annexation of integrated circuit the 14, second conductive film layer 12 the corresponding induction channels of accommodation can form the application institute The touch screen stated.

In the present embodiment, it is in work shape by controlling the induction channels between the second integrated circuit and the second conductive film layer State, it is to avoid the whole induction channels between the first integrated circuit and the first conductive film layer are in running order, due to the second collection The number becoming the induction channels between circuit and the second conductive film layer is less than the first predetermined threshold value, therefore can reduce electronic equipment Power consumption, extend the continuation of the journey duration of electronic equipment.

On the basis of above-mentioned Figure 1A-Fig. 1 C illustrated embodiment, in one embodiment, the first integrated circuit 13 is led with first Including multiple induction channels between electrolemma layer 11, the plurality of induction channels is for sensing the electronic equipment at touch screen place in work Trigger action during state, as shown in Figure 1B, the induction channels between the first integrated circuit 13 and the first conductive film layer 11 The induction region that number is divided by the first conductive film layer 11 determines, such as, the first conductive film layer 11 is divided into numbering 101-and compiles Numbers 120 totally 20 induction regions, then corresponding induction channels is 20, may insure that electronic equipment by these 20 induction channels The various functions provided can be triggered as normal operation.

In one embodiment, between the second integrated circuit 14 and the second conductive film layer 11,1 induction channels can be included, should 1 induction channels is for the faradism subset trigger action when resting state, as shown in Figure 1 C, the second conductive film layer 12 Induction region is the touch area on whole touch screen, then between the second integrated circuit 14 and the second conductive film layer 12 by this 1 The individual induction region faradism subset touch action when resting state, when sensing user's by this 1 induction channels During touch action, electronic equipment can be waken up up from resting state.It will be appreciated by persons skilled in the art that the second conducting film The induction region of layer 12 can also be divided into the induction region of any number less than the first predetermined threshold value, and such as, second leads The induction region of electrolemma layer 12 can be divided into 2 induction regions, then the second integrated circuit 14 and the second conductive film layer 12 it Between include 2 induction channels.

In one embodiment, the first conductive film layer 11 includes two planes, a plane of the first conductive film layer 11 and the Two conductive film layers 12 are bonded together by the first optical clear glue-line 15, can make first by the first optical clear glue-line 15 Conductive film layer 11 is fixed together with the second conductive film layer 12.In one embodiment, another plane of the first conductive film layer 11 On be laid with the second optical clear glue-line 16, be surface cap glassy layer 17 on the second optical clear glue-line 16, by second Optical clear glue-line 16 can make the first conductive film layer 11 be fixed together with surface cap glassy layer 17.

In one embodiment, the second integrated circuit 14 is additionally operable to when electronic equipment is in running order, integrated by second Induction channels between circuit 14 and the second conductive film layer 12 is closed, and the first integrated circuit 13 is additionally operable to when electronic equipment is in work When making state, the induction channels between the first integrated circuit 13 and the first conductive film layer 11 is opened.Such as, lead to when electronic equipment Crossing foregoing description after resting state is waken up, electronic equipment is the most in running order, provides in order to ensure electronic equipment Function is triggered as normal, it is to avoid the interference to electronic equipment of the inducing function of the second integrated circuit 14, the centre of electronic equipment Reason device sends the of the induction channels opened between the first integrated circuit 13 and the first conductive film layer 11 to the first integrated circuit 13 Three control instructions, send the sensing closed between the second integrated circuit 14 and the second conductive film layer 12 and lead to the second integrated circuit 14 4th control instruction in road, the first integrated circuit 13 according to the 3rd control instruction by the first integrated circuit 13 and the first conducting film Layer 11 between induction channels open, the second integrated circuit 14 according to the 4th control instruction by the second integrated circuit 14 and second Induction channels between conductive film layer 12 is closed, such that it is able to avoid the second integrated circuit when electronic equipment is in running order The touch function of the 14 and second induction channels interference touch screens between conductive film layer 12, it is ensured that the normal experience of user.

Fig. 2 shows the schematic flow sheet of the method controlling touch screen of the exemplary embodiment one according to the present invention；This Touch screen in embodiment can be the touch screen of above-mentioned Figure 1A-Fig. 1 C illustrated embodiment, as in figure 2 it is shown, comprise the steps:

Step 201, the state that the electronic equipment at detection touch screen place is presently in, when the shape that electronic equipment is presently in When state is resting state, perform step 202, when the state that electronic equipment is presently in is duty, perform step 204.

