CN104850417A - Method for information processing and electronic equipment - Google Patents

Abstract

The invention discloses a method for information processing, which is applied to electronic equipment. The electronic equipment comprises a touch unit, a touch controller and a bridging unit, wherein the touch controller is respectively connected to the touch unit and the bridging unit. The method comprises the following steps that the bridging unit sends a first command to the touch controller and enters a sleep mode, wherein an awakening logical function module of the bridging unit is in a working state under the sleep mode; the touch controller responds to the first command and enters a low-frequency scanning working state; the touch controller detects whether the touch unit receives a touch operation under the low-frequency scanning working state; when touch controller detects that the touch unit receives the touch operation, the touch controller sends a second command to the bridging unit; and the bridging unit responds to the second command, awakens the bridging unit through the awakening logical function module, and enters a normal working mode.

Description

A kind of method of information processing and electronic equipment

Technical field

The present invention relates to electronic technology field, particularly relate to a kind of information processing method and electronic equipment.

Background technology

Along with the development of science and technology, electronic technology have also been obtained development at full speed, and the kind of electronic product also gets more and more, and people have also enjoyed the various facilities that development in science and technology brings.Present people can pass through various types of electronic product, enjoy the comfortable life along with development in science and technology brings.

Along with the development of touch technology, increasing touch control device enters the life of people, and such as, smart mobile phone, panel computer, notebook computer etc., touch technology is very easy to people's operation and controls electronic equipment.In prior art, the touch controllable function of electronic equipment is very abundant, as moving icon, expands or reduces picture and choose target etc., can be realized the operation major part of electronic equipment by touch-control.

But present inventor is in the process realizing invention technical scheme in the embodiment of the present application, find that above-mentioned technology at least exists following technical matters:

When electronic equipment is in normal operating conditions, user does not re-use Touch Screen, Touch Screen can not enter battery saving mode.Such as I2C(Inter-Integrated Circuit is turned for use USB, IC bus) electronic equipment of Touch Screen of interface scheme, when but system worked well user does not re-use touch-screen, usb bus needs to enter selectivity Suspend Mode and carrys out power saving, but the bridging chip that usb bus turns I2C can not enter battery saving mode, otherwise bridging chip cannot be waken up when user touches touch control unit again, so Touch Screen cannot be waken up, so electronic equipment just cannot process the touch operation of user.

In sum, after the Touch Screen that there is electronic equipment in prior art enters battery saving mode, do not wake by touch control unit the technical matters that Touch Screen enters normal duty up.

Summary of the invention

The embodiment of the present application is by providing a kind of information processing method and electronic equipment, eliminate in prior art after the Touch Screen that there is electronic equipment enters battery saving mode, the technical matters that Touch Screen enters normal duty is not waken up by touch control unit, after the Touch Screen achieving electronic equipment enters battery saving mode,, can wake by touch control unit the technique effect that Touch Screen enters normal duty up.

On the one hand, the embodiment of the present application provides a kind of information processing method, be applied in an electronic equipment, described electronic equipment comprises a touch control unit, touch control controller and bridge-jointing unit, wherein, described touch control controller is connected to described touch control unit and described bridge-jointing unit, and described method comprises:

Described bridge-jointing unit sends described first instruction to described touch control controller, and enters sleep pattern, and wherein, under described sleep pattern, the wakeup logic functional module of described bridge-jointing unit is in running order;

Described first instruction of described touch control controller response, enters low frequency scanning work state; Under described low frequency scanning work state, described touch control controller detects described touch control unit and whether receives a touch control operation;

When described touch control controller detects that described touch control unit receives described touch control operation, send the second instruction to described bridge-jointing unit;

Described second instruction of described bridge-jointing unit response, wakes described bridge-jointing unit up by described wakeup logic functional module, enters normal mode of operation.

Optionally, described send the second instruction to described bridge-jointing unit while or afterwards, described method also comprises:

Described touch control controller sends the coordinate information of described touch control operation to described bridge-jointing unit.

Optionally, while described bridge-jointing unit enters normal mode of operation or afterwards, described method also comprises:

The system that described bridge-jointing unit wakes described electronic equipment up enters normal operating conditions.

Optionally, the universal input/output interface of described bridge-jointing unit is connected with a pin of described touch control controller, and after described bridge-jointing unit enters described sleep pattern, described method also comprises:

Described bridge-jointing unit receives described second instruction by described universal input/output interface.

