CN105786159B - A kind of method and electronic equipment of the XY layer induction waking up touch sensitive layer - Google Patents

Abstract

The invention discloses a kind of methods of XY layer induction for waking up touch sensitive layer, for reducing the power consumption of electronic equipment.The described method includes: obtaining the Z axis induction information of input gesture by the first inductor for incuding Z axis parameter of the touch sensitive layer of electronic equipment；Based on the Z axis induction information, determine whether the input gesture is prearranged gesture；When the input gesture is prearranged gesture, control the touch sensitive layer for incuding X-axis parameter and the second inductor of Y-axis parameter is switched to operating status from low power consumpting state.The invention also discloses corresponding electronic equipments.

Description

A kind of method and electronic equipment of the XY layer induction waking up touch sensitive layer

Technical field

The present invention relates to field of computer technology, in particular to a kind of method that the XY layer for waking up touch sensitive layer incudes and Electronic equipment.

Background technique

With the continuous development of science and technology, electronic technology has also obtained development at full speed, the type of electronic product and Function is also more and more, and people have also enjoyed the various conveniences of development in science and technology bring.Present people can pass through various types Electronic equipment enjoy and comfortably live with development in science and technology bring.For example, the electronic equipments such as tablet computer (PAD), mobile phone are Through at an indispensable part in for people's lives.

Currently, the screen of the electronic equipment with touch function all has touch sensitive layer, in electronic equipment operational process In, touch sensitive layer can be ceaselessly scanned in X-axis and Y direction, so as to sense the touch control operation of user.

However, user is when actually using electronic equipment, it is possible to it is not to be manipulated to electronic equipment always, than Such as, user is watched movie using electronic equipment, and in this case, user may not will do it touch-control behaviour during watching movie Make, but electronic equipment still can be ceaselessly scanned in X-axis and Y direction, it is seen then that the power consumption of electronic equipment is higher, electricity It can consume very fast.

Summary of the invention

The embodiment of the present invention provides the method and electronic equipment of a kind of XY layer induction for waking up touch sensitive layer, for reducing The power consumption of electronic equipment.

In a first aspect, providing a kind of method of the XY layer induction of awake touch sensitive layer, comprising:

The Z of input gesture is obtained by the first inductor for incuding Z axis parameter of the touch sensitive layer of electronic equipment Axis induction information；

Based on the Z axis induction information, determine whether the input gesture is prearranged gesture；

When the input gesture is prearranged gesture, joining for incuding X-axis parameter and Y-axis for the touch sensitive layer is controlled The second several inductors are switched to operating status from low power consumpting state.

Optionally, after determining whether the input gesture is prearranged gesture, further includes:

When the input gesture is not the prearranged gesture, then controls second inductor and keep low power consumpting state.

Optionally, after determining whether the input gesture is prearranged gesture, further includes:

When the input gesture is prearranged gesture, the display unit for controlling the electronic equipment switches from low power consumpting state For operating status；

Wherein, when the display unit is in low power consumpting state, second inductor is in low power consumpting state, and institute It is in operating status to state the first inductor.

Optionally, after the display unit for controlling the electronic equipment is switched to operating status from low power consumpting state, also Include:

Obtain the Z axis induction information of the input gesture again by first inductor；

Based on the Z axis induction information obtained again, determine whether the input gesture is prearranged gesture；

When the input gesture is not the prearranged gesture, detect whether the corresponding operating body of the input gesture leaves The touch sensitive layer；

When the operating body does not leave the touch sensitive layer, controls second inductor and remain operational state.

Optionally, it after detecting the corresponding operating body of the input gesture and whether leaving the touch sensitive layer, also wraps It includes:

When the operating body leaves the touch sensitive layer, control second inductor is switched to low from operating status Power consumption state.

Second aspect provides a kind of electronic equipment, comprising:

Memory, for storing instruction；

Processor, for executing described instruction: by the touch sensitive layer of electronic equipment for incuding the of Z axis parameter One inductor obtains the Z axis induction information of input gesture；Based on the Z axis induction information, determine the input gesture whether be Prearranged gesture；When the input gesture is prearranged gesture, control the touch sensitive layer for incuding X-axis parameter and Y-axis Second inductor of parameter is switched to operating status from low power consumpting state.