Step 202, when the state that electronic equipment is presently in is resting state, controls the first integrated circuit and collects first The induction channels between circuit and the first conductive film layer is become to close.

Step 203, when resting state, controls the second integrated circuit by between the second integrated circuit and the second conductive film layer Induction channels open, flow process terminates.

Step 204, when the state that electronic equipment is presently in is duty, controls the second integrated circuit and collects second The induction channels between circuit and the second conductive film layer is become to close.

Step 205, time in working order, controls the first integrated circuit by between the first integrated circuit and the first conductive film layer Induction channels open, flow process terminates.

In above-mentioned steps 201, can detect, by the central processing unit of electronic equipment, the shape that electronic equipment is presently in State.

Above-mentioned steps 202 and step 203 are that handling process during resting state can about the state that electronic equipment is current To see the associated description of above-mentioned Figure 1A illustrated embodiment, it is not described in detail in this.

Above-mentioned steps 204 and step 205 are that handling process during duty can about the state that electronic equipment is current To see the associated description of above-mentioned Figure 1A illustrated embodiment, it is not described in detail in this.

In the present embodiment, the state being presently according to electronic equipment controls the first integrated circuit and the second integrated circuit With being turned on or off of the induction channels between each corresponding conductive film layer, when electronic equipment in a dormant state time, can keep away Exempt from the whole induction channels between the first integrated circuit and the first conductive film layer in running order, thus reduce electronic equipment Power consumption, extends the continuation of the journey duration of electronic equipment；When electronic equipment is in running order, it can be ensured that the touch controllable function energy of touch screen Enough triggered as normal, substantially increase Consumer's Experience.

Fig. 3 shows the schematic flow sheet of the method controlling touch screen of the exemplary embodiment two according to the present invention；As Shown in Fig. 3, comprise the steps:

Step 301, the state that detection electronic equipment is presently in, the state being presently in when electronic equipment is resting state Time, perform step 302.

Step 302, when the state detecting that electronic equipment is presently in is resting state, determines and flows through the second integrated electricity Induction channels corresponding to the road capacitance when opening.

Step 303, when capacitance changes, determines the variable quantity that capacitance is corresponding.

Step 304, determines the need for waking up electronic equipment up from resting state according to variable quantity.

The associated description of above-mentioned steps 301 may refer to the description of above-mentioned Figure 1A illustrated embodiment, is not described in detail in this.

In above-mentioned steps 302-step 304, in one embodiment, the sense of correspondence can be detected by the second integrated circuit Answer the capacitance of passage.When the finger of user touches touch screen, the capacitance of the second conductive film layer can touching due to finger Touch and change, in one embodiment, it may be determined that whether the variable quantity of capacitance determines whether more than the second predetermined threshold value Need to wake up electronic equipment up from resting state, when variable quantity is more than the second predetermined threshold value, controlled by the first integrated circuit The induction channels that first integrated circuit is corresponding is opened, and it is logical to control sensing corresponding to the second integrated circuit by the second integrated circuit Road is closed.

In the present embodiment, determine whether to wake up electronic equipment up from resting state by the variable quantity of capacitance, permissible Avoid user to use the mode of manually triggering to be waken up up from resting state by electronic equipment, substantially increase Consumer's Experience.

Fig. 4 shows the structural representation of the device controlling touch screen of the exemplary embodiment one according to the present invention；As Shown in Fig. 4, the device of this control touch screen may include that detection module the 41, first control module the 42, second control module 43. Wherein:

Detection module 41, for detecting the state that the electronic equipment at touch screen place is presently in；

When detection module 41, first control module 42, for detecting that the state that electronic equipment is presently in is resting state Time, control the first integrated circuit and the induction channels between the first integrated circuit and the first conductive film layer is closed；

Second control module 43, for when detection module 41 detects resting state, controls the second integrated circuit by the Induction channels between two integrated circuits and the second conductive film layer is opened.

Fig. 5 shows the structural representation of the device controlling touch screen of the exemplary embodiment two according to the present invention；As Shown in Fig. 5, on the basis of above-mentioned embodiment illustrated in fig. 4, device may also include that

When detection module 41,3rd control module 44, for detecting that the state that electronic equipment is presently in is duty Time, control the second integrated circuit and the induction channels between the second integrated circuit and the second conductive film layer is closed；

4th control module 45, for when detection module 41 detects duty, controls the first integrated circuit by the Induction channels between one integrated circuit and the first conductive film layer is opened.