On the other hand, the embodiment of the present application additionally provides a kind of electronic equipment, comprising:

Touch control unit, for receiving touch control operation;

Touch control controller, is connected to described touch control unit, for the first instruction sent based on bridge-jointing unit, enters low frequency scanning work state; Wherein, under described low frequency scanning work state, described touch control controller can detect described touch control unit and whether receive touch control operation; And under described low frequency scanning work state, when detecting that described touch control unit receives described touch control operation, send the second instruction to described bridge-jointing unit;

Described bridge-jointing unit, is connected to described touch control controller, for before entering sleep pattern, sends described first instruction to described touch control controller; Wherein, under described sleep pattern, the wakeup logic functional module of described bridge-jointing unit is in running order; And for based on described second instruction, wake described bridge-jointing unit up by described wakeup logic functional module, enter normal mode of operation.

Optionally, described send the second instruction to described bridge-jointing unit while or afterwards, described touch control controller also for:

The coordinate information of described touch control operation is sent to described bridge-jointing unit.

Optionally, while described bridge-jointing unit enters normal mode of operation or afterwards, described bridge-jointing unit also for:

The system waking described electronic equipment up enters normal operating conditions.

Optionally, described bridge-jointing unit comprises a universal input/output interface, described universal input/output interface is connected with a pin of described touch control controller, and described universal input/output interface is used for after described bridge-jointing unit enters described sleep pattern, receives described second instruction.

The one or more technical schemes provided in the embodiment of the present application, at least have following technique effect or advantage:

1, in the technical scheme of the application, bridge-jointing unit sends the first instruction to touch control controller, and enters sleep pattern, and touch control controller responds the first instruction, and enter low frequency scanning work state, now touch screen enters battery saving mode.Under touch screen enters battery saving mode, when touch control controller detection touch control unit receives a touch control operation, the second instruction is sent to bridge-jointing unit, bridge-jointing unit responds the second instruction, bridge-jointing unit is waken up by wakeup logic functional module, and then wake touch screen up and enter normal mode of operation, eliminate in prior art after the Touch Screen that there is electronic equipment enters battery saving mode, the technical matters that Touch Screen enters normal duty is not waken up by touch control unit, after the Touch Screen achieving electronic equipment enters battery saving mode, the technique effect that Touch Screen enters normal duty can be waken up by touch control unit.

2, due to while entering normal mode of operation at bridge-jointing unit or afterwards, the system that bridge-jointing unit wakes electronic equipment up enters normal operating conditions, thus achieve when electronic equipment is in sleep pattern, can wake by touch control unit the technique effect that electronic equipment enters normal duty up.

Accompanying drawing explanation

Fig. 1 is the functional block diagram of electronic equipment in one embodiment of the invention;

Fig. 2 is the process flow diagram of the information processing method in one embodiment of the invention;

Fig. 3 is the functional block diagram of electronic equipment in another embodiment of the present invention;

Fig. 4 is the basic block diagram of electronic equipment in one embodiment of the invention;

Fig. 5 is the process flow diagram of the information processing method in another embodiment of the present invention.

Embodiment

The embodiment of the present application is by providing a kind of information processing method and electronic equipment, in order to eliminate in prior art after the Touch Screen that there is electronic equipment enters battery saving mode, the technical matters that Touch Screen enters normal duty is not waken up by touch control unit, after the Touch Screen achieving electronic equipment enters battery saving mode, can wake by touch control unit the technique effect that Touch Screen enters normal duty up.

Technical scheme in the embodiment of the present application is solve above-mentioned technical matters, and general thought is as follows:

In the technical scheme of the application, bridge-jointing unit sends the first instruction to touch control controller, and enters battery saving mode, and touch control controller responds the first instruction, and enter low frequency scanning work state, now touch screen enters sleep pattern.Under touch screen enters battery saving mode, when touch control controller detection touch control unit receives a touch control operation, the second instruction is sent to bridge-jointing unit, bridge-jointing unit responds the second instruction, bridge-jointing unit is waken up by wakeup logic functional module, and then wake touch screen up and enter normal mode of operation, eliminate in prior art after the Touch Screen that there is electronic equipment enters battery saving mode, the technical matters that Touch Screen enters normal duty is not waken up by touch control unit, after the Touch Screen achieving electronic equipment enters battery saving mode, the technique effect that Touch Screen enters normal duty can be waken up by touch control unit.