Optionally, the processor is also used to:

After determining whether the input gesture is prearranged gesture, when the input gesture is not the prearranged gesture When, then it controls second inductor and keeps low power consumpting state.

Optionally, the processor is also used to:

After determining whether the input gesture is prearranged gesture, when the input gesture is prearranged gesture, control The display unit of the electronic equipment is switched to operating status from low power consumpting state；

Wherein, when the display unit is in low power consumpting state, second inductor is in low power consumpting state, and institute It is in operating status to state the first inductor.

Optionally, the processor is also used to:

After the display unit for controlling the electronic equipment is switched to operating status from low power consumpting state, pass through described the One inductor obtains the Z axis induction information of the input gesture again；

Based on the Z axis induction information obtained again, determine whether the input gesture is prearranged gesture；

When the input gesture is not the prearranged gesture, detect whether the corresponding operating body of the input gesture leaves The touch sensitive layer；

When the operating body does not leave the touch sensitive layer, controls second inductor and remain operational state.

Optionally, the processor is also used to:

After detecting the corresponding operating body of the input gesture and whether leaving the touch sensitive layer, when the operating body When leaving the touch sensitive layer, second inductor is controlled from operating status and is switched to low power consumpting state.

In the embodiment of the present invention, if user does not operate electronic equipment, can enable electronic equipment for incuding X Second inductor of axis parameter and Y-axis parameter is first in low power consumpting state, that is, the second inductor may not need always to X-axis Parameter and Y-axis parameter are scanned, or are scanned with lower frequency, and the first sense for incuding Z axis parameter is being passed through When device being answered to obtain the gesture in the Z-direction of user's input, then the second inductor is switched to operating status from low power consumpting state, Namely normally X-axis parameter and Y-axis parameter can be scanned.In this way, Z axis only is had input in user When gesture on direction, the second inductor just enters operating status, and when user does not input the gesture in Z-direction, Two inductors may remain in low power consumpting state, scans without being continued for, reduces electronic equipment to a certain extent Power consumption saves electric energy.

Detailed description of the invention

Fig. 1 is the flow chart that the method for XY layer induction of touch sensitive layer is waken up in the embodiment of the present invention；

Fig. 2 is the schematic diagram that gesture is inputted in the embodiment of the present invention；

Fig. 3 is the structural schematic diagram of electronic equipment in the embodiment of the present invention；

Fig. 4 is the structural block diagram of electronic equipment in the embodiment of the present invention.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art Every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

Electronic equipment in the embodiment of the present invention may include the different electronic equipment of PAD, mobile phone etc., and the present invention is to this With no restriction, as long as the electronic equipment with touch function all can serve as the electronic equipment in the embodiment of the present invention.

The preferred embodiment of the present invention is described in detail with reference to the accompanying drawing.

Referring to Figure 1, the embodiment of the present invention provides a kind of window regulation method of XY layer induction for waking up touch sensitive layer, This method can be applied to electronic equipment, and the process of this method is described as follows.

Step 101: being inputted by the first inductor for incuding Z axis parameter of the touch sensitive layer of electronic equipment The Z axis induction information of gesture；

Step 102: being based on Z axis induction information, determine whether input gesture is prearranged gesture；

Step 103: when inputting gesture is prearranged gesture, controlling joining for incuding X-axis parameter and Y-axis for touch sensitive layer The second several inductors are switched to operating status from low power consumpting state.

Optionally, touch sensitive layer can be set in the display unit of electronic equipment, and the direction of Z axis parameter can be vertical In the plane where display unit, for example, user has carried out pressing operation on the display unit, then Z axis parameter can be used for Characterize user's pressure parameter perpendicular to the plane where display unit that electronic equipment is experienced when pressing display unit.

The direction of X-axis parameter and the direction of Y-axis parameter can be parallel to the plane where display unit, pass through X-axis parameter It can know that user is the operation which position on the display unit is carried out with Y-axis parameter.For example, user is single in display Clicking operation has been carried out in member, then X-axis parameter can be used for characterizing clicking operation on the display unit where position cross Coordinate, Y-axis parameter can be used for characterizing clicking operation on the display unit where position ordinate, according to obtained horizontal seat Mark the position where just can determine clicking operation on the display unit with ordinate.