In one embodiment, device may also include that

First determines module 46, for when detection module 41 detects that the current state of electronic equipment is resting state, Determine the capacitance flowing through induction channels corresponding to the second integrated circuit when opening；

Second determines module 47, for when first determines that module 46 determines that capacitance changes, determines capacitance pair The variable quantity answered；

3rd determines module 48, sets for determining the variable quantity that module 47 determines to determine the need for electronics according to second For waking up up from resting state.

In one embodiment, the 3rd determines that module 48 comprises the steps that

Determine unit 481, be used for determining that whether variable quantity is more than the second predetermined threshold value；

Control unit 482, for when determining that unit 481 determines that variable quantity is more than the second predetermined threshold value, by the first collection Become circuit to control induction channels corresponding to the first integrated circuit to open, and control the second integrated circuit pair by the second integrated circuit The induction channels answered is closed.

About the device in above-described embodiment, wherein modules performs the concrete mode of operation above-mentioned related side The embodiment of method is described in detail, has the most no longer described in detail.

The method controlling touch screen provided corresponding to any of the above-described embodiment, the application also proposed the root shown in Fig. 6 Schematic configuration diagram according to the electronic equipment of one example embodiment of the present invention.Refer to Fig. 6, at hardware view, this electronics sets For processor, internal bus, network interface, internal memory and nonvolatile memory can be included, certainly it is also possible that other industry Hardware required for business.Processor reads the computer program of correspondence from nonvolatile memory and then runs in internal memory, Logic level realizes the device of above-mentioned control touch screen.Certainly, in addition to software realization mode, the application is not precluded from Mode of other implementations, such as logical device or software and hardware combining etc., say, that the execution of following handling process Main body is not limited to each logical block, it is also possible to be hardware or logical device.

Wherein, processor is configured to perform the method controlling touch screen that above-mentioned Fig. 2 or Fig. 3 embodiment provides.

By above-described embodiment, by increasing a conductive film layer (the second conductive film layer) and corresponding on the touchscreen Integrated circuit (the second integrated circuit), closes when electronic equipment normally works between this newly-increased conductive film layer and integrated circuit Induction channels, when electronic equipment in a dormant state time, close the induction channels that normal touch controllable function is corresponding, open newly-increased Induction channels, such that it is able to be substantially reduced the electronic equipment power consumption when resting state.

Those skilled in the art, after considering description and putting into practice invention disclosed herein, will readily occur to its of the application Its embodiment.The application is intended to any modification, purposes or the adaptations of the application, these modification, purposes or Person's adaptations is followed the general principle of the application and includes the undocumented common knowledge in the art of the application Or conventional techniques means.Description and embodiments is considered only as exemplary, and the true scope of the application and spirit are by following Claim is pointed out.

Also, it should be noted term " includes ", " comprising " or its any other variant are intended to nonexcludability Comprise, so that include that the process of a series of key element, method, commodity or equipment not only include those key elements, but also wrap Include other key elements being not expressly set out, or also include want intrinsic for this process, method, commodity or equipment Element.In the case of there is no more restriction, statement " including ... " key element limited, it is not excluded that including described wanting Process, method, commodity or the equipment of element there is also other identical element.

The foregoing is only the preferred embodiment of the application, not in order to limit the application, all essences in the application Within god and principle, any modification, equivalent substitution and improvement etc. done, should be included within the scope of the application protection.

Claims (13)

1. a touch screen, it is characterised in that described touch screen includes: the first conductive film layer, the second conductive film layer and described The second integrated circuit that first integrated circuit of one conductive film layer electrical connection electrically connects with described second conductive film layer；Wherein,

Described first integrated circuit, the state being presently in for the electronic equipment at described touch screen place is resting state Time, control the induction channels between described first integrated circuit and described first conductive film layer and close；

Described second integrated circuit, for when described resting state, controls described second integrated circuit and described second conduction Induction channels between film layer is opened, the number of the induction channels between described second integrated circuit and described second conductive film layer Less than the first predetermined threshold value.

Touch screen the most according to claim 1, it is characterised in that

Including multiple induction channels between described first integrated circuit and described first conductive film layer, the plurality of induction channels is used In sense described electronic equipment in working order time trigger action；

Include between described second integrated circuit and described second conductive film layer that 1 induction channels, described 1 induction channels are used for Sense the described electronic equipment trigger action when resting state.