Below by accompanying drawing and specific embodiment, technical solution of the present invention is described in detail, the specific features being to be understood that in the embodiment of the present application and embodiment is the detailed description to technical scheme, instead of the restriction to technical scheme, when not conflicting, the technical characteristic in the embodiment of the present application and embodiment can combine mutually.

In the embodiment of the present application, provide a kind of information processing method and electronic equipment, in concrete enforcement, electronic equipment can be smart mobile phone, also can be panel computer or notebook computer, as long as have touch control unit, touch control controller and bridge-jointing unit.Wherein, bridge-jointing unit is used for convert data signal, such as, USB is turned to the touch-screen of I2C interface scheme, and bridge-jointing unit needs I2C data-signal to be converted to usb data signal or usb data signal is converted to I2C data-signal.

Before introducing the information processing method of the embodiment of the present application, the basic structure of the electronic equipment first method of the embodiment of the present application applied makes a presentation, it should be noted that, the basic structure of this electronic equipment is a kind of basic structure corresponding to the method for the embodiment of the present application, in practice, also can also be other structure corresponding to the method for the embodiment of the present application.Next, please refer to Fig. 1, the electronic equipment in the embodiment of the present application, comprising:

Touch control unit 11, for receiving touch control operation.

Touch control controller 12, is connected to touch control unit 11, for the first instruction sent based on bridge-jointing unit 13, enters low frequency scanning work state; Wherein, under low frequency scanning work state, touch control controller 12 can detect touch control unit 11 and whether receive touch control operation; And under low frequency scanning work state, when detecting that touch control unit 11 receives touch control operation, send the second instruction to bridge-jointing unit 13.

Bridge-jointing unit 13, is connected to touch control controller 12, for before entering sleep pattern, sends the first instruction to touch control controller 12; Wherein, in a sleep mode, the wakeup logic functional module of bridge-jointing unit 13 is in running order; And for based on the second instruction, wake bridge-jointing unit 13 up by wakeup logic functional module, enter normal mode of operation.

Next please refer to Fig. 2, Fig. 2 is the process flow diagram of the information processing method that above-mentioned electronic equipment is corresponding, and the method comprises:

Step 21: bridge-jointing unit 13 sends the first instruction to touch control controller 12, and enters sleep pattern, wherein, in a sleep mode, the wakeup logic functional module of bridge-jointing unit 13 is in running order;

Step 22: touch control controller 12 responds the first instruction, enters low frequency scanning work state; Under low frequency scanning work state, touch control controller 12 detects touch control unit 11 and whether receives a touch control operation;

Step 23: when touch control controller 12 detects that touch control unit 11 receives touch control operation, send the second instruction to bridge-jointing unit 13;

Step 24: bridge-jointing unit 13 responds the second instruction, wakes bridge-jointing unit up by wakeup logic functional module, enters normal mode of operation.

Next, please refer to Fig. 3, touch control controller 12 is connected with bridge-jointing unit 13 by I2C bus, bridge-jointing unit 13 is connected with the system of electronic equipment by usb bus, namely can carry out data transmission by I2C bus between touch control controller 12 and bridge-jointing unit 13, and data transmission can be carried out by usb bus between bridge-jointing unit 13 and system.

Specifically, in step 21, bridge-jointing unit 13 sends the first instruction by I2C bus to touch control controller 12, and the first instruction is used for allowing touch control controller 12 enter low frequency scanning work state.In a sleep mode, except the arousal function module of bridge-jointing unit 13 is in running order, other functional module of bridge-jointing unit 12 is all in off working state.Arousal function module is used in a sleep mode, a wake-up signal can be accepted, thus wake bridge-jointing unit 13 further up and enter normal mode of operation, so just can realize reducing power consumption, and the technique effect that bridge-jointing unit 13 enters normal mode of operation can be waken in a sleep mode up.