Touch sensitive layer can be the component for being used to realize touch function in electronic equipment, and electronic equipment can pass through touch The touch control operation of inductive layer induction user.One or more different inductors can be set in touch sensitive layer, such as touch The first inductor and the second inductor can be set in inductive layer, Z axis parameter can be incuded by the first inductor, pass through second Inductor incudes X-axis parameter and Y-axis parameter.The quantity of quantity and the second inductor for the first inductor, the present invention are implemented Example is with no restriction.

It is which kind of inductor actually for the first inductor, the embodiment of the present invention is not construed as limiting, such as a kind of possible One inductor can be pressure sensor, as long as the inductor that can incude the pressure in Z-direction can be the present invention The first inductor in embodiment.

It is which kind of inductor actually for the second inductor, the embodiment of the present invention is equally not construed as limiting, for example, electronic equipment Touch sensitive layer can be capacitive touch sensitive layer, then the second inductor can be realized by capacitor, pass through induction The variation of capacitor just can know the position (i.e. X-axis parameter and Y-axis parameter), etc. that user is operated.Second inductor can With with different working conditions, such as these working conditions may include low power consumpting state and operating status etc., or may be used also To include other possible working conditions.Second inductor can switch between different working conditions, such as can be low Switch between power consumption state and operating status.If the second inductor is in operating status, the second inductor can be to X-axis parameter It is detected with Y-axis parameter, if the second inductor is in low power consumpting state, the second inductor can not be to X-axis parameter and Y-axis Parameter is detected, it can and stop detection process, or the detection frequency to X-axis parameter and Y-axis parameter can be reduced, etc. Deng being which kind of state actually for low power consumpting state, the embodiment of the present invention is not construed as limiting, such as a kind of possible low power consumpting state Can be closed state, perhaps alternatively possible low power consumpting state can be dormant state or alternatively possible low function Consumption state can be low-frequency operation state, etc., the second inductor when being in low power consumpting state consumed electric energy be less than and be in Consumed electric energy when operating status.

All be above by taking the first inductor and the second inductor are different inductors as an example, optionally, the first inductor It is also possible to the same inductor with the second inductor, the embodiment of the present invention is not construed as limiting this.If the first inductor and second Inductor is the same inductor, then Z axis parameter, X-axis parameter and Y-axis parameter can be incuded by the same inductor, at this In the case of kind, if the second inductor is in low power consumpting state, it can be understood as the inductor and close to X-axis parameter and Y-axis The detection function of parameter, or reduce the detection frequency to X-axis parameter and Y-axis parameter.

It optionally, is which kind of gesture actually for input gesture, the embodiment of the present invention is not construed as limiting, for example, input gesture It can be the gesture for clicking display unit, be perhaps also possible to the gesture slided on the display unit or can also be pressing Gesture of display unit, etc..

Z axis induction information, that is, the received input gesture of electronic equipment is perpendicular to the plane where display unit Induction information on direction.For example, input gesture can be clicking operation, Z axis parameter can be pressure parameter, the pressure parameter Direction perpendicular to the plane where display unit, then Z axis induction information can be the value of the pressure parameter, as click behaviour Make the pressure generated on the direction perpendicular to display unit, for example can be 5N.

Prearranged gesture can be the gesture that pressure indicated by Z axis induction information is located in predetermined pressure section, for pre- The numerical value in constant-pressure section, the embodiment of the present invention are not construed as limiting, and predetermined pressure section can be the setting in electronic equipment factory Alright, it is also possible to by that can also modify as needed after user's sets itself, and setting.Such as it is a kind of possible pre- Constant-pressure section can for [0.1N, ∞), that is to say, that as long as input gesture Z axis induction information indicated by pressure be greater than etc. In 0.1N, it can think that the input gesture is prearranged gesture.In such a case, it is possible to the Z axis induction for passing through input gesture Pressure indicated by information determines whether input gesture is prearranged gesture, for example, if the Z axis induction information of input gesture is signified The pressure shown is located in predetermined pressure section, then can determine that input gesture is prearranged gesture, otherwise it may be considered that input hand Gesture is not prearranged gesture.Such as predetermined pressure section be [0.1N, ∞), indicated by the Z axis induction information of the input gesture of acquisition Pressure be 1.2N, i.e., input gesture to pressure caused by the plane where display unit be 1.2N, then can determine defeated Entering gesture is prearranged gesture.In this way, more convenient, quickly can determine whether user will really grasp electronic equipment Make, the second inductor is switched to operating status again when determining that user will operate electronic equipment, can be used meeting In the case where the use demand of family, electric energy is saved as much as possible.