Touch screen the most according to claim 1, it is characterised in that described first conductive film layer includes two planes, described One plane of the first conductive film layer is bonded together by the first optical clear glue-line with described second conductive film layer, and described It is laid with the second optical clear glue-line in another plane of one conductive film layer, is surface on described second optical clear glue-line Cover-plate glass layer.

4. according to the arbitrary described touch screen of claim 1-3, it is characterised in that

Described second integrated circuit, is additionally operable to when described electronic equipment is in running order, by described second integrated circuit with Induction channels between described second conductive film layer is closed；

Described first integrated circuit, is additionally operable to when described electronic equipment is in running order, by described first integrated circuit with Induction channels between described first conductive film layer is opened.

5. the method controlling the arbitrary described touch screen of the claims 1-4, it is characterised in that described method includes:

The state that the electronic equipment at detection touch screen place is presently in；

When the state that described electronic equipment is presently in is resting state, control the first integrated circuit by described first integrated electricity Induction channels between road and described first conductive film layer is closed；

When described resting state, control the second integrated circuit by between described second integrated circuit and described second conductive film layer Induction channels open, the number of the induction channels between described second integrated circuit and described second conductive film layer be less than first Predetermined threshold value.

Method the most according to claim 5, it is characterised in that described method also includes:

When the state that described electronic equipment is presently in is duty, control described second integrated circuit by described second collection The induction channels between circuit and described second conductive film layer is become to close；

When described duty, control described first integrated circuit by described first integrated circuit and described first conductive film layer Between induction channels open.

7. according to the method described in claim 5 or 6, it is characterised in that described method also includes:

When the state detecting that described electronic equipment is presently in is resting state, determines and flow through described second integrated circuit pair The induction channels the answered capacitance when opening；

When described capacitance changes, determine the variable quantity that described capacitance is corresponding；

Determine the need for waking up described electronic equipment up from described resting state according to described variable quantity.

Method the most according to claim 7, it is characterised in that described determine the need for described according to described variable quantity Electronic equipment wakes up up from described resting state, including:

Determine that whether described variable quantity is more than the second predetermined threshold value；

When described variable quantity is more than described second predetermined threshold value, control described first integrated electricity by described first integrated circuit The induction channels unlatching that road is corresponding, and control, by described second integrated circuit, the induction channels that described second integrated circuit is corresponding Close.

9. the device controlling the arbitrary described touch screen of the claims 1-4, it is characterised in that described device includes:

Detection module, for detecting the state that the electronic equipment at touch screen place is presently in；

When described detection module, first control module, for detecting that the state that described electronic equipment is presently in is resting state Time, control the first integrated circuit and the induction channels between described first integrated circuit and described first conductive film layer is closed；

Second control module, for when described detection module detects described resting state, controls the second integrated circuit by institute State the induction channels between the second integrated circuit and described second conductive film layer to open, described second integrated circuit and described second The number of the induction channels between conductive film layer is less than the first predetermined threshold value.

Device the most according to claim 9, it is characterised in that described device also includes:

When described detection module, 3rd control module, for detecting that the state that described electronic equipment is presently in is duty Time, control described second integrated circuit and the induction channels between described second integrated circuit and described second conductive film layer is closed Close；

4th control module, for when described detection module detects described duty, controls described first integrated circuit Induction channels between described first integrated circuit and described first conductive film layer is opened.

11. according to the device described in claim 9 or 10, it is characterised in that described device also includes:

First determines module, for when described detection module detects that the current state of described electronic equipment is resting state, Determine the capacitance flowing through induction channels corresponding to described second integrated circuit when opening；

Second determines module, for when described first determines that module determines that described capacitance changes, determines described electric capacity The variable quantity that value is corresponding；

3rd determines module, for determining that the described variable quantity that module determines determines the need for described electricity according to described second Subset wakes up up from described resting state.

12. devices according to claim 11, it is characterised in that the described 3rd determines that module includes:

Determine unit, be used for determining that whether described variable quantity is more than the second predetermined threshold value；

Control unit, for when described determine unit determine described variable quantity more than described second predetermined threshold value time, by described First integrated circuit controls induction channels corresponding to described first integrated circuit and opens, and is controlled by described second integrated circuit The induction channels that described second integrated circuit is corresponding is closed.

13. 1 kinds of electronic equipments, it is characterised in that described electronic equipment includes:

Processor；For storing the memorizer of described processor executable；

Wherein, described processor is configured to perform the arbitrary described method controlling touch screen of the claims 5-8.