In specific implementation process, bridge-jointing unit 13 sends the first instruction to touch control controller 12, and the triggering mode entering sleep pattern can have multiple, such as, when user clicks the power key of smart mobile phone or click standby button in the operation system interface of computer, electronic equipment will enter standby mode, now, electronic equipment can send a signal instruction to bridge-jointing unit 13, triggers bridge-jointing unit 13 and sends the first instruction to touch control controller 12, and enter sleep pattern.Certainly, in practice, when bridge-jointing unit 13 does not receive the data of touch control controller 12 in a Preset Time, namely do not use touch-screen in the user preset time, also can trigger bridge-jointing unit 13 and send the first instruction to touch control controller 12, and enter sleep pattern.

Send the first instruction at bridge-jointing unit 13 to touch control controller 12, and after entering sleep pattern, next perform step 22, namely touch control controller 12 responds the first instruction, enters low frequency scanning work state; Under low frequency scanning work state, touch control controller 12 detects touch control unit 11 and whether receives a touch control operation.

In specific implementation process, touch control controller 12 responds the first instruction, enters low frequency scanning work state, can by reducing internal clocking, reduce the frequency of scanning touch control unit 11, namely touch control controller 12 keeps monitor user ' whether to have the function touching touch-screen.Such as, every 5 seconds run-down touch control units 11 can be set to, certainly, also can be set to every 30 seconds or 1 minute run-down touch control unit 11, to this, the application is not specifically limited, as long as under low frequency scanning work state, touch control controller 12 can detect touch control unit 11 and whether receive a touch control operation.

Respond the first instruction at touch control controller 12, after entering low frequency scanning work state, next perform step 23, namely when touch control controller 12 detects that touch control unit 11 receives touch control operation, send the second instruction to bridge-jointing unit.

Specifically, in step 23, touch control controller 12 is under low frequency scanning work state, user is when using touch-screen, touch control unit 11 can receive user and touches the touch control operation of touch-screen and the information of this touch control operation is passed to touch control controller, touch control controller 12 thus can detect touch control unit 11 and receive touch control operation; Wherein, the second instruction can be exactly the information of this touch control operation, also can be other command information.

At touch control controller 12 to after bridge-jointing unit 13 sends the second instruction, next perform step 24, namely bridge-jointing unit 13 responds the second instruction, wakes bridge-jointing unit 13 up, enter normal mode of operation by wakeup logic functional module.

Optionally, in order to after bridge-jointing unit 13 enters sleep pattern, the second instruction that touch control controller 12 sends can be accepted, the universal input/output interface of bridge-jointing unit 13 is connected with a pin of touch control controller 12, after bridge-jointing unit 13 enters sleep pattern, the method also comprises: bridge-jointing unit 13 receives the second instruction by universal input/output interface.

Corresponding, in the electronic device, bridge-jointing unit 13 comprises a universal input/output interface, and universal input/output interface is connected with a pin of touch control controller 12, and universal input/output interface is used for after bridge-jointing unit 13 enters sleep pattern, receives the second instruction.

Optionally, while sending the second instruction to bridge-jointing unit 13 or afterwards, method also comprises: touch control controller 12 sends the coordinate information of touch control operation to bridge-jointing unit 13.After bridge-jointing unit 13 receives the coordinate information of the touch control operation that touch control controller 12 sends, the coordinate information of this touch control operation is converted to usb data signal and sends to system process by usb bus, thus enable this touch control operation of the more accurate analyzing and processing of electronic equipment for performing which type of function, such as, slide to the right at video playback interface, F.F. video, upward sliding increases volume etc.

Corresponding, in the electronic device, while sending the second instruction to bridge-jointing unit 13 or afterwards, touch control controller 12 is also for the coordinate information sending touch control operation to bridge-jointing unit 13.

Optionally, while bridge-jointing unit 13 enters normal mode of operation or afterwards, method also comprises: the system that bridge-jointing unit 13 wakes electronic equipment up enters normal operating conditions.

Corresponding, in the electronic device, while bridge-jointing unit 13 enters normal mode of operation or afterwards, bridge-jointing unit 13 also for: the system waking electronic equipment up enters normal operating conditions.

Introduce the information processing method in the present invention below by way of a concrete complete embodiment, the following examples mainly describe the possible implementation procedure of the method for this information processing.It should be noted that, the embodiment in the present invention only for explaining the present invention, and can not be used for limiting the present invention.All meet the embodiment of inventive concept all within protection scope of the present invention, and those skilled in the art know naturally should how thought according to the present invention be out of shape.