Optionally, when determining input gesture is not prearranged gesture, it can control the second inductor and be maintained at low-power consumption shape State.

For example, prearranged gesture can be the gesture that pressure indicated by Z axis induction information is located in predetermined pressure section, that If pressure indicated by the Z axis induction information of the input gesture detected is not within predetermined pressure section, so that it may Think that inputting gesture is not prearranged gesture, in this case, electronic equipment can control the second inductor and be maintained at low-power consumption State.The pressure as indicated by the Z axis induction information for determining input gesture in electronic equipment is not at predetermined pressure section When interior, possible user has been completed that input gesture or user will not operate electronic equipment at all, such as user Electronic equipment has only been encountered unintentionally, therefore electronic equipment can control the second inductor and be in low power consumpting state, in this way, energy Enough under the premise of meeting user's use demands, the energy consumption of electronic equipment is reduced, saves the electricity of electronic equipment, while can also Electronic equipment is avoided accidentally to respond the operation of user, electronic equipment fault-tolerant ability is stronger.

Optionally, however, it is determined that input gesture is prearranged gesture, can be with the display unit of controlling electronic devices from low-power consumption State is switched to operating status.

Display unit can think that display unit is to be in low power consumpting state when not lighting or brightness is lower, The embodiment of the present invention is not construed as limiting this.For user when not operating to display unit, display unit is likely to be at low function Consumption state, such as screen lock state, the second inductor is without the operation for incuding user at this time, then the second inductor can also be located In low power consumpting state.Optionally, the first inductor can be allowed to be continuously maintained in operating status, to ensure to want operation electricity in user The operation of user can be sensed when sub- equipment.When display unit is in low power consumpting state, the first inductor sense can be passed through It, can be both by the second inductor from low power consumpting state if the input gesture of user is prearranged gesture using the input gesture at family It is switched to operating status, display unit is also switched to operating status from low power consumpting state.In this way, user is by being simply input Gesture can wake up display unit and the second inductor simultaneously, and user is more convenient using electronic equipment, and electronic equipment is more Hommization and intelligence.

For example, prearranged gesture can be the gesture that pressure indicated by Z axis induction information is located in predetermined pressure section, example As predetermined pressure section is [0.1N, ∞), display unit is in black state originally, and the second inductor is in closing shape originally State, the first inductor is originally in operating status, if detecting the input gesture of user, such as the input by the first inductor Pressure indicated by the Z axis induction information of gesture is 2N, then electronic equipment can be cut the second inductor by low power consumpting state It is changed to operating status, while display unit can be switched to illuminating state by black state, i.e., by display unit by low-power consumption State is switched to operating status.

Optionally, when display unit is in operating status, the second inductor may be at low power consumpting state, the first induction Device may be at operating status, can be by second when the input gesture for determining user by the first inductor is prearranged gesture Inductor is switched to operating status by low power consumpting state, while display unit can be kept in operating status.

In practical applications, although user has lighted screen sometimes, it is likely that not needing to grasp electronic equipment Make, then electronic equipment can also allow the second inductor to be maintained at low power consumpting state, feels when by operating status first When answering device to detect the input gesture of user, and determining that user wants to operate electronic equipment, that is, determine input When gesture is prearranged gesture, then the second inductor is switched to operating status by low power consumpting state, so as to incude user's Operation.In this way, even if, as long as user does not operate display unit, second feels when display unit is in operating status Device is answered still to may remain in low power consumpting state, powder consumption of electronic equipment is lower, saves the electric energy of electronic equipment.