In this embodiment, please refer to Fig. 4, Fig. 4 is the basic block diagram of electronic equipment in this embodiment, and this electronic equipment comprises:

41: touch control unit;

42:3624 chip, i.e. touch control controller;

43:M680 chip, i.e. bridge-jointing unit;

44:Host, the i.e. system of electronic equipment;

Wherein, 3624 touch control unit is connected to; M680 is connected to 3624 by I2C bus, and wherein, I2CSDA is used for sending and accepting data, i.e. bi-directional transfer of data, and I2C CLK is for judging the validity transmitting data; A pin (i.e. I2C INT) of 3624 is connected to a universal input/output interface of M680; M680 is connected to Host by usb bus, and USB DM/DP is used for sending and accepting data, i.e. bi-directional transfer of data.

Next please refer to Fig. 5, Fig. 5 is the process flow diagram of the information processing method of above-mentioned electronic equipment, and method is as follows:

Step 51:M680 sends the first instruction by I2C SDA to 3624, and enters sleep pattern, and wherein, in a sleep mode, the wakeup logic functional module of M680 is in running order;

Step 52:3624 responds the first instruction, enters low frequency scanning work state; Under low frequency scanning work state, whether 3624 detect touch control unit receives a touch control operation;

Step 53: when 3624 detect that touch control unit receives touch control operation, sends the second instruction by I2C INT to M680 unit;

Step 54:M680 responds the second instruction, wakes M680 up, enter normal mode of operation by wakeup logic functional module.

Optionally, while sending the second instruction to M680 or afterwards, method also comprises: 3624 to the M680 coordinate informations sending touch control operations.M680 is transferred to Host, thus makes this touch control operation of the more accurate analyzing and processing of Host for performing which type of function after being changed by the coordinate information structured data signal of touch control operation.

Optionally, while M680 enters normal mode of operation or afterwards, method also comprises: the system Host that M680 wakes electronic equipment up by USB DM/DP enters normal operating conditions.

By the embodiment of in the above-described embodiment in the present invention or multiple embodiment, at least following technique effect can be realized:

1, in the technical scheme of the application, bridge-jointing unit sends the first instruction to touch control controller, and enters sleep pattern, and touch control controller responds the first instruction, and enter low frequency scanning work state, now touch screen enters battery saving mode.Under touch screen enters battery saving mode, when touch control controller detection touch control unit receives a touch control operation, the second instruction is sent to bridge-jointing unit, bridge-jointing unit responds the second instruction, bridge-jointing unit is waken up by wakeup logic functional module, and then wake touch screen up and enter normal mode of operation, eliminate in prior art after the Touch Screen that there is electronic equipment enters battery saving mode, the technical matters that Touch Screen enters normal duty is not waken up by touch control unit, after the Touch Screen achieving electronic equipment enters battery saving mode, the technique effect that Touch Screen enters normal duty can be waken up by touch control unit.

2, due to while entering normal mode of operation at bridge-jointing unit or afterwards, the system that bridge-jointing unit wakes electronic equipment up enters normal operating conditions, thus achieve when electronic equipment is in sleep pattern, can wake by touch control unit the technique effect that electronic equipment enters normal duty up.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disk memory, CD-ROM, optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the process flow diagram of the method for the embodiment of the present invention, equipment (system) and computer program and/or block scheme.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block scheme and/or square frame and process flow diagram and/or block scheme and/or square frame.These computer program instructions can being provided to the processor of multi-purpose computer, special purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computing machine or other programmable data processing device produce device for realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be loaded in computing machine or other programmable data processing device, make on computing machine or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computing machine or other programmable devices is provided for the step realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

Specifically, information processing method in the embodiment of the present application is applied to an electronic equipment, described electronic equipment comprises a touch control unit, touch control controller and bridge-jointing unit, and wherein, described touch control controller is connected to described touch control unit and described bridge-jointing unit.The computer program instructions that information processing method in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, read by an electronic equipment when the computer program instructions corresponding with information processing method in storage medium or when being performed, comprise the steps:

Described bridge-jointing unit sends described first instruction to described touch control controller, and enters sleep pattern, and wherein, under described sleep pattern, the wakeup logic functional module of described bridge-jointing unit is in running order;

Described first instruction of described touch control controller response, enters low frequency scanning work state; Under described low frequency scanning work state, described touch control controller detects described touch control unit and whether receives a touch control operation;

When described touch control controller detects that described touch control unit receives described touch control operation, send the second instruction to described bridge-jointing unit;

Described second instruction of described bridge-jointing unit response, wakes described bridge-jointing unit up by described wakeup logic functional module, enters normal mode of operation.