For example, user, although display unit is in operating status, is broadcast when using electronic equipment viewing film in film During putting, user does not operate electronic equipment, at this moment, although display unit is in operating status, can allow Two inductors are in low power consumpting state, for example can close the second inductor.After film finishes playing, user for example can be Clicking operation is carried out on display unit, if determining that the clicking operation is prearranged gesture by the first inductor, electronic equipment can The second inductor is switched to operating status by low power consumpting state, and set because next user may will continue to operation electronics Standby, therefore, display unit can be continually maintained in operating status.

It optionally, can be with after the display unit of controlling electronic devices is switched to operating status from low power consumpting state The Z axis induction information for obtaining input gesture again by the first inductor is determined defeated based on the Z axis induction information obtained again Enter whether gesture is prearranged gesture, when inputting gesture is not prearranged gesture, the corresponding operating body of detection input gesture whether from Touch sensitive layer is opened, when operating body does not leave touch sensitive layer, the second inductor is can control and remains operational state.

In actual use, the input gesture of user may be lasting gesture, for example input gesture can be The gesture slided on display unit, in entire sliding process, the pressure that user applies in Z-direction on the display unit can Can be simultaneously uneven, such as may be sometimes firmly larger, the pressure of Z axis induction information instruction at this moment is likely located at prearranged gesture institute In the predetermined pressure section being required to meet, and it is smaller to there may come a time when to exert oneself, and the pressure of Z axis induction information instruction at this moment may It is not in the required predetermined pressure section met of prearranged gesture again, but what user carried out is a complete operation, one As for need electronic equipment to be responded.Therefore, if electronic equipment determines after carrying out one-time detection to input gesture The input gesture is prearranged gesture, and the second inductor is switched to operating status from low power consumpting state, in order to determine the input hand Whether gesture is lasting gesture, and electronic equipment can continue to detect the input gesture, such as can detecte and execute input Whether the operating body of gesture has left touch sensitive layer, such as a kind of possible operating body can be the finger of user, if operation Body has left touch sensitive layer, then electronic equipment can consider that the input gesture terminates, if operating body does not leave touch sensitive layer, Then electronic equipment can consider that the input gesture is also continuing, due to having determined that the input gesture is prearranged gesture before, that Electronic equipment can proceed to respond to the input gesture, that is, when operating body does not leave touch sensitive layer, no matter detect again The input gesture whether meet the condition of prearranged gesture, may continue to the second inductor of control and remain operational state, with sense Using the operation at family.In this way, as long as the input gesture of user is not completed, the second inductor can keep transporting Row state, can completely incude the input gesture of user, better user experience, and electronic equipment is more humanized.

For example, prearranged gesture can be the gesture that pressure indicated by Z axis induction information is located in predetermined pressure section, example As predetermined pressure section be [1N, ∞), as shown in Fig. 2, user on the display unit of electronic equipment by finger carried out from Point A slides into the input gesture of point C through point B, for example, user input gesture on the display unit caused by pressure increasingly Gently, that is, inputting pressure indicated by the Z axis induction information of gesture can be smaller and smaller.For example, inputting hand when sliding into point B from point A Pressure indicated by the Z axis induction information of gesture is all larger than 1N, that is, input gesture is prearranged gesture, can be by the second inductor It is switched to operating status, since point B, pressure indicated by the Z axis induction information of gesture is inputted and gradually becomes smaller, such as from point B Start to be less than 1N, then in this case, whether the finger that electronic equipment can continue to test user has left touch sensible Layer, such as during the finger of user slides into point C from point B, electronic equipment detects always determines that the finger of user does not have Touch sensitive layer is left, then electronic equipment can enable the second inductor remain operational shape when user slides into point C from point B State.

Optionally, when detecting that operating body leaves touch sensitive layer, it can control the second inductor and cut from operating status It is changed to low power consumpting state.

For example, user has carried out sliding into a little from point A through point B on the display unit of electronic equipment continuing with referring to fig. 2 The input gesture of C, for example detect that the finger of the user electronic equipment when sliding into point C detects that the finger of user has left touching Inductive layer is touched, then electronic equipment can consider that the input gesture has terminated, then electronic equipment can control the second inductor for that Low power consumpting state is switched to from operating status.In this way, electricity can be reduced under the premise of guaranteeing completely to incude user gesture The power consumption of sub- equipment saves electricity.

Fig. 3 is referred to, based on the same inventive concept, the embodiment of the present invention provides a kind of electronic equipment, which can To include:

Display unit 301, including touch sensitive layer；Wherein, touch sensitive layer includes the first inductor, for incuding Z axis Parameter；Second inductor, for incuding X-axis parameter and Y-axis parameter；

Processor 302, for obtaining the Z axis induction information of input gesture by the first inductor；Incuded based on Z axis and is believed Breath determines whether input gesture is prearranged gesture；When inputting gesture is prearranged gesture, the second inductor is controlled from low-power consumption shape State is switched to operating status.

Optionally, processor 302 is also used to:

After determining whether input gesture is prearranged gesture, when inputting gesture is not prearranged gesture, then second is controlled Inductor keeps low power consumpting state.

Optionally, processor 302 is also used to:

After determining whether input gesture is prearranged gesture, when inputting gesture is prearranged gesture, display unit is controlled 301 are switched to operating status from low power consumpting state；

Wherein, when display unit 301 is in low power consumpting state, the second inductor is in low power consumpting state, and the first sense Answer device in operating status.

Optionally, processor 302 is also used to:

After control display unit 301 is switched to operating status from low power consumpting state, obtained again by the first inductor The Z axis induction information of gesture must be inputted；

Based on the Z axis induction information obtained again, determine whether input gesture is prearranged gesture；

When inputting gesture is not prearranged gesture, whether the corresponding operating body of detection input gesture leaves touch sensitive layer；

When operating body does not leave touch sensitive layer, the second inductor of control remains operational state.

Optionally, processor 302 is also used to:

After whether the corresponding operating body of detection input gesture leaves touch sensitive layer, when operating body leaves touch sensible When layer, the second inductor is controlled from operating status and is switched to low power consumpting state.

In the embodiment of the present invention, touch sensitive layer is a part of display unit 301, this is example certainly, is actually answered In, touch sensitive layer and display unit 301 are also possible to two functional modules, and the embodiment of the present invention is not construed as limiting this.

Fig. 4 is referred to, based on the same inventive concept, the embodiment of the present invention provides another electronic equipment, the electronic equipment May include:

First obtains module 401, the first sense for incuding Z axis parameter for the touch sensitive layer by electronic equipment Device is answered to obtain the Z axis induction information of input gesture；

First determining module 402 determines whether input gesture is prearranged gesture for being based on Z axis induction information；

First control module 403, for when inputting gesture is prearranged gesture, control touch sensitive layer for incuding X Second inductor of axis parameter and Y-axis parameter is switched to operating status from low power consumpting state.

Optionally, electronic equipment further include:

Second control module keeps low-power consumption for when inputting gesture is not prearranged gesture, then controlling the second inductor State.

Optionally, electronic equipment further include:

Third control module, for when inputting gesture is prearranged gesture, the display unit of controlling electronic devices is from low function Consumption state is switched to operating status；

Wherein, when display unit is in low power consumpting state, the second inductor is in low power consumpting state, and the first inductor It is in operating status.

Optionally, electronic equipment further include:

Second obtains module, for obtaining the Z axis induction information of input gesture again by the first inductor；

Second determining module, for determining whether input gesture is predetermined hand based on the Z axis induction information obtained again Gesture；

Detection module, for when inputting gesture is not prearranged gesture, the corresponding operating body of detection input gesture whether from Open touch sensitive layer；

4th control module, for when operating body does not leave touch sensitive layer, the second inductor of control to remain operational shape State.

Optionally, electronic equipment further include:

5th control module, for when operating body leaves touch sensitive layer, the second inductor of control to be cut from operating status It is changed to low power consumpting state.

In the embodiment of the present invention, the electronic equipment in Fig. 3 and Fig. 4 can complete the wake-up that Fig. 1 process is introduced and touch sense The method for answering the XY layer of layer to incude, wherein step performed by the modules in equipment etc. can refer to retouching in Fig. 1 process It states.