Optionally, in described storage medium, also store other computer instruction, these computer instructions with step: described send the second instruction to described bridge-jointing unit while or be performed afterwards, comprise the steps: when being performed

Described touch control controller sends the coordinate information of described touch control operation to described bridge-jointing unit.

Optionally, in described storage medium, also store other computer instruction, these computer instructions with step: while described bridge-jointing unit enters normal mode of operation or be performed afterwards, comprise the steps: when being performed

The system that described bridge-jointing unit wakes described electronic equipment up enters normal operating conditions.

Optionally, the universal input/output interface of described bridge-jointing unit is connected with a pin of described touch control controller, other computer instruction is also stored in described storage medium, these computer instructions with step: being performed after described bridge-jointing unit enters described sleep pattern, comprising the steps: when being performed

Described bridge-jointing unit receives described second instruction by described universal input/output interface.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (8)

1. an information processing method, be applied in an electronic equipment, described electronic equipment comprises a touch control unit, touch control controller and bridge-jointing unit, and wherein, described touch control controller is connected to described touch control unit and described bridge-jointing unit, and described method comprises:

Described bridge-jointing unit sends described first instruction to described touch control controller, and enters sleep pattern, and wherein, under described sleep pattern, the wakeup logic functional module of described bridge-jointing unit is in running order;

Described first instruction of described touch control controller response, enters low frequency scanning work state; Under described low frequency scanning work state, described touch control controller detects described touch control unit and whether receives a touch control operation;

When described touch control controller detects that described touch control unit receives described touch control operation, send the second instruction to described bridge-jointing unit;

Described second instruction of described bridge-jointing unit response, wakes described bridge-jointing unit up by described wakeup logic functional module, enters normal mode of operation.

2. the method for claim 1, is characterized in that, described send the second instruction to described bridge-jointing unit while or afterwards, described method also comprises:

Described touch control controller sends the coordinate information of described touch control operation to described bridge-jointing unit.

3. method as claimed in claim 2, is characterized in that, while described bridge-jointing unit enters normal mode of operation or afterwards, described method also comprises:

The system that described bridge-jointing unit wakes described electronic equipment up enters normal operating conditions.

4. the method for claim 1, is characterized in that, the universal input/output interface of described bridge-jointing unit is connected with a pin of described touch control controller, and after described bridge-jointing unit enters described sleep pattern, described method also comprises:

Described bridge-jointing unit receives described second instruction by described universal input/output interface.

5. an electronic equipment, comprising:

Touch control unit, for receiving touch control operation;

Touch control controller, is connected to described touch control unit, for the first instruction sent based on bridge-jointing unit, enters low frequency scanning work state; Wherein, under described low frequency scanning work state, described touch control controller can detect described touch control unit and whether receive touch control operation; And under described low frequency scanning work state, when detecting that described touch control unit receives described touch control operation, send the second instruction to described bridge-jointing unit;

Described bridge-jointing unit, is connected to described touch control controller, for before entering sleep pattern, sends described first instruction to described touch control controller; Wherein, under described sleep pattern, the wakeup logic functional module of described bridge-jointing unit is in running order; And for based on described second instruction, wake described bridge-jointing unit up by described wakeup logic functional module, enter normal mode of operation.

6. electronic equipment as claimed in claim 5, is characterized in that, described send the second instruction to described bridge-jointing unit while or afterwards, described touch control controller also for:

The coordinate information of described touch control operation is sent to described bridge-jointing unit.

7. electronic equipment as claimed in claim 6, is characterized in that, while described bridge-jointing unit enters normal mode of operation or afterwards, described bridge-jointing unit also for:

The system waking described electronic equipment up enters normal operating conditions.

8. electronic equipment as claimed in claim 5, it is characterized in that, described bridge-jointing unit comprises a universal input/output interface, described universal input/output interface is connected with a pin of described touch control controller, described universal input/output interface is used for after described bridge-jointing unit enters described sleep pattern, receives described second instruction.