In the embodiment of the present invention, if user does not operate electronic equipment, can enable electronic equipment for incuding X Second inductor of axis parameter and Y-axis parameter is first in low power consumpting state, that is, the second inductor may not need always to X-axis Parameter and Y-axis parameter are scanned, or are scanned with lower frequency, and the first sense for incuding Z axis parameter is being passed through When device being answered to obtain the gesture in the Z-direction of user's input, then the second inductor is switched to operating status from low power consumpting state, Namely normally X-axis parameter and Y-axis parameter can be scanned.In this way, Z axis only is had input in user When gesture on direction, the second inductor just enters operating status, and when user does not input the gesture in Z-direction, Two inductors may remain in low power consumpting state, scans without being continued for, reduces electronic equipment to a certain extent Power consumption saves electric energy.

It is apparent to those skilled in the art that for convenience and simplicity of description, only with above-mentioned each function The division progress of module can according to need and for example, in practical application by above-mentioned function distribution by different function moulds Block is completed, i.e., the internal structure of device is divided into different functional modules, to complete all or part of function described above Energy.The specific work process of the system, apparatus, and unit of foregoing description, can be with reference to corresponding in preceding method embodiment Journey, details are not described herein.

In several embodiments provided by the present invention, it should be understood that disclosed device and method can pass through it Its mode is realized.For example, the apparatus embodiments described above are merely exemplary, for example, the module or unit It divides, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components It can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, it is shown or The mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, the indirect coupling of device or unit It closes or communicates to connect, can be electrical property, mechanical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme 's.

It, can also be in addition, each functional unit in each embodiment of the application can integrate in one processing unit It is that each unit physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated list Member both can take the form of hardware realization, can also realize in the form of software functional units.

If the integrated unit is realized in the form of SFU software functional unit and sells or use as independent product When, it can store in a computer readable storage medium.Based on this understanding, the technical solution of the application is substantially The all or part of the part that contributes to existing technology or the technical solution can be in the form of software products in other words It embodies, which is stored in a storage medium, including some instructions are used so that a computer It is each that equipment (can be personal computer, server or the network equipment etc.) or processor (processor) execute the application The all or part of the steps of embodiment the method.And storage medium above-mentioned includes: USB flash disk, mobile hard disk, ROM (Read- Only Memory, read-only memory), RAM (Random Access Memory, random access memory), magnetic or disk Etc. the various media that can store program code.

Specifically, one of embodiment of the present invention wakes up the corresponding calculating of method of the XY layer induction of touch sensitive layer Machine program instruction can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when touching in storage medium with a kind of wake-up The corresponding computer program instructions of method of the XY layer induction of inductive layer are read or are performed by an electronic equipment, including as follows Step:

The Z of input gesture is obtained by the first inductor for incuding Z axis parameter of the touch sensitive layer of electronic equipment Axis induction information；

Based on the Z axis induction information, determine whether the input gesture is prearranged gesture；

When the input gesture is prearranged gesture, joining for incuding X-axis parameter and Y-axis for the touch sensitive layer is controlled The second several inductors are switched to operating status from low power consumpting state.

Optionally, store in the storage medium and step: determining whether the input gesture is prearranged gesture, corresponding Computer instruction after being performed, further includes:

When the input gesture is not the prearranged gesture, then controls second inductor and keep low power consumpting state.

Optionally, store in the storage medium and step: determining whether the input gesture is prearranged gesture, corresponding Computer instruction after being performed, further includes:

When the input gesture is prearranged gesture, the display unit for controlling the electronic equipment switches from low power consumpting state For operating status；

Wherein, when the display unit is in low power consumpting state, second inductor is in low power consumpting state, and institute It is in operating status to state the first inductor.

Optionally, store in the storage medium and step: the display unit of the electronic equipment is controlled from low-power consumption State is switched to operating status, and corresponding computer instruction is after being performed, further includes:

Obtain the Z axis induction information of the input gesture again by first inductor；

Based on the Z axis induction information obtained again, determine whether the input gesture is prearranged gesture；

When the input gesture is not the prearranged gesture, detect whether the corresponding operating body of the input gesture leaves The touch sensitive layer；

When the operating body does not leave the touch sensitive layer, controls second inductor and remain operational state.

Optionally, stored in the storage medium with step: the corresponding operating body of the detection input gesture whether from The touch sensitive layer is opened, corresponding computer instruction is after being performed, further includes:

When the operating body leaves the touch sensitive layer, control second inductor is switched to low from operating status Power consumption state.

The above, above embodiments are only to be described in detail technical solution of the present invention, but the above implementation The explanation of example is merely used to help understand method and its core concept of the invention, should not be construed as limiting the invention.This In the technical scope disclosed by the present invention, any changes or substitutions that can be easily thought of by those skilled in the art, should all cover Within protection scope of the present invention.

Claims (10)

1. a kind of method for the XY layer induction for waking up touch sensitive layer, comprising:

The Z axis sense of input gesture is obtained by the first inductor for incuding Z axis parameter of the touch sensitive layer of electronic equipment Answer information；

Based on the Z axis induction information, determine whether the input gesture is prearranged gesture；

When the input gesture is prearranged gesture, control the touch sensitive layer for incuding X-axis parameter and Y-axis parameter Second inductor is switched to operating status from low power consumpting state；

Wherein, first inductor and second inductor are different inductors.

2. the method as described in claim 1, which is characterized in that after determining whether the input gesture is prearranged gesture, Further include:

When the input gesture is not the prearranged gesture, then controls second inductor and keep low power consumpting state.

3. the method as described in claim 1, which is characterized in that after determining whether the input gesture is prearranged gesture, Further include:

When the input gesture is prearranged gesture, the display unit for controlling the electronic equipment is switched to fortune from low power consumpting state Row state；

Wherein, when the display unit is in low power consumpting state, second inductor is in low power consumpting state, and described One inductor is in operating status.

4. method as claimed in claim 3, which is characterized in that in the display unit for controlling the electronic equipment from low-power consumption shape State is switched to after operating status, further includes:

Obtain the Z axis induction information of the input gesture again by first inductor；

Based on the Z axis induction information obtained again, determine whether the input gesture is prearranged gesture；

When the input gesture is not the prearranged gesture, it is described whether the corresponding operating body of the detection input gesture leaves Touch sensitive layer；

When the operating body does not leave the touch sensitive layer, controls second inductor and remain operational state.

5. method as claimed in claim 4, which is characterized in that detecting whether the corresponding operating body of the input gesture leaves After the touch sensitive layer, further includes:

When the operating body leaves the touch sensitive layer, second inductor is controlled from operating status and is switched to low-power consumption State.

6. a kind of electronic equipment, comprising:

Display unit, including touch sensitive layer；Wherein, the touch sensitive layer includes the first inductor, for incuding Z axis ginseng Number；Second inductor, for incuding X-axis parameter and Y-axis parameter；

Processor, for obtaining the Z axis induction information of input gesture by first inductor；Incuded based on the Z axis and is believed Breath, determines whether the input gesture is prearranged gesture；When the input gesture is prearranged gesture, second induction is controlled Device is switched to operating status from low power consumpting state；

Wherein, first inductor and second inductor are different inductors.

7. electronic equipment as claimed in claim 6, which is characterized in that the processor is also used to:

After determining whether the input gesture is prearranged gesture, when the input gesture is not the prearranged gesture, then It controls second inductor and keeps low power consumpting state.

8. electronic equipment as claimed in claim 6, which is characterized in that the processor is also used to:

After determining whether the input gesture is prearranged gesture, when the input gesture is prearranged gesture, described in control Display unit is switched to operating status from low power consumpting state；

Wherein, when the display unit is in low power consumpting state, second inductor is in low power consumpting state, and described One inductor is in operating status.

9. electronic equipment as claimed in claim 8, which is characterized in that the processor is also used to:

After the control display unit is switched to operating status from low power consumpting state, obtained again by first inductor Obtain the Z axis induction information of the input gesture；

Based on the Z axis induction information obtained again, determine whether the input gesture is prearranged gesture；

When the input gesture is not the prearranged gesture, it is described whether the corresponding operating body of the detection input gesture leaves Touch sensitive layer；

When the operating body does not leave the touch sensitive layer, controls second inductor and remain operational state.

10. electronic equipment as claimed in claim 9, which is characterized in that the processor is also used to:

After detecting the corresponding operating body of the input gesture and whether leaving the touch sensitive layer, when the operating body leaves When the touch sensitive layer, second inductor is controlled from operating status and is switched to low power consumpting state.